Plan Review Guidelines

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For SINGLE FAMILY DWELLINGS and ADDITIONS TO DWELLINGS
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Residential Plan Review Guidelines
Contents

Introduction
Before You Design
What Should The Plans Look Like?
    The Site Plan
    The Building Plan
What Does The Plan Reviewer Look For?
    The Site Plan
2005 Energy Standards Title 24
    Energy package
    Floor plan
Elevations
Structural 
    Foundation Plan
    Floor-framing Plan
    Framing Plan
    Roof-framing Plan
Electrical plan
Mechanical plan

Glossary
Footnotes
    Smoke Detectors


Introduction
The following guidelines, while not all-inclusive, are intended to help you prepare residential plans that are essentially “complete”. A complete set of plans allows us to (hopefully) approve them, but even if corrections are needed, a complete plan usually only requires a single set of revisions.

We recommend that you print or copy these guidelines for your use. Comments or questions regarding this document are welcome and will be used to expand and improve the next version.
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Before You Design
Research your parcel! Many plan review issues center around planning considerations such as building setbacks, building height, drainage easements, or flood zones. Obtain a copy of the Subdivision Map, Parcel Map, or Record of Survey, as well as the Grant Deed. Contact the Planning Dept. and give them your Assessor’s Parcel Number (APN) to learn the zoning of the parcel, and the setback requirements from property lines and road easements (you can find your APN on your property tax bill). Note that these restrictions generally apply to buildings of all types: dwellings, garages, barns, etc.

Consider the physical characteristics of the land and the (above) restrictions prior to finalizing the design and placement of your structure. Even if your parcel is forty acres far from town, or a lot in an established subdivision, proper research in advance can save a significant amount of time and money down the road. It is easier to design a building to fit the land than it is to modify the building, move large amounts of earth, or build expensive retaining walls to accommodate a “stock” plan – the finished product is usually more desirable as well.

Collect the design criteria needed for your building. Depending on the type of structure you are planning, you will need some or all of the following information: seismic (earthquake) zone, wind speed and exposure, soil bearing capacity; flood zone, and climate zone.
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What Should The Plans Look Like?
    • The Site Plan
º Minimum scale is 1"=20 feet.
º Show the entire parcel - if you have a very large parcel, you may use a reduced scale such as 1:50 or 1:100 as long as the grading portion of the site plan is no smaller than 1:20 scale (this method would require two drawings).
    • The Building Plan
º Minimum scale is 1/4" per foot. Use ink only (no pencil)
Provide a Title Block on each page that includes the following: owner’s name and mailing address, job site address, APN (Assessor’s Parcel Number), name and (wet) signature of the person preparing the plans [plans requiring design by a California-registered Architect or Engineer must bear the (wet) stamp and license number with current expiration date and signature].
º The first page of the plans must include a summary of the square footage for each occupancy type (for example: dwelling/1850 s.f.; garage/480 s.f.; deck/240 s.f.; covered porch/48 s.f.)
º The first page of the plans must contain a statement that the construction will comply with the codes in effect at the time your application is accepted, currently the following: 2001 California Building Code; 2001 California Plumbing Code; 2001 California Mechanical Code; 2004 California Electrical Code; 2001 California Fire Code;
º A California-registered Architect or Engineer is required to prepare, stamp and sign structural calculations and drawings that pertain to the engineered design of a structure.
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What Does The Plan Reviewer Look For?

