The URL can be used to link to this page

Home My WebLink AboutInstallation Instructions Anchoring SystemFlorida Installation Instructions For Anchoring Systems Last Updated: August 7, 2009 SYNOPSIS OF CHANGES. IN.15C. STATE OF FLORIDA 1, i-BEAM-CLAMP THAT PIVOTS - TOP OF FRAME ONLY The State of Florida now requires that the strap be attached to the I-beam by a beam clamp that has a swivel attachment. This eliminates the sharp edge of the frame cutting into the strap and the possibility of stressing one edge of the strap by misaligning the anchor with the attachment point to the I-beam. 2. GALVANIZED STRAPS .60 OUNCES EACH SIDE OR NOMINAL G115 Florida now requires that all strapping have extra galvanization to protect from the. elements. All strapping. must be marked.with the "G115" coating, and Tie Down strap will indicate "QUAD COAT G-120: ` The ASTM 3953-91 must still be referenced on the strap to indicate conformity to the HUD Code, and the 6115 will indicate the. extra coating. All strap must be marked every.12" to 15". 3. ALLANCHORS GALVANIZED All ground anchors, concrete anchors, patio anchors, etc. - must be hot dip galvanized. 4. MINIMUM STABILIZER PLATES 180 SQUARE INCHES, GALVANIZED The small 12" stabilizer plate is no longer certified in Florida. All stabilizer plates under the new regulations must have a minimum 180 square inches,of surface and must be galvanized. Tie Down manufactures the 17.5 inch plate that is galvanized to meet Florida requirements. 5: RADIUS CLIP PROTECTION The State of.Florida no .longer allowsthe strap -to wrap the 1-beam: Because strap must be protected from contact with sharp edges, the strap must now be attached to the I-beam by means of a swivel connector with a radius clip (rolled edge). The strap must also be factory attached to the connecting swivel bracket: Field attached crimp seals are no - longer allowed for use on straps used to attach to frame connectors or hooks. 6. SiDEWALLVERTICAL/FRAMETIES 5'4" 0/CThe maximum distance between sidewall vertical/frame ties is now 514" on center. 7. CENTERLINE TIES WITHIN TWO FEET EACH END Every new and used multi -section home must include a centerline anchor installed within two feetDf each end of each centerline (the home manufacturer may require additional anchors. 8A. LONGITUDINAL ANCHORS,TWO PER I -BEAM PER END As part of the new rules, every home must be installed with protection from wind loads on the end of the home. The Florida rules require two anchors per I-beam per end. This means that a single section will require four longitudinal anchors per end for atotal of eight for the home. A double section home will require eight anchors per end for a total of sixteen per home. As with all ground anchors, these must be hot dip galvanized and in stalled with a galvanized stabilizer plate. Torque probe is required on longitudinal anchors. BB..LONGiTUDINAL STABILIZER DEVICES As an alternate to installing longitudinal anchors and stabilizer plates, the installer may, use other longitudinal stabilizing devices approved by the state, including.Tie Down's L2SD {Longitudinal Stabilization Device). The -use of two.LISD systems on a -single section home replaces all eight. longitudinal anchors/stabilizer plates. Four LISD systems on a double section home, replaces sixteen anchors/stabilizers/frame tie connectors. 9. SOIL TEST White the soil test probe is not specifically addressed by 15C, the installer is required to A) test and record the torque readings and install the correct ground anchor (48" or 60") or B) use a 60" galvanized anchor.with stabilizer plate where no testing is recorded. 10. INSTALLER PLAN. FOR 1,000 PSF SOIL The -installer must submits -foundation plan (as to the load bearing capacity of the soil) to the building department at the time of application for the building permit. If the soil is not tested with a penetrometer, then the plan submitted must assume 1000 PSF soil. The installer is required to use a pocket penetrometer to determine the PSE MOTE:1000 PSF soil most commonly requires Type il, 60" anchors. 