KR102281392B1 - Sola module frame - Google Patents

Abstract

The present invention relates to an installation frame of a solar cell module that is coupled to an installation bar of a photovoltaic device installation body to support a solar cell module. More specifically, the circumferential area of the solar cell module is coupled and a drainage channel along the longitudinal direction. An installation frame body having a module coupling part formed with a mounting bar coupling part having a slider flow space formed in the longitudinal direction inside the lower part of the module coupling part, and a binding slider movably accommodated along the slider flow space, and the installation bar A pair of binding rods having one end connected to the binding slider with the interposed therebetween, and a coupling member coupled to the other end of the binding rod and having a close contact piece for bringing the installation bar and the installation frame body into close contact with each other.
The module coupling part is symmetrically formed in a U-shape and an inverted-C shape on both sides of the upper region of the installation frame body, and the drain is formed by a drain-forming jaw bent upward from the outer end of the lower surface of the module coupling part, and the lower part of the installation bar coupling part A binding rod flow port for opening the slider flow space to the outside is formed in the central region along the longitudinal direction, and a guide rib bent upward into the slider flow space is formed at the free end of the binding rod flow hole along the longitudinal direction, A guide slit corresponding to the guide rib is formed on the lower surface of the binding slider.

Description

Solar cell module installation frame {SOLA MODULE FRAME}

The present invention relates to an installation frame installed to support a solar cell module that is a photovoltaic device. More specifically, the solar cell module is a planarization of a plurality of solar cells in a large area, and the installation frame refers to an installation that is installed to support the solar cell module.

Hereinafter, the prior art in relation to the present invention will be described. The solar cell module is formed in the form of one module plate 201 by connecting the solar cells in a planar form so as to be electrically connected to each other, as shown in FIG. 1A, and the perimeter of the module plate 201 is a module frame ( 203) is finished.

The solar cell module is installed on the roof or roof of a building or installed directly on the ground in a state supported by a predetermined installation 100 (ie, a support) to produce solar energy as electric energy, a typical conventional solar cell module 200 As shown in FIG. 1B, the installation 100 of the installation frame 101 is coupled to the upper portion of the installation body 103 and the installation body 103 to support the solar cell module 200, that is, the support frame. is composed of The installation body 103 is an installation bar 107 which is fixedly coupled to an inclined position in consideration of the incident angle of sunlight on the upper portion of the installation table 105 or is coupled so as to be able to change the inclination angle. ) is provided. The installation body 103 is arranged as a pair in an area corresponding to both sides of the solar cell module 200 depending on the size of the solar cell module 200, or an area corresponding to both sides of the solar cell module 200 and A plurality of regions may be disposed at a predetermined distance from each other in the region therebetween.

As shown in FIG. 1C, the installation frame 101 has an installation bar coupling part 114 coupled to the installation bar 107 of the installation body 103 at the lower portion thereof, and the solar cell module is formed on the upper portion thereof. It has a structure in which the module installation part 111 supporting the 200 is formed. The installation frame 101 has a structure in which both sides are symmetrical when viewed in cross section, and the installation bar coupling part 114 has a structure extending outward in the horizontal direction from the lower end of the installation frame 101, and the module installation part 111 is formed in a U-shape and a U-shape, respectively, on both sides of the upper region of the installation frame 101 . The installation frame 101 is arranged in a direction perpendicular to the installation bar 107 by coupling the installation bar coupling part 114 and the installation bar 107 with pieces or bolts, so that the installation frame 101 is installed. The sieve 103 is coupled to be supported on the upper part. 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 . And, the solar cell module 200 is coupled to the installation frame 101 in a form in which the peripheral end thereof, that is, the module frame 203 portion is inserted into the module coupling portion of the installation frame 101 . In this regard, reference will be made to Public Utility Model No. 4802.

However, in the installation frame of the conventional solar cell module, since the structure for coupling the installation frames to the installation bar uses pieces or bolts, the bonding position is difficult due to construction errors and operator negligence or insufficient skill in the assembly construction process. In case of inaccurate construction, in order to correct the joint position of the installation frames, the defective installation frame must be separated and then assembled again. Since the operator has to fix the installation frame to the installation bar using pieces or bolts in a state where the positions of the installation frames are fixed one by one, the construction work is very inconvenient. Furthermore, since the structure of the module coupling part of the installation frame is simply the inner surface of the module coupling part and the outside surface of the module frame directly contacted by the structure in which the module frame of the peripheral end of the solar cell module is inserted, moisture is absorbed by the installation frame When it flows into the module coupling part, this moisture is not discharged to the outside and corrodes the inner surface of the module coupling part of the installation frame and the outside surface of the module frame that are in contact with each other.

