The URL can be used to link to this page

Home My WebLink About125 Kaywood DrCITY OF SANFORD PLUMBING PERMIT APPLICATION Permit Number: O Z I Date: '5-- / 6 - The undersigned hereby applies for a permit to install the following plumbing: So 6& 4 Owner's Name: Address of Job: Plumbing Contractor: Residential: r 3zo lit"o Non -Residential: Number Amount Addition, Alteration, Repair (Residential & Non -Residential) New Residential: One Water Closet Additional Water Closet Commercial: Minimum Permit Fee $25.00 Fixtures, Floor Drain, Trap Sewer Piping Water Piping Gas Piping Manufactured Building Description of Work: 5 GiL Application Fee: 10.00 TOTAL DUE: By Signing thisapplication I am stating that I am in compliance Mh City of Sanford Plumbing Code. a Ila Apptcant's Signature State License Number 3 44- Seminole County Property Appraiser Get Information by Parcel Number Page I of 1 PARCEL DETAIL cmintdr C uunly ot, RA* R' ti • 1IOt K. Nlratst. Santord tl.32"1 4/17 i(5-7411ri r GENERAL Parcel Id: 32-19-30-5GS-0000- Tax District: S1-SANFORD 0630 VALUE SUMMARY BOCK ROBERT M JR & Dor: 01-SINGLE Value Method: Market Owner: VICKI G FAMILY Number of Buildings: 1 Address: 125 KAYWOOD DR Depreciated Bldg Value: $105,347 City,State,ZipCode: SANFORD FL 32771 Exemptions: 00HOMESTEAD Depreciated EXFT Value: $11,408 125 KAYWOOD DR Property Address: Land Value (Market): $24,300 SANFORD 32771 Land Value Ag: $0 Subdivision Name: KAYWOOD REPLAT Just/Market Value: $141,055 SALES Assessed Value (SOH): $141,055 Deed Date Book Page Amount Vaclimp Exempt Value: $25,000 WARRANTY DEED 03/2001 04038 1186 $158,000 Improved Taxable Value: $116,055 WARRANTY DEED 09/1997 03299 1135 $140,000 Improved Tax Bill Amount: $2,078 WARRANTY DEED 09/1989 02111 1086 $111,300 Improved Find Comparable Sales within this Subdivision LAND LEGAL DESCRIPTION PLAT Land Assess Method Frontage Depth Land Units Unit Price Land Value LEG LOT 63 KAYWOOD REPLAT PB 30 PGS 27 LOT 0 0 1.000 24,300.00 $24,300 28 BUILDING INFORMATION Bid Num Bid Type Year Bit Fixtures Gross SF Heated SF Ext Wall Bid Value Est. Cost New 1 SINGLE FAMILY 1989 10 2,783 2,266 CB/STUCCO FINISH $105,347 $110,600 Appendage 1 Sgft GARAGE FINISHED / 462 Appendage I Sqft OPEN PORCH FINISHED / 55 Appendage / Sgft BASE / 263 EXTRA FEATURE Description Year Bit Units EXFT Value Est. Cost New FIREPLACE 1989 1 $1,350 $2,000 POOL GUNITE 1989 465 $6,278 $9,300 SCREEN ENCLOSURE 1989 2,145 $2,433 $4,290 COOL DECK PATIO 1989 570 $1,347 $1,995 NOTE: Assessed values shown are NOT certified values and therefore are subject to change before being finalized for ad valorem tax purposes http://www.scpafl.org/pls/web/re web.seminole county title?parcel=3219305GS00000630& 5/14/2002 1 ec Solar Pool Heaters INSTALLATION MANUAL Authorized for Hi-Tec Swimming Pool Solar Heating Systems Read this manual before beginning installation of solar system PLANNING Before beginning installation check to see that the system sizing and location criteria in the Hi- Tec Planning & Sizing Guide have been fol- lowed. If you find it necessary to undersize the system, it is your responsibility to inform the pool owner to expect proportionally less heat to the pool than if the system was sized according to the manufacturer's specifications. For ex- ample, ten percent undersized means approxi- mately ten percent less heat to the pool. To avoid any misunderstanding, you may wish to provide this in writing. INSIDE THIS MANUAL Section 1 illustrates the kits and components used for installation of the solar collectors, and shows component locations in the system. Section 2 shows the steps you must take to properly install the solar collectors. Section 3 describes the system piping and control components. Section 4 covers start-up and maintenance. a Fi qE Section 1 Installation Kits & Components Installation Kits and Component Locations This section describes three Hi-Tec installation kits and the individual components used in the solar system. The kits and components are itemized below. Installed component locations are exemplified within the labeled, circled areas in Figure 1, above. Components listed in "F" and "G" are shown in Figure 3 (see Page 5). A. Hi-Tec Collector Kit (Part No. 1090) B. Hi-Tec System Kit (Part No. 1091) Contains all parts needed to fasten down one solar Contains parts needed to fasten down collectors, and to