11. MINIMUM HEIGHT 18 INCHES The minimum pier height atthe lowest part of the home shall be 18". This distance is measured from the bottom of the frame (I-beam) to the ground'or slab. Note: 3/4 of the home must be at the minimum 1811, the balance of the home cannot be lower than 12". 12. GROUND ANCHORS / FLORIDA ONLY For purposes of installation of manufactured/mobile homes in the State of Florida, there, will tie two soil classifications: Type L This soil is described as "loose to medium dense sands., firm to stiff clays & silts, alluvial fill." It has a Blow Count (per ASTM D1586) of 18 to 23; and a reading on the Torque Probe of 276 to 350 inch pounds. The Working -load for an anchor in Type I soil is 3,150 lbs. and the Ultimate load is 4,725 lbs. A 48" anchor is to be used in 4A soil classifications. Type II: This soil is "very loose to medium dense sands, firm to stiff clays and silts, alluvial fill:' The Blow Count for Type II soil is 12 to 17, and the torque reading.175 to 275 inch pounds. The Working load is described as 4,000 lbs. and the Ultimate load is 6,000 lbs. A 60" anchor must be used in 4B soil classifications. DOWN ENGINEERING Frame Tie to Anchor If the, angle of the frame tie connection is greater than 500 (as indicated by curved line illustration), the frame tie must be attached to the opposite "I" beam frame member. 45' is the correct angle for this installation. eat Femme 50' max. (see manufactures Installation Instructions) v Ground Level A galvanized Stabilizer Plate of 180 sq. in. must be installed on all anchor/frame be combinations. Use a Soil Test Probe to match either Type 1, 48" or Type 2, 60" ground anchor to sod conditions. Frame Tie Attachment 1. All frame ties must be attached with a swivel frame connector. strap must be factory attached to the connecting bracket. 2. Attach the swivel frame connector beam hook to the top of the I-beam from either the front or the back side. The curved or hook.end of the beam. hook should be snug against the inside top I-beam flange. 3. Attach the swivel connector to the underside of the frame hook with a 1/2" grade 5 bolt and nut This allows the swivel connector to pivot and lock onto the I-beam. 4. Pull strap past anchor head 10 to 12 inches. Insert strap into slotted bolt Tighten slotted ten- sioning bolt 5 full turns minimum until all slack in strap is removed (Correct.anchor must be installed I per ground anchor manufacturer's installation instructions). A - Anchor 5tabilizer All anchors must be properly stabilized to prevent lateral movement of the home and to comply with federal and state wind load requirements. Anchor with 180 sq. in. stabilizer plate. Type 1, 48" or Type II, 60" 45' in line anchor instal- lation is not allowed in Florida. 1. Refer to any and all federal and state regulations. 2. Soil Test Probe anchor location in order to match soil class to ground anchor model. 3. Partially install anchor at a slight back angle allowing 14" to 16 to remain above ground level. 4. Utilizing oversize hammer, vertically install stabilizer plate, nesting stabilizer plate between anchor and frame. 5. Fully install anchor to ground level. Tighten strap, pulling anchor until anchor rod is pre -tensioned against stabilizer plate. Strap Attachment The strap must be attached to the I-beam by using a beam clamp with a swivel connecting bracket. Strap must also be factory attached to the connecting bracket In field crimp seals are no longer allowed for use on strap to attach to frame connectors or hooks. v 1-beam Swivel Connector with radius clip. Part # 59002 & 59242 with out strap 3" Beam hook # 59003 4" Beam Hook#59004 Beam Hook for MI. frames # 59005 -TIE: DOWN ENGIN£L'RING T S IN .wx4„r. i Y' a'- . Vi •�;� s.:. 