The present invention is an installation frame of a solar cell module that can easily perform re-construction that may occur when the construction of the solar cell module is not properly installed, and prevent corrosion of the solar cell module coupling part by allowing moisture to be easily discharged. to facilitate installation work and maintenance.

In order to achieve the above object, the solar cell module installation frame of the present invention,

It is coupled to the installation bar of the installation body and supports the solar cell module having a module frame in the peripheral area,

an installation frame body having a module coupling part to which the module frame is coupled and a drainage channel is formed along the longitudinal direction, and an installation bar coupling part having a slider flow space formed in the longitudinal direction inside the lower inner side of the module coupling part;

A binding slider movably accommodated along the slider flow space, a pair of binding rods having one end connected to the binding slider with the installation bar interposed therebetween, and the other end of the binding rod coupled to the installation bar and the installation frame body Including; a coupling member having a contact piece to be in close contact with each other;

The module coupling part is formed symmetrically in a U-shape and an inverted-C shape on both sides of the upper region of the installation frame body,

The drainage passage is formed by a drainage passage forming jaw bent upward from the outer end of the lower surface of the module coupling part,

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

At the free end of the binding rod flow port, a guide rib bent upwardly into the slider flow space is formed along the longitudinal direction,

In the installation frame of the solar cell module in which a guide slit corresponding to the guide rib is formed on the lower surface of the binding slider,

On the edge of the drainage passage opposite to the drainage passage forming jaw, a drainage auxiliary projection to support the end of the module frame is formed,

The drainage ditch auxiliary protrusion protrudes at the same height as the drainage ditch forming sill along the length of the drainage ditch,

The lower end of the module frame is crossed over the upper end of the auxiliary ditch,

A drainage hole for discharging foreign substances downward is formed in the drainage passage,

The drainage hole discharge hole is continuously disposed at an interval in the middle of the drainage passage to directly discharge foreign substances,

An installation bar coupling part discharge hole (14b) is also formed on the bottom surface of the installation bar coupling part so that the foreign substances discharged directly downward from the drain discharge hole can pass out immediately,

At the upper end of the guide rib, a guide rib sliding prevention part 17t in the form of a tooth or a linear gear having a continuous tooth is formed,

Correspondingly, the same guide slit sliding prevention part 21t is formed in the guide slit,

At the time of initial installation, in a state where the binding rod is loose, the binding slider slides along the guide rib in the longitudinal direction of the slider flow space so that the coupling member is positioned properly,

Next, the binding rod is firmly tightened so that the teeth of the guide rib sliding prevention part 17t and the teeth of the guide slit sliding prevention part 21t are firmly engaged with each other,

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

According to the implementation of the present invention, the installation and construction work of the solar cell module is easy, and when defective construction occurs, the re-construction is conveniently made, and at the same time, the moisture discharge is smoothly performed, thereby preventing corrosion of the solar cell module coupling part.

1 is a prior art, FIG. 1 A is a plan view of a solar cell module; 1 B is a perspective view of a solar cell module installation; Figure 1 C is a perspective view showing a cross section of the installation frame of the solar cell module;
Figure 2 is an exploded perspective view partially cut off of the installation frame of the solar cell module.
Figure 3 is shown as a front sectional view, Figure 3 A is a partial view showing the installation and construction state of the solar cell module using the installation frame; Figure 3 B is a partial view showing the installation construction state of the solar cell module using the installation frame;
4 is a front cross-sectional view of a certain state.
Figure 5 is an embodiment of the present invention, Figure 5A is a perspective view together with a cross-section; 5B is a front sectional view;
6 is an enlarged cross-sectional side view of one part as another embodiment;

The solar cell module installation frame 1 according to the present invention is basically an installation frame body 10 for supporting the solar cell module 200 as an example of the background art, and the installation frame body 10 for the installation body 103 Includes a coupling member 20 for coupling to the installation bar (107) of. Reference is made to the embodiment of Figs. The installation frame body 10 is formed with a module coupling part 11 to which the solar cell module 200 is coupled to the upper part, and an installation bar coupling part coupled to the installation bar 107 of the installation body 103 at the lower part ( 14) is formed. The installation frame body 10 is a shape in which both sides are symmetrical when viewed in cross section, and the module coupling part 11 is formed in a U-shape and an inverted U-shape, respectively, on both sides in the upper region of the installation frame body 10, and the installation The bar coupling portion 14 is formed to have a slider flow space 15 therein.