    • The Site Plan
º Show all recorded easements located on the parcel. Show distances from the proposed structure(s) to all property lines (or nearest edge of road easements). Show to scale all existing or proposed structures on the property (such as a garage, well, shed, swimming pool, or HVAC equipment). Also show the septic system location.
º Show existing site topography (prior to grading) using contour lines at 1', 2', or 5' vertical increments. The contour lines must extend a minimum of 20 feet beyond the building site, driveway, or other disturbed area.
º Show the proposed grading. This is generally done by using one of two methods: darker, thicker contour lines that overlay the (lighter) existing contour lines; or darker, thicker lines that show cut and fill slopes to scale (the slopes are plotted using a scale). Due to the technical nature of this aspect of the building plans, we recommend that you have a professional (ie: civil engineer, architect, or landscape architect) assist with this portion of your plan preparation.
º Show how storm run-off will be controlled around the proposed structure. If the building site is relatively level, provide control elevations along drainage swales, showing that a minimum 1% slope will exist. Note that drainage swales should be located a minimum of five feet from the foundation where practicable, and be rock-lined where the slope exceeds a 1:10 slope (10%).
º Provide a fully-dimensioned driveway profile that includes the following: elevations at road edge or top of curb, garage floor, and at each grade break; percentage of slope between grade breaks; and distance between grade breaks.
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2005 Energy Standards Title 24
    • Energy Package
º Yolo County is in Climate Zone 12
º Provide information showing compliance with the Title 24 Energy Regulations. Include Form CF- 1R and the Mandatory Measures Checklist. Additions may qualify for a short-form available from the Building Department. The author of the energy documents must sign the package.
º Window orientation and area on the energy analysis must match the floor plan (a common error).
º Square footage of the conditioned area must match the energy analysis.
º Show all required energy conservation features on the plans, or attach the “Mandatory Energy Conservation Requirement” list to the plans.
º Show the R-Value of the floor, walls and ceilings.
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    • Floor Plan
º Provide a fully-dimensioned floor plan for each building level. Label each room or area with its proposed use and dimensions. Show all doors and windows with nominal sizes.
º Show the fire separation wall between a garage and adjacent living space. Show a minimum 1-3/8" solid-core, self-closing door between the two areas. Show 5/8" type-x sheetrock on the garage side of the fire wall, and on the ceiling of the garage if there is living space above, or if the attic is continuous between the garage and adjacent living space.
º In habitable rooms, the window area must be at least 10% of the floor area (one-half, openable for ventilation), with a minimum of ten square feet. Kitchens may use artificial light.
º In bathrooms and toilet rooms without sufficient natural ventilation, show mechanical ventilation that provides a minimum of five air changes per hour.
º Sleeping rooms shall have a window or exterior door for emergency escape. Windowsill height shall not exceed 44 inches above floor level. The window shall have a minimum net openable area of 5.7 feet, with a minimum net openable width of 20 inches and a minimum net openable height of 24 inches.
º For additions, show the existing rooms adjacent to the addition, including door and window sizes. The plan examiner must determine if the existing room will have sufficient egress, light and ventilation.
º Show a minimum 36" x 36" landing on each side of an exterior doorway. Landings must be within 71/2" of the opposing floor surface. Any door (interior or exterior) must always swing over a floor or landing ( the bottom of the door must be within one inch of the landing). Exception: a door may open at the top of an interior stairway, provided the door does not swing over the top step.
º Show a minimum 22" x 30" access to attic areas that have 30" of headroom.
º Show a minimum 36" high guardrail for walking surfaces, including stairs, more than 30" above the adjacent floor level or grade. Openings in the guardrail cannot allow the passage of a 4" sphere.
º Show a handrail installed on one side of each flight of stairs. A stairway is defined as four or more risers (three treads plus an upper floor level equals four risers).
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Elevations
    • Provide four exterior elevations (side views) of the proposed structure (North, South, East and West). Show the proposed grade as it will be after final grading. For example, if the building foundation will be stepped to match an existing slope, this must be shown on each elevation. Discrepancies between the site plan topography and plan elevations will result in a correction comment (a common error).
    • For additions, you may show elevations affected by the addition only.
