TWM415552U - Solar supporter and solar device using the same - Google Patents

Abstract

A solar supporter includes a plurality of supporting legs, a plurality of first bearing beams and a plurality of second bearing beams. The first bearing beams are parallel to each other and are disposed on the supporting legs. The second bearing beams are parallel to each other and are disposed on the supporting legs. The second bearing beams are interlaced with the first bearing beams. The first bearing beams or the second bearing beams have at least a pair of sliding rails opposite to each other. A solar device using the solar supporter is also provided. The solar supporter and the solar device have a low cost.

Description

M415552 V. New description: ' 【New technology field】 This creation is about a solar device, and in particular, it relates to a solar energy bracket and a solar device using the same. [Prior Art] In recent years, with the rise of environmental awareness and the rise of alternative energy fields, and the fact that #太阳能 has an inexhaustible advantage, the use of solar energy has received increasing attention. Therefore, in areas with sufficient coverage, it is more and more common to set the δ of the large solar moon b device to convert the energy into the energy needed in human life, such as electric energy and heat. Too much of this bracket is too important for the device to be part of the device, which is suitable for supporting the solar panel. FIG. 1 is a perspective exploded view of a conventional solar device. 2 is a side view of the solar device of FIG. 1. It should be noted that, in order to facilitate the S, only a second load beam, a reinforcing strip, a first supporting leg and a second supporting leg are schematically illustrated in FIG. 1 and FIG. 2 . Referring to FIG. 1 and FIG. 2, the solar device 1 includes a plurality of solar panels 11 and a solar panel 120. The solar support 120 includes a plurality of support legs 12, a plurality of first load-bearing beams 122, a plurality of second load-bearing beams 123, and a plurality of reinforcing strips 124. The first load-bearing beams 122 and the second load-bearing beams 123 are disposed on the support legs. The solar panels 110 are disposed on the first load-bearing members #m and the second load-bearing beams 123. One of the support legs 121 includes a plurality of first support legs 125 and a plurality of second support legs 126. The first support legs 125 are located in a straight line and spaced apart, and the second leg feet 126 are located on another line and spaced apart. The first leg M415552 1.25 and the second support leg 126 are rectangularly adjacent to the second load beam (2) ❾1 and are provided with two phases. The two connecting pieces 125a are parallel to each other and spaced apart by a distance of 4, each of the plates 125a. A connection hole 125b is provided in the upper opening. The connection of each of the support legs 126 is close to the second load beam configuration = tab 126a. The two connecting pieces 126a are parallel to each other and spaced apart by a certain distance, and the connecting hole 12 is formed in the female connecting piece 126a, and the connecting hole 126e is opened. M_126 is also singularly " some f-bearing beams 122 are parallel to each other, the second load-bearing beams 123 are flat with each other, and the second load-bearing beam 123 is perpendicular to the two ends of the first load-bearing target 122 (2). 123 connection. Each == beam=- is provided with a connecting hole 123a, and the other end has a face c, and a middle portion of the carrying beam 123 is also provided with a connecting hole 12. The end of the strip 124 has no two oppositely disposed tabs, and the other end is provided with two oppositely disposed tabs 1 bird. The two connecting pieces 124a are mutually connected to each other by a predetermined distance, and each connecting month 1243 is provided with a connecting hole 124c. The two connecting pieces 124b are parallel to each other and spaced apart by a certain distance, and each connecting piece I24b is provided with a connecting hole 124d. The assembly is dry, and one end of the second load beam 23 is connected between the two connection months of the first support leg 125 by the connection hole 123a, the connection hole 12/a and the lock. The other end of the first load beam 123 is connected between the two connecting pieces 126a of the second leg 126 by the connecting hole 12 and the connecting hole 12. The middle portion of the second load beam 123 is connected between the two connecting pieces U4a at one end of the reinforcing strip 124 by a connecting hole 123b, a connecting hole 12, and a fastener. The second supporting leg 126 is connected between the two connecting pieces 124b of the other end of the reinforcing strip 124 by the connecting hole 126c, the connecting hole I24d and the locking member. The M415552 solar device 100 further includes a plurality of clamps (2) and a plurality of support sheets (3). The gorge is on the corresponding second load-bearing beam 123, and the solar panel is placed between the target 123 and the fixture 127, so that the solar panel is placed on the first-bearing beam 122 and the second carrier 123. A support piece is connected to the opposite sides of the bottom of the bottom of the mother-and-support foot 125. A pair of floor pieces 128 are connected to opposite sides of the bottom of each of the second support legs 126. As shown in Fig. 1, the "rail solar panel 110" has a large number of the number 122, and the number of the carrier 122 is large. The material needs to be provided with the jig 127 and other fasteners to complicate the solar surface and the construction cost is high. It has been added to the material and assembled more. [New content] A solar bracket has the advantage of low cost. Advantages of the sun (four), it has low cost and easy assembly. The foot, a number of -V: two can include multiple support flats (four) - Xidi - load beam. (4) The first-bearing beam phase is placed on the cutting feet; the bearing surfaces are parallel to each other and are equipped with Xif - - & Ting Erdi, a load-bearing beam and these first load-bearing beams are arranged in a staggered first load beam or these The second load-bearing beam is provided with at least one pair of oppositely-distributed branches. In the embodiment, the above-mentioned legs comprise a plurality of second legs, two legs and two legs, each of which has a height less than The first leg is located on the straight line of the mother line 50yz ==7, and the first support leg and the second support leg are in the form of a solid bar at d. : The above solar energy support includes a plurality of support foot connections. ° i, the end and the second two load beam connection, the other end and the second of the above-mentioned first load carrying 襟 perpendicular to the hanging embodiment, the above-mentioned first carrying beam is provided with two h : Erguang i-bearing beam includes sliding support, medium sliding bearing beam and t-bearing = carrying beam, sliding bearing beam has the first sliding rail 'middle rail bearing beam Μ 执 = second sliding The upper rail bearing beam has a fourth sliding rail, the first sliding two sliding relative configuration, the third sliding and the fourth sliding opposite configuration. & creation also proposed a solar device, including multiple solar panels and - eve brackets. The solar support comprises a plurality of support legs, a plurality of (four)-bearing marks and a singular: load beam. The first load-bearing beams are parallel to each other and are disposed on the support legs. The first load-bearing beams are parallel to each other and are disposed on the support legs. These first, the load beam are staggered with the first load beams. The first load beam or the first load beam are provided with at least a pair of oppositely disposed slide rails. The opposite ends of each solar panel are slidably received in two opposing rails, respectively. In an embodiment of the present invention, the first load beams are perpendicular to the second load beams. In an embodiment of the present invention, the first load beam is provided with two pairs of slide rails, and the first load beam includes a down rail load beam, a middle rail load beam and an upper rail load beam. The sliding bearing beam has a first sliding, the middle sliding bearing beam has a second sliding rail and the third clearing upper sliding support beam has a fourth sliding, the first sliding and the second sliding relative configuration The third and the fourth rail are oppositely arranged. M415552

