KR101158552B1 - Solar cell module fixation clamp - Google Patents

Abstract

The present invention relates to a solar cell module fixing clamp extends upward from the upper surface of the base frame and the base frame provided with a mounting surface on which the solar cell module is mounted at different heights on one side and the other side to form an insertion space open at the top Pressing the upper surface of the solar cell module mounted on the holding member including a vertical member to be inserted into the insertion space from the upper portion of the fixing member and in contact with the inner surface of the vertical portion and extending from the insertion portion and the insertion portion coupled to the fixing member It includes a cover member including a pressing portion.
According to the solar cell module fixing clamp according to the present invention, the fixing member is fixedly placed on the roof panel and the solar cell module can be uniformly coupled to the cover member in a state where the solar cell module is simply placed on each mounting surface of the fixing member to damage the solar cell module. The incidence is reduced, the work is easy, and the working time is shortened. In addition, the solar cell module can be more firmly supported by a release preventing member that prevents the cover member supporting the solar cell module from being separated from the fixing member by an external force such as an earthquake or strong wind.
Further, by mounting the solar cell modules at different heights from the roof panel, the incident angle incident from the sun may be increased to increase the power generation efficiency of the solar cell module.

Description

Solar cell module fixation clamp

The present invention relates to a solar cell module fixing clamp, and more particularly, to a solar cell module fixing clamp that can quickly and conveniently fix the solar cell module to the slope or roof.

Generally, photovoltaic power generation system is a power generation equipment which supplies DC power from solar cell module that generates electric energy by solar light and supplies stable power to phase electric system and house. It is a natural power generation system that can be used conveniently.

Such environmentally friendly photovoltaic power generation system has the priority of good solar radiation due to the prerequisite of producing and supplying electric power stably.It secures the installation area of solar cell module, ease of installation, degree of interference of shadow, power mains and The conditions such as ease of installation must be satisfied.

Conventional solar cell module fixing device for fixing the solar cell module is installed on the roof or other installation place, and the upper part of the steel member is installed on the module frame provided with a module mounting portion so that one end of the solar cell module can be inserted Equipped.

In the case of fixing the solar cell module using the conventional solar cell module fixing device as described above, first, the steel member is installed to the extent that one solar cell module can be installed, and the two module frames are mounted on the solar cell module. It is fixed on the upper side of the member. Alternatively, two module frames may be fixed to each of the section members, and solar modules may be mounted to each module frame.

However, in the conventional fixing device as described above, when the module frame is mounted on each solar cell module and then fixed to the steel member, the solar cell module needs to be fixed to the steel member while the module frame is mounted on the solar cell module. There is a problem in that it is not easy to fix the frame to the steel member.

In addition, in case of installing the solar cell module after fixing the module frame to the section steel member, the solar cell module should be inserted into the module mounting part of each module frame, so it is not easy to install and may damage the solar cell module during the insertion process. There is a problem.

The present invention is to solve the above problems, it is easy to fix the solar cell module, to provide a solar cell module fixing clamp that can prevent the damage of the solar cell module when fixing the solar cell module. There is this.

The solar cell module fixing clamp according to the present invention for achieving the above object extends upward from the upper surface of the base frame and the upper surface of the base frame is provided with a mounting surface on which the solar cell module is mounted at different heights on one side and the other side, respectively And a fixing member including a vertical portion having an upper portion to form an open insertion space, and an insert portion inserted into the insertion space from an upper portion of the fixing member and in contact with an inner surface of the vertical portion and coupled to the fixing member. It extends and has a cover member including a pressing unit for pressing the upper surface of the solar cell module mounted on the mounting surface.

The vertical portion may include a first vertical frame and a second vertical frame, the support frame connecting the first vertical frame and the second vertical frame to be spaced apart from each other upward from the upper surface of the base frame, and the second vertical frame. It extends in a direction away from the insertion space and is formed at a position higher than the first rough surface, and is inclined downward from the second vertical frame so as to support the solar cell module in an inclined state with respect to the roof panel. It includes a spaced frame provided with a mounting surface and an extended frame extending to the base frame downward from the end of the spaced frame.

The insertion part is inserted into the insertion space and formed to be spaced apart from each other to be in contact with the inner surface of the first vertical frame and the second vertical frame, respectively, the first insertion frame and the first insertion frame and the And a connecting frame connected to a second inserting frame, wherein the pressing unit presses the upper surface of the solar cell module mounted on the first roughening surface and the second roughening surface when the inserting portion is inserted into the insertion space. And a first pressing frame and a second pressing frame respectively extending in a direction away from an upper end of the frame and the second insertion frame.

The vertical portion and the insertion portion is further provided with a departure preventing portion for preventing the insertion portion is separated from the insertion space by the vibration, the departure prevention portion is provided from the inner surface of the first vertical frame and the second vertical frame A first concave-convex portion protruding and retracting in a arc shape and formed along the longitudinal direction of the vertical portion, and the insertion portion alternately protrudes and retracts in the direction of the outer surface of the insertion portion to prevent the upper portion from escaping upward from the insertion space; It is formed along the longitudinal direction of the portion and has a shape corresponding to the shape of the first concave-convex portion includes a second concave-convex portion is limited to flow in the vertical direction is fitted to the first concave-convex portion.

In the center of the connecting frame is provided with a through hole penetrating the upper and lower through the fastening bolt, the support frame is formed in a position corresponding to the through hole is screwed with the fastening bolt passing through the through hole A fastening hole is provided.

According to the solar cell module fixing clamp according to the present invention, according to the solar cell module fixing clamp according to the present invention, the cover member is fixedly disposed on the roof panel and the cover member is upwardly mounted on each mounting surface of the fixing member. Can be combined uniformly in the solar cell module damage rate is reduced, work is easy and the working time is shortened.

In addition, the solar cell module can be more firmly supported by a release preventing member that prevents the cover member supporting the solar cell module from being separated from the fixing member by an external force such as an earthquake or strong wind.

In addition, by mounting the solar cell modules at different heights from the roof panel to increase the incident angle incident from the sun can increase the power generation efficiency of the solar cell module.

1 is a perspective view showing a state in which the solar cell module fixing clamp is installed,
2 is an exploded perspective view of the solar cell module fixing clamp and the solar cell module shown in Figure 1,
3 is a cross-sectional view illustrating a state in which the solar cell module fixing clamp and the solar cell module illustrated in FIG. 2 are coupled;
4 is a cross-sectional view illustrating a state in which the solar cell module fixing clamp and the solar cell module illustrated in FIG. 3 are coupled;
5 is a cross-sectional view illustrating a coupling method of the fixing member and the cover member.

Hereinafter, a solar cell module fixing clamp according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 to 5 illustrate a solar cell module fixing clamp according to the present invention.

1 to 5, the solar cell module fixing clamp 10 includes a fixing member 100 including a base frame 110 and a vertical portion 120, an inserting portion 210, and a pressing portion 220. It includes a cover member 200 including a.

The solar cell module 20 to be described below includes a solar panel 21 and a support frame 22 installed at the edge of the solar panel 21, 'top surface of the solar cell module 20' or solar cell module The bottom face of 20 refers to the top and bottom surfaces of the support frame 22.

Base frame 110 is typically spaced apart from each other at intervals corresponding to the installation interval of the solar cell module 20 along the roof panel 30 of the factory, industrial facilities, etc. are fixed to the top surface of the roof panel 30 The length of one side is provided with a first rough surface 111 to be mounted in a state where the bottom surface of the solar cell module 20 is placed.

Although not shown in the drawing, the base frame 110 may be bolted to the beam members by arranging a plurality of beam members along the convexly raised protrusions of the roof panel 30 and arranging them in a direction perpendicular to the beam members.

The vertical portion 120 includes a first vertical frame 121 and a second vertical frame 122, a support frame 123 connecting the first vertical frame 121 and the second vertical frame 122, and a spaced apart frame. 124 and the extension frame 125.

The first vertical frame 121 and the second vertical frame 122 extend upward from the upper surface of the base frame 110, respectively, and are formed along the longitudinal direction of the base frame 110, and are spaced apart at predetermined intervals to be described later. The insertion part 210 of the cover member 200 forms an insertion space 120a at which the upper part is opened.

The first vertical frame 121 is preferably formed so that the bottom surface of the first pressing frame 221 which will be described later has a length smaller than the thickness of the solar cell module 20 to press the upper surface of the solar cell module 20. Do.

In addition, the second vertical frame 122 is further extended upward than the first vertical frame 121 as shown. The second vertical frame 122 may be formed at the same height as the first vertical frame 121, but the first vertical frame may support the side surface of the solar cell module 20 mounted on the spaced apart frame 124 to be described later. It is better to be formed longer than (121).

The first vertical frame 121 and the second vertical frame 122 are provided on each side surface of the solar cell module 20 mounted on the first rough surface 111 and the second rough surface 124a of the spaced apart frame 124 to be described later. Supports the solar cell module 20 in contact.

The support frame 123 is connected to the first vertical frame 121 and the second vertical frame 122 to support the first vertical frame 121 and the second vertical frame 122, and the first fastening member in the center portion thereof. (1) is penetrated.

The spaced frame 124 extends from the second vertical frame 122 in a direction away from the insertion space 120a and is formed at a position higher than the first surface 111.

The separation frame is formed to be inclined downward from the second vertical frame 122 so as to support the solar cell module 20 in an inclined state with respect to the roof panel 30, and the bottom surface of the solar cell module 20 is mounted on the upper surface thereof. The second roughening surface 124a is provided.

The fixing member 100 is installed in a direction in which the first roughening surface 111 of the one side fixing member 100 adjacent to each other and the second roughening surface 124a of the other fixing member 100 face each other. 20 is supported in an inclined state with respect to the roof panel 30.

The spaced frame 124 may extend in a direction orthogonal to the second vertical frame 122 but is in close contact with the bottom surface of the solar cell module 20 mounted in an inclined state by the fixing members 100 installed adjacent to each other. It extends obliquely downward to support.

For example, the spaced frame 124 may be inclined at an angle of 2 ° to 5 ° from a direction orthogonal to the second vertical frame 122.

Extension frame 125 is the base from the end of the spaced frame 124 to support the load of the solar cell module 20 is transferred to the spaced frame 124 by the solar cell module 20 mounted on the spaced frame 124 It extends to the upper surface of the frame 110.

As described above, a solar cell module having one end mounted on a spaced frame formed to be inclined at a predetermined angle with respect to a roof panel may increase an incident angle incident from the sun to increase power generation efficiency.

The cover member 200 is separately inserted into the insertion space 120a formed along the longitudinal direction of the fixing member 100 at the top of the fixing member 100, and the insertion portion 210 inserted into the insertion space 120a. And, pressing the upper surface of the solar cell module 20 extending from the insertion unit 210 and mounted on the first rough surface 111 of the base frame 110 and the second rough surface 124a of the spaced frame 124, respectively. It includes a pressing unit 220.

The insertion part 210 is inserted into the insertion space 120a of the vertical part 120 to contact the inner surface of the first vertical frame 121 and the second vertical frame 122 of the second vertical frame 122. And a second insertion frame 212 and a connection frame 213 connecting the first insertion frame 211 and the second insertion frame 212 to be in contact with the inner surface.

When the first insertion frame 211 and the second insertion frame 212 is inserted into the insertion space (120a), the pressing portion described later in the state that the lower end does not touch the upper surface of the support frame 123, respectively, the upper surface of the solar cell module It is formed to have a length that is shorter or the same as the distance from the support frame 123 to the upper end of the first vertical frame 121 and the second vertical frame 122 so that it can be pressed.

The connection frame 213 connects the first insertion frame 211 and the second insertion frame 212 so that the insertion part 210 can be inserted into the insertion space 120a of the vertical part 120. The gap between the frame 211 and the second insertion frame 212 is maintained.

The pressing unit 220 presses the upper surface of the solar cell module 20 mounted on the base frame 110 when the insertion unit 210 is inserted into the insertion space 120a along the inner surface of the vertical unit 120. The first pressing frame 221 and the second pressing frame 222 is provided.

The first pressing frame 221 is inserted space 120a from the top of the first insertion frame 211 to press the upper surface of the solar cell module 20 mounted on the first rough surface 111 of the base frame 110 Extend in a direction away from the second pressing frame 222, the second insertion frame 212 to press the upper surface of the solar cell module 20 mounted on the second rough surface 112 of the base frame 110. It extends in a direction away from the insertion space (120a) from the top of.

As shown in FIG. 3, the first pressing frame extends in a direction orthogonal from an upper end of the first inserting frame to be in line contact with the upper surface of the solar cell module mounted on the first roughening surface, and the second pressing frame has a second roughening surface. It is formed to be inclined downward from the top of the second insertion frame to be in surface contact with the upper surface of the solar cell module mounted on the.

Alternatively, the first pressing frame may be formed to be inclined upwardly from an upper end of the first insertion frame to be in surface contact with the top surface of the solar cell module mounted on the first rough surface. That is, both the first pressing frame and the second pressing frame may be in surface contact with the upper surface of the solar cell module mounted on both sides, respectively, to firmly fix the solar cell module to the fixing member.

In the vertical part 120 of the fixing member 100 and the inserting part 210 of the cover member 200, the roof panel is caused by an external force, for example, an earthquake or the like, while the inserting part 210 is inserted into the inserting space 120a. An anti-separation part is further provided to prevent the insertion part 210 from flowing in the vertical direction so that the insertion part 210 is not separated from the insertion space 120a by shaking or strong wind.

The anti-separation part may protrude and retract alternately to the inner surfaces of the first vertical frame 121 and the second vertical frame 122, respectively, and the first uneven part 131 extending along the longitudinal direction of the vertical part 120. The first insertion frame 211 and the second insertion frame 212, respectively, and protrudes and retracted alternately, and includes a second uneven portion 132 extending along the longitudinal direction of the insertion portion 210; .

The second uneven portion 132 is formed at a position corresponding to the first uneven portion 131 and is engaged with the first uneven portion 131 so that the insertion portion 210 may flow in the left and right directions in the insertion space 120a. It is possible to restrict the flow in the vertical direction.

The interval between the inner surface of the first vertical frame 121 and the second vertical frame 122 is such that the second uneven portion 132 can be easily inserted without interfering with the first uneven portion 131 when the insertion portion is inserted. It is formed to be slightly larger than the distance between the outer surface of the first insertion frame 211 and the second insertion frame 212.

The fixing member 100 and the cover member 200 are coupled by the second fastening member 2 penetrating through the connection frame 213 and the support frame 123. The second fastening member 2 may be a direct connection piece that can penetrate a metal material using a drill tool.

The notch portion 213a having a portion of the upper surface drawn downward is formed on the upper surface of the connection frame 213 so that the second fastening member 2 can easily penetrate downward through the connection frame 213. The second fastening member 2 penetrating the connection frame 213 through the notch part 213a penetrates downwardly through the upper surface of the support frame 123 to firmly fix the fixing member 100 and the cover member 200. Combine.

The second fastening member 2 coupling the cover member 200 and the fixing member 100 and the first fastening member 1 coupling the fixing member 100 and the roof panel 30 are staggered so as not to meet each other. Is installed on.

As shown in the figure, the fixing member 100 and the cover through the second fastening member 2 in a state where the bottom surface of the solar cell module 20 is mounted on the first rough surface 111 and the second rough surface 124a, respectively. When the member 200 is coupled, the pressing unit 220 is in contact with the upper surface of the solar cell module 20 while the insertion unit 210 is inserted into the insertion space 120a.

As the inserting portion 210 is inserted into the insertion space 120a, the pressurizing portion 220 pressurizes the solar cell module 20 to increase in strength, and the bottom surface of the solar cell module 20 is formed on the first rough surface 111. The upper surface is in contact with the bottom surfaces of the first and second pressing frames 221 and 222 and is firmly supported by the fixing member 100 and the cover member 200.

6 illustrates a structure in which the fixing member 100 and the cover member 200 are coupled in a different manner from the coupling structure of the fixing member 100 and the cover member 200 described with reference to the preceding drawings. . Referring to FIG. 6, the connecting frame 213 is provided with a through-hole 213b having a vertical shape penetrated up and down, and the support frame 123 is provided with a fastening hole 123a having a thread.

The through hole 213b of the connecting frame 213 is not screwed with the third fastening member 3 such as a bolt having a screw thread, and allows the third fastening member 3 to pass therethrough. It has an outer diameter larger than the diameter but is smaller than the head 3a of the third fastening member 3.

The fastening hole 123a of the support frame 123 has an inner circumferential surface to be screwed with the third fastening member 3 passing through the through hole 213a at a position corresponding to the through hole 213a of the connection frame 213. Threads are formed in the

The third fastening member 3 passes through the through hole 213b and is screwed to the fastening hole 123a.

Although not shown in the drawing, if the head 3a of the third fastening member 3 is rotated to be continuously inserted into the fastening hole 123a while being in close contact with the upper surface of the connection frame 213, the third fastening member 3 By the connecting frame 213 and the support frame 123 is receiving a force in the direction close to each other and the elastically deformed in the direction in which the central portion to which the third fastening member 3 is coupled to each other close to the first and the first The second insertion frames 211 and 212 and the first and second vertical frames 121 and 122 are spread outward to press the side surfaces of the solar cell module 20.

As described above, the solar cell module 20 receives the force between the first and second vertical frames 121 and 122 so that side surfaces thereof are firmly supported by the first and second vertical frames 121 and 122.

In addition, the gap between the inner surface of the first vertical frame 121 and the second vertical frame 122 is slightly larger than the gap between the outer surface of the first insertion frame 211 and the second insertion frame 212. When the insertion portion 210 is inserted into the insertion space 120a, the second uneven portion 132 may be easily inserted without interfering with the first uneven portion 131, but the first insertion frame 211 As the second insertion frame 212 is opened, the first uneven portion 131 and the second uneven portion 132 are engaged to prevent the insertion portion 210 from being separated from the insertion space 120a by an external force. have.

Components not described in FIG. 5 are the same as described in the foregoing embodiments, and thus redundant descriptions are omitted and the same reference numerals are used for components having the same function.

According to the solar cell module fixing clamp according to the present invention as described above, the fixing member is fixedly arranged on the roof panel and the solar cell module can be uniformly coupled to the cover member at the top in the state simply mounted on each mounting surface of the fixing member. The incidence of damage of the solar cell module is significantly reduced, the work is easy, and the working time is shortened.

In addition, the solar cell module can be more firmly supported by a release preventing member that prevents the cover member supporting the solar cell module from being separated from the fixing member by an external force such as an earthquake or strong wind.

One end of the solar cell module may be mounted on a spaced frame spaced apart from the roof panel by a predetermined height, and the other end may be mounted on a base frame adjacent to the roof panel so that the solar cell panel may be inclined with respect to the roof panel. That is, the solar light is incident on the solar cell module having a larger angle of incidence than the incident angle of the solar light incident on the fixed solar cell module in parallel with the roof panel, thereby improving the power generation efficiency of the solar cell module.

The solar cell module fixing clamp according to the present invention as described above has been described with reference to one embodiment shown in the drawings, but this is only an example, and those skilled in the art can various modifications therefrom. And other equivalent embodiments are possible.

Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: solar cell module fixing clamp
100: fixing member 110: base frame
120: vertical portion 121: first vertical frame
122: second vertical frame 200: cover member
210: insertion unit 211: first insertion frame
212: second insertion frame 220: pressing unit
221: first pressing frame 222: second pressing frame

Claims (5)

A base frame having a first roughness surface and a second roughness surface formed on a flat surface to be fixed to the top surface of the roof panel and mounted on both sides with the bottom surfaces of the solar cells mounted at different heights; and an upper surface of the base frame. A fixing member including a vertical portion extending upwardly from each other to form an open insertion space at an upper portion thereof;
An inserting portion inserted from the upper portion of the fixing member into the insertion space and contacting the inner surface of the vertical portion and coupled to the fixing member, and pressurizing an upper surface of the solar cell module which is extended from the inserting portion and mounted on the mounting surface; A cover member including a portion;
The vertical portion extends spaced apart from each other upward from the upper surface of the base frame and the first vertical frame and the second vertical frame which are respectively in contact with the side of the solar cell module mounted on the first surface and the first surface; And a support frame connecting the first vertical frame and the second vertical frame.
The base frame extends in a direction away from the second vertical frame to the insertion space and is formed at a position higher than the first roughness surface to support the solar cell module in an inclined state with respect to the roof panel. It is formed to be inclined downward from the frame and the upper surface includes a separation frame provided with the second rough surface, and an extension frame extending downward from the end of the separation frame toward the base frame,
The insertion unit is inserted into the insertion space and the first insertion frame and the second insertion frame formed to be spaced apart from each other so as to be in contact with each of the inner surface of the first vertical frame and the second vertical frame, and the first insertion frame and A connection frame connected to the second insertion frame,
The pressing portion may be pressed from an upper end of the first insertion frame and the second insertion frame to press the upper surface of the solar cell module mounted on the first roughness surface and the second roughness surface when the insertion portion is inserted into the insertion space. It includes a first pressing frame and a second pressing frame each extending in a direction away from,
The vertical portion and the insertion portion is further provided with a separation preventing portion for preventing the insertion portion is separated from the insertion space by the vibration,
The release preventing part alternately protrudes and retracts from the inner surfaces of the first vertical frame and the second vertical frame and is formed along the longitudinal direction of the vertical part, and the insertion part is separated upward from the insertion space. Protrudes and retracts alternately on the outer circumferential surface of the insert portion to prevent it from being formed and is formed along the longitudinal direction of the insert portion and has a shape corresponding to the shape of the first uneven portion to engage the first uneven portion to It includes a second concave-convex portion for restricting the flow of the insertion portion in the vertical direction,
In the center of the connecting frame is provided with a through hole penetrating the upper and lower through the fastening bolt, the support frame is formed in a position corresponding to the through hole is screwed with the fastening bolt passing through the through hole Solar cell module fixing clamp, characterized in that the fastening hole is provided.
delete delete delete delete

Images