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Structural 
    • Foundation Plan
º Attach a Soils Engineering Report by a licensed Geo-technical Engineer to the approved plans when foundation is to be constructed on disturbed (fill) material.
º Provide a North arrow that matches the building orientation on the site plan.
º Be certain that (properly-sized) piers are located under concentrated loads such as posts or trimmers supporting load bearing members such as beams or girder trusses. If the posts are located at an exterior footing, the footing should be widened to the same dimension as the required pier. Note: the omission of piers is the most common structural error found on plans and during framing inspections, and is a serious oversight.
º If there are hold-downs (seismic anchors), provide a hold-down schedule on foundation plan.
º Note on plan that all hold-downs are to be fastened in place prior to foundation inspection.
º For building sites steeper than a 1:10 slope (10%), provide a stepped footing detail (cross-section).
º Show all foundation elements in plan view, including interior footings and piers, if applicable.
º Provide a cross-section showing typical footing/stem wall or footing/slab dimensions, including placement and size of reinforcement.
º Specify foundation bolt size and spacing.
º Indicate height and location of retaining walls. Note that walls exceeding 48 inches from the bottom of the footing to the top of the wall must be engineered, and designed or approved by the Engineer or Architect of Record, if applicable.
º For slab-on-grade construction, show type of slab reinforcement. Also show vapor barrier if it is a habitable area. Be sure that the reinforcement type installed matches the plan engineering (a common error).
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    • Structural - Floor-framing Plan
º Show minimum underfloor ventilation of 1 sq. ft. per 150 sq. ft. of floor area with cross-ventilation.
º Show minimum 18" clearance from grade to the bottom of floor joists (minimum 12" for girders).
º Show the type, size, and spacing of girders and floor joists. If manufactured joists are used, show the joist series and live-load deflection used. Note that floor joists must be spaced no further apart than 16" o.c. when the underside forms part of a fire separation, such as between a garage and a living space above.
º Show the thickness and span rating of the floor sheathing (for example: 3/4", 20/40 plywood).
º Provide additional support under concentrated loads such as brick hearths, rock work, wood stoves, gas stoves, and so forth.
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    • Structural - Framing Plan
º Show all header/beam locations and sizes. Note that beam sizes must match the project engineering (a common error).
º Show method of bracing the structure. Provide fastener size and spacing for shear walls or braced wall panels.
º Provide one or more typical cross-sections to clearly showing how the structure will be constructed. Provide close-up details to clarify specific connections or other special framing.
º If a deck is to be built, provide a deck framing plan with a typical cross-section.
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    • Structural - Roof-framing Plan
º If the roof consists of engineered trusses, provide two sets of wet-stamped and signed truss drawings. If there is an Engineer or Architect of Record, that individual must review the truss drawings and state (in writing) that the truss drawings are compatible with the building design (a common error).
º For engineered trusses, show hardware used to fasten truss to top plate (toe-nailing not permitted).
º Show the thickness and span rating of the roof sheathing (for example: 5/8" 24/16 plywood).
º Show minimum attic ventilation of 1 sq. ft. per 150 sq. ft. (1/150) of attic area.. If the ventilation is evenly-divided between high and low (eaves), the area may be reduced to 1/300.
º For conventional (non-engineered) site-built roofs, show rafter size, grade, and spacing. Show wall ties (not collar ties) a minimum of 48" on center.
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Electrical Plan
    • The electrical plan may be included on the floor plan if sufficient clarity is retained.
    • The electrical plan must include the location of the service panel and its rated ampacity (ie- 125 amps, 200 amps, etc.). Show all outlets, switches, light fixtures and smoke detectors. Label any 220-volt outlets. Label all required GFCI (ground fault circuit interrupter) outlets. Low-voltage wiring and components such as phone jacks, TV, and security systems may be omitted.
    • Show the locations of all required smoke detectors. A summary of California Building Code Sec. 310.9.1.4** can be found in the footnotes at the end of this document.
    • Note on the plans that smoke detectors shall be audible in all sleeping areas (for large or multistory structures, this normally requires inter-connection of the detectors so that all detectors activate during a fire). Smoke detectors shall receive their primary power from the building wiring and shall be equipped with battery back-up.
    • Outlets must be located in such a manner that no point along a wall is more than six feet from an outlet (each doorway starts a new wall area). A wall is defined as an area two feet wide.
