CONDUIT SUPPORT DEVICE

Abstract

A conduit supporting device used to support a conduit at one or more than one location on said device, and where the device can support and receive one or more than one conduit. The device may placed, set on or affixed to a surface such as a roof, floor, pipe rack, production area, on the ground and other conventional locations where a need exists for conduit support.

Claims

1. A method for installing a conduit system comprising: providing a plurality of conduit components: connecting together the conduit components using at least one coupling component connecting an end of one conduit component to an end of another conduit component; the conduit components being connected to define a conduit plane at a lowermost surface of each of the conduit components: the coupling component defining a coupling plane at a lowermost surface of the coupling component at a height below the conduit plane; and supporting the conduit components at the coupling with a single conduit support block providing at least one first support surface in said conduit plane supporting said conduit components and at least one second surface recessed from said at least one first surface into which the coupling component is received.

2. The method according to claim 1 wherein a second conduit component is supported on said conduit support block and includes a second coupling component received at said second surface.

3. The method according to claim 1 wherein the second surface is placed or retained generally at a center of the conduit support.

4. The method according to claim 1 wherein the conduit support block comprises a resilient body to dampen or eliminate conduit harmonics or sound.

5. The method according to claim 1 wherein the conduit support block provides two or more first surfaces of contact on a single support block where the conduit system is supported and/or affixed in one or more locations on the single conduit support.

6. The method according to claim 1 wherein the support block provides the conduit system with component protection from stress, strain, breakage or similar.

7. The method according to claim 1 wherein the single conduit support block is a generally square or rectangular shaped which has a base or bottom that extends upwardly to a top surface that has different elevations relative to the position of a component of the conduit.

8. The method according to claim 1 wherein other geometrically shaped support blocks are provided including circular, triangular and hexagon shapes which may be a combination of or any geometrical shape.

9. The method according to claim 1 wherein other support blocks include a flat top four-sided pyramid, cone, or flat top conical eight-sided shapes where the bottom perimeter is larger in diameter than the top perimeter.

10. The method according to claim 1 wherein the support block is made of non-metallic elastomeric, rubber or plastic material or similar.

11. The method according to claim 1 wherein the support block is made of recycled material.

12. The method according to claim 1 wherein the support block has other elements built within, such as marking, labelling, or lighting areas.

13. The method according to claim 1 wherein the support block has holes penetrating or passing directly through the support block where other conduits or electrical wiring can be fed or inserted through.

14. The method according to claim 1 wherein recessed conduit attachment areas are formed within sides of the support block.

15. The method according to claim 1 wherein the top of the support block has two or more areas for a conduit system to he supported equally distributing weight loads thus adapted to support light, medium and heavy loads with equal respect.

16. The method according to claim 1 wherein support block is formed of durable and resilient material so that it is long lasting as load bearing factors do not fatigue, stress or strain the support block.

17. The method according to claim 1 wherein a footprint or load distribution of the support block is suited for installation on synthetic rubber EPDM, polyvinyl chloride PVC, thermoplastic polyolefin TPO, metal, asphalt, tar, roof surfaces covered in rocks or similar roofing membranes or materials.

18. The method according to claim 1 wherein the support block is formed in part or in whole of the bottom or base of the support block are channels or passages which prevent temperature transfer from a conduit to roof or vice versa.

19. The method according to claim 18 wherein the channels or passages also allow watershed preventing standing water, condensate or similar at the support block.

20. The method according to claim 1 wherein a bottom or base of the support block is a base lower lip which allows roofing membranes to be overlapped preventing water penetration through the roofing material.

21. The method according to claim 20 wherein a water tight seal is provided at the base lower lip when overlapped with roofing materials and secures the support block.

22. The method according to claim 20 wherein the lower lip of the base has holes or placement markings for connector elements to be used to affix the support block to a surface.

23. The method according to claim 22 wherein the support block is provided with connector element holes which are countersunk from the first surface to allow for a smooth surface for roofing or other membranes to be laid flush.