The sliding support beam of the above-mentioned sliding load bearing beam is in the embodiment of the present invention.

It also includes a plurality of miscellaneous pieces, each of which is inserted into the positioning hole to prevent the solar panel from sliding out of the solar panel. In the creation of the sun and the solar device of the present invention, the first bearing rafts or the second lions are provided with at least a pair of opposite arrangements (four). The solar panel can slide the sliding handle of the first load-bearing beam or the second load-bearing beam. * It is easy to assemble by the solar support. The cost of the J1 is more than that. The solar device of the present invention does not require the use of fixtures and other fasteners to fix the solar panel. On solar mounts, thereby reducing material costs. The above and other objects, features and advantages of the present invention will become more apparent and understood. [Complex Mode] FIG. 3 is a perspective view showing a solar device according to an embodiment of the present invention. Referring to FIG. 3, the solar device 2 of the present embodiment includes a solar panel 210 and a solar bracket 220. The solar bracket 220 includes a plurality of support legs 221 , a plurality of first load beams 222 , a plurality of second load beams 223 , and a plurality of reinforcement strips 224 . The first load-bearing beams 222 are parallel to each other and disposed on the support legs 221 . The second load-bearing beams 223 are parallel to each other and disposed on the support legs 221 . The solar panels 210 are disposed on the first load-bearing beams 222 and the The second load beam 223. 7 M415552 This solar panel 210 is used to convert solar energy into other forms of energy for use. For example, the solar panel 21A can be a photoelectric conversion panel for converting light energy into electrical energy or a photothermal conversion panel for converting light energy into thermal energy. The evening leg 221 includes a plurality of first leg 225 and a plurality of second leg 226. The first support legs 225 are in a straight line and are parallel to each other. The second support legs 226 are located on another line and are parallel to each other, and the first support legs 225 and the second leg pins 226 are arranged in a rectangular array. The height of the first support leg 225 is less than the height of the second support leg 226. In this embodiment, the structure and connection manner of the first branch foot 225, the second support leg 226, and the reinforcing strip are respectively associated with the conventional solar device 10 (four) first support leg 125, second support leg 126, and reinforcing strip 124 The structure and the connection structure are the same, and in this embodiment, the end of each reinforcing strip can be connected with the second carrier, and the other end can be connected with the first supporting leg. In addition, the present invention does not limit the first supporting leg 225 and the second supporting beam 223, the second supporting leg and the second beam 223, the reinforcing bar 224, the first - ancient sound as» π /: η outside the eight brothers - support The manner in which the foot 226 and the second load beam 223 are connected. The first load-bearing beam 222 is provided with two pairs of slide rails arranged in three rows, but this is limited. In other implementations, the first load-bearing beams may be arranged in two columns or in two rows, according to Actual needs are adjusted. In the present embodiment, the carrier-bearing beam 222 includes a sliding support beam (10), a middle and upper rail bearing legs. . The sliding bearing beam 2 = ^ the upper rail bearing beam is parallel to each other, and the adjacent first bearing ^=22b spacing size can be arbitrarily adjusted according to actual needs. In this embodiment, above the second carrier #- and the second support_, the second bearing == M415552 is above the load carrying beam 223. The first load beam 222 is perpendicular to the second load beam 23, and the creation is not limited thereto. In other cases, the beams are parallel, and the second beams are parallel to each other, and the first bearing is the third parent beam. The angle between the cloth n load beam and the second load _ can be adjusted according to actual needs. = It should be noted that the materials of the 'the first load-bearing beam 222 and the second load-bearing beam 223 can be selected according to different use requirements