collector and connect it to the next one in a row. One connect piping to a system. Use one system kit for each collector kit per collector required. row of collectors in the installation. Part No. Description tC. Figure 1 No. Part No. Description 4029 Coll. Mounting Bracket 1 1 4029 Coll. Mounting Bracket 8019 Stainless Steel Washer 1 2 8019 Stainless Steel Washer 8016 Strap Bracket 2 3 8016 Strap Bracket 8017-2 Coupling Hose, Short 2 4 1012 Coupling Clamp 1012 Coupling Clamp 4 5 8017-6 Coupling Hose, Long 4032 End Cap 4033 Adapter, Pipe to Collector Ct. Figure 1 No. 1 1 1 2 2 3 4 5 2 6 2 7 2 8 2 C. Hi-Tec Split Row Kit (Part No. 1093) D. Hold -Down Strap Use this kit whenever it is necessary to split a row of A`100' roll will hold down up to twelve collectors. collectors to clear obstructions, or to install part of a row on another roof. Part No. Description otv. 4029 Coll. Mounting Bracket 1 8019 Stainless Steel Washer 1 8016 Strap Bracket 2 8017-3 Coupling Hose, Medium 4 1012 Coupling Clamp 4 4033 Adapter, Pipe to Collector 4 E. Vacuum Relief Valve One per system is required whenever collector inlet bottom) headers are higher than three feet above the pool surface. Several locations for installation of this valve are acceptable. See Section 2, Step 10, on Page S. F. Check Valve One check valve should be installed per system. A second valve must also be installed whenever collector inlet (bottom) headers are more than three feet above the pool. See Section 3, Figure 3, on page 5 for locations. G. Control System Every Hi-Tec pool heater needs a control system to by- pass the solar collectors when the pool is at the desired temperature, or during inclement weather. In most climates an automatic control system should be used. It consists of an electronic control panel, two sensors and a motor -driven valve. In warm climates, or when the system is regularly attended, a manual control valve may be used. Section 2 Installation of Hi-Tec Solar Collectors Step 1: Plan the location of the collectors on the mounting surface. The outlet (top) headers must be at least 4 inches hioher than the inlet (bottom) headers and the row of collectors must slope at least 1/4 inch per collector toward the supply pipe as shown in Figure 2. This will permit drainage which prevents freeze damage. Table 1 shows the amount of space required for an uninterrupted row of collectors. Add 8 to 12 inches at each end of the row for piping. Add 2 1/2" inches above the outlet header for Mounting Brackets. Note from Figure 2 that the pipe carrying the water back to the pool, the return pipe, is connected to the collectors diagonally opposite the supply pipe to the collectors. Step 2: Starting at the return (back to pool) end of the outlet headers, snap a horizontal chalk line 1 1 /2" up the roof above the intended top of the outlet headers. The chalk line must slope down the roof toward the supply side 114" per collector. For example, six collectors in the row means a total slope of 1 112" inches. Step 3: Measure 6 3/4" in from the intended beginning of your array (the first collector in your system is the one connecting to the supply piping), and mark the chalk line. Next, mark the chalk line every 49" until you have a total number of marks equal to the number of collectors in the row. Finally, measure 6 3/4" in from the end of the last Number of Collectors Width of Array 5 20' 5" 6 241611 7 28' 7" 8 32' 8" 9 36' 9" 10 40' 10" 11 44' 11" 12 49' Table 1 3 Figure 2 2 112" _ End Cap 3 Assembly Diagram Showing Three Collectors) 6 3/4" 49" Slope Down 1/4" per Collector header and make another mark. See Figure 2 above. Note: these marks indicate Bracket locations which may be shifted 1 1/2" inches to either side, if necessary. Drill pilot holes on each of these marks to install Mounting Brackets. If you are using 1/4" lag screws the pilot drill should be 3/16". Step 4: Measure down from the Mounting Bracket holes distances as shown in Table 2), and snap two more horizontal chalk lines to mark you strap locations. The Strap Bracket holes will be located and drilled after the collectors are in place. Step 5: Bring one collector to the roof and position its outlet header at the return end of the row. This collector should be the only one having two Mounting Bracket holes. Slide a Mounting Bracket, Part Number 4029, over each semi - dovetail on the col- lector top as shown below. Fill the re- cesses under the Mounting Brackets with a high quality, polyurethane sealer. Put mount- ing screws through the Stainless Steel Washers, and then through the Mount- ing Brackets, and anchor them into the roof. Do not tighten until all Mounting Brackets are installed. 