FR2934619A3 - Support system for solar energy capturing plates on roof top of e.g. house, has solar plate support comprising front and rear engagement parts having same structures as that of front and rear engagement parts of module support - Google Patents

Abstract

The system has a module support (10) comprising a support body with right and left coupling parts. The left coupling part has a front engagement part at front part, and a rear engagement part provided at a rear part of the body. Solar energy capturing plates (21) collect and store solar energy. A solar plate support (20) includes a support body with right and left coupling parts having same structures as that of the coupling parts of the support (10). The support (20) includes front and rear engagement parts having same structures as that of the engagement parts of the support (10).

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a support system, more particularly to a support system for solar energy harvesting panels. The support system can be mounted on the roof of a dwelling without using traditional fastening frames to support the roof. (b) Description of the Prior Art Currently, it is relatively easy to collect solar energy at an exceptionally low cost. Therefore, solar energy is the most preferred source of essential energy. The energy salary is currently being implemented in solar cells, soil conservation projects, temperature control devices, anti-pollution system, water purification process and domestic electrical appliances We usually use the solar heating to boil water and crank an engine, such as a solar powered generator, at home. In order to keep our environment (in our home) free of pollution, solar energy must be collected and stored for later use. Since it is the roof that is most exposed to the sun, solar energy trays are placed on a roof top to collect solar energy and store it in storage batteries for later use (heating solar and solar cells). Conventional solar water trays have fixed dimensions and are mounted on the roof to the stiffening of the reinforcements. Thus, the external appearance of the roof is reduced or affected by the fasteners of the frame. For buildings under construction, solar energy trays can only be installed after the installation of the 19 fixtures on a traditional roof, thus causing additional expense for the equipment, prolonging the construction time. as well as a waste of manual labor. SUMMARY OF THE INVENTION The object of the present invention is to provide a support system which includes a support module and a solar tray support whose combination can be mounted directly on the roof of a housing without the aid of traditional frame fasteners and the support technique of a housing roof is different from the conventional technique. According to the present invention, the support system consequently includes a plurality of support modules and a solar support supporting a plurality of solar energy collection trays from below. Alternatively, the support system includes a plurality of paytable brackets. Each of the supports of the module includes a carrier body having a right and a left coupling portion elevated with respect to the right coupling portion of the carrier. whereby the left coupling part can cover the right coupling part of an adjacent module support. The left coupling portion has a front engagement portion. The support body further has an overlapping chamber defined by an inner surface protruding upwardly to a front portion and capable of traversing transversely the upper left coupling portion, and a rear engaging portion to a rearward portion as a complement and capable of engaging in the front engagement portion. The solar tray support supports a plurality of solar energy collection trays from below, The solar tray support includes a support body having a greater longitudinal length than each of the module supports, a right coupling portion and a left coupling portion with the structures of the right coupling portion and the left coupling portion of a respective module holder. The support body further has a portion before engagement to a front portion. and a rear engaging portion at a rear portion with the same structures as the front and rear engagement pieces of the respective module holder. Once exposed to the sun, solar collector trays are able to collect and store solar energy. The support system of the present invention may be constituted by covering the left coupling portion of an IO module holder on the right coupling portion of a next module holder while the front engagement piece of the holder module is engaged in the rear engagement piece of a solar tray support arranged at the front. Alternatively, the support system of the present invention may be formed by covering the left coupling portion of a solar tray support on the right coupling portion of a next solar tray support while the The front engagement of the solar tray support is engaged in the rear engagement piece of a solar tray support disposed at the front with stop piece of the solar front tray support 20 in the abutment against against the inner surface protruding towards the top defining the overlap chamber in the next solar tray support. The first device of the present invention is that the support system consisting of collecting the module supports and the solar tray support supporting the solar energy collection tray from below can be mounted directly on the roof of a roof. home without the use of traditional roof, thereby enhancing the appearance of the house. The second device of the present invention resides in that the support system can be mounted directly on the roof of the house under construction, thus eliminating the need to use the traditional fastening or the fastening the frame, which in turn , can save equipment and material purchase cost, shortening construction time as well as manual work, SHORT DESCRIPTION OF FIGURES To enable a better understanding of the objectives and technological methods of the above invention, the Short description of the diagrams below is followed by the detailed description of preferred embodiments where.