24. The method according to claim 1 wherein center top surface of the support block is lower in elevation than said first surfaces or completely void of material compared to the outermost perimeter defining said first surfaces.

25. The method according to claim 1 wherein the lower area center of the perimeter support area has vertical or horizontal holes or passages for air transfer, water drainage or similar.

26. The method according to claim 1 wherein an underside of the support block is recessed to allow stacking of a plurality of the support blocks one on top of another.

27. The method according to claim 1 wherein there is provided a cover mounted on the support block and covering over the conduit components and the coupling components.

28. The method according to claim 1 wherein there are provided attachment brackets arranged to fasten the conduit components to the first surface.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 is a perspective exploded view of a conduit support according to the invention including a support block and a half plate.

[0026] FIG. 1a is perspective view of the support block of FIG. 1 which is modified to provide sloped sides.

[0027] FIG. 1b is perspective view illustrating the support block of FIG. 1 which includes a load distribution pad.

[0028] FIG. 2 is a perspective view of the support block of FIG. 1 which includes a tee fitting centered in the middle of the support block with all conduit ends supported on the top of the support block.

[0029] FIG. 3 is a perspective view of the support block of FIG. 1 which includes a coupling centered in the middle of the support block with two conduit ends supported on the top of the support block.

[0030] FIG. 4 is a side view of the support block of FIG. 1 which includes a conduit on the top.

[0031] FIG. 5 is an exploded side view of the support block of FIG. 1 which includes a conduit supported on top of the support block under a hanger element.

[0032] FIG. 6 is a side view of the support block of FIG. 1 which includes a conduit supported at a height above the support block.

[0033] FIG. 7 is a side view of the support block of FIG. 1 which includes a conduit supported by u-channel on the support block.

[0034] FIG. 8 is a side view of the support block of FIG. 1 which includes a conduit supported within the support block at a height below a top surface of the support block.

[0035] FIG. 9 is a side view of the support block of FIG. 1 which includes a conduit supported above the support block by threaded rod.

[0036] FIG. 10 is an exploded side view of the support block of FIG. 1 which includes a conduit supported within the support block and further including a cover.

[0037] FIG. 10a is a side view of the support block of FIG. 10 which includes with a conduit supported within the support block with the cover attached to the support block.

[0038] FIG. 11 is a plan view of the support block of FIG. 1 which includes lighting.

[0039] FIG. 12 is a plan view of the support block of FIG. 1 which includes supporting conduits at more than one location.

[0040] FIG. 13 is a plan view of a support block according to the invention which includes supporting a conduit attached with a coupling.

[0041] FIG. 14 is a perspective view of the support block according to the invention which includes in the shape of a square pyramid with angled corners.

[0042] FIG. 15 is a perspective view of the support block according to the invention in the shape of a square pyramid with angled corners.

[0043] FIG. 16 is a perspective view of a support block according to the invention in the shape of a square pyramid with angled corners having a channel through the base.

[0044] FIG. 17 is a perspective view of a support block according to the invention in the shape of a square pyramid with four sides.

[0045] FIG. 18 is a perspective view of a support block according to the invention in the shape of a square pyramid illustrating stacking support blocks.

[0046] FIG. 19 is a perspective view of a support block according to the invention in the shape of a square pyramid with a bottom lip and solid interior base with drainage holes.

[0047] FIG. 19a is a perspective view of a support block according to the invention in the shape of a square pyramid where the bottom section of the sides is recessed.

[0048] FIG. 20 is a perspective view illustrating a gas heating roof top unit according to the invention on a partial building roof segment with the gas supply conduits supported at all the conduit ends and where the components are centered of the conduit support of this disclosure.

[0049] FIG. 21 is a perspective view of prior art supporting a conduit illustrating random placement of conduit supports without regard for supporting conduit ends where the conduit has no complex control.