49" End Cap 6 3/4" Table 2 Distance from Mounting Bracket to Strap Bracket Collector Upper Lower Length Strap Strap 8' 3' 8„ 72„ 0' 4' 8" 9' 2" 12' S' 8" 11- 2" Step 6: Install the remaining collectors in the row. The headers are connected with the Short Hoses. Use a coupling clamp at each end of the hose, just behind the barb at the end of the collector fitting. DO NOT OVER - TIGHTEN ( hose rubbershould only bulge slightly into the holes in the band of the clamp). Each of these collectors will have one Mounting Bracket. Apply polyurethane sealer to all recesses as in Step 5. Step 7: Drill a pilot hole (3/16" for 1/4" lag bolt) on each end of the strap chalk lines, a minimum of 3" from the edge of the absorber plate (four places). Drill pilot holes on each chalk line, between the edges of the absorber plate at each collector. These holes should be about 1/4" off of center, so that the leg of the Strap Bracket will be in the center of the space. Install the Strap Brackets with polyurethane sealer. The Strap Brackets at both ends of the row must be installed with the bracket's flat side towards the collector (screw head outside). Note: be sure all of your anchors satisfy your prevailing local code requirements. Step 8: Slip the Hold -Down Strap (polyester) through the Strap Brackets, tie it to one end bracket, stretch it tight, cut it off and tie it to the bracket at the opposite end. Polypropylene strap is slipped through the bracket and doubled back on itself. Slip a Strap Clamp over the 21 doubled section and tighten the screw until the strap bulges into the hole. Do not puncture the strap with the screw. Step 9: Connect the end caps to the collectors in the locations shown on Figure 2, using Short Hoses and Coupling Clamps. Connect the collectors to the supply and return piping with Long Hoses and Coupling Clamps using Pipe to Collector Adapters. Universal PVC/CPVC/ ABS adhesive must be used at these cemented joints. Step 10: The appropriate location for the vacuum relief valve in the system may be dictated by the particulars of Solar to Filter System Piping: r--.. To achieve optimum perfor- mance levels from the sys- tem, meet the recom- mended water flow rates in Table 3. AA for the system. Typically best locations are: out of a tee at the supply connection of the pipe and collectors (see "E" in Figure 1); out of a fitting, in place of any of the end caps; and out of a tee in the supply or return line, just below the roof level. Step 11: If the plumbing in your system will not allow the collectors to properly drain (eg: piping over the peak of the roof), a manual drain line must be installed from the lowest point in the system on the roof. Manually draining the system during freezing weather should protect the collectors from freezing. Section 3 System Piping Solar systems with less than 300 square feet of collec for and located less than 20 feet from the pool may be connected with 1 1/2" schedule 40 pipe. All other systems should be plumbed with 2" or larger, schedule 40 pipe. Plan the piping to minimize the num- ber of fit- tings. It is important that pres- s u r e losses are kept low so that the Collector Size 4 x 8 4 x 10 4 x 12 Recommended Flow Rate 3.2 4.0 5.0 per Collector (gpm) Minimum Flow Rate 2.0 2.5 3.0 per Collector (gpm) Maximum Number of 18 15 12 Collectors per Row maximum Table 3 Control amount of water flows through the collectors. Referring to Figures 2 and 3, note that the supply to the solar col- Filter Solar System Piping Solar Sensor Isolation Valves Ball I Check Valve Valve lectors is always at the inlet Pump Check headers, and the return is Valve diagonally opposite, at the outlet headers. The three-way control valve, Water Sensor whether it is manual or motor driven, is installed as aiaw das M s r .e sii i in the inlet line to the col 14, lectors 3-Way Valve Figure 3 Heater Bypass Ball Valve If the collectors' Inlet > aY ' s headers are installed more than three feet 5 higher than the pool, a check valve should be installed between the pool filter and the control