'b a�: +rs t..s- ,s Y}:�r"'.:y }:'- ` �u"',.tt}}y��11•• 0t ; ' 4vt•. Concrete Anchors Minimum thickness of a concrete stab is 4 inches to use these anchors. Each anchor must have 4,725 lbs of concrete to meet holding requirements. Concrete weighs approximately 4,000 lbs per cu. yd. Each anchor requires approximately 1.2 cubic yards of concrete to meet holding requirements. Example: 6 anchors on one side of a home would require over 7 cubic yards of concrete. Both sides would require over 14 cubic yards of concrete. Patio Slab Anchor MIT2 This anchor is designed to be inserted, through a.3/4" hole drilled or formed into an existing concrete slab. • Concrete must be a 2500 PSI, minimum slab ' with 4" minimum thickness and 6/6 x 10/10 wire mesh installed. • Concrete slab must allow47251bs of verticl tension on anchor without lifting. This assumes a that the concrete weighs 150 lbs per cu. ft. Minimum distance from the anchor shaft to one edge of the slab is 4 in. from any other edge. IT • If installed in a 4" slab at minimum distances from edges, and additional layer of 616x 10/10 mesh is recommended. Concrete Anchor Concrete. 51ab Anchor MIC52 M1J2 The MIJ2 is designed to be installed into a concrete slab at the time the concrete is being poured. • Concrete slab must be 2500 PSI minimum with 4" minimum thickness and 6/6 x 10/10-wire mesh installed. • Concrete slab must allow 4725 lbs of vertical tension on anchor without lifting. This assumes that the concrete weighs 1501bs per cu. ft. • .Minimum distance from the anchor shaft to one edge of the slab is 4 in. from any other edge, • If installed in a 4" slab at minimum distances from edges, an additional layer of 6/6 x 10/10 mesh is recommended. • Slab must be 8 in. minimum thickness at loca- tion under any anchorto allow 5 in. embedment, of anchor "J" rod. This anchor is designed lobe bolted loan -expansion sleeve anchor in an existing concrete slab. • After reviewing restrictions listed to the right, drill a 5/8 in x 3 in. hole in the slab where the anchor head is to be located. • Place expansion anchor into the drilledhole • Place the washer onto the expansion bolt • Thread nut onto expansion bolt and tighten until maximum expansion of steel expansion sleeve has been. achieved,. • Remove nutand washerand placeanchorhead over exposed bolt. • Place washer and nut onto bolt to attach anchor head, tighten nut. • Concrete must be a 2500 PSI minimum slab with 4" minimum thickness and 6/6 x 10110 wire mesh installed. • Concrete slab must allow 4725 lbs of vertical tension on anchor without lifting. This assumes that the concrete weighs 150 lbs per cu. ft. •Minimum distance from the anchorshaftto one edge of the slab is 4 in, from any other edge, • If installed in a 4" slab at minimum distances from edges, an additional layer of 6/6 x 10110 mesh -is recommended, I!TIEDOWN ENGINEERING • 255 Villanov Drive 1 710c�"' a eSW At anfa, GA 30336www.tiedown.com (4O4) 344.0000 Fax (4O4) 349.O4O1 0 GIN ERM r m 0 0 r ,y � ri �. r � ;y � r •i - r. Strap Requirements G WANIZED .STRAPS .60 OUNCES EACH SIDE OR NOMINAL G115 Florida now requires that all strapping have Extra galvanization to protect from the elements. All strapping must be marked with the "G115" coating, and Tie Down strap will indicate "QUAD COAT G-120:' The ASTM 3953-91 must still be referenced on the strap to indicate conformity to the HUD Code, and the G115 will indicate the extra coating. All strap must be marked every 12" to 157. Strap Marking LETNICRG120 .TIE DOWN ENGINEERING - CERTIFIED TO EO PROTEC ION as[ A225.1 AsW On53-81." Strap. Attachment Strap•must be factory attached to the connecting bracket Connecting brackets must have a radius clip to protect the strap from sharp edges.Field