[0050] FIG. 22 is a perspective view of prior art supporting a conduit illustrating random placement of conduit supports without regard for supporting conduit ends where the conduit has no complex control.

[0051] FIG. 23 is a top plan view of prior art illustrating conduits supported without regard for conduit end support at 90-degree changes of direction.

[0052] FIG. 24 is a perspective view of prior art supporting a conduit illustrating random placement of conduit supports without regard for supporting conduit ends where the conduit has no complex control.

[0053] FIG. 25 is a perspective view illustrating prior art supports and a damaged conduit.

[0054] FIG. 26 is a perspective view illustrating a support block according to the invention without damage.

[0055] FIG. 27 is a perspective view illustrating a support block supporting a conduit elevated by threaded rod.

[0056] FIG. 28 is a perspective view illustrating a support block supporting a conduit with elongated channel placed between the conduit and the top of the support block.

[0057] FIG. 29 is a perspective view illustrating conduits supported perpendicular to each other.

[0058] FIG. 30 is a perspective view of the support block according to the invention complete with identification marking area.

DETAILED DESCRIPTION

[0059] Embodiments of the invention will now be described with the use of the figures or illustrations. The use of numerical and or alphabetical reference may refer to similar components or parts throughout and repetition of descriptive writing may not necessarily be repeated. It is to be understood that illustrations and descriptions now disclosed including embodiments, components, configurations and materials are preferred and are given solely for explanation and understanding purposes. Therefore, it is to be understood that no limitation of the scope of the invention is thereby intended with the following descriptive writing or illustration.

[0060] Terminology used herein is for the purpose of describing embodiments only and is not intended to be limiting of the invention.

[0061] Terminology used herein is used for descriptive purpose, as such, the use of singular terms may include plural or plural may be singular where sense can be made.

[0062] The term “conduit” may refer to a conduit, pipe or tubing of any type, material, length, size, circumference or schedule and wire or cable of any type, material, length, circumference or gauge that conveys gas, liquid, dust, electricity or similar to these used in trade disciplines, such as, but not limited to plumbing, heating, fire protection, sprinkler fitting, gas fitting, steam fitting, pipe fitting, oil fitting, refrigeration, electrical, pneumatic and hydraulic.

[0063] The term “component” may refer to couplings, fittings, 90-degree elbows, T fittings, flanges, valves, regulators, unions, junction box's and other similar, related or associated mechanical parts, fittings or devices which may be attached into or used in conjunction with a conduit. The term also includes any fitting described in mechanical, plumbing, gas, building, and electrical codes and standards or codes and standards similar.

[0064] The term “support block” is to be understood as the invention, device, pipe support or conduit supporting device adapted to receive and support a conduit.

[0065] The use of terms is not intended to be limiting, as such, similar wording or terms which are known by those skilled in the art are to be considered within the scope of this disclosure.

[0066] Throughout this disclosure or writing it is to be understood that the invention could be used, installed or placed in or on a roof, floor, mechanical room, ground, and other conventional locations where a need exists for conduit support.

[0067] As described in the Background and illustrated in prior art FIG. 21, 22, 23, 24 current pipe and conduit supports illustrate locations for supporting a conduit without regard for support at the conduit ends.

[0068] To better understand the spirit of the invention reference of prior art illustration is provided illustrating traditional wooded blocks U.S. Pat. No. 9,523,380 by Brown FIG. 4 provided in FIG. 24 of this disclosure. Attention is now drawn to the positions of the wooden supports which appear randomly placed. In particular, the placement of the supports neglects supports on both sides of the 90-degree elbow (at conduit ends or joints). With this random positioning it becomes apparent the 90-degree elbow joints and conduit ends are not equally supported leaving one joint or conduit end unsupported and vulnerable to stress and breakage.