valve. This'valve prevents back -washing filter debris to the pool. The pool water sensor for an automatic control must be installed before the control valve, so that it senses the actual pool water temperature. The solar sensor is mounted on the same surface as the solar collectors but not touching them. It is important that the sensor sees the same sun, all day, as the collectors. Installation instructions packed with the automatic control system should be followed. Solar system isolation valves should be installed to allow the collectors to be serviced without requiring that the pool circulation stay turned off. If the 3-way control valve has a non -positive seal, a ball valve should be installed between the 3-way valve and the collectors. If the 3-way has a positive seal, it will act as the isolation valve on the supply side. Install a 112 lb. spring check valve between the return from the solar collectors and the bypass tee in the return line. Do not use two ball valves for system isolation. If a high pressure pool cleaner pump is used, its supply should be connected between the filter and the control valve. If a gas or electric heater or heat pump is used, it must be installed between the solar system return tee and the return line to the pool. Heaters and heat pumps often create an excessive pressure loss, so it is good practice to provide a bypass as shown. The bypass valve may be opened whenever the solar system alone is heating the pool (Note: some heaters require water flow at all times). Special System Layout Piping: The shape of the available space or roof obstructions often dictate dividing a system into multiple rows or splitting rows. Figure 4 below shows a system divided into two rows. You will need a Hi-Tec System Kit, Part Number 1091, for each added row. Note that the return from the lower row is connected to the return at the highest point in the system. Slope the rows toward the supply for drainage. Figure 5 on page 7 shows a more complex, multi -level system with split rows. Roof vents can often be straddled by using a pair of long hoses in place of short ones. The normal space between the absorber plates on adjacent collectors is 2.9 inches. That space can be increased to 7.9 inches by replacing short hoses with long ones, giving room to pass any standard vent stack. For larger obstruc- tions, such as chimneys, attic vents or windows, you will have to split the row with the Hi-Tec Split Row Kit, Part Number 1093. In Figure 5, the third row is on another roof, higher than the first two rows. Note that the returns for the first two rows meet the return from the third row at the highest point in the system. Again, slope all rows toward the supplies, so they can drain. Two -Row System On the roof (or other mounting surface) End horizontal pipes should be supported cap every 4 feet and vertical pipes every S feet. A support should be placed as close to the collector supply and----"''--- return as is practical. Hi-Tec Stain Return less Steel Hold Down Clamps,; " r / z* from HighestdPartNumber2022, are useful ', f Porn, for this purpose. i End End Cap Cap f / fir ° x.; i bRY 7J '' s : •, . Q a. V. l 7 fri/f r% d f y.• N Q I Figure 4 Slope Down 1/4per Collector End Cap M. Multi -Row, Multi -Level System Figure 5 One Split now Kit Section 4 Start -Up and Maintenance Start -Up and Test: Before starting the pump, we recommend that you install a flow meter in a location to accurately show the flow rate through the solar system. The preferred location is before the solar collectors, after at least 3 feet of straight pipe. You can then determine if the flow rate meets the levels shown in Table 3. This section describes the steps for starting an automatic system. [If a manual control is used, turn the three-way valve to the indicated positions. The "OFF' mark oppo- site the valve handle indicates the line that is blocked by the diverter]. Switch the control to "ON". The "Power", Heating" and "Cooling" lights should go on and the I should turn to di- through the solar I does not, check Niring to the valve ilve motor has a e sure it is not in the "OFF" position. With the system on, the collectors should be purged of all air in 1 to 3 minutes and the water returning to the pool should be clear and free from air bubbles. After 5 minutes, feel the return end of the absorber plate on each collector. They