of each region, for example, including non-commissioned steel, iron or aluminum extruded profiles, but not limited thereto. • Figure 41 shows a cross-sectional view of area IV of the solar attack in Figure 3. Figure Η shows a cross-sectional view of the region v of the solar device of Figure 3. Figure 6 depicts the divergence diagram of the VI of the solar wire set of Figure 3. Please refer to Figures 4 to 6' for the decline to follow the 222aA presentation (the font has the first slippery heart). The middle sliding bearing beam 222b is substantially in the shape of an I-shaped, and has two oppositely disposed first-moon rails 222b and second sliding 222b". The upper rail-bearing beam 222c is opposite to the medium-sliding bearing: 222b and the lower rail bearing The beam 222a is symmetrical, and has a fourth sliding rail 222c'. The first sliding gate 222a is opposite to the second sliding shoe, the third sliding rail 222b" and the fourth sliding gate 222c. The opposite ends of a part of the solar panel training are slidably accommodated in the first sliding gate 2, and the opposite ends of the second solar panel are slidably slidably The second sliding 222b" and the fourth sliding position, the middle sliding bearing carrier 222a, the middle sliding bearing beam 222b and the upper sliding bearing carrier 222e are fixed on the second load beam by the locking member 223a (for example, a screw) The creation does not limit the down-track bearing, the structure of the 222a, the middle rail bearing beam 222b and the upper rail bearing the standard weaving, and the bearing with the structure of the _ other structure can also be fulfilled in the creation. In this embodiment, There are two pairs of oppositely disposed slide rails on the first-tree beam 222, but the present invention is not limited thereto. In other embodiments, the first carrier label may be provided with a pair of M415552 pairs or more pairs of relative configurations. Figure 7 is a perspective exploded view of the solar device of Figure 3. Figure 8 is a schematic view of the assembly of the first load-bearing beam and the solar panel of the solar device of Figure 7. It is necessary to say that _ is for convenience Figure 8 shows only the length of the first load beam is short. 7 and FIG. 8, the thickness of the solar panel 21 is close to the height of the sliding of the first load beam 222. When installed, the solar panels slide into the first load along the direction D1 of the crucible parallel to the first load beam 222. In the slide rail of the standard 222, the two ends of a part of the solar panel 210 are respectively slid into the first-slide island of the slewing load-bearing beam 222a, and the first-slide 222b' of the medium-sliding load-bearing beam, 3-part The two ends of the solar panel 21 滑 slide into the middle slide, and the third slide rail 222b of the load beam 222b is private with the fourth slide handle 22 carrying the squat on the upper slide. The slide rail load beam 222a, the towel slide Both ends of the load beam surveying and upper sliding load bearing beam 222c are provided with a plurality of positioning holes (10) and a plurality of positioning members 227 are inserted to the corresponding fixed (four) 228 = panel 21 (W bone into the first load beam 222) After the slippery, the positioning member is replaced by the corresponding positioning hole 228 to prevent the solar panel 21 from slipping out from the first carrying beam 222. The positioning member 2 27 can be a non-slip pin or firmware. 'But not limited thereto. In the present embodiment, 'the first load-bearing beams US are lateral load-bearing targets, and these-bearing beams 223 For the longitudinal load-bearing beam, the first load-bearing beam 222 is provided with a slip, but the present invention is not limited thereto. In other embodiments, the second load-bearing mark can be used to perform the same as the solar panel of FIG. Sliding into the slide rail of the second load beam parallel to the second load sheave direction D2. As mentioned above, the solar mount of the present invention and the sun using the same have the following advantages: 1. The solar bracket and the present invention In the solar installation, the first bearing M415552 t-bearing beam is provided with at least a pair of oppositely disposed sliding rails. The sun I 竿 bears the second brother; the load beam or the second load beam is in the sliding rail and is constructed by solar energy. The cost is lower than 1 and the solar energy of this creation