attached crimp seals are no longer allowed for use on strap to attach to frame connec- tors or gooks. Swivel Connector with radius clip. Part# 59002 & 59242 strap Strap Splice Friction splice using a buckle is not acceptable. To lengthen a. factory made strap in the field, a double crimp seal splice is required. Over- lap strap approximately 12 inches and use two crimp seals evenly spaced. .2 Seals-- 2 Crimps per seal TIE DOWN ENGINEERING CERTIFIED TO ANSI A225.1 ASTM D3953-01 QUAD THICK 6-120 GALVANIZED PROTECTION Meets Florida 15 C Requirements Proper Strap Tensioning 1. Insert slotted bolt into anchor head, attach loosely. Pull strap past bolt head and cut strap so that 12-15 inches of strap are available to wrap onto the slotted bolt E 3. Using 15/16" wrench or socket, turn the bolt, winding the strap so that a minimum of four to five complete turns are made, and the strap is adequately tensioned. 2. Insert the strap end into the slot in bolt until flush with opposite side of bolt. 4. Hold the bolt under tension while tighten- ing the nut, drawing the head of the bolt into the recess. After the bolt is within the recess, continue to tighten the nut until securely fastened. TIE DOWN ENGl NMI NG I Longitudinal Anchors LONGITUDINAL ANCHORS, TWO PER I -BEAM, FOUR PER END Every home must be installed with protection from wind .loads on each end of the home. Florida rules require two anchors per I-beam. This means that a single section will require - four longitudinal anchors per end for a total of eight for the home. A double section home will require eight anchors per end .for a total of sixteen per home. As with all other anchors, these must be galvanized and installed with a 180 sq. in. galvanized stabilizer plate. Soil must be probed and recorded in order to snatch anchor model to site soil class. Single Section Home 4 anchors with stabilizer plates per end for a total of 8 longitudinal anchors per single section fiome Angle Frame Bracket Part # 59009 Double Section Home 8 anchors with stabilizer plates per end for a total of 16 longitu- dinal anchors per double section home Frame Attachment Drilled Holeffiracket 1. Determine anchor/stabilizer plate location and bracket location on 1-beam to insure a 45` or lower strap angle . 2. Drill a 112" hole in the centered in the 1-beam as shown, Hole must tie a minimum of 4" from any edge of the I- beam. 3. Gvnnect the two frame brackets {R & Q with a 1/2" Grade 5 bolt and nut. Frame Attachment Factory P racketo Some homes may have factory brackets welded to the 1-beams for longitudinal anchors. Attach the strap/swivel connector to the factory bracket using. a 1/2" Grade 5 bolt and nut Anchors/ties must be installed to provide a 45* or lower strap .angle. factory Welded Bracket y cip a © a Longitudinal Beam Clamp It �_. m. ry Gator Beam Clamp Part # 59011 .� N y 45° or less 1. Determine anchor/stabilizer plate location and bracket location on I-beam to insure a 45' or lower strap angle. - 2: Attach beam clamp with 1/2" Grade 5 bolts and nuts as shown. 3. Connect swivel,connector and strap to 4. Attach swivel connector and strap to angle frame brackets bolt nearest to anchor with a 1/2" Grade with 1/2" Grade 5 Dolts and nuts. Tighten all bolts. 5 bolt and nut, i 1 6 t TIE? `DOWN LIJGlNMING U 0 S .Longitudinal. Stabilization. Devices for Florida. As an alternate to installing longitudinal anchors and. stabilizer plates, the installer may use longitudinal stabilizing devices approved by the state, including Tie Down's LSD {Longitudinal Stabilization Device). The use of two LSD systems on a single section home replaces all eight longitudinal anchors, stabilizer plates and straps. Four LSD systems on a double section home replaces sixteen longitudinal anchors, stabilizer plates and straps. C Note: LSD pads provide 3 sq. ft. of bearing support per system. Example of Possible Placement;: I I I I I I I I I 1 I o I i I 1 Single Section Home Double section borne up to 18 feet in width. up to 36 feet in width. 