At the outer end of the lower surface of the module coupling unit 11, an upwardly bent drainage channel forming jaw 13 is formed, which is a peripheral end portion of the solar cell module 200, that is, the module frame. (203) is to form a spaced space between the module frame 203 and the inner lower surface of the module coupling part 11 when coupled in the form of being inserted into the module coupling portion (11). This separation space is formed as a drainage passage 12 so that when moisture flows into the module coupling unit 11 due to rain or the like, it can be drained to the outside. In the lower central portion of the installation bar coupling portion 14, an open binding rod flow port 16 is formed along the longitudinal direction of the installation frame body 10 to avoid interference during the flow of the binding rod 25, which will be described later. In addition, a guide rib 17 bent upwardly into the installation bar coupling portion 14 is formed at the end of the binding rod flow port 16 . The guide rib 17 serves to guide the binding slider 21 of the coupling member 20 to be described later to be slidably movable in the longitudinal direction of the slider flow space 15 formed inside the installation bar coupling part 14 .

The coupling member 20 is accommodated in the slider flow space 15 of the installation frame body 10, and the binding slider 21 for bringing the installation frame body 10 into close contact with the installation bar 107 side of the installation body 103; A pair of binding rods 25 that both ends are fastened to the binding slider 21 and the close contact piece 27 to be described later to fix the installation frame body 10 to the installation bar 107 of the installation body 103, It is fastened to the opposite end of the binding slider 21 of both binding rods 25 with the installation bar 107 interposed therebetween, and the installation frame body 10 and the installation bar 107 together with the binding slider 21 are in close contact with each other. It has a contact piece 27 for fixing. 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 . And, on the lower surface of the binding slider 21, a guide slit 21a corresponding to the guide rib 17 is formed, and the binding slider corresponding to the binding rod flow port 16 of the installation frame body 10. A pair of binding rod fastening holes 21b to which the binding rod 25 is fastened are formed at a predetermined spacing on both front and rear sides of the central region (21). The guide rib 17 and the guide slit 21a may be formed at positions opposite to each other. That is, the guide rib 17 may be formed in the binding slider 21 and the guide slit 21a may be formed in the slider flow space 15 of the installation frame 1 . Between the lower surface of the binding slider 21 and the installation bar engaging portion 14 of the installation frame 1, a packing 23 is interposed between the binding slider 21 and the installation bar engaging portion 14 and the binding rod ( It is desirable to prevent wear and damage caused by the fastening force of 25).

Both binding rods 25 are formed with male threaded portions 25a on the outer peripheral surface, and one end of the binding rods 25 are spaced apart from each other, and the binding rods of the binding slider 21 are fastened through the binding rod flow port 16 of the installation frame body 10 . It is fastened to the ball 21b, and the other end penetrates the binding rod coupling hole 27a of the close contact piece 27 to be described later and is fastened to the nut 25b. The close contact piece 27 has a length corresponding to the binding slider 21, and has a structure in which the binding rod coupling holes 27a through which the binding rods 25 are penetrated are formed on both sides in the longitudinal direction. The spacing between the both binding rod coupling holes 27a corresponds to the spacing between the binding rod coupling holes 21b on both sides of the binding slider 21 described above. The spacing between the fastening holes 21b is large compared to the thickness of the installation bar 107 of the installation body 103 and has an adjacent interval, and through this, the installation bar of the installation body 103 when the installation frame 1 is installed. 107) may be interposed between both binding rods 25. Looking at 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 the area corresponding to both sides of the solar cell module 200 to be coupled, 3A, the installation frame body 10 is placed on the installation bar 107 so that the installation bar 107 of the installation body 103 is interposed between the both binding rods 25. In this state, after passing the lower ends of both binding rods 25 through the binding rod coupling holes 27a on both sides of the close contact piece 27, respectively, the nuts 25b under the contact piece 27 are inserted into the two binding rods 25. In the state in which it is loosely fastened to the male screw part 25a, the positions of the installation frame body 10 on both sides of the solar cell module 200 are set parallel to each other, and at this time, the binding slider 21 for the installation frame body 10 is Since the binding slider 21 flows in the slider flow space 15 of the installation frame body 10 by relative movement, the position of the installation frame body 10 can be easily set.

