HomeMy WebLinkAbout2017-22 - Amending the City’s Waterfront Project Guidelines and Standards, Harbor Design Criteria – Commercial and Residential FacilitiesRESOLUTION NO. 2017-22
A RESOLUTION OF THE CITY COUNCIL OF THE CITY
OF NEWPORT BEACH, CALIFORNIA, AMENDING THE
CITY'S WATERFRONT PROJECT GUIDELINES AND
STANDARDS, HARBOR DESIGN CRITERIA —
COMMERCIAL AND RESIDENTIAL FACILITIES
WHEREAS, the City's Waterfront Project Guidelines and Standards, Harbor
Design Criteria — Commercial and Residential Facilities ("Harbor Design Standards")
provide a standard for marine dock and seawall construction in the harbor;
WHEREAS, the Harbor Design Standards are updated from time to time to reflect
current design techniques, condition changes in the harbor, or general corrections to the
document;
WHEREAS, community input from harbor users and marine contractors and
engineers was solicited to improve the revised version of the Harbor Design Standards
attached hereto;
WHEREAS, the Harbor Commission approved the attached revised version of the
Harbor Design Standards at its February 8, 2017 meeting and recommended that they
be forwarded to the City Council for review and approval; and
WHEREAS, the Harbor Design Standards may be amended from time to time via
Resolution of the City Council as authorized by Newport Beach Municipal Code section
17.35.010.
NOW, THEREFORE, the City Council of the City of Newport Beach resolves as
follows:
Section 1: The City Council does hereby approve the version of the City of
Newport Beach's Waterfront Project Guidelines and Standards, Harbor Design Criteria —
Commercial and Residential Facilities attached hereto.
Section 2: The recitals provided in this resolution are true and correct and are
incorporated into the operative part of this resolution.
Section 3: If any section, subsection, sentence, clause or phrase of this resolution
is, for any reason, held to be invalid or unconstitutional, such decision shall not affect the
validity or constitutionality of the remaining portions of this resolution. The City Council
hereby declares that it would have passed this resolution, and each section, subsection,
sentence, clause or phrase hereof, irrespective of the fact that any one or more sections,
subsections, sentences, clauses or phrases be declared invalid or unconstitutional.
Resolution No. 2017-22
Page 2 of 2
Section 4: The City Council finds the adoption of this resolution is not subject to
the California Environmental Quality Act ("CEQA") pursuant to Sections 15060(c)(2) (the
activity will not result in a direct or reasonably foreseeable indirect physical change in the
environment) and 15060(c)(3) (the activity is not a project as defined in Section 15378)
of the CEQA Guidelines, California Code of Regulations, Title 14, Chapter 3, because it
has no potential for resulting in physical change to the environment, directly or indirectly.
Alternatively, the City Council finds the adoption of this resolution is not a project under
CEQA Regulation Section 15061(b)(3) because it has no potential for causing a
significant effect on the environment.
Section 5: This resolution shall take effect immediately upon its adoption by the
City Council, and the City Clerk shall certify the vote adopting the resolution.
ADOPTED this 11th day of April, 2017.
ATTEST:
APPROVED AS TO FORM:
CITY ATTORNEY'S OFFICE
Aaron C. Harp
City Attorney
l
Attachment: Waterfront Project Guidelines and Standards, Harbor Design Criteria —
Commercial and Residential Facilities
STATE OF CALIFORNIA }
COUNTY OF ORANGE } ss.
CITY OF NEWPORT BEACH }
I, Jennifer Nelson, Assistant City Clerk of the City of Newport Beach, California, do hereby certify
that the whole number of members of the City Council is seven; that the foregoing resolution, being
Resolution No. 2017-22 was duly introduced before and adopted by the City Council of said City at a
regular meeting of said Council held on the 111h day of April, 2017, and that the same was so passed and
adopted by the following vote, to wit:
AYES: Council Member Jeff Herdman,Council Member Diane Dixon, Council Member Scott
Peotter, Council Member Will O'Neill, Mayor Kevin Muldoon
NAYS: None
RECUSED: Council Member Brad Avery, Mayor Pro Tem Duffy Duffield
IN WITNESS WHEREOF, I have hereunto subscribed my name and affixed the official seal of
said City this 12th day of April, 2017.
nife elson
ssist nt City Clerk
Newport Beach, California
(Seal)
CITY OF NEWPORT BEACH
WATERFRONT PROJECT GUIDELINES
AND STANDARD S
HARBOR DESIGN CRITERIA
COMMERCIAL & RESIDENTIAL
FACILITIES
2017 EDITION
City of Newport Beach
Waterfront Project Guidelines and Standards
Harbor Design Criteria
Commercial and Residential Facilities
March 14, 2017
TABLE OF CONTENTS
HARBOR DESIGN CRITERIA
Page
I. Waterside Development........................................................................................5
A. Docks........................................................................................................5
1. Alternative Berthing Geometries..................................................5
2. Layout and Design (Commercial & Residential) .........................5
General..........................................................................................
5
Slip and Boat Overhang Into Adjacent Fairways .........................6
Finger and Walkway Widths........................................................6
Table No. 1: Minimum Finger Widths..................................7
Single and Double -Wide Slips......................................................7
Vessel"Rafting"...........................................................................7
LongDocks...................................................................................7
LoadingCriteria............................................................................8
Graph No. 1: Wind Load, Vessel Profile Heights For
"Sail Area" (Recreational & Commercial Vessels)..............10
Flotation and Freeboards............................................................11
Static Floating Tolerances..........................................................12
Torsional Resistance Requirements............................................13
GuidePiles..................................................................................13
3. Dock Materials of Construction..................................................
15
General........................................................................................15
Timber........................................................................................16
Metal...........................................................................................17
Concrete and Reinforcing...........................................................18
Pilings and Anchorage................................................................19
Alternative and/or Hybrid Materials..................................21
4. Appurtenances............................................................................21
LockerBoxes..............................................................................21
Cleats........................................................................................21
Bumpers......................................................................................21
BoardingSteps............................................................................21
LifeRings...................................................................................22
DockLadders..............................................................................22
5. Access/Gangways/Americans with Disabilities (ADA)
Compliance.................................................................................22
General........................................................................................22
CommercialDocks.....................................................................23
Residential Docks.......................................................................24
2
6. Special Harbor Faci
Fuel Floats .............
Sewage Pump Out Facilities.......................................................26
Floating Buildings......................................................................26
Vessel Launching Facilities........................................................26
Special Mooring Devices............................................................27
Piers, Platforms and Wharves.....................................................27
Seawalls (Bulkheads).........:........................................................27
7. Dredging.....................................................................................29
8. Utilities.......................................................................................29
Electrical Power and Lighting.........:..........................................29
Plumbing.....................................................................................31
Fire Protection............................................................................32
9. Environmental.....................................................::......................33
Commercial Facilities.................................................................33
Residential Facilities...................................................................33
10. Permitting...................................................................................33
Maintenance Projects..................................................................34
Alteration and New Construction Projects.................................34
U. Landside Developments (Commercial Only)....................................................35
HARBOR DESIGN CRITERIA
GENERAL
The construction of harbor facilities shall accommodate the need for safety and durability as
well as convenience and appearance. Structural elements of the docks, floats, gangways, piles,
etc., shall be adequate to safeguard human life, boats, and boating equipment. Boat berthing
facilities shall be designed to adequately handle anticipated loads with reasonable factor of
safety as deemed appropriate by the City of Newport. Materials of construction shall resist the
corrosion of saltwater in order to assure low maintenance requirements and long life of the
facility. Floats shall be designed to assure stability and buoyancy for safe operations.
Adequate utilities meeting all requirements of the current, applicable codes, shall be provided
for the convenience and safety of boaters and maintenance workers.
Harbor Permits and Plan Check shall be as per the Title 17 of the City of Newport Beach
Municipal Code and Council Policy H-1.
Dock systems shall be designed by a civil or structural engineer, licensed by the State of
California, who is experienced in the design of marine structures. Repairs and non-structural
modifications to existing residential docks can be designed by a contractor experienced in dock
facilities, at the discretion of the City of Newport Beach.
In accordance to California Building Code [A] 104.10 Modifications. "Wherever there are
practical difficulties involved in carrying out the provisions of this code, the building official
shall have the authority to grant modifications for individual cases, upon application of the
owner or owner's representative, provided the building official shall first find that special
individual reason makes the strict letter of this code impractical and the modification is in
compliance with the intent and purpose of this code and that such modification does not lessen
health, accessibility, life and fire safety, or structural requirements. The details of action
granting modifications shall be recorded and entered in the files of the department of building
safety"
In accordance to California Building Code [A] 104.11 Alternative materials, design and
methods of construction and equipment. "The provisions of this code are not intended to
prevent the installation of any material or to prohibit any design or method of construction not
specifically prescribed by this code, provided that any such alternative has been approved. An
alternative material, design or method of construction shall be approved where the building
official finds that the proposed design is satisfactory and complies with the intent of the
provisions of this code, and that the material, method or work offered is, for the purpose
intended, at least the equivalent of that prescribed in this code in quality, strength,
effectiveness, fire resistance, durability and safety.
4
I. WATERSIDE DEVELOPMENT
The limits and constraints of construction in the harbor are defined by a series of lines that have
been established over time by the Federal Government, as well as the City of Newport Beach.
These lines have been defined in Chapter 17.01 of the Municipal Code. Prior to the preparation
of documents to be submitted to the City of Newport Beach for review of a proposed project,
the applicant should obtain a full understanding of these lines and have a qualified engineer,
surveyor or contractor define these lines on any plans submitted for a proposed project. These.
lines include the existing or current edge of construction along the waterfront with respect to
the Federal Bulkhead, Pierhead and Project Lines, Channel lines, Property lines (and their
projections), Anchorage Area, and Turning Basins.
A. DOCKS
1. ALTERNATIVE BERTHING GEOMETRIES
Various berthing geometries are available and acceptable for the berthing of
boats for a docking facility. The following figures present the generalized
arrangements that are considered acceptable to the City of Newport Beach for
the safe mooring of boats. The attached figures and "Case" geometries can be
utilized as shown, or in combination with one another, in an overall marina dock
scheme.
2. LAYOUT AND DESIGN (Commercial & Residential)
a. General
(1) Layout and design of harbor facilities shall be based upon the use
of the facility defined as follows:
(a) Single or joint residential
(b) Multi -residential
(c) Commercial
1) Passenger
2) Recreational boat marina
(2) "Layout & Design Guidelines for Marina Berthing Facilities",
(2005 edition) published by the State of California Department of
Boating and Waterways, except as modified by the City's harbor
standard drawings within the Design Criteria may be used as a
guide to design harbor structures.
(3) See the attached Harbor Standard Drawings for plans, sections
and details of typical conditions for vessel moorings and docks,
gangways, platforms, seawalls, and beach profiles. These
Standards are to be considered minimum requirements for the
cases represented and, at the City of Newport Beach discretion,
may not apply to the specific project submitted. The City of
Newport Beach reserves the right to mandate deviation from the
Standards, if particular project conditions require special
consideration.
b. Slip and Boat Overhang into Adjacent Fairways:
(1) Berths shall not be occupied by vessels more than 3 feet longer
than the berth or slip, or in the case of fairways with a 1.75 x Lb
width, not more than 10% of the length of the finger.
(2) For berths either parallel or perpendicular to a main channel,
vessels can extend beyond the limits of the slip by as much as the
beam of the boat.
C. Finger and Walkway Widths:
(1) Minimum finger widths for recreational commercial and
residential docks shall be per Table No. 1.
(2) Fillets at the connection of walkways to fingers shall not have
less than a 4 -foot side.
(3) Outer end (end tie) and side -tie fingers shall be a minimum of
one foot wider than the minimal widths for all other adjacent
finger docks.
(4) Residential Headwalks and Mainwalks:
(a) Minimum residential headwalk widths shall be no less
than 6 feet for dock lengths up to 120 feet in total length,
and 8 feet wide for dock lengths of more than 120 feet.
(5) Commercial Headwalks and Mainwalks:
(a) Minimum widths shall be no less than 6 feet for dock
lengths up to 120 feet in total length, and 8 feet wide for
dock lengths of more than 120 feet. If use of a walkway is
for staging the public while waiting to board a vessel, the
minimum dock width shall be 12 feet.
r
(b) At gangways, a minimum of 6 feet of walking surface
shall be maintained in front of the furthermost gangway
projection (including toe plate) at high tide, and have a
minimum of 4 feet of clear space to walk along the side of
any gangway for access to berthed vessels.
Table No. 1
Minimum Finger Widths
Widths of more than that shown in this Figure may be necessary
for specific site conditions andlor uses offingers over 70feet.
(3) Minimum 5'-0" widths are required for the entire path of travel for
ADA access, including paths along main- and headwalks.
d. Single and Double -Wide Slips:
(1) Single -wide slips are those slips that have a finger on each side of
the boat. Double -wide slips have only one finger adjacent to any
given boat.
C. Vessel "Rafting":
(1) Vessel "rafting" is the practice of connecting multiple vessels
together, with only one of the vessels being tied/berthed to a
walkway or finger. Rafting of vessels is not allowed, unless
specifically approved by the Harbor Resources Division and/or
the Fire Department for special facilities and/or events.
f. Long Docks:
(1) Long docks are defined as side -tie docks with more than one boat
berthed. Unless specifically identified otherwise, and for the
purpose of establishing the number of boats that may utilize a
long dock per State of California Department of Boating and
Waterways Guidelines, it will be assumed that one boat is
berthed alongside a long dock every 40 feet of long dock length.
This would relate to a 30 -ft berthed boat, with 5 feet of clearance
float Width
Length of
BerthFinger
F
= 5.0'
All ADA Accessible
Finger floats
F
= 3.0'
Up to 35'
F
= 4.0'
36' to 59'
F
= 5.0'
60' to 79'
F
= 6.0'
80' to 119'
F
= 8.0'
120' and over
Widths of more than that shown in this Figure may be necessary
for specific site conditions andlor uses offingers over 70feet.
(3) Minimum 5'-0" widths are required for the entire path of travel for
ADA access, including paths along main- and headwalks.
d. Single and Double -Wide Slips:
(1) Single -wide slips are those slips that have a finger on each side of
the boat. Double -wide slips have only one finger adjacent to any
given boat.
C. Vessel "Rafting":
(1) Vessel "rafting" is the practice of connecting multiple vessels
together, with only one of the vessels being tied/berthed to a
walkway or finger. Rafting of vessels is not allowed, unless
specifically approved by the Harbor Resources Division and/or
the Fire Department for special facilities and/or events.
f. Long Docks:
(1) Long docks are defined as side -tie docks with more than one boat
berthed. Unless specifically identified otherwise, and for the
purpose of establishing the number of boats that may utilize a
long dock per State of California Department of Boating and
Waterways Guidelines, it will be assumed that one boat is
berthed alongside a long dock every 40 feet of long dock length.
This would relate to a 30 -ft berthed boat, with 5 feet of clearance
on either end. Distance between two adjacent boats shall be
minimum 10 feet.
g. Loading Criteria:
(1) The design of the dock system shall incorporate all anticipated
dead and live loads.
(a) Dead Loads: Dead loads shall include the weight of the
dock system components (walers, bracing, bracket, etc.)
which are permanently incorporated into the dock system,
and non -dock system components (transformers,
gangways, dinghy racks, trash containers, buildings, etc.)
which are permanently affixed to the dock system.