Fig. 1 shows a schematic view of the first incorporation of a support system of the present invention for collecting and storing solar energy. Fig. 2 shows a schematic view of the second incorporation of a support system of the present invention for collecting and storing solar energy. Fig. 3 is a perspective view of a module holder used in the support system of the present invention. Fig. 4 is a perspective view of a solar tray support for supporting a plurality of solar energy collection trays from below and used in the support system of the present invention. Fig. 5 is a partial view of the support system of the present invention, illustrating how a plurality of module carriers are coupled to each other. FIG. 6 is a partially sectional view of the support system of the present invention, illustrating how the module supports are fixed to a roof of a house in a first way. Fig. 7 is a partial view of the support system of the present invention, illustrating how the module support is attached to a roof of a house in a second way. e7 =

Fig. 8 is a partial view of the support system of the present invention, illustrating how the module support is attached to a roof of a house in a third way. Fig. 9 is a perspective view illustrating how the module support is attached to a roof of a house in the support system of the present invention. Fig. IO is a partial sectional view illustrating how the modular support and the solar tray support are coupled to each other in the third embodiment of the support system of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a schematic view of the first incorporation of a support system of the present invention and includes a plurality of module support 1Q and a solar tray support 20. FIG. 2 shows a schematic view of the second incorporation of a support system of the present invention to collect solar energy storage. wherein the support system includes a plurality of supporting solar trays support. A plurality of solar energy collection trays 21> Referring to diagrams 3 and 4, each module support 10 includes a support body having a right coupling portion 31 and a high coupling left portion 32 in that which relates to the right coupling portion 31 so that the left coupling portion 32 can cover the right coupling portion 31 of an adjacent module support 10. The left coupling portion 32 has a engagement portion before 41 to a front part. Each support module 10 also has an overlap chamber 51 defined by an interior surface protruding upwardly at a front portion of the support body and capable of traversing the left coupling portion 32 transversely of a module inclination. a support member 10 disposed at and a rear engaging portion 42 at a rear portion of the support body in addition and being capable of engaging in the front engaging portion 41. The solar tray holder 20 supports a plurality of solar energy collection trays 21. The solar tray support 20 includes a support body having a greater longitudinal length than each module support 10, a right coupling part and a left coupling part with the same structures 20 as the right coupling portion 31 and the left coupling portion 32 of a respective module holder 10. The solar tray support 20 further has a plurality of front engagement portion 41 at a front portion, a plurality of the rear engagement portion 42 at a rear portion with the same structures as the front and rear engagement portion. 41, 42 of the respective support of the module 10, and a plurality of overlapping chambers 51 each defined by an inner surface protruding upwardly to the front portion and capable of stepping transversely across the left coupling portion 32 of another In this embodiment, the front engaging portion 41 and the rear engaging portion 42 are the male and female engagement pieces in the form of a protrusion. and cavity to receive the projection solidly and vice versa, Once exposed to the sun, solar collector trays 21 are capable of collecting and storing solar energy. To assemble the support system of the present invention, a plurality of module supports 10 (or solar tray support 20) are disposed adjacent to each other, best shown in FIG. 5, so that the left coupling portion 32 of a support module 10 can cover the right coupling portion 31 of an Io

adjacent module support, while the rear engagement portion 42, of the previous module holder (or the solar tray holder 20) is engaged in the next IO module support engagement portion 41 (or the Solar Tray 20), Currently, the stop piece 52 of the foregoing module holder 10 (or solar tray holder 20) is clamped against the projecting inner surface, defining the overlap chamber 51 of the next module holder 10 (or e solar tray support 20), see diagrams 1 and 2, thereby preventing the premature release of the support system of the present invention. Referring to diagrams 3 and 4, each of the module supports 10 and the solar tray support 20 is formed with an attachment hole 60 at a rear portion. As illustrated in FIG. 6, an attachment nail 71 may be driven into the hole 60 in the respective module holder 10 to secure the respective IO module holder securely to a roof 80 (usually a bundle structure) of a house or house. 'a building. At this time, the front engagement portion 41 of the next module holder 10 is engaged in the rear engagement portion 42 of the previous IO module holder.