Sir fixtures and other fasteners secure the solar panels to the sun's moon b-branch, reducing material costs. Only 2 is placed in an embodiment of the ancient creation ^yang energy device, two sets of solar panels _, the towel on the Wei-turn beam is provided with two opposite matching (7) '' compared to the need to use four solar energy devices Beam, further reducing material costs. Hosting 3. In this!彳 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能 太阳能In addition, the spacing dimension of the first load-bearing beam is solid = the n-rail in the sliding rail on the panel-bearing beam needs to be adjusted again, thereby reducing the construction cost. ...requires a slight appearance. 4. In the embodiment of the present solar support, the:: beam: the second load beam is a longitudinal load beam. When the first load beam == 蚧, the solar panel slides into the slide rail along the transverse direction; when the first / / month:: two rr slides in the longitudinal direction, "this ή, 文 $ 求 求 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 从而 增加 增加 增加 增加 增加 增加 增加 增加This age has been difficult to implement _ as above, expected: creation 'anyone who is familiar with this skill, in the absence of this creation: within, can make some changes and inquiries, so the protection of this creation:: 祀 附 attached application The definition of the scope of the patent shall prevail. ... After the rail 1U view [simplified illustration] π M415552 Figure 1 is a schematic exploded perspective view of a conventional solar device. Figure 2 is a side view of the solar device of Figure 1. 3 is a perspective view of a solar device according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of a region IV of the solar device of FIG. 3. FIG. 5 is not a region V of the solar device of FIG. Figure 6 is a cross-sectional view showing the area of the solar device of Figure 3. Figure 7 is a perspective exploded view of the solar device of Figure 3. Figure 8 is a solar device of Figure 7. Schematic diagram of the assembly of the first load beam and the solar panel. DESCRIPTION OF SYMBOLS 100 Conventional solar device 110 Solar panel 120 Solar bracket 121 Supporting foot 122 First load beam 123 Second load beam 123a, 123b, 123c, 124c, 124d, 125b, 126b, 126c: Connection hole 124: Reinforcement Strip 125: first support leg 124a, 124b, 125a, 126a: connecting piece 126: second supporting leg 127: jig 128: supporting piece 200: solar device 12 of the present creation M415552 210: solar panel 220: solar bracket 221: support Foot 222: first load beam 222a: lower rail load beam 222a': first slip 222b: middle slide load beam 222b': second slip 222b'': third slip 222c: upper slide support beam 222c ': fourth slide rail 223: second load beam 223a: lock 224: reinforcement strip 225: first support leg 226: second support leg 227: positioning member 228: positioning holes D1, D2: direction