(b) Live Loads: Live loads are temporary, transient loads
imposed in the ordinary use of the dock system, such as
people, carts, mobile equipment, wave loadings, wind
loads, impact loads, etc. The dock system shall be
capable of supporting live loads and freeboards per
"Flotation and Freeboards". The structure shall also be
capable of supporting a 400 -pound moving point load
anywhere on the deck surface, but no closer than 12"
from any dock edge, while maintaining the level
tolerances cited in this guideline.
(c) Wildlife Loads: Refer to "Layout and Design Guidelines
for Marina Berthing Facilities".
(2) Wind loads shall be calculated both parallel to and perpendicular
to maximum length of vessels and structures in accordance to
current California Building Code.
(a) Wind load on the lateral area of vessels or structures shall
not be less than 15 pounds per square foot acting on the
projected area of the docks as well as the profile area -
"sail area" of the berthed vessels above water level.
(b) Lateral area of vessels for wind load calculations acting
on the "sail area" of the vessel shall be as per Graph No.
1, or the actual sail area of the anticipated vessel,
whichever is greater.
(c) Ten percent (10%) of the full wind load for an unshielded
vessel shall be applied to each vessel in the leeward side
of the unshielded vessel.
(3) Current Loading: Floating docks in areas of the harbor may be
subject to current loads. Dock shall be designed for minimum
current velocity of 1 feet/sec.
(4) Impact Loading: Impact Load from design vessel (maximum boat
size that may be moored on the dock) striking dock at 10 degree
angle (from parallel to dock) with approach speed of minimum 1
feet/sec.
(5) Wave Loading: A simple wave analysis was conducted to
provide general guidance of a 100 -year return period wind waves
and ocean swells at Newport Harbor. In general, the majority of
Newport Harbor is dominated by wind waves except for the areas
near the harbor entrance which are dominated by Ocean Swells.
Contact the City of Newport Beach, Harbor Resources for details
of reference study.
A qualified civil engineer, licensed in the State of California,
shall conduct site-specific engineering analysis to evaluate the
appropriate design wave loading for the project.
(6) Load Combinations:
(a) Combined load cases for design of docks shall include the
following:
1) Dead load plus uniform live load
2) Dead load plus concentrated 400-16 live load.
3) Dead load plus wind load plus current & wave
loads.
4) Dead load plus impact load.
(b) Fabrication, handling and lifting loads shall also be
checked in the calculation of the dock system.
(c) A 1/3 increase in allowable stresses can be used when in
combination with either wind, current, wave or impact
loads. For all wood stresses, the allowable stress shall be
reduced in accordance with the California Building Code
for wet conditions, and then the 1/3 increase in allowable
stress applied.
(d) Calculations shall include the transfer of forces from the
dock system into the piles. All components within this
transfer mechanism shall be substantiated.
E
Wind Load
Vessel profile heights for "sail area"
(Recreational & Commercial Vessels)
35
34
33 --
32
31
30 —
29
28
27
26
25
24
a
12 23
.E 22
21 ',•
s ,.
Z 24 '
19
0 18
0-17
0
C 16 -
7 15
v 14
a�
13
j 12
11
10 10 OF
9
8
7
6
5
4 Et3 1L
20 30 40 50 60 70 80 90 100 110 120 134 140 150 160 170 '80 190 200 210 220
Vessel length overall, in feet (ft.)
10
h. Flotation and Freeboards:
(1) Sufficient flotation shall be provided to support dead load plus
live load with freeboards as noted below. Higher live load
requirements may be required by the City of Newport Beach,
under special circumstances as may be deemed appropriate.
Dock freeboard shall be minimum 14 inches and maximum 24
inches, under dead load. Dock freeboard shall not be less than 9
inches and there shall be minimum 1 inch of pontoon freeboard
remaining, under dead plus live load. See Figure No. 13 for
typical concrete dock system (where dock system itself is the
pontoon) and Fig 14 for typical timber, aluminum, steel, and
composite framing dock system (where framing is supported by
pontoons).
a) Residential docks shall be designed for a live load of 25
pounds per square foot.
b) Marinas, Public Pier (also known as Public Docks) and
Commercial Docks (Docks subject high volumes of
pedestrian traffic and the movement of goods, material,
supplies, cargo, etc. such as docks used for ferries, charter
boats, fishing boats, boat shows, shuttles, water taxis, etc.)
shall be designed for a live load of 40 pounds per square
foot.
Commercial Docks, as described above, which are also
used for the staging of passengers, or heavy loads, shall
be designed for live load of 65 pounds per square foot.
Signage indicating maximum number of people (using
occupant load factor 200 pounds/person) that may be
staged (Dock Staging Capacity) shall be posted at a
prominent location at staging area.
Exception 1: Docks whose functionality requires dead
load freeboard less than 14 inches (docks used for kayaks,
rowboat, etc.) shall be designed for 25 pounds per square
foot live load. These special docks shall be exempt from
the freeboard requirement on "Floatation and Freeboard
Section h.l". Signage indicating maximum number of
people (using occupant load factor = 200 pounds/person)
that may use the dock (Dock Capacity) shall be posted at
a prominent location.
Exception 2: Repair or Modification to less than 50% of
an Existing Dock is exempt from the freeboard
requirement on "Floatation and Freeboard Section h.l".
However, Engineer of Record shall perform freeboard
calculation, to provide sufficient floatation under repaired
or modified portion of dock section, to match freeboard of
existing dock and support minimum live load of 25
pounds per square foot.
C) Weight of seawater, for the purposes of flotation
calculations, shall be 64 pounds per cubic foot.
(2) The flotation shall use a ri&id block of expanded polystyrene
(EPS) cores or equivalent. The use of hollow pontoons shall not
be allowed.
(3) Docks shall have pontoons composed of outer shells of either
concrete (1" minimum thickness) or an ultra -violet stable plastic
such as fiberglass or cross-linked polyethylene (1/8" minimum
thickness). Other alternative materials must be submitted to the
City for review and approval, per the "Request for Alternate
Material or Method of Construction" appeals process. Exposed
foam flotation is not allowed.
(4) Residential Docks: In addition to the pontoon encapsulation
types noted above, residential docks may also use spray -on
elastomeric encapsulation systems for pontoons. Spray -on
products must demonstrate resistance to ultra -violet rays, solvents
that may be present on the water surface, and environmental
conditions imposed by saltwater contact. Minimum spray -on
product thickness shall be 100 mils.
Static Floating Tolerances:
(1) The dock surface of the in-place dock system, which includes
finger floats and walkways, under various loading conditions,
shall be level within the following tolerances:
Under Dead Load Only, & /a" per foot, 1" maximum
Under Dead and Live Loads: (transverse)
1/8" per foot, 1" in 10 feet
maximum (longitudinal)
Under Dead and Point Live Loads: %2" per foot (4%), 2"
maximum (transverse)
12
/a" per foot, 2" in 10 feet
maximum (longitudinal)
On Accessible Routes, for ALL Shall not exceed 1:50 or
Loading Conditions: 2% maximum (transverse)
(2) Under Dead Load Only conditions, the free ends of finger floats
shall always float level or higher than the finger float ends
connected to the head or mainwalk, within the limits noted above.
Torsional Resistance Requirements:
(1) General: Fingers, connected walkways, and free-standing
headwalks unattached to other dock elements must be designed to
provide dock stability and resistance to torsional loads. Torsion
bars installed in fingers, and/or dock framing construction that
provides for calculated and verifiable twist resistance, is required.
Free-standing headwalks need not provide independent means of
torsional resistance if the width of headwalk is 8 feet or more.
Alternative means of providing torsional resistance to fingers and
main- or headwalks may be considered by the City of Newport
Beach. Methods such as twist -controlling guide roller assemblies
may be considered, if acceptable twist resistance can be proved.
k. Guide Piles:
(1) Dock system pilings shall be designed by an Engineer, licensed
by the State of California, who shall have demonstrated expertise
in the design of marine structures. Pile loading calculations shall
be provided based on a soils investigation by a licensed
geotechnical engineer, or based on minimum code values for soil
properties. Alternatively, a pile test may be conducted by a
licensed engineer after piles have been driven, to confirm that the
piles can withstand the design loads anticipated. Testing
procedures must be approved by the City prior to
commencement.
(2) Soil conditions in Newport Harbor can vary depending on the
existence of rock strata near historic bluffs along the coastline.
The Applicant is advised to research the soils conditions of the
subject site in order to properly assess the conditions for pile
stability and installation.
13
(3) Loading Conditions & Criteria:
(a) Applied lateral wind and impact loads shall be calculated
for not lower than a +7.5 foot MLLW water surface, and a
load height acting upon the piles at no lower than +8.5
foot MLLW.
(b) Loads imposed on the dock framing system as previously
noted in this loading criteria, shall be imposed in -like -
kind to the piles providing the lateral load resistance for
the docks.
(c) Pile penetration shall not be less than 15 feet.
(d) Pile cutoff elevation shall not be lower than +12.0 feet,
MLLW in protected areas of the Harbor. Applicant shall
consider pile top elevation of +13.0 or higher for facilities
in or near the Harbor Entrance, due to more severe
environmental conditions.
(e) Guide pile caps shall be provided to discourage birds
from perching on piles.
(4) Special Geological Conditions:
(a) There are locations within the Newport Harbor area that
contain rock -like geological conditions, exhibiting
different soil resistance characteristics than standard bay
mud. The applicant is encouraged to observe the type of
guide piles used in the existing surrounding installations
to assess the type of piles that may be required for any
new project. A geotechnical consultant could be retained
to provide this information and pile design and
installation recommendations, as well.
14
3. DOCK MATERIALS OF CONSTRUCTION
a. ' General:
Materials used in dock systems shall have a demonstrated history of use
in salt water environments of at least 10 years, or otherwise be approved
by a licensed engineer practicing in waterfront engineering. Materials
used in dock systems are to be new and in good condition.
(1) Flotation:
(a) Flotation systems shall be the products of manufacturers
and contractors regularly engaged in the production of
such items for marine construction.
(b) Flotation units shall consist of:
I ) Concrete cast around a solid, closed cell foam
core, or
2) Fiberglass, polyethylene or plastic shell with a
fitting, solid, closed cell foam core.
(2) Plastics:
All plastics used in the dock systems shall be ultra -violet light
stabilized or protected. Plastics proposed for use must have a
demonstrable performance history in salt water environments of
at least ten years, or be the recommendation of a California
licensed Engineer. Design strengths and thickness shall be
appropriate for the intended purpose.
(3) Foam core for floats shall be a rigid block of closed cell
expanded polystyrene with a unit weight of between 0.95 to 1.2
pounds per cubic foot. Properties of foam shall conform to
ASTM C578, with maximum water absorption of 3.0 percent or
less as determined by ASTM C 272, Method C. The foam core
shall not have more than 10 percent reground material, and
reground foam pieces shall not exceed 3/8 -inch diameter.
15
b. Timber:
(1) All wood -construction fingers shall have framing that includes
cross -members that provide rigid connection to the full-length
stringers. All connections shall be made using thru-bolts.
Commercial Dock Framing: For independent long docks
that float freely and do not have docks and/or fingers
attached for stability, all primary load carrying framing
members shall be fabricated from glued -laminated beam
construction, to prevent warpage of the major members,
contributing to dock instability.
(2) Allowable Stresses: Allowable stresses for harbor structures
shall not exceed those stated in the "California Building Code".
(3) Timber used for walking decks shall have a minimum net
thickness of 1 %2 inches.
(4) Timber for walking surfaces shall be Douglas Fir, Select
Structural. Sawn timber for other framing members shall be
Douglas Fir, No. 1, minimum.
(5), Glued -laminated timber shall be Douglas Fir 24F -V8, industrial
grade for application in wet environments. Fabrication shall
comply with Product Standard PS 56-73, "Structural Glued
Laminated Timber".
(6) Walking surfaces shall have a non-skid finish and be maintained
periodically or when worn and unsafe. Treated timber decking
requires no further non-skid finish.
(7) Dimensional lumber is not required to be painted. However, if
the applicant chooses to paint, such paint shall be maintained to
good condition and appearance.
(8) Plywood utilized within dock framing systems shall be exterior
grade material. Plywood shall not be used as the walking surface
for a dock system, unless the product can be demonstrated that it
is provided with a factory -applied protective, non-skid walking
surface that will be durable and has a proven process for patching
and touch-up. Internal plywood members shall be provided in
such a manner that water can be easily conveyed off the top
surface of plywood and not pond or get trapped, leading to early
deterioration and dry rot.
Me
(9) Weight of treated Douglas Fir shall be assumed to be 35 pounds
per cubic foot.
(10) All timber used for dock construction shall be marked with the
appropriate grade of material and preservative treatment, or may
be subject to rejection by the City Inspector.
(11) Wood Preservative for Timber:
(a) All timber products shall be coated with preservative
treatment to retention limits recommended by the
American Wood Preservers Association Standard M4
"Standard for the Care of Preservative -Treated Wood
Products" and AWPA Standard C2 "Lumber, Timber,
Bridge Ties & Mine Ties — Preservative Treatment by
Pressure Processes".
(b) Current State and Federal environmental requirements
and guidelines for the type and application of preservative
treatments will be strictly enforced.
(c) All lumber must bear a stamp approved by the American
Lumber Standards Committee for conformance to the
American Preservers Association Standards.
(d) Field cuts and bored holes shall receive field -applied
preservative treatment in accordance with Best
Management Practices. Preservative treatment chemicals
shall not be allowed to enter harbor waters.
C. Metal:
(1) Any steel components used in the marine environment shall be
hot -dip galvanized with a minimum of 3 mils of zinc, or epoxy
coated per ASTM A 934 and manufacturers recommendations, or
shall be stainless steel.
(2) Structural steel shall conform to Standard Specifications for
Structural Steel for Bridges and Buildings. Stainless Steel shall
conform to 316 material specifications. Aluminum shall be
marine grade.
17
(3) Fabrication and erection shall comply with the latest applicable
codes as noted:
(a) AISC, Latest Editions
(b) Aluminum Structural Welding Code, Latest Edition
(c) Aluminum Design Manual, Latest Edition
(d) 12011 Design Manual for Structural Stainless Steel, Latest
Edition
(4) All bolts securing primary structural members shall be a
minimum of % inch diameter thru bolts. Bolts shall be minimum
A307 and include washers where direct contact with timber
members occurs. Carriage bolts are also allowed.
(5) No connecting device shall protrude beyond the fascia or waler
into the berthed area, which may contact any part of the berthed
vessel, or extend up into any walking surface creating a tripping
hazard.
d. Concrete and Reinforcing:
(1) Concrete shall be designed for permeability, strength, chemical
stability and abrasion resistance, appropriate for its application.
Minimum compressive strength for concrete, subject to salt water
splash, immersion and/or brackish water is 5,000 psi and a 0.4
water -to -cement ratio.
(2) Portland cement shall conform to ASTM C 150 Type I or Type II
modified, and low alkali. Chemical admixtures shall conform to
ASTM C 494. Chemicals designed to limit corrosion of internal
reinforcing may be used. Air entrainment admixtures shall
conform to ASTM C 260. Coarse and fine aggregate shall
conform to ASTM C 33, and ASTM C 330 where lightweight
aggregates are used. Lightweight aggregate, if used, shall consist
of expanded and coated shale or equivalent material of sufficient
strength and durability to provide concrete of the required
strength.
