KR101097975B1 - Fixture of PV Module - Google Patents

Abstract

The present invention relates to a device for fixing a photovoltaic module that can be firmly and easily fixed to the frame for installing a photovoltaic module.
The fixing device of the solar power module according to the present invention includes a base unit screwed to the screw hole formed in the building support frame, and a flat plate coupled to the upper portion of the base unit to support the bottom of the solar power module And an upper support unit coupled to an upper end of the lower support unit and an upper support plate supporting an upper surface of the solar power module.
Fixing device of the photovoltaic module according to the present invention is easy to install and remove the photovoltaic module, and can stably support the photovoltaic module to avoid the possibility of damage of the photovoltaic module due to external conditions such as typhoon There is an advantage that can be significantly lowered.

Description

Fixing device for photovoltaic module {FIXING APPARATUS FOR PHOTOVOLTAIC MODULE}

The present invention relates to a fixing device of the solar power module, and more particularly, to a fixing device of the solar power module that can be fixed firmly and easily to the frame for installing the module.

In general, a photovoltaic element is a device using a photoelectric effect in which a small amount of current flows when receiving a light. Photovoltaic power plants are made of conductor materials such as silicon, gallium arsenide, cadmium tellurium, cadmium sulfide, indium phosphorus or a combination thereof. In addition, most photovoltaic power plants are made of p-n junction diodes, and the electromotive force generated at the anode ends of the p-n junction diodes is connected to an external circuit.

Such photovoltaic power generators have a small electromotive force, so that a plurality of photovoltaic power generators are used in connection with each other to obtain an appropriate electromotive force.

The solar power module is formed in the form of a plate by connecting a plurality of solar power generators.

The solar power module is installed on the exterior of the building to receive sunlight.

The conventional technology of the fixing device for fixing the solar power module to the outer surface of the building is disclosed in Korean Utility Model Publication No. 1999-0023401.

According to the prior art, the device for fixing the solar power module is a fixed bracket fixed to the floor surface of the building, and a part of the upper surface of the fixed bracket is respectively overlapped and seated and one side of the solar power module is horizontally on the floor surface First and second module frames formed at the top of the module mounting part inserted and fixed respectively, the overlapping portions of the first and second module frames to fix the overlapping first and second module frame to the fixing bracket, and the upper part of the fixing bracket It consists of a bolt member penetrating the flat surface and a nut member coupled to the bolt member.

However, in the prior art, as shown in the above configuration, the fixing bracket and the first and second module frames, which partially overlap each other on the upper flat surface of the fixing bracket, and the mutually overlapping first and second module frames and the fixing bracket together. Consists of a bolt member and a nut member to be fixed, the upper portion of the first and second module frame has a module mounting portion is fixed to the solar power module is inserted horizontally, the number of parts, the configuration was complicated.

In addition, even when fixing the first and second module frames to the fixing bracket, in order to penetrate the bolt member to the first and second module frame and the fixing bracket, it is inconvenient to precisely match the respective bolt fastening holes to facilitate the operation There was a problem that can not be made.

The present invention is to solve the problems of the prior art, an object of the present invention is to provide a fixing device for a photovoltaic module that can be made easily with fewer parts.

The fixing device of the photovoltaic module according to the present invention for achieving the above object is a base unit screwed to the screw hole formed in the support frame, and coupled to the upper portion of the base unit to support the bottom of the photovoltaic module And a top support unit coupled to an upper portion of the bottom support unit and including an extended support plate for supporting an upper surface of the solar power module.

Two screw holes are formed in the support frame so as to be spaced apart in the vertical direction, and the base unit is installed in each of the screw holes, and the base unit is formed with a screw thread formed on the outer circumferential surface thereof so as to be inserted into the screw holes. And, the upper portion of the screw coupled to the tool holding portion formed in the form of a hexagonal column so as to hold by using a rotary tool such as a spanner, and the upper coupling is formed on the upper surface of the tool holding portion and a fastening groove drawn downward on the upper surface The lower support unit includes a flat plate extending to both sides with respect to the coupling portion coupled to the upper surface of the base unit to support the lower surface of the edge of the photovoltaic module, and upwards from the center of the upper surface of the flat plate The predetermined height is extended to support the edge side of the photovoltaic module supported by the flat plate portion The lower support unit includes a first fastening hole penetrating the flat plate from an upper surface of the vertical part so that the fastening bolt can be coupled to the fastening groove, and an upper surface of the vertical part at a position spaced apart from the first fastening hole. A second fastening hole drawn downward from the predetermined depth is formed, and the upper support unit includes a main body having a third fastening hole corresponding to the second fastening hole penetrating the upper and lower surfaces thereof, and from both upper ends of the main body. It is preferable to include an extension support plate extending in both directions parallel to the plate portion.

And the lower support unit is formed with an upper projection protruding upward at both ends of the flat plate portion, the upper support unit is formed to be inclined downward as the extension support plate extends outward from the main body and at both ends of the extension support plate A downward protrusion protruding downward is formed, and the first and second insertion grooves are formed in the photovoltaic module so that the upper protrusion and the lower protrusion are respectively inserted into the lower surface and the upper surface. When the main body is coupled to the vertical portion and the fastening bolt, the second insertion groove is preferably formed at a point where the extension support plate is elastically deformed and opened from the main body in a state of having an appropriate fastening force.

In addition, the support frame is further provided on the inclined direction of the support frame lower than the base unit to support the lower end of the photovoltaic module, the auxiliary support unit is fixed to the fixing projection formed on the lower support unit A fixing member fixedly coupled through a pin, an auxiliary member having a 'c' shape having one side open to support a lower side, and an upper and lower surface of the photovoltaic module, connecting the auxiliary member and the fixing member to the It is preferable to include a connection wire for supporting the auxiliary member, and an elastic member which is installed so that both ends are respectively supported on the inner circumferential surface of the auxiliary member and the bottom side of the photovoltaic module.

Fixing device of the photovoltaic module according to the present invention is easy to install and remove the photovoltaic module, and can stably support the photovoltaic module to avoid the possibility of damage of the photovoltaic module due to external conditions such as typhoon There is an advantage that can be significantly lowered.

1 is a perspective view showing a construction state of the fixing device of the solar power module according to the present invention,
Figure 2 is an exploded perspective view of the fixing device of the solar power module of Figure 1,
3 is an exploded perspective view showing a first fixing part of the fixing device of the solar power module of Figure 1,
4 is a cross-sectional view of the first fixing part of FIG.
5 is an exploded perspective view illustrating a second fixing part of the fixing device of the solar power module of FIG. 1;
6 is an exploded perspective view showing another embodiment of the first fixing part,
7 is a cross-sectional view of the first fixing part of FIG.
Figure 8 is an exploded perspective view showing another embodiment of the first fixing part further provided with an auxiliary support unit,
9 is a side cross-sectional view showing a coupling state of the auxiliary support unit of FIG.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail the fixing device of the solar cell module according to the present invention.

1 to 5, the fixing device 100 of the photovoltaic module according to the present invention is installed on the support frame 10, and the first support 110 supporting the photovoltaic module 20. And a second support 140.

The support frame 10 is composed of a plurality of struts and mounting portions supported on the struts. The lengths of the front struts and the rear struts are mutually different so that the mounting portion is inclinedly supported so that the angle of incidence of sunlight is close to the vertical. .

The photovoltaic module 20 is a solar cell is attached to a square frame, as in the conventional power generation module, the glass is installed on the upper surface, the photovoltaic module 20 is the same as the prior art, so the detailed description Omit.

The first and second support parts 110 and 140 support the plurality of photovoltaic modules 20, and each of the first support part 110 supporting the side surfaces of two adjacent photovoltaic modules 20 together, respectively. It includes a second support portion 140 for supporting the edge portion of the photovoltaic module 20.

3 is an exploded perspective view of the first support 110, the first support 110 is coupled to the base unit 111 fixed to the building support frame 10 and the upper portion of the base unit 111. The lower support unit 121 and the upper support unit 131 coupled to the upper portion of the lower support unit 121 and supporting the photovoltaic module 20 together with the lower support unit 121.

The base unit 111 is inserted into the screw hole 11 formed in the building support frame 10, two screw holes 11 are formed to be spaced up and down, and two base units 111 are It is fixed to the building support frame 10 in a spaced state.

The base unit 111 has a screw thread formed on an outer circumferential surface thereof, and a screw part 112 inserted into the screw hole 11, a tool grip part 113 formed at an upper end of the screw part 112, and a tool wave. It includes a top coupling portion 114 formed on the upper portion of the branch 113.

The screw portion 112 is formed to a diameter corresponding to the screw hole 11, the tool holding portion 113 is to be held by a tool such as a spanner. Therefore, by holding the tool holding part 113 using a tool to rotate the screw unit 112 is inserted into the screw hole (11). In addition, the upper coupling portion 114 has a fastening groove 115 for fastening with the lower support unit 121 to be described later on an upper surface thereof, and a thread is formed on the inner circumferential surface of the fastening groove 115.

The lower support unit 121 is a flat plate portion 122 installed on the upper end of the base unit 111 so as to support the bottom surface of the photovoltaic module 20, and upwards from the center of the flat plate portion 122 It includes a vertical portion 124 extending to.

The vertical portion 124 and the flat plate 122 extends up and down to be fastened to both base units 111, in particular, the lower support unit 121 is a coupling bolt to the fastening groove 115 Two first fastening holes 125 penetrated in the vertical direction from the upper surface of the vertical portion 124 to the lower surface of the flat plate 122 so as to be fastened are formed to be spaced apart by the separation distance of the base unit 111. .

The flat plate 122 supports the lower surface of the edges of the two solar modules 20 adjacent to each other based on the vertical portion 124. In addition, the vertical portion 124 has a second fastening hole 126 for fastening with the upper support unit 131 to be described later, the second fastening hole 126 is spaced apart from the first fastening hole 125 Two are formed between the two, and unlike the first fastening hole 125 is formed so as not to penetrate the flat plate 122, the predetermined depth is drawn downward from the upper surface of the vertical portion (124).

The upper support unit 131 is coupled to the upper end of the vertical portion 124 through a fastening bolt, the main body 132 is formed with a third fastening hole 133 penetrating the upper and lower surfaces, and both sides of the main body 132 Including an extension support plate 134 extending to cover the upper surface of the photovoltaic module 20 from, the fastening bolt penetrates through the third fastening hole 133 and the second fastening hole 126 of the main body 132 By screwing to the thread formed on the inner circumferential surface of the system 2 fastening hole 126 is fixed.

The upper support unit 131 has an extension support plate 134 extending in both directions about the main body 132 so that the upper and lower surfaces of the photovoltaic module 20 extend from the support plate 134 and the flat plate 122, respectively. By holding by) the fixing of the photovoltaic module 20 is made.

The second support part 140 is shown in FIG. 5, and the second support part 140 also includes a base unit 141, a lower support unit 142, and an upper support unit 147.

As shown in the drawing, the second support part 140 supports the corners of four adjacent solar modules 20. Therefore, the four base units 141 are fixed to the building support frame 10, the base unit 141 of the second support portion 140 has the same configuration as the base unit 111 of the first support portion 110. .

The lower support unit 142 includes a flat plate portion 143 of the rectangular plate-shaped tang, and a cross-shaped vertical portion 144 extending upward from the center of the flat plate portion 143. The first fastening hole 145 is formed at a position corresponding to the fastening groove of each base unit 141 in the vertical portion 144, and the second fastening hole (the first fastening hole 145) is spaced apart from the first fastening hole 145. 146 is formed, the first fastening hole 145 penetrates the vertical portion 144 and the flat plate portion 143, and the second fastening hole 146 does not penetrate the plate portion 143 without the vertical portion ( 144 is only drawn in a predetermined depth below the upper surface.

Since the vertical portion 144 is formed in a cross shape as shown in the figure, the edge of the photovoltaic module 20 is in contact with the outer wall of the vertical portion 144 on the top surface of the flat portion 143. It is possible to support a predetermined area, the upper support unit 147 of the rectangular plate shape corresponding to the flat plate portion 143 on the upper portion of the lower support unit 142 is fastened through the fastening bolt of the solar power generation module 20 The lower surface and the upper surface can be supported. A third fastening hole 148 is also formed in the upper support unit 147 of the second support part 140.

Thus, the first and second support parts 110 and 140 of the present embodiment are fixed to the support frame 10 and the base units 111 and 141, respectively, and fixed to the base units 111 and 141. Solar power generation module 20 by including a lower support unit (121,142) for supporting the upper support unit (131,147) coupled to the upper portion of the lower support unit (121,142) to support the upper surface of the photovoltaic module (20) Can be stably supported, and the solar power generation module 20 can be separated by only removing the upper support units 131 and 147 from the lower support units 121 and 142 when replacing or repairing the solar power generation module 20. It is very easy to install and maintain.

6 and 7 show another embodiment of the first support 110.

The first support part 110 of the present embodiment has upper projections 123 protruding upward from both end portions of the lower support unit 121 and the flat plate 122, and the solar power generation module 20 also has an upward projection ( The first insertion groove 21 into which the upper protrusion 123 may be inserted is formed at a lower surface corresponding to the 123.

In addition, in the case of the upper support unit 131, the extended support plate 134 is formed to be inclined downward as it extends outward from the main body 132, the lower projection 135 is formed to protrude downward at the end. In addition, the extension support plate 134 may be elastically deformed so that the end portion thereof gradually rotates upward in accordance with the fastening of the upper support unit 131 and the lower support unit 121. When the support unit 131 and the lower support unit 121 are fastened with an appropriate fastening force, a second insertion groove 22 is formed at a point corresponding to the position of the downward protrusion 135.

In the first support part 110 of the present embodiment, the first and second insertion grooves 21 and 22 are formed in the photovoltaic module 20 supported by the upper support unit 131 and the lower support unit 121. The fastening of the photovoltaic module 20 is made more stable by fastening the upper protrusion 123 and the lower protrusion 135 to be inserted into the first and second insertion grooves 21 and 22, respectively. . Furthermore, when the upper support unit 131 starts to be fastened with the lower support unit 121, the distance between the ends of the both ends of the extended support plate 134 of the main body 132 is located on both sides of the lower support unit 121. Although the lower projection 135 cannot be inserted into the second insertion groove 22 because the distance between the second insertion grooves 22 of the both sides of the solar power generation module 20 is not supported, the fastening bolt is continuously rotated. When the upper support unit 131 and the lower support unit 121 is fastened with an appropriate fastening force, the extension plate is opened so that the lower protrusions 135 can be inserted into the second insertion grooves 22, so that the second insertion grooves 22 are formed. The operator can easily determine whether the fastening force of the upper support unit 131 and the lower support unit 121 is an appropriate level by whether the downward protrusion 135 is inserted into the lower protrusion 135.

Furthermore, the extended support plate 134 is inclined downward so that the upper surface of the photovoltaic module 20 by the elastic restoring force of the extended support plate 134 when the upper support unit 131 and the lower support unit 121 are fastened. There is an advantage that the pressing force is further increased.

The remaining components that are not described in this embodiment are the same as in the previous embodiment, and thus detailed description thereof will be omitted.

Fixing device 100 of the photovoltaic module of the present invention may further include an auxiliary support unit 150 for supporting the lower end of the photovoltaic module 20 as shown in FIGS. 8 and 9. .

The auxiliary support unit 150 includes a fixing member 151 coupled to the lower support unit 121, an auxiliary member 154 installed to surround the bottom side of the photovoltaic module 20, and the auxiliary member 154. ) And a connecting wire 155 connecting the fixing member 151 and the elastic member 156 installed on the auxiliary member 154.

The lower side of the lower support unit 121 is formed with a fixing protrusion 157 protruding outward and through holes 158 formed through the upper and lower surfaces.

The fixing member 151 is a member of a 'c' shape surrounding the upper and lower surfaces of the fixing protrusion 157 and passes through the upper and lower surfaces of the fixing protrusions 157 in contact with the upper and lower surfaces, respectively. In this case, the fixing pin 153 is fastened to pass through the through hole 152 and the through hole 158 to fix the fixing protrusion 157 to the lower support unit 121.

The auxiliary member 154 is capable of supporting the lower end of the photovoltaic module 20 as described above, one side is opened to surround the top and bottom and side surfaces of the photovoltaic module 20. 'Shaped in the shape of. In addition, the auxiliary member 154 is connected to the fixing member 151 through the connection wire 155, thereby reducing the fastening force between the upper support unit 131 and the lower support unit 121 of the first support 110. Even if the solar power generation module 20 slides downward along the inclined support frame 10 surface, it can be supported by the auxiliary support unit 150.

In addition, the elastic member 156 is installed on the auxiliary member 154, and is a compression spring that is supported at both ends on the side of the photovoltaic module 20 and the inner surface of the auxiliary member 154, in the case of summer The length of the metal frame constituting the module 20 can be extended by the external temperature, the elastic member 156 receives the change in the length of the photovoltaic module 20 to attenuate the tensile force applied to the connection wire 155 It plays a role.

Since the remaining components of the present embodiment are the same as the first embodiment of FIGS.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

100; Fixture of PV Module
110; First support
111; Base unit 121; Lower support unit
131; Upper support unit
140; Second support
141; A base unit 142; Lower support unit
147; Upper support unit
150; Auxiliary Support Unit
151; Fixing member 154; Auxiliary
155; Connection wire 156; Elastic member

Claims (4)

delete A base unit screwed to a screw hole formed in the support frame;
A lower support unit coupled to an upper portion of the base unit and including a flat plate supporting a lower surface of the photovoltaic module;
And an upper support unit coupled to an upper portion of the lower support unit and including an extended support plate supporting an upper surface of the solar power module.
Two screw holes are formed in the support frame to be spaced apart in the vertical direction, and the base unit is installed in each of the screw holes,
The base unit is a screw portion formed with a screw thread on the outer circumferential surface to be inserted into the screw hole, and a tool holding portion formed in the form of a hexagonal column to be gripped by using a rotary tool such as a spanner on the upper screw portion; It is formed on top of the tool holding part and includes an upper coupling portion formed with a fastening groove drawn downward on the upper surface,
The lower support unit extends upwardly from the center of the upper surface of the flat plate portion extending to both sides with respect to the coupling portion coupled to the upper surface of the base unit so as to support the edge of the solar power module, the predetermined height upwards And a vertical portion supporting an edge side of the photovoltaic module supported by the flat portion, wherein the lower support unit has a first fastening portion penetrating the flat portion from an upper surface of the vertical portion so that the fastening bolt can be coupled to the fastening groove. A hole and a second fastening hole drawn downward from the upper surface of the vertical portion at a position spaced apart from the first fastening hole,
The upper support unit includes a main body formed so that the third fastening hole corresponding to the second fastening hole penetrates the upper and lower surfaces, and an extension support plate extending in both directions so as to be parallel to the flat plate from both sides of the upper end of the main body. Fixing device of a solar power module characterized in that. Claim 3 was abandoned when the setup registration fee was paid. The method of claim 2,
The lower support unit is provided with an upward protrusion protruding upward from both end portions of the plate portion,
The upper support unit is formed to be inclined downward as the extension support plate extends outward from the main body and has a downward projection protruding downward at both ends of the extension support plate,
First and second insertion grooves are formed in the photovoltaic module so that the upper protrusion and the lower protrusion may be respectively inserted on the lower surface and the upper surface.
The second insertion groove is a photovoltaic power generation, characterized in that when the main body is coupled to the vertical portion and the fastening bolt, the extension support plate is elastically deformed to open from the main body in the state having a suitable fastening force Fixture of the module. Claim 4 was abandoned when the registration fee was paid. The method of claim 3, wherein
Further provided on the inclined direction of the support frame than the base unit is further provided with an auxiliary support unit for supporting the lower end of the photovoltaic module,
The auxiliary support unit is a fixing member which is fixed to the fixing protrusion formed on the lower support unit through a fixing pin;
An auxiliary member having a 'c' shape in which one side is open to support the lower side and the upper and lower surfaces of the solar power module;
A connection wire for connecting the auxiliary member and the fixing member to support the auxiliary member;
Fixing device of a solar power module, characterized in that it comprises an elastic member which is installed so that both ends are respectively supported on the inner peripheral surface of the auxiliary member and the lower side of the photovoltaic module.

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