1. Determine where the longitudinal Stabilizing Device will be installed on the home. 2. Place one L2SD pad centered under the beam. NOTE. Press pad into the ground so that the cleats are below ground level. 3. Slide tie :brackets into pad. 4. Build pier on L2SD pads between tie brackets. 5. Install beam clamps on either side of pier. Attach USD .braces to beam clamps and tighten all bolts, L Longitudinal Foundation Pad 2. Beam Clamp (2 per system) 3. Longitudinal strut (2 per system) 4. Tie Bracket (2 per. system) Part# Description 59271 LSD Pad. 59026 LSD Hardware Kit Includes;:2. tie brackets & 2 beam clamps. 59016 Longitudinal Strut 30" for use up to 18" high piers (two block piers) 59012 Longitudinal Strut 39" for use up to 2V high piers (three block piers) 59013 Longitudinal Strut 44" for use up to 32" high piers (four block piers) 59014 Longitudinal Strut 53" for use up to 40" high piers (five block piers) 59015 Longitudinal Strut 65" for .use up to 48" high piers (six block piers) Soil Classifica#ion Ground anchors are designed for different soil classifications, longer models for loose soils, shorter models for harder soils. Prior to installing any ground anchor model, the soil must be tested with a Soil Test Probe in order to match approved ground anchor model with site soil class. Ground anchors for Florida Only: for puposes of installation of manufactured/mobile domes in the State of Florida, there will be two soil classifications. All Anchors and stabilizer plates must be galvanized. Color Soil Soil Code Class Description Test Recommended Value Anchors/Stabilizer Plates 4A t.00se to medium'dense 276 to 350 Type 1 sands, firm to stiff clays in. lbs. and silts, alluvial'fill. Green 40" E Red Model Part # Description M12H5/8 59081 48" x:5/8" rod,1-6" helix MI2H3/4 59094 48" x 3/4" rod,1-6" helix 59285 59286 171/2 Stabilizer Plate 4B Very loose sands, firm 175 to 275 Type 2 clays and silts, alluvial fill. in. lbs. * in 48" with 6" helix and a 17-1/2" wide stabilizer plate, 180 sq. in. ABS Stabilizer Plate Stabilizer Plate 7", U1, I_ 3/4" x 60" with 7" helix and a 171/2" wide stabilizer plate,180 sq. in. 60" ABS Model Part # Description J, Stabilizer M607 59099 60" X 3/4" rod 1-7" helix / Plate 59285 59286 17112" Stabilizer Plate Stabilizer * Below 175 in. lbs., a pr(4essional engineer should be eonsulted Plate Instructions Soil Test Probe 1. Place probe tip into ground where you intend to place your The Soil Test Probe is used to determine the soil conditions below anchor. Using a 15116" hex socket with a ratchet or breaker bar, the surface near the anchor's helical plate. Using the Soil Test rotate the probe in a clockwise direction. (An electric drive Probe will ensure maximum anchor holding strength by indicating machine with an adaptor head may also be used) the proper anchor model for Each soil condition. .2. Drive (rotate) the torque probe into the soil until reaching a Using the chart provided,a probe reading can be converted to the depth equal to the length of the anchor being installed. rarnmmanriari nnr±hnr fnr avant cnn rnnriii9nn 3. To determine the soil classification: • Place wrench adaptor onto torque wrench. Insert hex portion of wrench adaptor onto the earth probe. • Support probe shaft with one hand, while rotating probe steadily with the wrench. (Do not exceed 600 in. lbs.) Read the torque wrench while rotating probe clockwise. • Use the soil classification chart to cross reference probe readings. Color codes match those printed on Tie Down's torque probe. 4. To remove probe, Ilse wrench or electric drive machine in reverse (counter clockwise). 600 in. lbs Torque VVrencb II /5'Earthobe Wrench Adaptor rn 0 o� o w 0