In a state where the positioning of the installation frame body 10 is completed, the nut 25b is first firmly fastened to fix the installation frame body 10, and then the peripheral end of the solar cell module 200 is attached to the installation frame body 10 ) of the module coupling part 11, but check the position of the installation frame body 10 and the coupling state of the solar cell module 200 once again, and if the coupling condition is poor, unfasten the nut 25b to install As the flow of the frame body 10 is facilitated, the installation position of the installation frame body 10 and the coupling state of the solar cell module 200 can be easily adjusted. If the installation position setting of the installation frame body 10 and the coupling state of the solar cell module 200 are good, when the nut 25b is firmly fastened, the binding slider 21 and the adhesion piece 27 as shown in FIG. 3B. By attaching the installation frame body 10 to which the solar cell module 200 is coupled to the installation bar 107 interposed between both binding rods 25 and maintaining it, the installation and construction of the solar cell module 200 is simple. it is done The solar cell module 200, which has been installed and constructed, is the circumferential end of the solar cell module 200, that is, the module coupling part 11 of the module frame 203 and the installation frame body 10 due to rain. Even if moisture is introduced, it is quickly discharged to the outside through the drain 12 formed in the module coupling part 11 . Thereby, it is possible to prevent corrosion of the inner surface of the module coupling portion 11 of the installation frame body 10 and the outer surface of the module frame 203 of the solar cell module 200 circumferential end.

Next, problems that may occur in relation to the drainage passage 12 and the drainage passage forming sill 13 will be described. 4 is a view showing a problem that occurs in connection with the above-described implementation.

Each bottom surface of the module frame 203 insertedly coupled to the left and right sides of the module coupling part 11 is supported by the drainage ditch forming jaw 13, and at this time, as shown in the example of FIG. 4 , the module coupling part ( 11) has a structure in which only one bottom surface of the module frame 203 is contacted (a1) to receive support since only one drainage channel forming sill 13 is formed on each side of the left and right sides. Therefore, all the loads of the module frame 203 come into concentrated contact (a1) on one protrusion of the drainage channel forming jaw 13, and eventually the contact (a1) part is dented or softened, thereby weakening the bearing capacity as well as , the life of the module coupling unit 11 and the module frame 203 as a whole can be shortened. Reference is made to FIGS. 2 and 3 in this regard.

When an upward (a3) external force is applied to the module frame 203, the end (ie, edge) of the module frame 203 by using the contact (a1) point with the drainage channel forming jaw 13 as the central axis of the lever. ), the downward force (a2) is concentrated. The downward force (a2) may reach several times the external force upward (a3) according to the principle of the lever. When a strong external force, such as a typhoon, acts, the installation frame body 10 itself may cause a big problem to the extent that it can be disintegrated. Therefore, it is necessary to add a configuration such as a protrusion that will support the downward force (a2).

In order to solve the above-described problem, in the example of FIG. 5A , a method is proposed in which both edges of the drain 12 protrude upward along the length of the drain 12 . That is, the auxiliary drainage sill 13a is formed on the opposite edge of the original drainage ditch forming sill 13 at the same height as the drainage ditch forming sill 13 . Therefore, as in the example of FIG. 5B, the bottom of the end of the module frame 203 comes in contact with the upper end of the auxiliary ditch 13a so that it can be firmly supported, so that the upward (a3) external force and the downward (a2) ) to become a stable structure that can withstand the force of

In addition, foreign substances may be applied to the drain 12 due to the passage of time, external dirt, fallen leaves, and the like. In this case, the separation space formed between the module frame 203 and the inner lower surface of the module coupling part 11 is meaningless. That is, the drain 12 cannot function properly. Therefore, when moisture is introduced into the module coupling unit 11 due to rain or the like, it cannot be drained to the outside, so the meaning of all the above-described configurations for drainage is lost. In contrast, as in the example of FIG. 5 , in the middle of the drain 12 , it is necessary to drill and form a hole for discharging the foreign material by dropping it downward, that is, the drain hole 12a of the drain. The discharge holes 12a of the drain may be continuously disposed at a predetermined interval, and may also serve as a function of directly discharging moisture. At this time, a discharge hole 14b of the installation bar coupling part is also formed on the bottom surface of the installation bar coupling part 14 so that the foreign substances or moisture discharged directly downward from the discharge hole 12a of the drain can be discharged directly to the outside. It is preferable to do