should be uniformly cool to the touch. If they are, you have uniform flow to all collectors. If they are not, flow must be increased to the minimum specified levels in order to get rated performance for the system. If on the multiple -row system, one bank feels warmer than the other, the flow must be corrected. Install a ball valve in either the supply or return line to the row that feels cooler. You can then throttle this valve until the tempera- tures of the collectors on each bank are approximately equal. Next, switch the control to "OFF". The valve should turn to divert the water to the line that by-passes the solar collectors. Switch the control to "AUTO". Set the temperature control to the maximum position, or at least 10 degrees higher than the pool water temperature. The fI Heating" light should come on and the valve should turn to divert all of the pool water through the solar system. If the light does not come on, disconnect the pool water temperature sensor wires and temporarily "short" the solar sensor terminals. If the "Heating" light now comes on, you probably have a bad wiring connection to the solar sensor. Set the temperature control to the minimum position or at least 10 degrees below the pool water temperature. The Heating" light should go out and the valve should turn to divert the water through the by-pass line. If it does not, disconnect the solar sensor wires and temporarily "short" the pool water temperature sensor terminals. If the light now goes out, you probably have a bad connection in the pool water sensor wiring. For further trouble shooting information, see the manual packed with the control. Once everything is working, set the control for the maxi- mum desired water temperature with the control on Auto" and the installation is complete. Maintenance: For pools that close during winter months, if the solar system is piped so that it will naturally drain from gravity, turn off your circulating system at least 30 minutes before any freezing temperatures. When all water has drained from the collectors, normal pool winterization procedures may be followed. Any piping that will not drain from gravity must be manually drained, or blown out, to prevent freeze damage. SANPORD BUILDING DEPT. For pools remaining open during the winter months, once the solar system is completely drained, close your isola- tion valve in the supply line (either the ball valve or the positive seal 3-way) and you may resume pool water circulation. The check valve installed in the return line should prevent water from rising to the roof through the return line. In warm climates where the pool is kept open all year, a normal practice is to run the filter system, supplying the collectors with flowing water, whenever light freezes are expected. Alternatively, an automatic control with a recirculating freeze protection feature may be used. It will automatically control the pump and solar system during freezing conditions, as long as electricity is avail- able. Collector Repair: If one or more collector tubes become damaged and leak, they may be easily repaired with Hi-Tec Repair Kit, Part Number 1095. Cut the damaged tube below the damaged section. Then free the cut end of the tube projecting from the inlet header, by cutting the center of the web, parallel with the tube on each side, downward two inches toward the inlet header. Use the insertion tool to push a rubber plug into the end projecting from the inlet header. Now, cut the same tube near the outlet header, free the cut end projecting from the outlet header and plug it. This will seal the tube and prevent water from standing in the plugged tube and expelling the plug when it freezes. THESE PLANS ARE REVIEWED AND CONDITIONALLY ACCEPTED FOP. PERMIT. A PERMIT ISSUED SHALL BE CON ;TPUED TO RL A LICENSG TO PROCEED WITH THE WORK AND NOT AS AUTHORITY TO VIOLATE. CANCEL, ALTER, CR SET ASIDE ANY OF THE PROVISIONS OF THE TECHNICAL CODES, NOR SHALL ISSUANCE OF A PERMIT PREVENT IHE BUILDING DEPT FROM THEREAFTER REOUIRING A CORREC- TION OF ERRORS ON THE PLANS, CONSTRUCTION OR OTHER VIOLATIONS OF THE CODES. Manufactured with pride in the U.S.A. by: Harter Industries, Inc. P.O. Box 502 Holmdel, NJ 07733 Manufacturing facilities in New Jersey and Florida f' •5J— w,4" &410cf w,1, 5 tC L a v a l tl V s, s I_ 1 1995 Solar City, Inc. offla COPY e PERMIT # 07 a.0,1t