    • All kitchen counter top outlets must be GFCI-protected and be spaced no more than four feet apart. Counter top spaces 12 inches wide must have an outlet.
    • Outlets located in the following locations must be GFCI-protected: garages, carports, underfloor areas, bathrooms, exterior locations, and at wet bar counter tops.
    • Outlets located in the bedrooms must be arc-fault protected.
    • Three-way light switches must be located at the top and bottom of each stairway.
    • To meet Title 24 Energy requirements, show that general use lighting interior and exterior will be high efficiency (minimum 40 lumens per watt).
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Mechanical Plan
    • The mechanical plan may be included on the floor plan if sufficient clarity is maintained.
    • Show all gas appliance locations with the rated BTU (input) of each device.
    • Show where the gas piping enters the building and the length and size of all piping. Specify the type of gas to be used (propane or natural gas). Note that sizing gas piping can be complex – we recommended that your gas supplier, licensed installer, or other qualified professional calculate the gas piping sizes. Note that undersized piping can create an unsafe condition.
    • Show how gas appliances in confined spaces will receive combustion air. Note the size and location of the openings. Again, undersizing combustion air openings can create an unsafe condition.
    • If a water heater is located in the garage, show the burner assembly located a minimum of 18" above the floor. Show approved seismic bracing for all water heaters. Note that gas water heaters cannot be located in a bedroom or bathroom, or gain access through that room.
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Glossary
    •     Conditioned Space: An area, room or space normally occupied and being heated and cooled by equipment for human habitation.
    • Easement: An interest granted by deed, or created by will, deed or prescription that is held by one person in land owned by another person. An easement entitles its holder to a specific, limited use or enjoyment - such as the right to cross the land.
    • Flood Zone: An area of special flood hazard as shown on the Flood Insurance Rate Map (FIRM) and subsequent maps modified by the Federal Emergency Management Agency (FEMA). Building projects located on parcels within or partially within a flood zone must comply with special requirements that are administered by the Building Inspection Division.
    • Habitable Space: An area used for living, sleeping, eating or cooking. Bathrooms, toilet compartments, closets, hallways, storage spaces, and similar areas are not considered habitable space.
    • R-Value: The resistance of a material or building component to heat flow - the higher the number, the more slowly heat travels through the material. Also known as thermal resistance.
    • Setback: The open space required between a structure and a property line or road easement, as required by the county zoning plan. The distances vary depending on several factors, including: the zone district; the orientation to the road serving the parcel (ie: front, side or rear); and adjacent property zoning.
    • Topography: A graphic, detailed representation of the physical features (both natural and man-made) of the surface of the land.
    • Window Orientation: The direction the window faces. This is an important factor in calculating building heat gain during the summer months.
    • Zoning: Refers to the county’s zoning plan, which consists of various districts within the unincorporated area of the county. This plan (basically) regulates the following: the type, height and size of buildings that may be erected, altered or maintained; the types of trades or occupations that may be carried on; certain uses of the land or buildings; and the creation and maintenance of certain open spaces around buildings.
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Footnotes -- Smoke Detectors
    **Summary of California Building Code Sec. 310.9.1.4:

In dwelling units, a detector shall be installed in each sleeping room and a point centrally located in the hallway or access area.

In multi-story dwellings, a detector shall be located at each story, including basements. In split-level areas, the detector shall be located in the upper area (unless there is a sleeping room in the lower area, in which case a detector shall be located on both levels). When sleeping rooms are on an upper level, a detector shall be located on the ceiling near the top of the stairway.

When the ceiling height of a room open to the hallway serving bedrooms exceeds that of the hallway by more than 24 inches (such as a vaulted living area), smoke detectors shall be installed in the hallway and the adjacent room.

Every detector located within a dwelling shall sound an alarm audible in all sleeping areas.

Group R-3 occupancies shall have automatic sprinkler systems installed in accordance with NFPA standard 13D. An approved interior alarm device shall be installed and interconnected with all smoke detectors.

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