On the other hand, in the implementation of Figures 1 B and 1 C, in a state in which the installation frame 101 is arranged in a direction perpendicular to the installation bar 107, the installation bar coupling portion 114 and the installation bar 107 are pieced or By coupling with bolts, etc., the configuration in which the installation frame 101 is coupled to be supported on the installation body 103 is illustrated, whereas in the embodiment of FIGS. 2 and 3 , the binding slider is guided along the guide rib 17 . 21 is configured to slide in the longitudinal direction of the slider flow space 15 . In this case, after the installation is completed, an unwanted sliding occurs due to a strong external force, which may cause problems such as the installation being released.

And in FIG. 6, a guide rib anti-sliding part 17t in the form of a toothed or linear gear having a continuous tooth is formed on the upper end of the guide rib 17 to prevent unwanted sliding after installation, and corresponding to this, The same guide slit sliding prevention portion 21t is formed in the guide slit 21a. Accordingly, at the time of initial installation, the coupling member 20 can be positioned at a desired place by sliding movement in a state in which the binding rod 25 is loosely placed, and then, the binding rod 25 is firmly tightened. If it is installed so that the teeth of the guide rib anti-sliding part 17t and the guide slit anti-sliding part 21t are engaged with each other by tightening, the installation is not dismantled by unexpected sliding after installation. It can increase reliability and maintain the installed state for a long time.

coupling member 20; binding slider (21); packing (23); binding rod (25); close contact piece 27;
Drainage forming sill (13); installation bar coupling portion 14; Slider flow space (15);

Claims (1)

It is coupled to the installation bar of the installation body and supports the solar cell module having a module frame in the peripheral area,
an installation frame body having a module coupling part to which the module frame is coupled and a drainage channel is formed along the longitudinal direction, and an installation bar coupling part having a slider flow space formed in the longitudinal direction inside the lower inner side of the module coupling part;
A binding slider movably accommodated along the slider flow space, a pair of binding rods having one end connected to the binding slider with the installation bar interposed therebetween, and the other end of the binding rod coupled to the installation bar and the installation frame body Including; a coupling member having a close contact piece to be in close contact
The module coupling part is formed symmetrically in a U-shape and an inverted-C shape on both sides of the upper region of the installation frame body,
The drainage passage is formed by a drainage passage forming jaw bent upward from the outer end of the lower surface of the module coupling part,
A binding rod flow port for opening the slider flow space to the outside along the longitudinal direction is formed in the lower central region of the installation bar coupling part,
At the free end of the binding rod flow port, a guide rib bent upwardly into the slider flow space is formed along the longitudinal direction,
In the installation frame of the solar cell module in which a guide slit corresponding to the guide rib is formed on the lower surface of the binding slider,
On the edge of the drainage passage opposite to the drainage passage forming projection, a drainage auxiliary projection to support the end of the module frame is formed,
The drainage ditch auxiliary protrudes at the same height as the drainage ditch forming sill along the length of the drainage ditch,
The lower end of the module frame is crossed over the upper end of the auxiliary ditch,
A drainage hole for discharging foreign substances downward is formed in the drainage passage,
A guide rib sliding prevention portion 17t in the form of a linear gear having a continuous tooth shape is formed at the upper end of the guide rib,
Correspondingly, the same guide slit sliding prevention part 21t is formed in the guide slit,
At the time of initial installation, in a state in which the binding rod is loose, the binding slider slides along the guide rib in the longitudinal direction of the slider flow space so that the coupling member is positioned properly,
Next, the binding rod is firmly tightened so that the teeth of the guide rib sliding prevention part 17t and the teeth of the guide slit sliding prevention part 21t are firmly engaged with each other,
After the installation is completed, the installation is prevented from being released due to the occurrence of strong external force and unexpected sliding, and the solar cell module installation frame, characterized in that it can be maintained for a long time.

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