Claims (1)

M415552 VI. Patent application scope: 1. A solar energy support comprising: a plurality of support legs; a plurality of first load beam, parallel to each other and disposed on the support legs; and a plurality of second bearings _ 'parallel and configured And on the support legs, and are staggered with the first carrier beams, and the first carrier or the plurality of the plurality of oppositely disposed slide rails are disposed on the first carrier. The solar stent of claim 1, wherein the support legs comprise a plurality of first support legs and a plurality of second support legs, each of the heights of the first support legs being less than each second branch The height of the etiquette, the first support legs are located in the straight line 1 and the second support legs are located on the other line, and the first leg and the second support legs are arranged in a rectangular array. 3. The solar energy support of claim 2, wherein the solar support further comprises a plurality of reinforcing strips, one end of each reinforcing strip is connected to the second load beam, and the other end is connected to the second support leg. . ^明5552 The beam has a fourth slide rail, the first slide rail is opposite to the second slide rail, and the third slide is disposed opposite to the fourth slide rail. ** ' · · 6. A solar device comprising: a plurality of solar panels; and a solar support comprising: a plurality of support legs; the plurality of first load beams are parallel to each other and disposed on the support And a plurality of second load-bearing beams, which are parallel to each other and disposed on the support legs, and are staggered with the first load-bearing beams of the five halves, and the first load-bearing beams or the second load-bearing beams are further To the relative arrangement of the slides, the two opposite vertical slids of each solar panel are slidably received in the two opposite slides. 7. The solar device of claim 6, wherein the load beam is perpendicular to the second load beam. The solar device of claim 6, wherein the load beam has two pairs of slide rails, and the first load-bearing beam comprises a slewing, a beam, a middle rail bearing crane and a top bearing _, the sliding bearing fixture - the two-shoulder 'slanting Wei load beam has a second sliding rail and a third sliding rail, the upper sliding beam has a fourth sliding handle, and the first sliding handle is opposite to the second sliding rail, The sliding handle is disposed opposite to the fourth sliding rail. The solar device of claim 8, wherein the opposite ends of the solar panel are respectively (4) accommodated in the second sliding of the first slipper, and the other solar panel The opposite ends of the two are slidably received in the third slip and the fourth slip. 10. The solar device of claim 8, wherein the sliding support beam, the middle sliding bearing beam and the upper sliding bearing beam are respectively provided with a plurality of positioning holes, and the solar bracket further The plurality of positioning members are included, and each of the positioning members is inserted into the corresponding positioning hole to prevent the solar panels from slipping out. Seven, the pattern: