KR20190003858A - Sola module frame - Google Patents

Abstract

The present invention relates to an installation frame of a solar cell module, supporting the solar cell module by being coupled to an installation bar of a photovoltaic device installation body and, more specifically, to an installation frame of a solar cell module, comprising: an installation frame body having a module coupling portion to which a peripheral region of the solar cell module is coupled and in which a drainage passage is formed in the longitudinal direction, and an installation bar coupling portion in which a slider flow space is formed in the longitudinal direction inside the lower portion of the module coupling portion; and a coupling member including a binding slider which is accommodated to be movable along the slider flow space, a pair of binding rods which has one end connected to the binding slider with the installation bar therebetween, and a contact piece which is coupled to the other end of the binding rod so that the installation bar is in close contact with the installation frame body. The module coupling portions are symmetrically formed on both sides of an upper area of the installation frame body in a U-shape and an inverted U-shape, respectively. The drainage passage is formed by a drainage forming protrusion which is bent upward from an outer end of a lower surface of the module coupling portion. A binding rod flow port is formed in a lower central region of the installation bar coupling portion in the longitudinal direction so as to expose the slider flow space to the outside. A guide rib bent upwardly inside the slider flow space is formed in the longitudinal direction at a free end of the binding rod flow port. A guide slit corresponding to the guide rib is formed on a lower surface of the binding slider. According to the present invention, it is possible to easily install and maintain a solar cell module.

Description

Solar cell module installation frame {SOLA MODULE FRAME}

The present invention relates to an installation frame installed to support a solar cell module which is a photovoltaic power generation device. More specifically, the solar cell module has a plurality of solar cells flattened in a large area, and the installation frame is installed to support the solar cell module.

Hereinafter, the related art will be described with reference to the present invention. As shown in FIG. 1A, the solar cell modules are formed in the form of a single module plate 201 by connecting the solar cells to each other in a planar manner, and the periphery of the module plate 201 is connected to the module frame 203).

The solar cell module is installed on a roof or roof of a building in a state of being supported by a predetermined installation 100 (i.e., a support), or directly installed on the ground or the like to produce solar light as electric energy. 1B, the installation 100 of the solar cell module 200 includes an installation body 103 and an installation frame 101 which is coupled to the upper portion of the installation body 103 and supports the solar cell module 200, . The installation body 103 includes a mounting base 105 installed at a position where the solar cell module is installed and a mounting bar 107 installed at an upper portion of the mounting base 105 in an inclined manner . The mounting body 103 may be disposed in a pair in a region corresponding to both sides of the solar cell module 200 according to the size of the solar cell module 200 or in a region corresponding to both sides of the solar cell module 200 And they can be arranged in a plurality of spaces with a predetermined interval therebetween.

The mounting frame 101 is formed with a mounting bar coupling part 114 which is coupled to the mounting bar 107 of the mounting body 103 at a lower part thereof as shown in FIG. And a module mounting portion 111 for supporting the module 200 is formed. The mounting frame 101 has a structure in which both sides of the mounting frame 101 are symmetrical with respect to each other, and the mounting bar coupling portion 114 extends outward in the horizontal direction from the lower end of the mounting frame 101, Are formed on both sides of the upper region of the installation frame 101 in a U-shape and a U-shape, respectively. The mounting frame 101 is arranged in a direction orthogonal to the mounting bar 107 and the mounting bar 101 and the mounting bar 107 are connected to each other by means of a piece or bolt, (103). ≪ / RTI > The installation frame 101 is coupled in a direction orthogonal to the installation bar 107 on both sides in the longitudinal direction of the installation bar 107. The solar cell module 200 is coupled to the mounting frame 101 in such a manner that the peripheral end portion thereof, that is, the module frame 203 portion is inserted into the module connecting portion of the mounting frame 101. Reference will be made to the public utility model No. 4802 in this regard.

In the installation frame of the conventional solar cell module, since the structure for coupling the installation frames to the installation bar uses a piece or a bolt, the joining position is determined by the construction error, the carelessness of the operator, In case of improper installation, it is necessary to detach and install the badly installed frame to correct the joining position of the installation frames. Since the operator must fix the installation frame to the installation bar by using the pieces or bolts while fixing the position of the installation frame, the construction work is very inconvenient. Furthermore, since the structure of the module coupling portion of the installation frame merely inserts the module frame at the peripheral end of the solar cell module, the inner side surface of the module coupling portion and the outer side surface of the module frame directly come into contact with each other. The moisture is not discharged to the outside but is corroded on the inner side of the module connecting portion of the mounting frame and the outer side of the module frame.

The present invention relates to a solar cell module which can easily perform re-work which may occur when the installation of a solar cell module is not properly installed, To facilitate installation work and maintenance.

According to an aspect of the present invention,

A solar cell module coupled to the mounting bar of the mounting body and having a module frame in a peripheral region,

A mounting frame body having a module coupling portion in which the module frame is coupled and having a drainage passage formed along a longitudinal direction thereof, and a mounting bar coupling portion in which a slider flow space is formed in a longitudinal direction inside the lower portion of the module coupling portion;

A pair of binding rods one end of which is connected to the binding slider with the mounting bar therebetween, and a pair of binding rods which are coupled to the other end of the binding rods, And an engaging member having a contact piece to be brought into close contact with each other,

Wherein the module coupling portions are symmetrically formed on both sides of an upper region of the installation frame body in a U-

Wherein the drainage passage is formed by a drainage forming jaw that is bent upward from an outer end of the lower surface of the module coupling portion,

A binding rod flow port for opening the slider flow space to the outside is formed in the lower central region of the mounting bar coupling portion along the longitudinal direction,

A guide rib extending upwardly inwardly from the inside of the slider flow space is formed along the longitudinal direction at a free end of the binding rod flow port,

And a guide slit corresponding to the guide rib is formed on a lower surface of the binding slider,

And an auxiliary tuck is formed at a drain to support an end portion of the module frame at an edge of the drain trough,

The auxiliary jaw protrudes at the same height as the forming jaw along the length of the discharging channel,

The bottom of the end of the module frame is stuck on the top of the auxiliary jaw with the drain,

The discharge channel is formed with a discharge hole for discharge of foreign matter downward,

The drainage holes are continuously disposed in the middle of the drainage passage with an interval therebetween to directly discharge the foreign matter,

A mounting bar coupling portion discharge hole 14b is formed on the bottom surface of the mounting bar coupling portion so that the foreign matter discharged downwardly from the discharge hole can be directly passed out through the drain hole,

A guide rib slide preventing portion 17t in the form of a tooth or a linear gear having a continuous tooth is formed at the upper end of the guide rib,

Correspondingly, the same guide slit sliding preventing portion 21t is formed in the guide slit,

When the binding rods are loosened, the binding slider moves in the longitudinal direction of the slider flow space along the guide ribs so that the engaging members are properly positioned,

Next, the binding rod is tightened so that the teeth of the guide rib anti-sliding portion 17t and the teeth of the guide slit sliding preventing portion 21t are tightly engaged with each other,

After the installation is completed, the installation is prevented from being released due to unexpected sliding occurrence such as strong external force, and this state can be maintained for a long time.

According to the embodiment of the present invention, the installation work of the solar cell module can be easily performed, the work can be easily performed in the event of a bad construction, and the moisture can be smoothly discharged, thereby preventing the corrosion of the solar cell module coupling portion.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a prior art, Figure IA is a top view of a solar cell module; 1B is a perspective view of an installation of a solar cell module; 1C is a perspective view showing a cross section of an installation frame of the solar cell module;
2 is an exploded perspective view of a mounting frame of a solar cell module.
FIG. 3 is a front sectional view of the solar cell module, and FIG. 3A is a partial view showing an installation state of a solar cell module using the installation frame. FIG. FIG. 3B is a partial view showing the installation state of the solar cell module using the installation frame; FIG.
4 is a front section view of a state;
Figure 5 is an embodiment of the present invention, wherein Figure 5 A is a perspective view taken along a section; 5B is a front section view;
6 is an enlarged side cross-sectional view of a portion of another embodiment.

The solar cell module mounting frame 1 according to the present invention basically comprises an installation frame body 10 for supporting the solar cell module 200 and an installation frame body 10 for mounting the installation frame body 10, And an engaging member (20) for engaging with the mounting bar (107). Reference is made to the embodiments of Figs. 2 to 3. The mounting frame body 10 is provided with a module coupling portion 11 to which the solar cell module 200 is coupled and a mounting bar coupling portion 14 are formed. The mounting frame body 10 has a symmetrical shape on both sides in cross section and is formed in a U-shape and a C-shape on both sides in the upper region of the mounting frame body 10, And the bar coupling portion 14 is formed in a shape having the slider flow space 15 therein.

The module mounting portion 11 is formed with an upwardly bent drain forming jaw 13 at an outer end of the lower surface of the module connecting portion 11. The module forming jaw 13 is formed at a peripheral end portion of the solar cell module 200, When the module base 203 is inserted into the module coupling portion 11, a space is formed between the module frame 203 and the inner lower surface of the module coupling portion 11. When the separated space is formed as the drainage passage 12 and moisture is introduced into the module coupling portion 11 by a rainfall or the like, the drainage can be performed to the outside. A coupling rod flow opening 16 is formed in the lower central portion of the mounting bar coupling portion 14 along the longitudinal direction of the installation frame body 10 to avoid interference when the coupling rod 25 is to be described later. At the end of the connecting rod flow port 16, a guide rib 17 is formed which is bent upward toward the inside of the mounting bar fitting portion 14. The guide ribs 17 serve to guide the binding slider 21 of the engaging member 20 to be described later so as to be slidable in the longitudinal direction of the slider flow space 15 formed in the mounting bar engaging portion 14.

The engaging member 20 is accommodated in the slider flow space 15 of the mounting frame body 10 and includes a binding slider 21 for fitting the mounting frame body 10 to the mounting bar 107 side of the mounting body 103, A pair of binding rods 25 which are fastened to the binding slider 21 and a close contact piece 27 to be described later so as to fix the mounting frame body 10 to the mounting bar 107 of the mounting body 103, The mounting frame body 10 and the mounting bar 107 are brought into close contact with each other with the binding slider 21 by being fastened to the opposite side end of the binding rod 25 on the side opposite to the binding part of the binding slider 21 with the mounting bar 107 interposed therebetween And a fastening piece (27) for fixing the fastening piece (27). The binding slider 21 has a smaller size than the slider flow space 15 so as to be able to flow along the longitudinal direction of the slider flow space 15. A guide slit 21a corresponding to the guide rib 17 described above is formed on the lower surface of the binding slider 21. The guide slit 21a is formed on the bottom surface of the binding slider 21, A pair of coupling rod fastening holes 21b to which the coupling rods 25 are fastened are formed on both sides of the front and rear sides of the central region of the coupling rod 21 at a predetermined spacing. The guide ribs 17 and the guide slits 21a may be formed at mutually opposite positions. That is, the guide ribs 17 are formed in the binding slider 21 and the guide slits 21a can be formed in the slider flow space 15 of the mounting frame 1. [ Between the lower surface of the binding slider 21 and the mounting bar coupling portion 14 of the installation frame 1 is provided a connection between the binding slider 21 and the mounting bar coupling portion 14 via a packing 23, It is preferable to prevent abrasion and damage due to the fastening force of the fastening members 25, 25.

The positive coupling rods 25 are formed with male threaded portions 25a on the outer circumferential surface and one end of the coupling rods 25 is fastened to the coupling rods 21 of the binding rods 21 through the coupling rods 16 of the mounting frame body 10, And the other end thereof is passed through the coupling rod coupling hole 27a of the close contact piece 27 to be described later and is fastened to the nut 25b. The fastening piece 27 has a length corresponding to the fastening slider 21 and has a structure in which a fastening rod coupling hole 27a through which the fastening rod 25 is inserted is formed on both sides in the longitudinal direction. The spacing distance between the both-side coupling rod coupling holes 27a corresponds to the spacing distance between the both-side coupling rod coupling holes 21b of the above-described coupling slider 21, The spacing distance of the fastening holes 21b is larger than the thickness of the mounting bar 107 of the mounting body 103 and has an adjacent gap therebetween so that the installation bar 103 of the mounting body 103 107 can be interposed between the positive binding rods 25. In the process of installing the solar cell module 200 using the installation frame 1 of the solar cell module, the installation frame body 10 is disposed in a region corresponding to both sides of the solar cell module 200 to be coupled, The mounting frame body 10 is disposed above the mounting bar 107 so that the mounting bar 107 of the mounting body 103 is interposed between the both binding rods 25 as shown in FIG. In this state, the lower ends of the both binding rods 25 are passed through the opposite side binding rod engaging holes 27a of the fastening pieces 27 and then the nuts 25b are fastened to the lower ends of the both fastening rods 25 The positions of the mounting frame main bodies 10 on both sides of the solar cell module 200 are positioned in parallel with each other while being loosely fastened to the male threaded portions 25a, The binding slider 21 is moved in the slider flow space 15 of the mounting frame body 10 by the relative movement, so that the position of the mounting frame body 10 can be set to be solubility.

The nut 25b is first firmly fastened to fix the mounting frame main body 10 in a state where the setting of the mounting frame main body 10 is completed and then the peripheral end of the solar cell module 200 is fixed to the mounting frame main body 10 The mounting state of the mounting frame main body 10 and the solar cell module 200 is checked once again. If the coupling state is poor, the nut 25b is unfastened, The frame body 10 can be easily flowed so that the mounting position of the mounting frame body 10 and the coupled state of the solar cell module 200 can be easily adjusted. If the nut 25b is firmly fastened to the fastening slider 21 and the fastening piece 27 as shown in FIG. 3B, if the setting position of the mounting frame body 10 and the solar cell module 200 are good, The installation frame body 10 to which the solar cell module 200 is coupled is closely attached to the side of the mounting bar 107 interposed between the both binding rods 25 and is held thereby to make installation and construction of the solar cell module 200 simple . The solar cell module 200 that has been installed and installed can prevent the solar cell module 200 from being damaged due to the occurrence of rainstorms, Even if water flows in, it is quickly discharged to the outside through the drainage path 12 formed in the module connecting portion 11. [ This can prevent the inside surface of the module connecting portion 11 of the mounting frame body 10 and the outside surface of the module frame 203 at the end portion of the solar cell module 200 from being corroded.