[0069] U.S. Pat. No. 7,922,130 by Hawkins provides prior art illustration in FIG. 7 illustrated in this disclosure as FIG. 23 of supports again randomly positioned without any supports at 90-degree elbows. FIG. 22 provides illustration of prior art U.S. Pat. No. 6,520,456 by Neider, U.S. Pat. No. 4,513,934 by Pruyne, U.S. Pat. No. 4,502,653 by Curtis Jr which illustrate conduit support placement where the supports are not placed at 90-degree elbows again providing no support for all conduit ends. FIG. 21 illustrates FIG. 1 of U.S. Pat. No. 5,217,191 by Smith where supports are not placed supporting T fittings or a reducing coupling further illustrating the need for all conduit ends to be supported.

[0070] As described in the Background and illustrated in prior art examples shown in FIG. 21, 22, 23, 24 regardless of traditional wooden supports or other prior art it becomes apparent that current conduit or pipe supporting devices used today lack in providing support for conduits at the conduit ends where attachment is made to components, flanges or butt joints. Additionally, if placement was to be provided with single contact supports the number of such prior art supports 22 (FIG. 25) 20,60 (FIG. 21) 13 (FIG. 22) 410 (FIG. 23) 16 (FIG. 24) could triple, and as discussed in the Background this would be time consuming, very costly, wasteful and even impractical or impossible.

[0071] Referring now to a preferred support block 1 of the present invention there is provided a generally square or rectangular support block 1 (FIG. 30) having a (bottom) base perimeter 1bp with four sides that extend upward to a (top) top rest 2 which forms a perimeter around a void or lowered interior center 3a area. The sides may be formed as perpendicular sides 1a, angular sides 1aa or a combination of both perpendicular sides 1a and angular sides 1aa that may have marking or identification areas 1ma formed within any perpendicular side 1a or angular side 1aa.

[0072] Where the support block 1 is not formed with a raised upper perimeter or top rest 2 the top could be a generally flat surface 2fs where metal elongated channel 6i, u-channel or similar could be used to for elevating a conduit 6 off the generally flat surface 2fs (FIG. 27, 28, 29). The metal elongated channel 6i could be placed at any location on the generally flat surface 2fs to elevate a conduit 6.

[0073] The base perimeter 1bp is intended to be placed on a surface which can include a roof 20. The base perimeter 1bp may be equal in measurement to the top perimeter 1tp where the sides 1a are perpendicular illustrated in FIG. 1. However, the base perimeter 1bp might be larger than the top perimeter 1tp where the perpendicular sides 1a are no longer perpendicular and have angle sides 1aa that are angled to some degree. In this angled sided support block 1 the angular sides 1aa beginning at the base perimeter 1bp or other location on a perpendicular side 1a extend upward to the top perimeter 1tp. The base perimeter 1bp of a support block 1 as mentioned is well suited for flat and gradually sloped roofs 20 due in part to the foot print of the base perimeter 1bp which is used to displace the point of contact pressure that the roof 20 encounters. This reduction of contact pressure provides a conduit support or support block 1 that will not damage roof 20 surfaces and prevents vibration. Furthermore, the base perimeter 1bp can be bonded directly to roof surfaces at the bottom lip 17 (FIG. 19, 19a).

[0074] For design elements, wind effects, material saving, shipping, aligning or other reasons the side corners 15 of the support block 1 could have rounded sides 15a (FIG. 13) or be angular 15b (FIG. 14,15,16) creating an octagon or similar shaped base perimeter 1bp or top perimeter 1tp. It is to be understood that shape is not intended to be limiting of the scope of the invention, as such, the shape of the support block 1 could be other geometrical shapes or forms or geometrical shapes. The shape of the base perimeter 1bp and top perimeter 1tp of the support block 1 could be square, circular, oval, rectangular an octagon or combinations of such shapes which provide support for a conduit 6 at one or more points. The interior center 3a of the support block 1 may be void of material or hollow or formed with a lower area or interior base 3. The interior base 3 depth is dependent upon factors such as the component 8 above the interior base 3 or lighting supported by the interior base 3, or other factors such as the size of conduit 6 supported by the support block 1.