(3) Concrete structures shall be designed to provide sufficient
coverage of reinforcing steel, so as to prevent corrosion, per code
requirements. For structures exposed to salt water splash or
immersion, bar reinforcement shall conform to ASTM A 706,
and shall be epoxy coated per ASTM A 934, after bending of the
IU
bars. Welded wire mesh shall conform to ASTM A 185 and shall
be epoxy coated conforming to ASTM A 884, with all visible
defects and cut ends repair coated. Wires used to tie reinforcing
steel shall be either epoxy -coated steel, or 316 stainless steel.
e. Pilings and Anchorage:
(1) Piles shall be the products of manufacturers and contractors
regularly engaged in the production of such items for marine
construction. Typical materials approved for pile materials
include: 1. Pre -stressed concrete, 2. Steel, or 3. High-strength
composite materials. Timber piles are not allowed.
(2) Unless subsurface soil materials prevent their use, pilings shall be
pre -stressed concrete. Portland cement shall be ASTM C150
Type 2. Water for mixing and curing shall be fresh, clean and
potable. Aggregates shall conform to ASTM C33, Size Number
67, and be free from any substance that is deleteriously reactive
with the alkalis in the cement. Admixtures, if used, shall
conform to the requirements of ASTM C494 and not contain
chlorides. Corrosion inhibiting concrete admixtures are
encouraged. Pre -stressing steel shall be uncoated, seven -wire
stress relieved strand with a minimum ultimate stress of 270,000
psi conforming to ASTM A416. Ties and spirals shall conform
to ASTM A82, cold drawn. Piles shall cure and reach a strength
of not less than 4,000psi before de -tensioning and cutoff of the
strands.
(3) Guide rollers shall be fabricated from polyethylene, UHMW,
polyolefin or polyurethane roller or plate material. As an option
to the use of rollers, UHMW rub blocks may be used. Minimum
thickness of a rub block shall be 2 inches, with attachment bolts
countersunk into the UHMW material.
(4) Any structural steel components used in the marine environment
shall be hot -dip galvanized or epoxy coated per manufacturers
recommendations, or 316 stainless steel.
(5) Steel piles must be coated with a non-toxic coating that prevents
or inhibits the corrosion of the pile base material. Design of steel
piles shall include a 1/8 -inch additional corrosion allowance.
Coatings must be maintained to prevent growth and wear from
the guide roller assemblies. Rollers should be cleaned
periodically to prevent shell fragment build-up from further
deteriorating the coatings protecting the steel piles. For added
steel pile protection, sacrificial anodes may also be designed and
[I,
installed to limit corrosion, and UHMW plastic pile wraps can be
installed to limit wear of the steel surface from guide roller
friction.
(6) Installation Criteria:
(a) Piling shall be installed by a licensed contractor regularly
engaged in the business of pile driving. Care shall be
taken in the handling and driving of piling, to prevent
spalling, cracking or other damage. Contractor shall
install piles per approved local, state and federal
requirements. Jetting may be permitted with Local
approval.
(b) Tolerances:
1) The elevation of the head of piles shall be within
one inch of designer top of pile elevation.
Minimum pile top elevation for dock systems shall
be +12.0 MLLW.
2) Piling shall be installed vertically plumb within
tolerances defined in the construction documents,
but in no cases more than 2.5% out of vertical
plumb, and 4 inches out of horizontal location.
(c) Records, Certifications, and Inspection:
1) Records of pile driving operations shall be maintained
under the supervision of the Engineer of Record, and
made available to the City upon request.
2) Contractor shall make the pilings available for City
inspection prior to installation;
3) Upon completion of the pile driving operation, subject
to the requirements of the permit, the engineer may
certify that the pilings were installed in accordance
with the design and these guidelines. Such
certification shall be on the Engineer's letterhead and
bear the Engineer's stamp, and shall be submitted to
the City prior to issuance of the certificate of
occupancy.
20
f. Alternative and/or Hybrid Materials
Alternative materials such as recycled plastic, PVC, composite and
others, which can show a demonstrated experience and useful lifespan in
the marine environment and usage, can be proposed to the City of
Newport Beach for consideration. The decision of the City of Newport
Beach regarding the use of alternative or hybrid materials will be final.
4. APPURTENANCES
a. Locker Boxes: Individual locker "dock" boxes may be provided for
slips, and may provide housing for electrical and mechanical services.
Locker boxes shall be securely attached to the dock surface. All dock
boxes should be located on finger fillets; i.e., the intersection of the
finger and the main or headwalk, on the triangular dock surface.
Locations other than on a finger fillet require the approval of the City.
Locker boxes installed in the path of travel that limits safe pedestrian
access will not be allowed. Minimum clearances for safe pathways are
as follows: 2 feet clear on fingers, 3 feet clear path on main and
headwalks.
Lockers boxes shall be made of 1/8 inch minimum thick fiberglass or
cross-linked polyethylene. Flammable materials shall not be kept in
locker boxes.
b. Cleats: Cleats shall be designed to accommodate boats and loads
appropriate for their location. A minimum of two cleats on each side of
a finger is required. Cleats shall be attached to the dock system by
means of through -bolts of adequate size to transmit loads between boats
and the dock system.
C. Bumpers: Bumpers shall be installed on dock surfaces that will come
into contact with boats. Outer comers of fingers should be protected
with corner bumpers or dock wheels. Bumper material shall be vinyl
products, or those that have been approved by an Engineer, licensed to
practice in the State of California. Water retentive material such as rugs,
or salvage materials such as tires, shall not be used. Install bumpers with
aluminum or stainless steel nails or screws.
d. Boarding Steps: Boarding steps shall not be kept on main walks.
Boarding steps may be kept on, or attached to, finger floats, but in no
case shall boarding steps on finger floats occupy more than one-half of
the width of the finger float. Boarding steps shall be light -weight and
not used for storage, unless the supporting dock section has been
specifically designed for the additional dead and live load. Boarding
21
5.
steps shall not be permanently attached to the outermost 5 feet of any
finger float.
e. Life Rings: Life rings shall be installed in strategic locations on
commercial docks. Life rings for residential docks are encouraged, but
not required.
f Dock Ladders: Dock ladders shall be installed in strategic locations on
commercial docks for safety purposes. Ladders shall extend into the
water by at least 3 . feet, and be constructed of materials that resist
corrosion and prolong ladder life. Ladders may be provided with the
ability to swing out of the water in order to allow for special recreational
uses of the docks. Ladders for residential docks are encouraged, but not
required.
ACCESS/GANGWAYS/AMERICANS WITH DISABILITIES (ADA)
COMPLIANCE
a. General
(1) Landside facilities of commercial docks and of docks serving
new multi -family developments shall meet all ADA requirements
for the path of travel from the street and parking lot, to the
gangway and down to the docks.
(2) Walking surfaces of gangways shall have a non-skid finish, such
as punched metal, unpainted timber, or grit impregnated metal,
painted non-skid coatings, etc.
(3) Gangway Support: Connections between gangways and the
adjacent bulkheads or platforms shall be designed by a licensed
engineer, and comply with the following minimum requirements:
(a) Gangways shall be supported by the bulkhead or platform
through a mechanical connection system, such as face -
mounted plates or clip angle hangers with saddles,
shackles or pins, attached to the bulkhead or platform
with poured -in-place anchor bolts or epoxy -anchored
threaded studs. Minimum diameter of bolts shall be 5/8
inch, and material for bolts in contact with concrete or
treated lumber shall be Type 304 or 316 stainless steel.
(b) The hinge and supports shall be capable of transferring
full dead and live loads generated by the gangway to the
mechanical connection system.
22
(c) Steel angles, plates and other sections utilized in these
connections shall be minimum A36 grade and have a
minimum thickness of 3/8 inches. Any exposed edges of
plates that may potentially be in the path of travel or in
contact with foot traffic shall have beveled or rounded
smooth edges.
(d) Dissimilar material shall not be in direct contact to
prevent galvanic corrosion.
(e) All steel members and hardware shall be galvanized, or
coated with a formulated non-toxic coating system
designed specifically for the marine environment.
(f) The gangway shall be restrained from lifting out of the
support saddle during extreme high tide elevations,
without interfering with rotation at the gangway hinge.
(4) Gangways shall be braced in the horizontal plane to prevent
lateral deformation. The bracing system can consist of diagonal
supports within or under the gangway framing system, plywood
sheathing, or by decking designed to act as a shear transfer
membrane.
b. Commercial Docks: Commercial docks servicing the public will be
required to meet all applicable requirements relating to Federal ADA
Compliance requirements.
(1) Design live loads for gangways shall be a minimum of 50 pounds
per square foot for gangways functioning strictly for access to the
dock system, and a minimum of 100 pounds per square foot for
gangways that can be used as a staging area for passengers
boarding vessels. The maximum allowable deflection of a
gangway or bridge at mid span is L/240, with L/360 suggested
for walking comfort.
(2) Gangway slopes shall meet current state and Federal
requirements for safety and ADA compliance, where applicable.
(3) All commercial gangways shall be ADA compliant.
(4) All walking surfaces shall be provided with a commercial grade
non-skid surface. Worn or slick non-skid surfaces shall be
repaired immediately upon notice. Non-skid walking surfaces
shall be maintained and/or re-applied at a minimum of every six
23
(6) months. The maximum allowable gap in adjacent walking
planks or surfaces shall be Yz", and the maximum vertical height
differential between adjacent planks or surfaces shall be %a". '
(5) All gangways shall be equipped with transition plates at the
bottom of the gangway, and if fabrication details include gaps in
the hinge transition of more than %z inch, at the top of gangway as
well. These transition plates shall be of non-skid surface material
and provide the transition from the gangway platform and/or
dock, onto the gangways. All transition plates shall have a slope
no steeper than 1:8 for non -ADA -compliant gangways, and 1:12
for ADA -compliant gangways. Transition plates shall have
rounded edges along the path of travel and a height or thickness
at the end of the plate of no greater than 3/8 inch.
(6) Minimum clearance on the dock system around a gangway
landing shall be 5'-0".
(7) For additional discretionary gangways, other than the required
ADA gangway, gangway slopes for commercial docks shall not
exceed 1 foot vertically for each 3.0 feet of length, when the tide
is at —1.0 feet MLLW. The minimum length of commercial
gangway shall be 30'-0".
(8) Guard, mid and hand railings shall meet the requirements of the
latest State of California Title 24 requirements.
(9) Railings shall be designed to resist a load of 50 pounds per foot
applied horizontally to the rail or a 200 -pound point load applied
vertically at any point along the length of all horizontal rails.
C. Residential Docks:
(1) Design live loads for residential gangways shall be a minimum of
25 pounds per square foot for gangways functioning strictly for
access to the dock system. The maximum allowable deflection of
a gangway or bridge at mid span is L/240, with L/360 suggested
for walking comfort.
(2) Gangway slopes for residential docks shall not exceed I foot
vertically for each 2.5 feet of length, during the full range of tidal
swing elevations. The minimum length of residential gangway
shall be 24'-0".
(3) Minimum gangway clearance (within handrails) shall be 2'-6"
wide.
24
(4) A 3 -foot long toe plate, at the base of a gangway, is encouraged
for ease of use and safety and to provide a continuous sloping
path of travel, from the surface of the gangway to the surface of
the dock. A gangway bottom "step-off', if the toe plate is not
utilized, shall not exceed 7 inches in vertical height.
(5) Worn or slick non-skid surfaces shall be repaired immediately
upon notice. Non-skid walking surfaces shall be inspected and
maintained periodically for safety purposes.
(6) Gangway handrail heights shall be 34 to 38 inches above the
gangway walking surface. Openings in rails of residential
gangways shall not permit a sphere 12 inches in diameter to pass
through.
The gangway rail shall be designed to resist a load of 20 pounds
per foot of horizontal force applied to the top of the rail.
(7) If a residential dock system has 25 or more slips, an ADA -
compliant gangway system must be designed with a minimum
design load of 50 pounds per square foot, and a maximum
deflection of L/240, with a deflection of L/360 suggested. See
Federal ADA Accessibility Guidelines.
6. SPECIAL HARBOR FACILITIES
a. Fuel Floats:
(1) Locate boat -fueling docks near the entrance of the harbor, in an
area that is protected from waves and rough water environmental
conditions.
(2) Fuel floats used for dispensing petroleum products shall be
adequately designed and placed to provide maximum service to
the boater. Adequate guide piles or dolphins shall be required to
provide permanence, safety, and stability to the floating docks,
and shall be designed by a California Licensed Engineer with
waterfront experience. Fuel floats must be designed to support
the dead loads imposed by the dispensers, hose reels, storage,
pipe chase ways, etc.
(3) Fuel facilities shall be in conformance with County, State and
Federal codes, ordinances and law. Equipment, such as
25
containment booms and absorbent pads, shall be kept on the fuel
dock to contain spills.
(4) Fuel Floats shall contain all necessary firefighting equipment and
systems, as deemed appropriate by the City of Newport Beach
Fire Department.
b. Sewage Pump Out Facilities:
(1) Marinas with more than 50 boats are required to have at least one
(1) sewage pump out facility. Sewage pump out facilities shall
connect to the nearest City of Newport Beach sewage line
system. Refer to City of Newport Beach Standard Drawings for
Public Works Construction for details of these connections.
(2) Sewage pump out equipment shall be products that have been
designed, tested and installed for the specific purpose of vessel
sewage pump out. All sewage pump -out facilities shall be
inspected regularly and maintained in operable condition.
C. Floating Buildings:
(1) To obtain approval from the City of Newport Beach Harbor
Resources Division for the installation of a floating building, the
applicant must provide compelling reasons that such a facility is
necessary and is precluded from location on land.
(2) Only commercial facilities are allowed to consider floating
buildings. Residential facilities are not allowed to have floating
buildings. Potential floating building uses include restrooms, the
dock master's office, enclosures on a floating fuel dock, and boat
rental office. Other uses may be considered, at the discretion of
the City of Newport Beach.
(3) Floating buildings are subject to the latest edition of all local,
State and Federal building codes.
d. Vessel Launching Facilities:
(1) Vessel launching facilities may include vehicle launch ramps for
trailered boats, concrete launch ramps with rails and/or tracks for
special vessel carriers, elevated travel lift launches, swing hoists
on davits, and forklift launching.
(2) All launch facilities shall be designed considering the launching
and vehicle loads imposed on existing and/or planned structures.
26
(3) Vessel launching facilities shall be designed in accordance with
California Department of Boating and Waterways, Boating
Facilities Division, "Layout, Design and Construction Handbook
for Small Craft Boat Launching Facilities".
e. Special Mooring Devices:
(1) Special vessel mooring devices may be required or desired for
specific berthing conditions. Large vessels may require mooring
and/or breasting dolphins (pile groupings designed to resist large
impact and berthing loads), berthing walls, or other devices that
facilitate vessel docking.
(2) Special mooring devices shall be designed by a licensed engineer
and geotechnical consultant, with experience in waterfront
engineering. Special mooring devices shall be designed to resist
berthing loads, wind, wave, and current loading for the localized
area.
f. Piers, Platforms, and Wharves
(1) Piers, platforms, and wharves shall be designed by a California
licensed Engineer experienced in waterfront structures. A
geotechnical report, for pile design and installation, shall be
provided that addresses special issues such as liquefaction
potential, and the gravity and seismic support of the waterfront
structure. The geotechnical report shall be prepared by a
California -licensed Geotechnical Consultant.
Refer to the Harbor Standard Drawings for the various
geometries allowed for piers and platforms that serve and provide
access to residential floating docks.
(2) Commercial: Structures shall be designed for an assembly area
live load of 100 pounds per square foot (psf) as well as vehicle
loads that may be imposed on the structure for maintenance
purposes.
(3) Residential: Structures shall be designed for a minimum live
load of 50 psf.
g. Seawalls (Bulkheads):
(1) General: Several types of seawalls are common to support soils
and construction on the landside of the wall. Seawall material can
27
be composed of various types of materials, including concrete,
steel and other manufactured materials. Typical wall types
include freestanding or "cantilevered" seawalls and "tied -back"
seawalls. Cantilevered seawalls are limited by the height of the
wall above the waterside mudline and are generally effective for
exposed heights of not more than 8 feet. For structural steel type
seawalls, higher exposed heights are possible. Tied -back seawalls
can be effective for exposed heights over 8 feet and may require
continuous caps, walers (beams), steel tie rods and a foundation
anchors (Deadman), or earth anchors. Tie -back anchor systems
shall require protection against corrosion. Galvanic anode
cathodic protection system is recommended. Tie -back anchor
system shall be designed to last the life of seawall.
(2) Generally, seawall sheets constructed of reinforced, prestressed
concrete are desirable, although for special conditions, structural
steel interlocking sheets may be necessary. Steel products in the
marine environment require special non-toxic coating protection
and cathodic protection, in order to provide extended life spans.
(3) Seawalls shall have a top elevation of not less than 10.0 MLLW.
Seawall elevations of greater than 10.0 MLLW may be required
by City of Newport Beach, depending on location within the bay
and potential for wave or wake over -topping.
(4) The distance between seawalls and all floating dock components
shall be a minimum of one foot horizontal distance.
(5) Seawalls shall be designed to resist all applicable vertical and
horizontal loads.
(6) A minimum safety factor of 1.5 shall apply to gravity loads, and a
minimum safety factor of 1.1 shall apply to seismic loading cases
for the stability of seawalls.
(7) Decking may butt to the seawall cap, or cantilever over the top of
the seawall, if approved.
(8) Wing Walls: Wing walls are retaining walls that project
landward and are perpendicular to the seawall. Wing walls may
be necessary to isolate the seawall protection system of one
property to the adjacent property. Special care must be taken to
assure that the construction of a seawall for the subject property
does not adversely impact the seawalls of the adjoining
properties, either during construction or over the life of the
structures.
28
(9) Seawall design requires a soils report from a California -licensed
geotechnical consultant experienced with the design of waterfront
structures. Any sloping surface on the water or landside of the
seawall must be accounted for in the calculations for the seawall.
(10) All concrete sheets used for seawall construction shall be
designed as pre -cast, pre -stressed concrete elements. Sheet
design shall provide for symmetrical distribution and sizing of
strands, to prevent curvature of the wall. See "Pilings &
Anchorage" for concrete and reinforcing requirements.
(11) All seawalls or seawall alterations shall be designed by a
California -licensed Civil or Structural Engineer.
7. DREDGING
a. All projects that require dredging must follow current local, State and
Federal permitting requirements.
b. For maintenance dredging projects involving small quantities, the City of
Newport Beach, in conjunction with the Army Corps of Engineers
(ACOE), has a program allowing for a simplified permitting process, as
long as the amount of dredging and disposal quantities are small and
meet quality requirements. The applicant is encouraged to inquire about
this simplified process with the Harbor Resources Division, to verify
qualifications.
8. UTILITIES
a. All utility lines in a floating dock system may maintain clearances as
outlined in "Layout & Design Guidelines for Marina Berthing
Facilities".
b. Electrical Power and Lighting:
(1) All electrical design shall be in accordance with the latest edition
of the National Electric Code (NEC) Article 555 — "Marinas and
Boatyards", California State Building Standards "Article E555
Title 24, and the National Fire Protection Association (NFPA)
code, NFPA 303 and NFPA 70.
29
(2) Electrical systems shall be designed by an Electrical Engineer,
licensed by the State of California, and shall be in accordance
with the latest requirements of the City of Newport Beach.
(3) An electric service connection shall be located at a minimum of
every other slip. Electrical receptacles shall be waterproof and
approved for marine waterfront exposure. The following are
suggested minimum receptacle requirements based on boat size:
one (1) I20v, 30 amp outlet at each boat slip under 35ft, two (2)
120v, 30 amp outlets at each boat slip between the sizes of 36 to
45fr, one (1) 120v, 30amp and one (1) 120v, 50 amp receptacle at
each boat slip between 46 to 55ft, and two (2) 120v, 50 amp
receptacles for boats between 56 to 65ft. For vessels larger than
65ft, special power requirements may be required and the
applicant should consult the vessel manufacturer. Some large
vessels may require 220v or 480v, 100amp services. Sub
metering of each boat slip is recommended and has proven to
reduce power usage in marinas where meters have been installed.
(4) Lighting shall be provided on all floating structures for pedestrian
safety. All lighting shall be so designed as to provide sufficient
light for safe pedestrian usage. All lighting on landside and
waterside structures and buildings shall be designed to provide a
minimum reflection/glare on the adjacent water areas with
consideration for lighting reductions in evening hours.
(5) Electrical cables and conduits shall be fastened securely to the
dock system and gangways such that the system is protected from
damage by boats. All electrical equipment shall be located above
the harbor water level per NEC requirements at all times. If
distribution cabling will be subject to water contact, cabling shall
be rated for submersible use. All strapping supports for conduit
shall be stainless steel. All electrical conduit and cables must be
concealed within the dock system.
(6) Transformers and panels located on the docks shall meet all
requirements of the National Electrical Code (NEC). Several
maintenance receptacles should be placed throughout the marina
system to allow dock maintenance crews to use small electric
tools without using metered power dedicated to slip renters.
(7) Commercial Facilities:
(a) Commercial facilities shall provide minimum lighting
levels for public safety along the path of travel from land
to the berthed vessel.
30
(b) Lighting fixtures with a capacity of 9 watts mounted at
heights between 1.5 to 3 feet above the floating deck
surface in dock boxes or on individual pedestals along the
path of travel will generally meet this requirement.
Fixtures should be located such that lighting levels on the
walking surface are as uniform as possible.
(c) In addition, pole -mounted lighting shall be provided to
illuminate vertical access systems such a gangways, steps,
and lifts, providing a higher level of illumination at
vertical transitions in the path of travel.
(d) Lighting systems shall be designed to provide light for the
floating walking and access surfaces and not project light
into neighboring properties, skyward and/or water space.
Special lens and/or shields may be required to ensure that
stray light is blocked and/or managed.
(e) All lighting shall be controlled by photo cells and/or
timers, to assure that their operation is automatic and
energy conserving.
C. Plumbing
(l) Plumbing systems shall be designed by a Civil or Mechanical
Engineer, licensed by the State of California, and shall be in
accordance with the latest National Mechanical Code, State
Plumbing Code, and National Fire Protection Association Code.
(2) One hose bib shall be provided for every two (2) boats, as a
minimum. Hose bibs for every boat slip are recommended for
boater convenience and the reduction of clutter on the docks.
(3) Backflow preventers shall be provided for all water supply
systems into the site. Pressure reducers or booster pumps may be
required to meet pressure and flow requirements.
(4) Refer to Section "Sewage Pump Out Facilities" for criteria for
sewage system installations.
(5) Supply water and sewage piping shall accommodate the full
range of tidal movement, via the installation of flexible hoses
and/or mechanical swivel pipe fittings. All materials shall be
suited for the salt -water marine environment and be rated as
"Food Grade" materials.
31
d. Fire Protection:
(1) General:
(a) All fire protection systems for marinas, wharves and piers
shall be in accordance with NFPA Chapters 14 and 303,
latest edition, and the California Fire Code Appendix II -
C, latest edition. See the attached Newport Beach Fire
Department "Fire Protection for Marinas, Wharves, and
Piers" for system requirements.
(2) Code Requirements:
(a) Retroactivity of code provisions: At the option of the
Newport Beach Fire Department, the authority can make
the conditions and provisions of applicable current codes
retroactive, if deemed necessary for public safety.
Otherwise, the provisions of applicable codes that existed
or were approved for construction or installation prior to
the effective date of the standard shall apply.
(3) Fire Department connection/s (FDC's), backflow preventers and
pressure reducing assemblies or booster pumps if required,
firehose cabinets, fire standpipes and portable fire extinguishers
shall be provided on the docks, as required by Code. Meet City
of Newport Beach Fire Department requirements for periodic
hose testing and replacement.
(4) Commercial Facilities:
(a) All commercial dock installations shall be provided with a
fire fighting system, approved by the City of Newport
Beach Fire Department. If the City water pressure is not
adequate to produce pressures necessary to meet special
City and Code requirements, an auxiliary booster pump
system may be required.
(b) All new and existing marinas and boating facilities shall
meet the requirements described in "Cases" as made part
of this Design Criteria. The purpose of these
requirements is to facilitate safe boating navigation, as
well as provide fire -fighting capability.
32
(5) Residential Facilities:
(a) Fire protection systems for single-family residential docks
are optional, although highly recommended. The
residential owner should contact their insurance carrier
for any policy requirements associated with providing a
fire protection system.
(b) Fire protection for multi -family or condominium
residential docks, piers and floats are required to have a
fire protection system meeting City and Code
requirements.
9. ENVIRONMENTAL
a. Commercial Facilities:
(1) All commercial facilities shall prepare a Best Management
Practices plan to document environmental practices to be applied
to daily operations. Plans shall address in -water maintenance
limitations, storage and handling of hazardous and/or waste
products common to the boating community, and emergency
response to chemical spills.
(2) Commercial facilities shall provide a means for vessels to pump
out their bilge tanks and the wastewater products taken to an
approved treatment and disposal facility.
b. Residential Facilities:
Not applicable
10. PERMITTING
Project Types and City Classifications: The purpose of project types and City
classifications noted below is to establish the permit fee structure and process
for submitted projects. Percentage replacement is based on the valuation of
total dock system. Values of various types of construction are based on City
records for average construction, and are not necessarily based on the
construction cost estimates provided to the City by the Applicant.
33
I
LZ
Maintenance Projects:
(Do not require State and Federal permit processing)
(1) Re -decking an existing float, gangway, or pier, like for like (not
more than 20% of total replacement cost).
(2) Fixing dry rot or damage (not more than 20% of total
replacement cost).
(3) Replacing piles, like for like, in the same hole (maximum 7
piles).
(4) Replacing a gangway to City standards.
(5) Raising a bulkhead to City standards.
(6) Replacing deteriorated tie rods with earth anchors.
(7) Repairing seawall cap beams and deadman.
(8) Emergency repair of structures deemed by the City to jeopardize
public safety. (Follow-up permitting may be required with the
Coastal Commission.)
(9) Partial demolition of structures; i.e., elimination of half of a "U"
shaped dock and/or respective piles.
(10) New waler at sea side of an existing bulkhead, minimum of 2 feet
above mudline (without encroaching property line)
Alteration and New Construction Projects:
(Requires State and Federal permit processing)
(1) Re -decking an existing float, gangway, or pier, like for like (more
than 20% of total replacement cost).
(2) Fixing dry rot or damage (not more than 20% of total
replacement cost).
(3) Relocating one (1) or more piles
(4) Replace float, pier and/or gangway, like for like
(5) Change in orientation or configuration of an existing dock,
including pile relocation.
(6) Any increase in dock footprint
(7) Total reconstruction of a float, gangway, and/or pier
(8) New configuration of a float, gangway, and/or pier
(9) Replace seawall panels
(10) New bulkhead system
34
II. LANDSIDE DEVELOPMENTS (Commercial Only)
A. Landside developments of waterfront projects are subject to City of Newport
Beach - Community Development Department, Building Division and Planning
Division requirements.
B. See State of California Department of Boating and Waterways "Layout and
Design Guidelines for Marina Berthing Facilities", for minimum requirements
for landside facilities, in support of waterfront developments.
C. Landside requirements for marina projects include location and design of
restroom facilities, minimum parking requirements and ADA compliance.
35
Bow Sprit
Fig. No. 1
LEGEND:
Ww = WIDTH @ WATER LINE
L = LENGTH W/0 EXTENSIONS
Lo = LENGTH OVERALL, WITH
BOW SPRIT, SWIM STEP OR OTHER
PROTRUSIONS
Wo = WIDTH OVERALL
Lb =
LENGTH
OF BERTH
(FINGERFLOAT OR
SLIP)
(DBAW)
Wb
= WIDTH
OF BERTH
(DBAW)
VESSEL SIZE ILLUSTRATION
MAINWALK
O
J
J
MAINWALK
Where:
1) Lb,
2) Lo,
DOCK ARRANGEMENT
CASE 1
Fig. No. 2
is greater thon Lb,
is greater than Lot
L
MARGINAL WALKWAY
1.5 x Lo
FAIRWAY
Where Lo; represents the
longest vessel within the
Basin. For Fairway sizing,
minimum boot size (Lo,)
along side tie to be
considered os 40 ft.
DOCK ARRANGEMENT
CASE 2
0
z
1
Fig. No. 3
SIDE TIE
f
w
W
0
1
J
MARGINAL WALKWAY
1.50 x L
FAIRWAY
Where Lo; represents
the longest vessel
within the Basin. For
Fairway sizing,
minimum boat size
(Lo j along side tie
to be considered as
40 ft.
�— nA cine
DOCK ARRANGEMENT
CASE 3
Fig. No. 4
SEE
CASE 2
TYP
Fig. No. 5
DOCK ARRANGEMENT
CASE 4
y MARGINAL WALKWAY
Fig. No. 6
NOTE:
THE BERTHING OF BOATS CAN
NOT BLOCK THE EMERGENCY
ACCESS TO OTHER BOATS OR
THEIR EMERGENCY EGRESS.
DOCK ARRANGEMENT
CASE 5
atolls
FOR VESSELS 40'-0" OR LARGER,
SUPPORT PILES, MOORING SYSTEM, &
ACCESS BRIDGES/GANGWAYS TO BE
DESIGNED BY A LICENSED ENGINEER,
REGISTERED IN THE STATE OF
CALIFORNIA, WITH FLOATING DOCK
PILE (TY
SHARED
MOORINC
BALL (T)
MOTHER
CHAIN Div
BOTTOM
Fig. No. 7
15" (MIN.)
CLEAT ON
WALKWAY (TYP)
BOAT GANGWAY
SINGLE
MOORING BALL OPTIONAL PILE FOR
VESSEL SEPARATION
AND MANAGEMENT
(TYP)
MEDITERRANEAN -STYLE
MOORING
DOCK ARRANGEMENT
CASE 6
Fig. No. 8
l� '
Lo
------------
cr—
z oz Q co �z
co
_ o W
Q 'm Ln
�
g z
�c
0
Lo
MAIN CHANNEL
Y
J
z
DOCK ARRANGEMENT
CASE 7
CASE 8
Fig. No. 9
r
I
I
I
I
I
i
I
�
�
�
I --
I
�
I
I
,
I
�
i
I
I
�
I
'
y
BASIN
3
J
Z
C7
I
I
I
I
I
I
I
1.5 x Lo
INTERIOR FAIRWAY
Where Lo represents - - -
the longest vessel --
I
I
within the Basin
I
�
I
I
I
I
I
I
CASE 8
Fig. No. 9
E
Fig. No. 10
_ m
a a
-a)acc
I c a° o ma
p O O C U
MAINWALK .o a0-
° -� 3 ° �u�
L m o ak pC,
I
See Case 9B
°
J
m a m I =
cl = v
03 Z
�I m
I11
DOCK ARRANGEMENT
CASE 9A
Outside limit of
Pierhead Line (1)(4)
guidepile
Stringers
(TYP)
Fig. No. 10A
Project Line() -
Dock Fingers (3)
No piles within zone �
between Pierhead and
Project lines (4) I Federal Dredging Limit (2)
(1) Pierhead and Project lines are established and managed by the
federal government.