Next, problems that may occur with respect to the drainage path (12) and the drainage forming jaw (13) will be described. FIG. 4 is a view showing a problem that arises in connection with the above-described implementation.

The bottom surfaces of the module frame 203 inserted and coupled to both the left and right sides of the module coupling portion 11 are supported by the drainage forming jaws 13. At this time, 11 are formed on the right and left sides of the module frame 203 so that only one of the bottom surfaces of the module frame 203 is in contact with each other. Therefore, all the loads of the module frame 203 are concentratedly contacted with one of the protrusions of the forming jaws 13, so that the contact a1 is eventually lost or retracted, The module connecting portion 11, and the module frame 203 can be shortened. Reference is made to Figs. 2 and 3 with reference to Fig.

When an upward external force a3 is applied to the module frame 203, the contact point a1 with the drainage forming jaw 13 is set as the central axis of the lever frame, The downward force a2 is concentrated. The downward force a2 may be several times the external force a3 in accordance with the principle of the lever. If a strong external force such as a typhoon acts, the installation frame main body 10 itself may be severely damaged as a whole. Therefore, it is necessary to add a structure such as a protrusion to support the downward force a2.

In order to solve the above-mentioned problem, in the example of FIG. 5A, a method of protruding both edges of the drain pipe 12 upward along the length of the drain pipe 12 is proposed. That is, the auxiliary jaw 13a is formed at the opposite edge of the forming jaw 13 with the original drainage, with the drainage jaw 13 having the same height as the drainage forming jaw 13. 5B, the bottom portion of the end of the module frame 203 contacts the upper end of the auxiliary jaw 13a and can be firmly supported. Therefore, the upward force a3 and the downward force a2 ), Which is a stable structure.

Further, foreign matter may be applied to the drainage passage 12 by the passage of time, external dust, leaves, and the like. In this case, the spacing space formed between the module frame 203 and the inner lower surface of the module connecting portion 11 becomes meaningless. That is, the drain canal 12 can not function. Therefore, when water flows into the module coupling portion 11 due to rain or the like, it can not be drained to the outside, meaning that all of the above-mentioned structures are lost for drainage. On the contrary, as shown in FIG. 5, it is necessary to drop the foreign matter directly downward in the middle of the drainage passage 12 to form a hole for discharging, that is, a drainage hole 12a of the drainage passage. The discharge holes 12a of the drain can be continuously arranged at predetermined intervals, and can also function to directly discharge moisture. At this time, a discharge hole (14b) of the mounting bar coupling portion is formed on the bottom surface of the mounting bar coupling portion (14) so that the foreign matter or moisture discharged downwardly from the drain hole (12a) .

1B and 1C, when the mounting bar 101 and the mounting bar 107 are arranged in the direction orthogonal to the mounting bar 107, The mounting frame 101 is coupled to the mounting body 103 so as to be supported on the mounting body 103. In the embodiment of Figures 2 and 3, (21) can slide in the longitudinal direction of the slider flow space (15). In this case, undesired sliding may occur due to a strong external force after the installation is completed, and the installation may be released.

6, a guide rib slide preventing portion 17t in the form of a tooth or a linear gear having a continuous tooth is formed at the upper end of the guide rib 17 so as to prevent undesired sliding after installation, The same guide slit sliding preventing portion 21t is also formed in the guide slit 21a. Accordingly, at the time of the first installation, the coupling member 20 can be positioned at a desired position by performing a sliding movement while the coupling rod 25 is loosened. Thereafter, the coupling rod 25 is tightly fixed If the teeth of the guide rib slide preventing portion 17t and the guide slit sliding preventing portion 21t are engaged with each other to prevent the installation from being disassembled due to unintended sliding after the installation, It is possible to increase the reliability and to maintain the installed state for a long time.

A coupling member 20; A binding slider 21; Packing 23; A binding rod 25; A contact piece 27;
A drainage forming jaw (13); A mounting bar coupling portion 14; A slider flow space 15;

Claims (1)

A solar cell module installation frame having a module coupling portion in which a peripheral region of the solar cell module is coupled and a drainage passage is formed along a longitudinal direction and a mounting bar coupling portion in which a slider flow space is formed in a longitudinal direction inside the module coupling portion.

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