[0075] Other shaped embodiments not illustrated are not intended to show lack of novelty, however with limitations for illustration the reader is to understand that the scope cannot be defined only by shape of the support block 1. The intent is that the support block 1 is to provide support of a conduit 6 at one or more locations on a single support. In addition, the support block 1 provides at the top rest 2 area close proximity support near or at a component 7 providing support and protecting for the conduit 6, component 7 and component joints 8 from stress, breakage or other hazards. Therefore, regardless of the physical geometrical shape, conduit 6 supports that provide more than one point of conduit 6 contact or support are within the spirt of this disclosure when the purpose is to support or protect a conduit 6, a component 7 or component joint 8.

[0076] The support block 1 and components thereof the support block 1 may be fabricated of any suitable resilient materials, including plastics, rubber, composites, metals, wooden 4×4 or similar pressure treated lumber and recycled materials. The support block 1 may be fabricated using suitable techniques, including molding, casting, machining, cutting or similar to the above to achieve the results required. The support block 1 when made of rubberized material or non-conductive materials can dampen or eliminate conduit 6 harmonics or sound, provide a thermal break from heat or cold, isolate or prevent dielectric action and prevent conduit 6 and roof 20 wear.

[0077] The top rest 2 can receive a variety of external connector elements or components for the purpose of affixing a conduit 6 to a support block such as, screws 9 and clips 6f (FIG. 5), screws 9 and ring hangers 6g (FIG. 6), screws (not shown), metal elongated channel 6i and channel clips 6h (FIG. 7). The use of other connector elements including bolts (not shown), threaded rod 6L, nuts 6k, 6kk (FIG. 9) nails (not shown) epoxies (not shown) or similar connector elements known or unknown are possible means of connecting or affixing a conduit 6 to the support block 1.

[0078] In some aspects of conduit 6 supporting, conduit grade or slope is required. As illustrated in FIG. 1 the height of the support block 1 can be adjusted with the use of half plates 2a. The half plates 2a are intended to be placed directly under a conduit support, other supporting embodiment (not shown) or a support block 1. Height adjustments are created by adding one or more half plate 2a to the underside of the support block 1, conduit support, other supporting embodiment (not shown). A typical slope or grade could be a quarter inch per foot of conduit run and if placed at four foot increments it could be assumed the thickness 2t of a single half plate 2a could be 1 inch. Additionally, a half plate 2a can function as a load distribution pad 2d (FIG. 1b), vibration isolation pad or temperature barrier.

[0079] The above described means of providing grade, slope or height to a conduit 6 can also be provided with the use of conventional bolts (not shown) or nuts 6k, 6kk and threaded rod 6L cut to the required length where the conduit 6 is elevated above the support block 1 and supported by elongated channel 6j (FIG. 9, 27, 29).

[0080] FIG. 1b illustrates a load distribution pad 2d which can be placed on a roof 20 surface such as, but not limited to, synthetic rubber (EPDM), polyvinyl chloride (PVC) or thermoplastic polyolefin (TPO) roof membranes 20a. The load distribution pad 2d provides an additional layer of protection for a roof membrane 20a and/or provides a method to secure and align a conduit support, other supporting embodiment (not shown) or a support block 1. The load distribution pad 2d can be made of exact or complementary materials as the roof membrane 20a which can be placed directly on a roof membrane 20a or be bonded to the roof membrane 20a completely or partially. Partial bonding of the load distribution pad 2d to the roof membrane 20a could allow the load distribution pad 2d to become dislodged without causing damages to the roof membrane 20a if stress was imposed on either the roof membrane 20a or load distribution pad 2d. With the load distribution pad 2d in place a conduit support, other supporting embodiment (not shown) or a support block 1 can be place on or within the load distribution pad 2d. The load distribution pad 2d may have stay ridges 2e that allow a conduit support, other supporting embodiment (not shown) or a support block 1 to expand and contract or move freely without damaging the roof membrane 20a while held within the confines of the stay ridges 2e. Perforations could be expected within a stay ridge 2e to allow for water drainage, air movement or similar. If so desired side attachments are possible through the stay ridges 2e into a conduit support, other supporting embodiment (not shown) or a support block 1. The gap 2f between the conduit support, other supporting embodiment (not shown) or a support block 1 and stay ridges 2e may also be filled with epoxies, silicone or similar. The thickness 2t of a load distribution pad 2d could be less than that of the half plate 2a.

[0081] Both the half plate 2a and load distribution pads 2d could be easily covered or partially covered by the roof membrane 20a securing either to a roof 20 surface, however, the use of screws, bolts, epoxies or similar would be expected if so desired by the installer.

[0082] FIG. 2 illustrates the invention or support block 1 supporting conduits 6 on the top rest 2 at three locations. As explained, supporting conduit 6 ends removes stress and load bearing factors which could damage or break conduit joints 8. The perpendicular sides 1a or angular sides 1aa of the support block 1 extend upward some distance greater than the height of the interior base 3 providing a void or interior center 3a within the support block 1 thus creating more than one location for a conduit 6 to be supported by the support block 1.

[0083] The support block 1 interior center 3a is generally centered within the support block 1 providing an inspection and air circulation area around a component 7, conduit 6 and component joint 8. The interior center 3a may also function as an operational area for components 7 that move, such as a valve or an area for a technician, maintenance or installation person to perform work on or install a component 7. Additionally, the interior center 3a can also provide an open area for lighting 13 (FIG. 11, 12, 13) which can be attached to the interior base 3.

[0084] The base or base perimeter 1bp in contact with a surface may in some aspects have channels 1b (FIG. 16, 17, 30) for air circulation acting as a cooling vent, drain area or slot for corrugated roofing materials to extend upward into. The support block 1 can have conduit 6 secondary holes 5 extend though the support block 1 providing an alternative path for other conduits 6 to be routed or these secondary holes 5 can function as vents or drains. Additional conduit 6 routing can also be present of the angular sides 1aa at conduit 6 side saddle 1c of FIG. 4.

[0085] Other arrangements of a support block 1 FIG. 8 illustrate the conduits 6 positioned within the top rest 2 at saddles 2a allowing the conduit 6 to be partially inserted or completely flush with the top rest 2.

[0086] As shown in FIGS. 4 through FIG. 10a a conduit 6 can be attached and supported in a variety of different methods from conduit 6 placement on the top rest 2 to where the conduit 6 is placed partially or entirety into the top rest 2.

[0087] FIG. 10 provides illustration of a cover 1cb which is placed over the conduit 6 which is received in FIG. 10a to the top rest 2 with the use of conventional connector elements including screws 9, bolts (not shown) or threaded rod (not shown) or similar. As an option to conventional connector elements a push pin 9a can be formed as part of the cover 1cb. The push pin 9a can be inserted into push holes 9b of the support block 1 and held by friction. The push pin 9a cover attachment is provided as a seismic release where physical attachment to a structural object could be compromised by extreme movement or fatigue of the attached object.

[0088] The cover 1cb Illustrated in FIG. 10a may be formed in a manner that allows for expansion and contraction of a conduit 6 with expansion void 11a (FIG. 10a).

[0089] Optional to conventional connector elements such as screws 9 and bolts (not shown) glues, epoxies or similar (not shown) may be applied to the cover underside 1bb and/or top rest 2.

[0090] The support block 1 of FIG. 11 illustrates a light 13 positioned within the support block 1 on the interior base 3 and expansion attachment channels 14. The expansion attachment channels 14 can also act as drainage areas for the interior base 3 and an area for connector elements (not shown) to secure the support block 1 to a surface on which the support block 1 is placed.

[0091] FIG. 12. Illustrates in plan view three different conduits 6 being supported on a single support block 1.

[0092] FIG. 14 is a support block 1 in the shape of a square pyramid with rod holes 6m at the top rest 2 with a hex shaped nut recess (not shown) on the underside of the top rest 2. The rod hole 6m which extends though the top rest 2 can receive a connector element such as a bolt (not shown) or threaded rod 6L (FIG. 9) which is received by a nut 6kk (FIG. 9) on the underside of the top rest 2. The nut 6kk is held in place within the nut recess allowing connector elements to be fitted through the rod hole 6m and threaded into the nut 6kk. The nut recess prevents the nut 6kk from rotating as connector elements are tightened.

[0093] The length 16a and width 16b illustrated in FIG. 15 are depended upon the size of conduits 6 being supported which could be 12 inches by 12 inches and the height 16 is anticipated to provide a minimum of 3 inches from the top perimeter 1tp to the surface the base perimeter 1bp is placed. However, the height 16 is dependent upon outside influence such as codes or standards which may require a conduit 6 to be supported at minimum heights, as such, the height 16 may change as needed. The depth 17 of the interior base 3 when provided is dependent upon the particular component 7 that is situated above the interior base 3, however a 1 inch depth could be anticipated as a minimum. The interior base 3 may have drainage holes 3b (FIG. 16) to allow moisture or water to drain from interior center 3a or to allow air to circulate. Additionally, the drainage hole 3b could be used for a conduit to pass through into the roof below, in which case, the drainage hole 3c would be elevated off the interior base 3 and sealed with a water tight sealant and a secondary drainage hole 18 (FIG. 19, 19a) would be provided on an angular side 1aa.

[0094] In support blocks 1 illustrated in FIG. 17 no interior base 3 is provided and the interior center 3a is void of material.

[0095] FIG. 17, 18, 19, 19a illustrate a support block 1 with four angular sides 1aa where the corners are straight, without the angular corners 15b illustrated in FIG. 14, 15, 16.

[0096] For the purpose of transportation support blocks 1 may be stacked one on top of the other as illustrated in FIG. 18.

[0097] As shown in FIG. 17,18,19 and FIG. 19a a bottom lip 17 located at the base perimeter 1bp which has a perimeter larger than the base perimeter can be used as a flange for attachment purposes. Attachment methods included conventional screws, bolts or similar. Additionally, the bottom lip 17 could be bonded to a roof membrane 20a where overlapping 19 of a roof membrane 20a onto a support block 1 is possible.

[0098] FIG. 20 Illustrates multiple support blocks 1 as described throughout this disclosure installed on a roof 20 of a building. The support blocks 1 are spaced to distribute the load bearing force of the conduit 6 illustrated as a gas line with components 7 that include a 90-degree elbow, a regulator, union, manual valve, and tee fitting from left to right from a Gas Heating Roof Top Unit 21. The illustration shows with the use of this invention or support block 1 all the conduit 6 ends or joints 8 are supported with equal respect. For areas of multiple close components 7 such as the union between a regulator and manual valve, two support blocks 1 could support six conduit 6 ends or joints 8.

[0099] As disclosed within this writing conduit 6 ends and all joints 8 of a conduit 6 system require support and when left unsupported, damage including leaking, stressed and broken joints 8 create hazards. It is well known that when force 23 such as foot traffic, snow loads, conduit 6 weight or similar is imposed on a conduit 6 end which is not supported damage will be incurred. Illustrated in FIG. 25 prior art supports 22 are shown not providing support at critical areas of a conduit 6 system resulting in a broken joint 8. However, as illustrated in FIG. 26 when force 23 is imposed on the conduit 6 the joint 8 and conduit 6 supported by this invention or support block 1 remains without damage.

[0100] The present invention has been illustrated and described with reference to particular embodiments thereof, it will be understood by those skilled in the art that other changes in form and detail may be made and are to be considered within the scope and essence of the present invention.