As illustrated in FIG. 7, an attachment nail 71 can be depressed by the right coupling portion 31 of the respective module support 10 to secure them to a roof 80 (usually a bundle structure) of a house or As shown in the drawing, a fastening nail 71 can be driven through a catch plate 72, one end hooks the right coupling part 31 of the respective module support 10 while the other end is arranged on a roof 80 to allow extension of the fastening nail 71 to secure the respective module support 10 securely to a roof 80 (usually a beam structure) of a house or building. Alternatively, as shown in Fig. 9, after having disposed a wind-resistant attachment plate 73 on the respective module support 10, the fastening nail can be driven through an attachment plate 73 to secure the support. of respective module 10 securely on a roof (not shown) of a house or building. Naturally, a sealing washer 74 should be placed below the attachment plate 73 before driving the fastening nail through the respective module holder 10. Referring again to diagrams 3 and 4, each of the carriers 20 module 9 and the solar tray support 20 is formed with a stop member 52 on the left coupling portion 32 rearwardly and in alignment with the front engaging portion 41. After assembly, the piece stop 52 of the support disposed in front of the module 10 is abutted against the upwardly projecting inner surface defining the overlap chamber 51 according to the module support 10, as shown in FIG. 5, the stop piece 52 of the tray The solar support 20 is in the abutment against the upwardly protruding inner surface defining the overlap chamber 51 of the next payroll support plate 20, as shown in FIG. 2. FIG. 10 is a partial sectional view of the third embodiment of the support system of the present invention and has the structure similar to the previous embodiment. The only difference lies in the right coupling portion 31 and the left coupling portion 32 of each of the module supports 10 and the solar tray holder 2 is formed with two engagement ribs 33 for engaging the one on the other to improve the assembly of the support system of the present invention. After assembly, the support system of the present invention is mounted di erly on a roof of a house, thereby serving as a traditional roof, where a gutter (not shown) can be hung horizontally below the support module. 0 lowest to collect the water flowing along the support system and to evacuate through the transmission pipe (not shown), which is e e outtière.

Claims (8)

REVENDICATIONS1. A support system for supporting the solar energy collection trays, characterized by: a plurality of module holders (10), each comprising a support body having a right coupling portion (31) and a coupling portion left (32) culminating with respect to the so-called right coupling part (31) so that the left coupling part (32) can cover on the right coupling part (31) a module support ( 10) adjacent, from the left coupling portion (32) having a front engagement portion (41) to a front portion, each of said module holders (10) further having an overlap chamber (51) defined by an inner surface protruding upwardly to a front portion of said support body capable of straddling transversely across the left coupling portion (32) of one of the module supports (10) disposed at the front, and a rear engaging portion (42) at a rear body portion of t complementary and able to engage in the engagement part before (41); a plurality of solar energy collection trays (21) capable of collecting and storing solar energy when exposed to the sun, and solar tray support (20) supporting a plurality of energy trays solar panel (21), having a greater longitudinal length than each of the module supports (10), the solar tray support (20) comprising a support body having a right coupling portion and a left coupling portion with the same structures as the coupling right part (31) and the coupling left part (32) of a module support (10), of the solar plate support (20) having in addition a front engagement part ( 41) to a front support body portion, and a rear engagement portion (42) to a back support body portion with the same structures as the front and rear engagement portions (41, 42) of the support bracket. module (10). The support system according to claim 1, characterized in that said support body of each of the module supports (10) and the solar tray support (20) is formed with an attachment hole (60) at the rear portion, and wherein each of the module supports (10) and solar tray support (20) is formed with a stop piece (52) on the left coupling portion (32) rearwardly and in alignment with the front engaging portion (41). 3. The support system according to claim 1, characterized in that the front engagement portion (41) and the rear engagement portion (42) are the male and female engagement pieces with a projection and a cavity for receive the projection solidly and vice versa. 4. The support system according to claim 1, characterized in that each of the right coupling parts (31) and the left coupling part (32) of the modular support (10) and the solar tray support (20) ) is formed with an engagement rib (33) for engaging one into the other. A module holder for supporting a solar tray holder thereon, comprising: a support body having a right coupling portion (31) and a left coupling portion (32) elevated with respect to the portion with the right coupling part (31) so that the left coupling part (32) can cover the right coupling part (31) of an adjacent module support-17- (10), the left coupling part (32) having a front engagement portion (41) at a front portion, the support body further having an overlap chamber (51) defined by an interior surface projecting upwardly at a front portion, capable of stepping over transversely the left coupling portion (32) of another module support (10) disposed at the front, and a rear engaging portion (42) at a complementary rear portion, engageable with the commitment part before (41). The module holder according to claim 5, characterized in that the support body is formed with an attachment hole (60) at the rear portion. The module holder according to claim 5, characterized in that the support body is formed with a stop piece (52) on the left coupling part (32) towards the rear and in alignment with the front engagement portion (41). 8. The module holder according to claim 5, characterized in that the front engagement portion (41) and the rear engagement portion (42) are a projection and a cavity for engaging the projection and vice versa.