(2) Portions of floating docks that extend into Federal Dredging
Limit must be removed by the dock owner at dock owner's
cost, when the federal goverment conducts periodic dredging
operations.
(3) Dock fingers must be designed and constructed in such a way
that provides structural integrity of the fingers to resist lateral
impact and mooring line loads without guide piles at the finger
ends. Continuous structural stringers and/or special moment
and shear—carrying splices must be engineered and submitted
to the Building Department for approval.
(4) The City council has allowed exceptions for dock constrcution
beyond the Pierhead Lines as noted in Council Policy H— 1,
DOCK ARRANGEMENT
CASE 9B
W -L — -- --
County Recorded agreement
between adjacent property
owners is req'd for the
shoring of o common dock
—
CASE 10
Note 1: Installation of o floating CASE 11
walkway can not adversely
impact the existing berthing &
navigation of adjacent property
,4--1,-
l.A, t 7 L
PROPERTY LINE CONDITIONS
N
I
Fig. No. 11
C "
J
Q
Q
N
U
-
Q
J O
Ln
U
N
Q k
g
w °
O
z
w o
��--Ln
LO
l.A, t 7 L
PROPERTY LINE CONDITIONS
N
I
C "
X
W U
Ln
O N
N
N
Grand Canal O
N
Balboa Island
Vicinity Map
BOW LINE
n
MOORING
BUOY
PLAN
High Tide
SECTION A—A
VA
Fig. No. 12
SEAWALL
STERN LINES
ANCHOR
DOCK ARRANGEMENT
CASE 13
(Grand Canal Only)
z
rn
NO DOCK FRAMING ABOVE PONTOON
+ CONCRETE CONCRETE ' * CONCRETE
*PONTOON ® PONTOON PONTOON
DEAD LOAD FREEBOARD (DL FB) = 14" MIN. 24" MAX
FLOATATION TYPICALLY VARIES FROM 90% TO 95%
DOCK CROSS SECTION DOCK LONGITUDINAL SECTION
DEAD LOAD FREEBOARD
25 PSF LIVE LOAD (RESIDENTIAL DOCKS)
40 PSF LIVE LOAD (MARINAS, PUBLIC PIER AND COMMERCIAL DOCK)
65 PSF LIVE LOAD (COMMERCIAL DOCK W/ STAGING)
*
CONCRETE
* PnniTnnni
DOCK CROSS SECTION
Fig. No. 13
DOCK LONGITUDINAL SECTION
DEAD + LIVE LOAD FREEBOARD (DL+LL FB) = 9" MIN.
NOTE:
1. MIN DL+LL FB MAY BE DICTATED BY UTILITY LOCATION TO MEET
ELECTRICAL AND PLUMBING CODES
2. UNDER DL+LL, STRUCTURAL WATERS SHALL NOT BE SUBMERGED
DEAD LOAI) + LIVE LOAD FREEBOARD
DOCK WITH NO FRAMING SUPPORTED
ON PONTOONS
(TYPICAL CONCRETE DOCK SYSTEM)
Fig. No. 14
m DOCK FRAMING SUPPORTED BY PONTOON
J PONTOON PONTOON PONTOON
DEAD LOAD FREEBOARD (DL FB) = 14" MIN. 24" MAX
FLOATATION TYPICALLY VARIES FROM 60% TO 95%
DOCK CROSS SECTION
DOCK LONGITUDINAL ELEVATION
DEAD LOAD FREEBOARD
25 PSF LIVE LOAD (RESIDENTIAL DOCKS)
40 PSF LIVE LOAD (MARINAS, PUBLIC PIER AND COMMERCIAL DOCK)
65 PSF LIVE LOAD (COMMERCIAL DOCK W/ STAGING)
11111111
DOCK FRAMING SUPPORTED BY PONTOON
PONTOON PONTOON PONTOON
DOCK CROSS SECTION DOCK LONGITUDINAL ELEVATION
DEAD + LIVE LOAD FREEBOARD (DL+LL FB) = I" MIN. PONTOON FREEBOARD
NOTE:
1. MIN DL+LL FB MAY BE DICTATED BY UTILITY LOCATION TO MEET ELECTRICAL AND
PLUMBING CODES
2. UNDER DL+LL, STRUCTURAL WALERS/ DOCK FRAMING SHALL NOT BE SUBMERGED
DEAD LOAD + LIVE LOAD FREEBOARD
DEAD + LIVE LOAD FREEBOARD FOR DOCKS
WITH FRAMING SUPPORTED ON PONTOONS
(TYPICAL TIMBER, ALUMINUM, STEEL,
FIBERGLASS FRAMING DOCK SYSTEM)
TOP OF BULKHEAD +10.00 M.L.L.W. OR +7.27 M.S.L.
71'I
NATURAL SAND PROFILE
18.2'
1
5
1 3(3)
10' 10'
20'
PROFILE
+7.5= H. H. W:II
+5.3=M.H.H.W.
+4.0=M.H.W.
NOTES:
1. USE 8 TO 1 FOR TRAVELED BEACH AREAS.
2. USE 4 TO 1 AROUND NEWPORT ISLAND DUE TO HIGH
SILT CONTENT.
VARIES
DATUM: M.L.L.W. (DATUM IS NGVD 29; FOR NAVD 88 DATUM, ADD 2.34') REV. ovt
CITY OF NEWPORT BEACH I APPROVED:
PUBLIC WORKS DIRECTOR
NATURAL SAND PROFILES IN Drawn: R. OKADA
JULY
NEWPORT HARBOR Da1DSTD1598—L'
DRAWINGNG NNO..
Tide Planes and Tidal Datum Relationships
(U.S. Survey Foot)
Highest High Water 7.86'
Higher High Water 5.40'
Mean Hiah Water 4.65'
Mean Neap High Tides
Mean Sea Level 2.76'
T (NGVD29) 2.72'
Mean Neap Low Tides
M
N
Mean Low Water 0.93'
1 (NAVD88) 0.38'--___
Mean Lower Low Water 0.00'
Submerged Lands
Theory #1
Submerged Lands
Theory #2
Limit Pueblo or Rancho after patent
Limit State Datent of Dublic lands
(Civil Code 830)
_ Limit U.S. patent to individual per
(Civil Code 830)
Limit U.S, patent to individual per state
(Borax Consolidated v. City of
Los Angeles (1935) 296 U 5 10)
Theory #1 - Tidelands lie between mean high and mean of low neap tides.
Theory #2 - Tidelands lie between mean of all high and mean of all low tides.
Information was taken from National Ocean Service (NOS), Office of Ocean and Earth Science (OES),
Tidal Datum sheet - Publication Date 07/17/89
CITY OF NEWPORT BEACH
TIDE PLANES & TIDAL DATUM
RELATIONSHIPS
(U.S. SURVEY FOOT)
REV. 01/17
\PPROVED:
Limit of Rancho
or Pueblo under
�
Mexican Law
O
Tidelands
Lowest Low Water -2.14' _
Theory #2
DRAWING NO.
STD -599-L
-
Limit U.S. Public Lands
Submerged Lands
Theory #1
Submerged Lands
Theory #2
Limit Pueblo or Rancho after patent
Limit State Datent of Dublic lands
(Civil Code 830)
_ Limit U.S. patent to individual per
(Civil Code 830)
Limit U.S, patent to individual per state
(Borax Consolidated v. City of
Los Angeles (1935) 296 U 5 10)
Theory #1 - Tidelands lie between mean high and mean of low neap tides.
Theory #2 - Tidelands lie between mean of all high and mean of all low tides.
Information was taken from National Ocean Service (NOS), Office of Ocean and Earth Science (OES),
Tidal Datum sheet - Publication Date 07/17/89
CITY OF NEWPORT BEACH
TIDE PLANES & TIDAL DATUM
RELATIONSHIPS
(U.S. SURVEY FOOT)
REV. 01/17
\PPROVED:
Tidelands
Theory #1
�
Drawn: R OKADA
Scale: N.T.S.
Tidelands
Lowest Low Water -2.14' _
Theory #2
Submerged Lands
Theory #1
Submerged Lands
Theory #2
Limit Pueblo or Rancho after patent
Limit State Datent of Dublic lands
(Civil Code 830)
_ Limit U.S. patent to individual per
(Civil Code 830)
Limit U.S, patent to individual per state
(Borax Consolidated v. City of
Los Angeles (1935) 296 U 5 10)
Theory #1 - Tidelands lie between mean high and mean of low neap tides.
Theory #2 - Tidelands lie between mean of all high and mean of all low tides.
Information was taken from National Ocean Service (NOS), Office of Ocean and Earth Science (OES),
Tidal Datum sheet - Publication Date 07/17/89
CITY OF NEWPORT BEACH
TIDE PLANES & TIDAL DATUM
RELATIONSHIPS
(U.S. SURVEY FOOT)
REV. 01/17
\PPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R OKADA
Scale: N.T.S.
Date: JULY 2004
DRAWING NO.
STD -599-L
11/2 CONTINUOUS
CHAMFER 20" MIN. �REBAR
TYPICAL
ELEV. 1_0.0
K
6' MIN. MLLW
6" MIN.
4" MIN. _
TIES PER
6" ENGINEER
MIN.f—
SANDLINE
(VARIES)
77
17
L 7
1 T
POURED IN PLACE
CONCRETE
COPING
PROVIDE "U'
BAR FOR
LIFTING --
R. 9"
,I
1 1/2" or 2" PVC
OPTIONAL
]ET PIPES
SANDLINE (VARIES)
'o .fi`i7-
3 1/2"
2 1/2"
r r
2" % -2' GROUT FILL
CLASS "A"
3" MORTAR
S., —
TYPICALPANEL]OINT
I"T" — PER
ENGINEER
PER
ENGINEER
MI
� MIN.
SECTION A -A CONCRETE
SHEET TYP.
NOTES:
1. PANELS TO HAVE A SMOOTH FINISH ON BOTH SIDES.
2. REINFORCING STEEL SHALL HAVE A MINIMUM COVER OF 3" AND BE EPDXY-COATED
PER ASTM A-934. GRADE 60 BARS SHALL BE USED.
3. AS AN OPTION, APPLICANT MAY USE PRESTRESSED CONCRETE SHEETS PER STD. 611-1_.
4. USE OF JETTING TECHNIQUES MAY REQUIRE SPECIAL PERMITS AND MITIGATION
MEASURES BY LOCAL, STATE, AND FEDERAL AGENCIES.
5. CONCRETE: f c = 5,000 PSI (MIN.) AND W/C RATIO = 0.40 (MAX.)
6. PANEL MUST BE DESIGNED BY A CALIFORNIA LICENSED CIVIL OR STRUCTURAL ENGINEER. REV, 01117
CITY OF NEWPORT BEACH APPROVED
PRECAST REINFORCED PUBLIC WORKS DIRTC I OR
Drawn: R. OKADA
CONCRETE GROIN PANEL Date: JULY 2004 Scale: N.T.S.
(NOT FOR BULKHEAD USE) DRAWING NO. STD -600-L
i
l
— �—
4
T
� T
PER
ENGINEER
MI
� MIN.
SECTION A -A CONCRETE
SHEET TYP.
NOTES:
1. PANELS TO HAVE A SMOOTH FINISH ON BOTH SIDES.
2. REINFORCING STEEL SHALL HAVE A MINIMUM COVER OF 3" AND BE EPDXY-COATED
PER ASTM A-934. GRADE 60 BARS SHALL BE USED.
3. AS AN OPTION, APPLICANT MAY USE PRESTRESSED CONCRETE SHEETS PER STD. 611-1_.
4. USE OF JETTING TECHNIQUES MAY REQUIRE SPECIAL PERMITS AND MITIGATION
MEASURES BY LOCAL, STATE, AND FEDERAL AGENCIES.
5. CONCRETE: f c = 5,000 PSI (MIN.) AND W/C RATIO = 0.40 (MAX.)
6. PANEL MUST BE DESIGNED BY A CALIFORNIA LICENSED CIVIL OR STRUCTURAL ENGINEER. REV, 01117
CITY OF NEWPORT BEACH APPROVED
PRECAST REINFORCED PUBLIC WORKS DIRTC I OR
Drawn: R. OKADA
CONCRETE GROIN PANEL Date: JULY 2004 Scale: N.T.S.
(NOT FOR BULKHEAD USE) DRAWING NO. STD -600-L
2-#4 CONT. EPDXY-COATED PROPERTY, BULKHEAD
PER ASTM A934 OR OTHER BAYWARD
_ 8" _ LIMIT
8" CONCRETE BLOCK WALL ADDED \
TO TOP OF EXISTING BULKHEAD \ \ ELEVATION
+ 10.0 M.L.L.W.
#5 @ 24" O.C. DRILL AND EPDXY BARS PER
MANUFACTURER'S RECOMMENDATIONS INTO
EXISTING COPING
TOP OF IMPROVEMENTS
6"
MIN.
EXISTING TIE ROD
1 1/2" CHAMFER (TYPICAL)
#4 CONT. EPDXY COATED A934
CONCRETE: f'c = 5,000 PSI (MIN.)
W/C RATIO = 0.40 (MAX.)
00
W ..�
w
a_
2"
ROUGHEN FOR BOND
— -o AND APPLY EPDXY
EXISTING COPING
ALTERNATE"A"
(CONCRETE BLOCK)
#5 @ 24" O.C. DRILL AND EPDXY BARS PER
MANUFACTURER'S RECOMMENDATIONS
INTO EXISTING COPING 6„
TOP OF IMPROVEMENTS MIN.
EXISTING TIE ROD -
ALTERNATE "B"
(POURED -IN-PLACE CONCRETE)
NOTE:
EPDXY SHALL CONFORM TO ASTM C881 STANDARD AND BE
USED IN STRICT ACCORD WITH THE MANUFACTURERS PRINTED
INSTRUCTIONS.
CITY OF NEWPORT BEACH
DETAIL FOR RAISING
BULKHEADS
EXISTING BULKHEAD
PROPERTY, BULKHEAD
OR OTHER BAYWARD
LIMIT
ELEVATION + 10.0
M. L. L. W.
V)
W
H
ROUGHEN FOR BOND
AND APPLY EPDXY
BONDING AGENT PER
MANUFACTURER'S
RECOMMENDATIONS.
EXISTING COPING
EXISTING BULKHEAD
REV. 01/l7
APPROVED:
PUBLIC WORKS DIRF,CTOR II'
Drawn: R. OKADA
Dare:JULY2004 Scale: N.T.S.
DRAWING NO. STD -601-L
PUBLIC WORKS DIRECTOR
Drawn: ---
Date: "' Scale.
7
DRAWING NO. STD -602_L �,
A EXISTING CONCRETE COPING '
o (2) M.B.-
z' 3 TYR. 2"x10" TREADS W/ 8" z
-- -- - -
MAX. RISE SUPPORTED F
BY 2"x2"x9 1/2" CLEATS
n
(2x3"xl/9"-6"
-Rx0' -�
v � � W/ (3) 19x3" SCREWS
r
(2 -REQ) W/ (9J 1/2"m \
4.8 TVR
M.B. EA. BRACKET \ -
A -0" MIN./6'-0" MAX.
PLATFORM LENGTH ---
20 RAILINGS W/ (3)
16d AT EACH POST
t--
12" MAX. TYE.
^--
2'x8" W/ (9) 30D
@ ENDS
CROSS BRACING
. CLEATS
BELOW
�40 TVP � IXISTING SANOUNE TREADS
2x8
z
f
ELEVATION
PLAN
HANDRAIL -
IT. 9.00 M.L.L.W. (MIN.) A - '-h
TOP OF COPING --
DECK
2x6 CROSS - /
BRACING A
i
EXISTING
SANDLINE
SECTION A -A
NOTES
1. OVERALL PLATFORM SIZE (NOT INCLUDING STEPS) SHALL NOT BE GREATER THAN 22 SQ. ET.
2. ALL STRUCTURAL PLATFORM SUPPORTING MEMBERS BELOW ELEV 7.5 MLLW SHALL BE SUITABLE FOR MARINE ENVIRONMENT SUBMERSION INTO
HARBOR WATERS AS WELL AS SUBTERRANEAN EMBEDMENT INTO THE MUDFLATS. TREATED LUMBER IS NOT ALLOWED FOR THIS SERVICE,
UNLESS ENCAPSULATED IN AN IMPERVIOUS MEMBRANE. ALTERNATIVE OR COMPOSITE MATERIALS OR CONSTRUCTION CAN BE SUBMITTED FOR
CITY APPROVAL.
3. PLATFORM SHALL NOT BE ANCHORED TO COPING.
6. PRESERVATIVE TREATMENT FOR ALL LUMBER USED ABOVE ELEV ].S MLLW SHALL MEET STATE OF CALIFORNIA REQUIREMENTS.
S. ALL METAL CONNECTION PLATES SHALL BE GALVANIZED OR STAINLESS STEEL. ALL FASTENERS (LAG BOLTS, SCREWS AND/OR NAILS) SHALL BE
GALVANIZED STEEL, STAINLESS STEEL OR A PRODUCT SPECIFICALLY DESIGNED TO RESIST CORROSION IN THE MARINE ENVIRONMENT, AND
APPROVED BY THE CITY.
6. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER. SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
RFV. 01A 7
CITY OF NEWPORT BEACII APPROVED:
PUBLIC WORKS DIRECTOR
GRAND CANAL Drawn. R.OKADA 2004— Scale: N.T.S.
PLATFORM & STEPS - GAY
DRAWING NO.
STD'603-L �
30" MIN. —2x4 SHAPED AS SHOWN
CLEARANCE W/ 3-3" S.S. DECK
SCREWS TO POST TYP.
i
t
12' POST
36" MIN. MAX. - DECKING SHALL BE NON-SKID TYPE.
NP' ALTERNATIVES INCLUDE:
4" NOM. 1/2" HALF ROUND STRIPS 12"C -C;
7 3/4" PLYWOOD WITH GRITTED DECKING
TIE ROD @ 6'-0" - -till— 1/2"0 MACHINE BOLTS TYP.
SPACING MAX.
� BLOCKING (2x10 BRIDGING AT EA. POST)
SECTION A -A
NOTES:
1. TIMBER SHALL BE SELECT STRUCTURAL D.F. WITH A STATE OF CALIFORNIA -APPROVED PRESERVATIVE,
(ALLOWABLE BENDING STRESS, Fb = 1500 p.s.i.).
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A FIELD -APPLIED COAT OF PRESERVATIVE TREATMENT,
PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT -DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON
TIMBER, OR OTHER SURFACING DEEMED APPROPRIATE FOR THE INTENDED SERVICE BY THE CITY
OF NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL
LUMBER. SUBMIT PRODUCT SPECIFICATIONS TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. OPTIONAL GANGWAY TYPES:
ALUMINUM GANGWAYS WITH NON-SKID WALKING PLANKS ARE RECOMMENDED AS A SUBSTITUTE FOR
THE DETAILS NOTED IN THIS STANDARD. ALUMINUM GANGWAYS ARE NORMALLY PROVIDED BY
QUALIFIED DESIGN/BUILD ALUMINUM FABRICATORS.
7. FOR LENGTHS OVER 26', APPLICANT TO PROVIDE STRUCTURAL ENGINEERING CALCULATIONS.
_ REV. 01/17
CITY OF NEWPORT BEACH NPPROVED:
SINGLE OR JOINT
RESIDENTIAL USE GANGWAY
PUBLIC WORKS DIRECTOR
Drawn: K. UKAUA
DATE: JULY 2004 SC31e. N.T.S.
DRAWING NO. STD -604-L
A(__
24'-0" MINIMUM SPAN TO 26'-0" MAXIMUM SPAN (7)
6'-0" MAX _ 2"x4" S4S ROUNDED RAIL
4x4 S4S POSTS
1x4
f =
MIN. @ 6' O.C.
MID -RAILS
MAX.
5" MIN.
MAX.
STEP-OFF
(4) 2x10 (MAY BE CUT TO 5" AT ENDS)
= 7"
SEE STD -613-L.1 AND
— A TIE ROD LOCATIONS ROLLER
L.2 FOR GANGWAY
(ADJACENT TO EA. POST)
SUPPORT DETAIL
GANGWAY (USING STANDARD SAWN LUMBER STRINGERS)
SIDE ELEVATION (MAX. SLOPE FOR RESIDENTIAL USE = 1:2.5)
30" MIN. —2x4 SHAPED AS SHOWN
CLEARANCE W/ 3-3" S.S. DECK
SCREWS TO POST TYP.
i
t
12' POST
36" MIN. MAX. - DECKING SHALL BE NON-SKID TYPE.
NP' ALTERNATIVES INCLUDE:
4" NOM. 1/2" HALF ROUND STRIPS 12"C -C;
7 3/4" PLYWOOD WITH GRITTED DECKING
TIE ROD @ 6'-0" - -till— 1/2"0 MACHINE BOLTS TYP.
SPACING MAX.
� BLOCKING (2x10 BRIDGING AT EA. POST)
SECTION A -A
NOTES:
1. TIMBER SHALL BE SELECT STRUCTURAL D.F. WITH A STATE OF CALIFORNIA -APPROVED PRESERVATIVE,
(ALLOWABLE BENDING STRESS, Fb = 1500 p.s.i.).
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A FIELD -APPLIED COAT OF PRESERVATIVE TREATMENT,
PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT -DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON
TIMBER, OR OTHER SURFACING DEEMED APPROPRIATE FOR THE INTENDED SERVICE BY THE CITY
OF NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL
LUMBER. SUBMIT PRODUCT SPECIFICATIONS TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. OPTIONAL GANGWAY TYPES:
ALUMINUM GANGWAYS WITH NON-SKID WALKING PLANKS ARE RECOMMENDED AS A SUBSTITUTE FOR
THE DETAILS NOTED IN THIS STANDARD. ALUMINUM GANGWAYS ARE NORMALLY PROVIDED BY
QUALIFIED DESIGN/BUILD ALUMINUM FABRICATORS.
7. FOR LENGTHS OVER 26', APPLICANT TO PROVIDE STRUCTURAL ENGINEERING CALCULATIONS.
_ REV. 01/17
CITY OF NEWPORT BEACH NPPROVED:
SINGLE OR JOINT
RESIDENTIAL USE GANGWAY
PUBLIC WORKS DIRECTOR
Drawn: K. UKAUA
DATE: JULY 2004 SC31e. N.T.S.
DRAWING NO. STD -604-L
P. L.
I.0' MIN.-- —
CLEAR
VARIABLE
PROLONGATION
_
PROLONGATION OF P.L.
- 1-
z
-- - - GUIDEPILE d
\
4'-0" MIN. MIN. FINGER WIDTH -- -
VARIES WITH FINGER
LENGTH. SEE TABLE NO. 1
OF HARBOR DESIGN
CRITERIA
TOP OF
BULKHEAD ELEV.
10.0' M.L.L.W. -L.
MIN.
li
PLAN
PILECAP
CUT OFF PILE AT ELEV.
+12 00' M.L.L.W. - - -
GANGWAY CONCRETE- ----
AS PER STD -604-L PILE TYP.
u
11
-3.0 MLLW
- FLOAT OR SLIP
- - 2'-6" MIN.
i
ALTERNATE-
GANGWAY
LOCATION
(REQUIRES 4'
PLATFORM AT
CONCRETE PILE DESIGN
BULKHEAD
GUIDEPILE. SEE DOCK LAYOUT
FOR SUPPORT)
CASE 9B FOR ALLOWABLE PILE
--
-- -- _-- - - ---- OUTER LIMIT FOR WHEN A
' -GANGWAY (STD -604-L) "PROJECT LINE" APPLIES \
L
TOP OF
BULKHEAD ELEV.
10.0' M.L.L.W. -L.
MIN.
li
PLAN
PILECAP
CUT OFF PILE AT ELEV.
+12 00' M.L.L.W. - - -
GANGWAY CONCRETE- ----
AS PER STD -604-L PILE TYP.
u
11
-3.0 MLLW
SAND LINE-- \
MIN. OR
LOWER
CONCRETE PILE DESIGN
' z
--
__
AND PENETRATION BY A
PROFILE CALIFORIA LICENSED
L
CIVIL ORNSTRUCTURAL
ENGINEER
z
=
f1f
NOTES:
1. TIMBER SHALL BE SELECT STRUCTURAL
D.F. TREATED WITH PRESERVATIVE APPROVED BY THE STATE OF CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL
3 FASTENERS SHALL BE STAINLESS
RECEIVE A BRUSH COAT OF PRESERVATIVE TREATMENT PER STATE AND FEDERAL GUIDELINES,
HOT DIP GALVANIZED OR EPDXY COATED
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON TIMBER, OR OTHER SURFACING
DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CRY OF NEWPORT BEACH.
S. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER, SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. SEE STD -604-L &HARBOR DESIGN CRITERIA FOR GANGWAY DESIGN REQUIREMENTS.
Z. LOCATION OF PLATFORM, GANGWAY, SLIP & FLOATS IS OPTIONAL PROVIDING PROPER SETBACKS ARE MAINTAINED. REV0 j17
CITY OF NEWPORT BEACH APPROVE
O
SINGLERESIDENTIAL USE Drawn ROKAD UBL,< >RKS DURLCTO,t
FLOAT WITHOUT PIER -
Date JULY 200�- Scale: N.T.S.
DRAWING NO. STD -605-L
_ 30' _MAXIMUM
1$'_MINIMUM __ VARIES
P.L. _PROLONGATION OF P.L.
w
1 z
Fa
3 PILE GUIDE TYP.
a FOR DETAIL SEE
STD-614-L�- - --
J
al
GANGWAY (STD -604-L)
FLOAT
PLAN
TOP OF
BULKHEAD ELEV.
10.0' M.L.L.W.
MIN. �
LVARIES— -
5 3 0M.I I�
(MIN.) OR LOWER I
0
i Q
En LU
Z
Enz
PROFILE
NOTES:
/jCUT OFF PILE AT ELEV.
+12.00' M.L.L.W.
--CONCRETE
PILE TYP.
GANGWAY
AS PER STD -604-L
FLOAT
- II FREEBOARD
PER
DESIGN
CRITERIA
1
I. TIMBER SHALL BE SELECT STRUCTURAL D.F. TREATED WITH PRESERVATNE APPROVED BY THE STATE OF CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A BRUSH COAT OF PRESERVATNE TREATMENT PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT -DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON TIMBER, OR OTHER SURFACING
DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CITY OF NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER. SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
6.SEE STD -604-L & HARBOR DESIGN CRITERIA FOR GANGWAY DESIGN REQUIREMENTS.
7. LOCATION OF PLATFORM, GANGWAY, SLIP & FLOATS IS OPTIONAL PROVIDING PROPER SETBACKS ARE MAINTAINED.
CITY OF NEWPORT BEACH APPROVED:
m
PUBLIC WORKS DIRECTOR
SINGLE RESIDENTIAL USE FLOAT Drawn:ROKADA oRL�:rocYzooa .
Scale: N.T.S.
WEST NEWPORT CHANNELS
DRAWING NO. STD -606-L
P. L.
PROLONGATION OF P.L.
a w
�a �CY
PLATFORM
z OPTIONAL
PIER GANGWAY
GUIDEPILE. SEE DOCK LAYOUT CASE 9B---,
FOR ALLOWABLE PILE OUTER LIMIT FOR
WHEN A "PROSECT LINE" APPLIES
/ VARIABLE
FLOAT OR SLIP
3'CLR MIN.
8'-0" MIN. T CLR MIN.
VARIABLE VARIABLE MAIN ACCESS FLOAT
AREA OF PLATFORM \
SHALL NOT EXCEED _
RAILINGS SHALL 170 SQ. FT.
COMPLY WITH STATE
OF CALIFORNIA TITLE ALL COMMERCIAL GANGWAYS
J
0
MIN. FINGER WIDTH VARIES —
w
x
STANDARDS OF THE CITY OF
PLAN WITH FINGERLENGTH. SEE
a
TOP OF
NEWPORT BEACH, IN
J
z
m
CONFORMANCE WITH
DESIGN CRITERIA.
z
ELEV. 10.0'
FEDERAL ADAGG /
PROFILE
o
M.L.L.W. MIN.
REQUIREMENTS
24 REQUIREMENTS-
SHALL MEET CURRENT ADA
MIN. FINGER WIDTH VARIES —
SAND LINE
STANDARDS OF THE CITY OF
PLAN WITH FINGERLENGTH. SEE
1 `
TOP OF
NEWPORT BEACH, IN
1
z
BULKHEAD
CONFORMANCE WITH
DESIGN CRITERIA.
z
ELEV. 10.0'
FEDERAL ADAGG /
PROFILE
o
M.L.L.W. MIN.
REQUIREMENTS
CUT OFF PILE AT ELEV,
w
WATER
+12.00' M.L.L.W. x
CONCRETE ---
PILE TYP.
1. TIMBER SHALL BE SELECT STRUCTURAL D.F. TREATED WITH PRESERVATIVE APPROVED BY THE STATE OF CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A BRUSH COAT OF PRESERVATIVE TREATMENT PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT -DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GREE ON TIMBER, OR OTHER SURFACING
DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CITY OF NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER. SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. COMMERCIAL PIERS, GANGWAYS, FLOATS AND PILES TO BE DESIGNED BY A CALIFORNIA LICENSED CIVIL OR STRUCTURAL ENGINEER.
7. LOCATION OF PLATFORM, GANGWAY, SLIP & FLOATS IS OPTIONAL PROVIDING PROPER SETBACKS ARE MAINTAINED.
CITY OF NEWPORT BEACH
COMMERCIAL PIER &
FLOAT INSTALLATION
APPROVED:
I
REV. 01/I7
PUBLIC WORKS DIRECTOR
Drawn: R OKADA
Date IU LY 2004 Scale: N.T.S. j
DRAWING NO. STD -607-L
SAND LINE
1 `
z'
it
J
Q li
N
lO Z
UZ Q
J
1 w
� Q �
Z U
VARIABLE
W
�zoaa
PROFILE
�a��U-1
NOTES:
1. TIMBER SHALL BE SELECT STRUCTURAL D.F. TREATED WITH PRESERVATIVE APPROVED BY THE STATE OF CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A BRUSH COAT OF PRESERVATIVE TREATMENT PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT -DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GREE ON TIMBER, OR OTHER SURFACING
DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CITY OF NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER. SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. COMMERCIAL PIERS, GANGWAYS, FLOATS AND PILES TO BE DESIGNED BY A CALIFORNIA LICENSED CIVIL OR STRUCTURAL ENGINEER.
7. LOCATION OF PLATFORM, GANGWAY, SLIP & FLOATS IS OPTIONAL PROVIDING PROPER SETBACKS ARE MAINTAINED.
CITY OF NEWPORT BEACH
COMMERCIAL PIER &
FLOAT INSTALLATION
APPROVED:
I
REV. 01/I7
PUBLIC WORKS DIRECTOR
Drawn: R OKADA
Date IU LY 2004 Scale: N.T.S. j
DRAWING NO. STD -607-L
AREA OF PLATFORM SHALL NOT GUIDEPILE. SEE DOCK LAYOUT
EXCEED 170 SQ. FT. CASE 9B FOR ALLOWABLE PILE
OUTER LIMIT FOR WHEN A
/ PROLONGATION OF P.L. "PROJECT LINE" APPLIES
----- -- -
------ - -- -
---------------------
Z, z
(STD -610-1.)£I, � GANGWAY (STD-604-L)PIER
FOR PILE
GUIDE DETAIL
,VARIABLE SEE STD -614-L.
I
FOR RAILING
CONSTRUCTION SEE
TOP OF
BULKHEAD ELEV.
10.0' M.L.L.W.
MIN,
VARIABLE
NOTES:
1. TIMBER SHALL BE SELECT STRUCT. D.F. TREATED WITH PRESERVATIVE APPROVED BY THE STATE OF CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A BRUSH COAT OF PRESERVATIVE TREATMENT PER STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON TIMBER, OR OTHER SURFACING
DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CRY OF NEWPORT BEACH.
S. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER. SUBMIT PRODUCT SPECIFICATIONS
TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. SEE STD -604-L & HARBOR DESIGN CRITERIA FOR GANGWAY DESIGN REQUIREMENTS.
]. LOCATION OF PLATFORM, GANGWAY, SLIP & FLOATS 15 OPTIONAL PROVIDING PROPER SETBACKS ARE MAINTAINED.
8. UNDER EXTREME LOW WATER CONDITIONS, PONTOON MAY CONTACT MUDLINE. VERIFY IF PONTOONS AND DOCK SYSTEM CAN WITHSTAND THIS STRESS.
WATER -
SURFACE\
-3.0 M.L.L.`K�.
(MIN,) n
SEE NOTE 8
BELOW i
�i
FLOAT OR SLIP
4'MIN.�
F-
LD
z
w
a
MIN. FINGER WIDTH VARIES
TH FINGER LENGTH.
PLAN AB E NO.1 OF HAR OREE
+12.00' M.L.L.W.
GANGWAY
AS PER STD -604-L
PROFILE
1� l -
CONCRETE PILE TYP.
FLOAT INSTALLATIONS
PER DESIGN CRITERIA - -
SAND LINE
CITY OF NEWPORT BEACH APPROVED:
SINGLE RESIDENTIAL USE
FLOAT WITH PIER
REV. 0
PUBLIC WORKS EHRECTOR
Drawn: ROKADA Scale: NTAT T
Date: JULY 2004 Scale. .T. C� �'
II', DRAWING NO. STD -608-L
_ - VARIABLE. DEPENDENT ON -
TOTAL AREA OF PLATFORM
TOP RAIL (ROUNDED)
MID -RAILS
' 12" MAX.
OPENING TYP.
3X4 S4S POSTS
@ 5' O.C. MAX. TYP.
i
3 1/2"
JOISTS M 1/2" m MIN. BOLTS WITH
—2" DIA. WASHERS, TYP.
;-DECKING
I
¢ _._ __ HIGH WATER
PILECAP
�3/4' DIA. X d - (NTS)
24" A.B. MIN, PRECAST CONCRETE— -- 6" CLR
PILE TYP.
LOW WATER
(NTS)
TYPICAL PLATFORM SECTION
NOTES:
1. TIMBER SHALL BE SELECT STRUCT. D.F. TREATED WITH PRESERVATIVE APPROVED BY THE STATE OF
CALIFORNIA.
2. FIELD CUTS AND BORED HOLES SHALL RECEIVE A BRUSH COAT OF PRESERVATIVE TREATMENT PER
STATE AND FEDERAL GUIDELINES.
3. FASTENERS SHALL BE STAINLESS, HOT DIP GALVANIZED OR EPDXY-COATED STEEL.
4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER, GRIT ON
TIMBER, OR OTHER SURFACING DEEMED APPROPRIATE FOR THE INTENDED SERVICE, BY THE CITY OF
NEWPORT BEACH.
5. NON-STRUCTURAL MEMBERS MAY BE ALTERNATIVE MATERIALS SUCH AS PLASTIC DIMENSIONAL LUMBER.
SUBMIT PRODUCT SPECIFICATIONS TO CITY OF NEWPORT BEACH FOR APPROVAL.
6. JOIST SPLICES ARE NOT PERMITTED BETWEEN PILES.
7. DESIGN TO BE BY CALIFORNIA LICENSED CIVIL OR STRUCTURAL ENGINEER.
CITY OF NEWPORT BEACH
SINGLE OR JOINT RESIDENTIAL
USE PLATFORM SECTION
REV. 01/17
APPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA Date: JULY 2004 Scale: N.T.S.S
DRAWING NO. STD_609-L
6'-0" MAX.
3x RS
NAILER
T512x6
PILE CAP
PILE �� TOP PL.
r
SECTION A -A SECTION B -B
NOTES:
1. ALL STEEL COMPONENTS SHALL BE MINIMUM ASTM A36 (MIN. Fy = 36 KSI). ALL SFEEL PIPE PILES SHALL BE ASTM A53,
GR B MATERIAL (MIN. Fy = 35 KSI).
2. ALL TIMBER SHALL BE TREATED PER ACCEPTED STATE OF CALIFORNIA REQUIREMENTS.
III 3. BRACKETS AND FASTENERS FOR TIMBER FRAMING SHALL BE HOT -DIP GALVANIZED, EPDXY-COATED OR STAINLESS
STEEL. CONNECTORS TO BE )'a" MIN. THICKNESS.
ISI 4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER.
5. ALL TIMBER PLATFORM FRAMING AND RAILINGS SHALL BE DESIGNED BY A LICENSED ENGINEER AND ARE NOT DETAILED
IN THIS STANDARD.
6. TIMBER STRINGER SPLICES ARE NOT PERMITTED BETWEEN PILES.
ill 7. NO COATING ON STEELWORK 4" FROM WELDED PARTS (PILE AND CAP) TO ALLOW FOR FIELD WELDING. TOUCH-UP THIS
UNCOATED AREA AFTER FABRICATION PER MANUFACTURERS RECOMMENDATIONS, INCLUDING SURFACE PREPARATION,
IF PILES REQUIRE CUTOFF DUE TO SUFFICIENT BLOW COUNTS PRIOR TO OBTAINING TIP ELEVATION, REMOVE COATING
IN UPPER 4" OF PILE TO ALLOW FIELD WELDING.
B. FOR ADDITIONAL CORROSION RESISTANCE, THE APPLICANT MAY WISH TO CONSIDER INSTALLING A PASSIVE OR ACTIVE
CATHODIC PROTECTION SYSTEM.
li 9. AN ENGINEER LICENSED IN THE STATE OF CALIFORNIA SHALL VERIFY PILE SIZE AND TYPE, AS WELL AS EMBEDMENT.
TYPICAL PIER SECTION
(OPTION AT LOCATIONS OF SHALE AND/OR HARD SUBSURFACE \
MATERIALS NOT SUITABLE FOR CONCRETE PILES) 1
SCALE: N.T.S. 9
CITY OF NEWPORT BEACH
TYPICAL PIER SECTION
(ALTERNATE)
REV. 01/17
APPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA Swcale. N �
Date: AUG 2004 N.T.S.
DRAWING NO. STD -610-L.2
I
L
RS OF NAILER
x�
PIE0. FRAMING, DECKING &
pIr
GUARDRAILS TO BE
DESIGNED BY ENGINEER
0
L
F
(SEE NOTE 5)
B
OD THREADED
;o
RODS WELDED
TO TS CAP
A
A
J 1�
/q D J
TS12x6xY PILE CAPWELDE
CLOSURE PLATE TYP.
B
ASSUMED
�L.
STEEL PIPE PILE (WALL THICKNESS = yi' MIN.)
STEEL CAP PLATE
(MAX. 20'-0" PILE SPACING, MIN. IS' -0" EMBED.
BELOW MUDLINE ASSUMED) - SHOP COAT
7OUTSIDE
SURFACE OF PIPE W/ AN EPDXY
.0
COATING W/ SPECIFIC PERFORMANCE
SPECIFICATIONS FOR THE MARINE ENVIRONMENT
1/4
PER MANUFACTURER'S RECOMMENDATIONS
(AMERLOCK 400 OR EQUAL). SEE NOTE 7.
3x RS
NAILER
T512x6
PILE CAP
PILE �� TOP PL.
r
SECTION A -A SECTION B -B
NOTES:
1. ALL STEEL COMPONENTS SHALL BE MINIMUM ASTM A36 (MIN. Fy = 36 KSI). ALL SFEEL PIPE PILES SHALL BE ASTM A53,
GR B MATERIAL (MIN. Fy = 35 KSI).
2. ALL TIMBER SHALL BE TREATED PER ACCEPTED STATE OF CALIFORNIA REQUIREMENTS.
III 3. BRACKETS AND FASTENERS FOR TIMBER FRAMING SHALL BE HOT -DIP GALVANIZED, EPDXY-COATED OR STAINLESS
STEEL. CONNECTORS TO BE )'a" MIN. THICKNESS.
ISI 4. WALKING SURFACES SHALL HAVE A SKID -RESISTANT FINISH, SUCH AS UNPAINTED TIMBER.
5. ALL TIMBER PLATFORM FRAMING AND RAILINGS SHALL BE DESIGNED BY A LICENSED ENGINEER AND ARE NOT DETAILED
IN THIS STANDARD.
6. TIMBER STRINGER SPLICES ARE NOT PERMITTED BETWEEN PILES.
ill 7. NO COATING ON STEELWORK 4" FROM WELDED PARTS (PILE AND CAP) TO ALLOW FOR FIELD WELDING. TOUCH-UP THIS
UNCOATED AREA AFTER FABRICATION PER MANUFACTURERS RECOMMENDATIONS, INCLUDING SURFACE PREPARATION,
IF PILES REQUIRE CUTOFF DUE TO SUFFICIENT BLOW COUNTS PRIOR TO OBTAINING TIP ELEVATION, REMOVE COATING
IN UPPER 4" OF PILE TO ALLOW FIELD WELDING.
B. FOR ADDITIONAL CORROSION RESISTANCE, THE APPLICANT MAY WISH TO CONSIDER INSTALLING A PASSIVE OR ACTIVE
CATHODIC PROTECTION SYSTEM.
li 9. AN ENGINEER LICENSED IN THE STATE OF CALIFORNIA SHALL VERIFY PILE SIZE AND TYPE, AS WELL AS EMBEDMENT.
TYPICAL PIER SECTION
(OPTION AT LOCATIONS OF SHALE AND/OR HARD SUBSURFACE \
MATERIALS NOT SUITABLE FOR CONCRETE PILES) 1
SCALE: N.T.S. 9
CITY OF NEWPORT BEACH
TYPICAL PIER SECTION
(ALTERNATE)
REV. 01/17
APPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA Swcale. N �
Date: AUG 2004 N.T.S.
DRAWING NO. STD -610-L.2
NEW PILE 4 1
CAP--�
NEW
PH
I�,
/��
CONCR
CONCRETE PANEL
� �\
WEEP HOLE
MUDLINE
ELEVATION
BOTTOM OF
NEW PANEL -
SECTION AT BULKHEAD �-j
SCALE: NOT TO SCALE �� J
2'-6" MIN.
2.. —BOTTOM SIDE AS STRANDS EQUALLY
CLR. CAST EARTH SIDE SPACED TYR
CHAMFER AS INSTALLED
TYR-1" TIES, SEE ELEV.
/-/ u
i
� o a
GROUT /� �G �-� WATERSROUT
SLOT n" REPIF,
-G
lEx" I SIDE REINF - CUR. SLOT 3/4"
RAD. RAD.
G PANEL
PRECAST(PRESTRESSED)PANEL SECTION°'/s-,
SCALE: N.T.S. �J
NOTE_
1. DIMENSIONS AND SIZES NOTED TO BE
CONFIRMED OR AMENDED BY THE
ENGINEER OF RECORD.
CITY OF NEWPORT BEACH
—L�
4 PANEL
KEINE (EPDXY- 1'-9" / 1'-9" 4 1/2"
COATED) CLR.
2" o
u GLR \// O
REINFORCING BY
DESIGN ENGINEER
I
PRECAST (PRESTRESSED)PANEL ELEVATIONP1
( WATER SIDE)
SCALE: N.T.S. �J
REV. 01/17
APPROVED
BULKHEAD& PRECAST PANEL - Draw n: R. OKADA PUBLIC WORKS DIRECTOR
SECTIONS &ELEVATION °"` AUG 2004 I Scale: As Noted I
DRAWING NO. STD_611 _L.1
X
ANCHOR
+ L�
THREADBAR, GRADE 150,
ASTM A722 IN
CORRUGATED PVC
�- - - SHEATHING. SHOP
3" GROUT, ROD SHALL BE
ROUGHEN SURFACE - / CCR POST -TENSIONED PER
(FOUR SIDES) TYP, ENGINEER OF RECORD
OR REQUIREMENTS
TIES (EPDXY COATED) REINF.
(EPDXY-COATED)
PRECAST SHEET PANEL
AND DOWELS
(EPDXY-COATED). SEE
DETAILS 2 & 3
WATER SIDE
- EARTH SIDE
X NOTE:
THE 2'-0" CAP WIDTH IS A MINIMUM DIMENSION AND DOES NOT ALLOW FOR MISALIGNMENT
OF CONCRETE PANEL, CONTRACTOR SHALL MAKE ALL NECESSARY ADIUSTMENTS TO THE CAP
WIDTH TO MAINTAIN INDICATED CLEARANCES. WIDTH OF CAP SHALL BE MAINTAINED FOR
THE ENTIRE LENGTH OF NEW CAP.
GENERAL NOTE:
REINFORCEMENT, WALL DIMENSIONS AND THICKNESSES TO BE DESIGNED FOR THE SPECIFIC
SUE CONDITIONS AND LOADS.
SECTION AT BULKHEAD CAP (STRESSING END)`"/-4-'�
SCALE: 3/4" = I'-0"
VARIES
(3'-0" MIN.)
a
REINF. BARS
VERT SPACED
EQUALLY
BETWEEN
ANCHOR ROD, C
EACH FACE Q p
(EPDXY-COATED)i
4
•
O
FINISH SURFACE
CUR
TYP
REINF.
CHAMFER TO
\
(EPDXY-moo
COATED)
MATCH EXISTING
PVC PIPE, SOLID
FINISH SURFACE
FILL POCKET
WITH GROUT
,�
.7/7
'/GROUT TUBE, CUT -
AFTER STRESSING
•:
OFF FLUSH AND
ROD
THREAD BAR, GRADES
PATCH AFTER PROPER
150, ASTM A722
�.
w
•� 9 INSTALLATION
MIN.
PVC PIPE, FILL SOLID
WITH GROUT AFTER
STRESSING
+ L�
THREADBAR, GRADE 150,
ASTM A722 IN
CORRUGATED PVC
�- - - SHEATHING. SHOP
3" GROUT, ROD SHALL BE
ROUGHEN SURFACE - / CCR POST -TENSIONED PER
(FOUR SIDES) TYP, ENGINEER OF RECORD
OR REQUIREMENTS
TIES (EPDXY COATED) REINF.
(EPDXY-COATED)
PRECAST SHEET PANEL
AND DOWELS
(EPDXY-COATED). SEE
DETAILS 2 & 3
WATER SIDE
- EARTH SIDE
X NOTE:
THE 2'-0" CAP WIDTH IS A MINIMUM DIMENSION AND DOES NOT ALLOW FOR MISALIGNMENT
OF CONCRETE PANEL, CONTRACTOR SHALL MAKE ALL NECESSARY ADIUSTMENTS TO THE CAP
WIDTH TO MAINTAIN INDICATED CLEARANCES. WIDTH OF CAP SHALL BE MAINTAINED FOR
THE ENTIRE LENGTH OF NEW CAP.
GENERAL NOTE:
REINFORCEMENT, WALL DIMENSIONS AND THICKNESSES TO BE DESIGNED FOR THE SPECIFIC
SUE CONDITIONS AND LOADS.
SECTION AT BULKHEAD CAP (STRESSING END)`"/-4-'�
SCALE: 3/4" = I'-0"
VARIES
(3'-0" MIN.)
a
REINF. BARS
VERT SPACED
EQUALLY
BETWEEN
ANCHOR ROD, C
EACH FACE Q p
(EPDXY-COATED)i
4
•
O
FINISH SURFACE
CUR
TYP
1
ANCHOR PL. o +\
\
a
PVC PIPE, SOLID
GROUTED AFTER
CONCRETE DEADMAN SECTION
STRESSINGi \/
4
(FIXED END) /\
n
•
SCALE: N.T.S.
4 •
1
ANCHOR PL. o +\
PVC PIPE, SOLID
GROUTED AFTER
CONCRETE DEADMAN SECTION
STRESSINGi \/
4
(FIXED END) /\
n
-�- x"
SCALE: N.T.S.
�✓/i�
THREAD BAR, GRADES
150, ASTM A722
NOTE:
1. DIMENSIONS AND SEES NOTED T BE CONFIRMED
1J
OR AMENDED BY THE ENGINEER OFF RECORD.
SIM.
2. DETAILS OF THREADBAR, ENCASEMENT, ANCHOR
PLATES, NUTS, WASHERS AND POCKETS MAY
DIFFER FROM MANUFACTURER TO MANUFACTURER.
DETAIL (FIXED END)0) �e1
SCALE: N.T.S.
REV. (fl/Ii
CITY OF NEWPORT BEACH
APPROVED:
PUBLIC WORKS DIRECTOR
BULKHEAD CAP & DEADMAN — DTRWB:R.OKAOA—
SECTIONS &DETAIL
—Date :AUG z°°4 Scale: As Noted
DRAWING NO. STD -61 I —L.2
.I
- MECHANICALLY ATTACH
T-0" MIN.
FABRIC TO WALL AT TOP &
WATER SIDE-
NEW CONC CAP �
/ BOTT, ALLOWING FOR
LONG-TERM MOVEMENT
#3 CONCRETE
�!� FILTER FABRIC ALLOWING
AGGREGATE
��� `� TATER FLOW WITHOUT
RANSMITTING
FINE
\/ v
WEEP H00
EARTHEN MATERIALS
WEEP HOLE, 3"0 PVC 3
@ 12'-0" O.
SCK 80 PIPE W/
FILTER CAP TO
a
\�/
+3.0-� �i/
#3 CONCRETE
9
PREVENT 05 0E
� D
AGGREGATE
FINE-GRAINED��/
MATERIAL
., �/�
#4 CONCRETE
; I
AGGREGATE
#4 CONCRETE - -
- -- --' �/��
VERIFY HOLE DIAMETER
AGGREGATE\
WITH EPDXY GROUT
MANUFACTURER.
WATERSIDE
-
ELEVATION
SCALE: 3/4"=l'-0"
WEEP HOLE SECTION
�1
SCALE: AS SHOWN
�J
.I
T-0" MIN.
NEW CONC CAP �
a
REFER TO DETAIL' \ °�•
DOWELS WITH HOOKS
(EPDXY COATED)
n
"
� D
w
EPDXY GROUT.
ANNULAR SPACE
AROUND REBAR.
VERIFY HOLE DIAMETER
WITH EPDXY GROUT
MANUFACTURER.
_�L
EXIST. CONC.
PANEL
SECTION AT BULKHEAD DOWELS ,\�/
SCALE: 1/2' = V-0" \/
CITY OF NEWPORT BEACH
BULKHEAD
SECTIONS & DETAILS
STEEL PIPE
PLAN
SCALE: NOT TO SCALE
PVC PIPE
ANCHOR-//J�
PLATE POLYETHYLENE
TAPE
NOTE:
PLATE DETAIL AT STRESSING END (CAP) SHOWN,
PLATE DETAIL, SIMILAR AT FIXED END (DEADMAN)
DETAIL q
SCALE: 1 1/2" = t'-0"
REV. Q(/(%
F\JJR81Yi6
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA j
Date: AUG 2004 Scale: As Noted
DRAWING NO. STD -611-L.3
U U Q
> v= EPDXY
f \ TANGENT TO O.D.
i I
1 3/4" O.D. MIN EXISTING COPING
_6" SHANK LENGTH
1" I.D. MIN. EYE BOLT
(SHORE MOORING)
DOCK CLEAT
(TYPICAL DOCK MOORING CLEAT)
NOTES
1. EYE BOLT SHALL BE FABRICATED OF STAINLESS OR GALVANIZED STEEL.
2. EPDXY SHALL CONFORM TO ASTM C881 STANDARD, OR SHALL BE AN EPDXY FORTIFIED
GROUT INTENDED TO BE USED FOR PERMANENT ANCHORAGE OF EQUIPMENT, AND
SHALL BE APPLIED IN ACCORDANCE WITH MANUFACTURER'S WRITTEN INSTRUCTIONS.
3. DOCK CLEATS SHALL BE GALVANIZED CAST METAL WITH HEX -HEAD THRU-BOLTS CONNECTED
INTO THE TIMBER FRAMING WITH WASHER AND NUT, ALL GALVANIZED.
4. DIAMETER OF THRU-BOLT PER CLEAT MANUFACTURER RECOMMENDATIONS.
5. CLEAT AND BOLT SIZES BY DESIGN ENGINEER. _ _ _REV. 01/I7_
CITY OF NEWPORT BEACH
araaovr D
I'11H1 IC WORKS DIRT {'[OR
EYE BOLT OR CLEAT Drm, n R.OKADA
FOR BOAT ANCHORAGE °°"�"'LY °°' Scale: N.T.S.
-
DRAWING NO. STD -61 2-L
1 1/2"0 -- --
STD PIPE
A pP,
-- FACE OF /
3" `
CONCRETE 101•
: - HANGER
BULKHEAD
SEE
:1.
STD -613-L2
HANGER --
SEE STD -613-L2
--- BRACKET
A ` TYP. /
/
6p'
NOTE:
1 1/2"0 PIPE AND - 2x GANGWAY
"KEEPER" PLATE NOT - STRINGERS TYP.
SHOWN FOR CLARITY.
PARTIAL PLAN AT
GANGWAY
1 1/2"0
STD PIPE
/ / 1 1/2"
4 1/2"
NOTES:
j
1. ALL STEEL SHALL BE
11/16"0 HOLES\
_
GALVANIZED.
�� FOR 5/8"0 M.B. 6
3/16 ,�
2. PROVIDE ONE
BRACKET PER..-,
GANGWAY STRINGER. 3/16" BENT PL-- /
/ GANGWAY
4„
STRINGER
3/16" PL
DETAIL A - GANGWAY BRACKET
REU.0117_
CITY OF NEWPORT BEACII
`PF"°N `°'
RESIDENTIAL GANGWAY''�""`"°"K'°'R'`I°"
�����,�, R o�:a.on Scale: N.T.S.
BRACKET -TYPICAL (CONCEPT)
DRAWING NO. STD -613-L.1
- - 1/2"0 EPDXY ANCHORS (4
PER HANGER ASSEMBLY)
INTO EXISTING BULKHEAD,
5" MIN. EMBEDMENT TYP.
SEE NOTE 3.
----- -- - —�. 3/16" PL
- - ---------:. -
---------------------
Y f � 3/8"x T' CURVED PLATE
f
v A
----A-3/
3/16 j
NOTE:
1 1/2"0 PIPE AND 3/16 -1/4 PL
-
"KEEPER" PLATE NOT
SHOWN FOR CLARITY. --
---- ---- FACE OF EXISTING
CONCRETE BULKHEAD
PLAN DETAIL - GANGWAY HANGER
TOP OF EXISTING -
CONCRETE BULKHEAD
z -_- -- 1 1/2"0 STD PIPE
KEEPER" o
COVER PLATE 3/8"x Z" CURVED PL
3/16" PL
z.
f
3/16 i
-- — -- ---_- -_ 1/4" PL
NOTES:
1/2"0 EPDXY ANCHORS (4
1. ALL STEEL SHALL BE GALVANIZED. PER HANGER ASSEMBLY)
INTO EXISTING BULKHEAD,
2. ONE HANGER SHOWN; TWO REQUIRED. 5" MIN. EMBEDMENT TYP.
SEE NOTE 3.
3. FOR EXISTING BULKHEADS THAT ARE NOT
CONCRETE, CONNECTION SHALL BE FACE OF EXISTING
DETERMINED BY A LICENSED ENGINEER. CONCRETE BULKHEAD
DETAIL A - GANGWAY HANGER
REV. 01/17
CITY OF NEWPORT BEACH XPPk0%11)
RESIDENTIAL GANGWAY'1113"` "°"KS°'K"[OR
Dr;nm�. R. OKADA
HANGER - TYPICAL (CONCEPT) DateJULY 2004 Scale: N.T.S.
DRAWING NO. STD -613—L.2
CONNECTED PARTS, UNLESS
-
OTHERWISE NOTED. FACE OF PILE
3. ALL PLATES TO BE 3/8"
THICKNESS, UNLESS
OTHERWISE NOTED. 1" RECESS/ I1I
\V --
u - .
Y
•- o
SITE PLAN OVERVIEW
KEY PLAN
PUBLIC WORKS DIRECTOR
- - ---11/16"0 HOLES FOR
UHMW RUB-- -
DRAWING NO.
1 3/4" 5/8"0 BOLTS, TYP.
BLOCK TYP.
2 1/4"------ -.`
TYP.
TYP.
----(1)-5/8"O LAG BOLT
-�-�
(5" MIN. EMBED) TYP.
L3x3x1/4 _ �
3..
TYP.: -
,, --
,-- 6x3x1/4" PL W/
BEVELED EDGES TYP.
-5/8"0 THRU-
d\
_ -- - -
BOLT TYP.
A
w A�
PILE =
- ��
UHMW RUB -
1" CLR MAX. TYP.
`_
---
-
-L5x3x1/4
L3x3x1/4_
�TYp
NOTES: TYP.�
3/16,//
1 1/2"
1. ALL STEEL ANGLES, PLATES AND
TYP.
CONNECTIONS SHALL BE GALVANIZED.
PLAN
FACE OF BEAM
2. ALL WELDING TO BE 3/16" FILLET
WELDS ALL AROUND BETWEEN
'
CONNECTED PARTS, UNLESS
-
OTHERWISE NOTED. FACE OF PILE
3. ALL PLATES TO BE 3/8"
THICKNESS, UNLESS
OTHERWISE NOTED. 1" RECESS/ I1I
\V --
u - .
Y
•- o
SITE PLAN OVERVIEW
KEY PLAN
EDGE OF DOCK
PL & LAG BOLT
BEYOND. LAG INTO
BOTH DECKING AND
FRAMING MEMBERS,
WHERE POSSIBLE.
DECKING
DOCK FRAMING
L5x3 -- -- THRU-BOLTS
SECTION A -A
PILE GUIDE RUB BLOCK TYPICAL DETAIL
(CONDITION W/ GUIDE FRAME SUPPORTED ON ONE SIDE ONLY)
CITY OF NEWPORT BEACH
PILE GUIDE RUB BLOCK
TYPICAL DETAIL (CASE I)
.APPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA
- _ Date: JULY 2004
Scale: N.T.S.
DRAWING NO.
STD -614-L
i
UHMW RUB -
BLOCK
EDGE OF DOCK
PL & LAG BOLT
BEYOND. LAG INTO
BOTH DECKING AND
FRAMING MEMBERS,
WHERE POSSIBLE.
DECKING
DOCK FRAMING
L5x3 -- -- THRU-BOLTS
SECTION A -A
PILE GUIDE RUB BLOCK TYPICAL DETAIL
(CONDITION W/ GUIDE FRAME SUPPORTED ON ONE SIDE ONLY)
CITY OF NEWPORT BEACH
PILE GUIDE RUB BLOCK
TYPICAL DETAIL (CASE I)
.APPROVED:
PUBLIC WORKS DIRECTOR
Drawn: R. OKADA
- _ Date: JULY 2004
Scale: N.T.S.
DRAWING NO.
STD -614-L
NOTES:
1. ALL STEEL ANGLES, PLATES AND
CONNECTIONS SHALL BE GALVANIZED.
2. ALL WELDING TO BE 3/16" FILLET
WELDS ALL AROUND BETWEEN
CONNECTED PARTS, UNLESS
OTHERWISE NOTED,
3. ALL PLATES TO BE 3/8"
NLESS
PLAN
- FACE OF PILE
- /-3"
2" 1"
THICKNESS, U 1" RECESS
OTHERWISE NOTED.
-- z
G
SITE PLAN OVERVIEW
KEY PLAN
UHMW RUB --
BLOCK
L3x3 - -
SECTION A -A
3/16 / TYP.
TOP OF WOOD
DECK
DOCK FRAMING
THROUGH BOLT
PILE GUIDE RUB BLOCK TYPICAL DETAIL
(CONDITION W/ SUPPORT ALL AROUND GUIDE FRAME)
REV. 01/17
CITY OF NEWPORT BEACH
APPROVED.
PILE GUIDE RUB BLOCK" "OKKSDIRI(MR
Drawn'. R. OKADA
TYPICAL DETAIL (CASE II) Datc:JULY 2004 Scale: N.T.S.
DRAWING NO. STD -615-L
2 1/4"
UHMW RUB
- TYP.
BLOCK TYP.
1 3/4"
/././
TYP.
L3x3x1/4
//
Typ.
GALV. TYP.
- -
P' CLR.
MAX. TYP.
PILE
a
CY
11/16"0 HOLES
- _-'O
o
FOR 5/8"0
- -- -
A
BOLTS, TYP.
(D (D
NOTES:
1. ALL STEEL ANGLES, PLATES AND
CONNECTIONS SHALL BE GALVANIZED.
2. ALL WELDING TO BE 3/16" FILLET
WELDS ALL AROUND BETWEEN
CONNECTED PARTS, UNLESS
OTHERWISE NOTED,
3. ALL PLATES TO BE 3/8"
NLESS
PLAN
- FACE OF PILE
- /-3"
2" 1"
THICKNESS, U 1" RECESS
OTHERWISE NOTED.
-- z
G
SITE PLAN OVERVIEW
KEY PLAN
UHMW RUB --
BLOCK
L3x3 - -
SECTION A -A
3/16 / TYP.
TOP OF WOOD
DECK
DOCK FRAMING
THROUGH BOLT
PILE GUIDE RUB BLOCK TYPICAL DETAIL
(CONDITION W/ SUPPORT ALL AROUND GUIDE FRAME)
REV. 01/17
CITY OF NEWPORT BEACH
APPROVED.
PILE GUIDE RUB BLOCK" "OKKSDIRI(MR
Drawn'. R. OKADA
TYPICAL DETAIL (CASE II) Datc:JULY 2004 Scale: N.T.S.
DRAWING NO. STD -615-L