KR102113517B1 - The supporting structure for a solar module - Google Patents

Abstract

The present invention relates to a support structure for a photovoltaic module, without using an aluminum profile to make the photovoltaic module support structure more robust, a c-shaped steel structure, an H-shaped steel structure, or the like is used. By constructing the transverse steel structure or longitudinal steel structure of the photovoltaic module on the foundation support, welding is performed to the U-shaped steel structure or the H-shaped steel structure configured in the transverse or longitudinal direction. By reducing the labor cost, shortening the construction period, and making the construction work by fixing the coupling between the lower wing of the transverse steel structure and the upper wing of the longitudinal steel structure with bolts and nuts using separate smart fastening parts, The present invention relates to a support structure for a solar module configured to firmly install a transverse steel structure and a longitudinal steel structure for supporting a solar module while improving site responsiveness such as movement of an assembly position.

Description

Support structure for photovoltaic modules {THE SUPPORTING STRUCTURE FOR A SOLAR MODULE}

The present invention relates to a support structure for a photovoltaic module, without using an aluminum profile to make the support structure for a photovoltaic module more robust, a c-shaped steel structure, an H-shaped steel structure, etc. When constructing a transverse steel structure or a longitudinal steel structure of a solar module on a foundation support by using, welding to a U-shaped steel structure or a H-shaped steel structure composed of a transverse direction or a longitudinal direction Transverse steel structure and longitudinal steel structure for photovoltaic modules while reducing labor costs by using separate smart fasteners, shortening construction period, and improving site responsiveness, such as moving assembly locations on site It relates to a support structure for a solar module configured to be installed firmly.

The conventional support structure for photovoltaic modules is a pre-registered registered design No. 20-0457202 for the photovoltaic light collecting plate installation structure, as shown in FIG. 11, the light collecting plate support 10 is attached to one or more photovoltaic light collecting plates (1). The light collecting plate 1 is fixed and supported at least in contact with the bottom surface of the light collecting plate 1 so that sunlight enters. The light collecting plate support 10 includes a light collecting plate base 11 and an upper support 13. The light collecting plate pedestal 11 comes across the lower surface of the light collecting plate 1 and can be fastened by means of fastening means such as a bolt, rivets, and the like. The light collecting plate support 11 is preferably formed by cutting a C-shaped or C-shaped section steel. The upper support 13 is fastened by fastening means for each contact surface with the light collecting plate support 11 across one side of the plurality of light collecting plate supports 11. A bolt 73 per contact with the light collecting plate stand 11 across the light collecting plate stand 11 with one upper support 13 fixed to the bottom of each light collecting plate 11 so that the light collecting plate 1 is arranged on one plane Can be fastened with. The upper support 13 may be formed by cutting a metal rod having a cross-sectional shape of ㅁ. The light collecting plate base 11 and the upper support 13 are provided with a plurality of holes to accommodate the fastening means,

In addition, as a support structure for a photovoltaic module, the registered invention No. 10-1082117 solar cell module mounting unit previously registered, as shown in FIG. 9, the base frame 110 is ground through the posts 101 and 102. It is installed to be spaced apart, it can be formed to be attached to the plate 130 to be described later through the profile 120 in the form of a plate, or may be formed to be combined to form a square frame by being mutually coupled in the longitudinal and transverse directions, and both side edges (101) (102). The attachment plate 130 is attached to the solar cell module 200, and is coupled to the base frame 110 through a coupling unit to be described later. The attachment plate 130 has a structure in which the lower and both sides are opened by bending, and when this is divided, the flat plate portion 131 and the vertical portion 132 extending downwardly from both sides of the flat plate portion 131, respectively, , It is formed in a structure having a horizontal portion 133 extending inwardly parallel to the flat plate portion 131 toward the central portion of the flat plate portion 131 from the bottom of the vertical portion 132. Horizontal portion 133 The through-holes into which the body parts of the restraint bolts 140 to be described later can be inserted are formed to be spaced apart from each other. The coupling unit is configured to allow the base frame 110 and the attachment plate 130 to be mutually coupled. The coupling unit is provided with a profile 120, a constraining bolt 140, and a nut 150. The restraining groove 123 of the profile 120 includes a first portion 121 opened with a first width from the top, and a second portion opened with a second width extended from the first width at the bottom of the first portion 121 ( 122). In addition, the profile 120 has a first base of the restraining groove 123 around the restraining groove 123 of the profile 120 so that the base frame 110 can be screwed through the floor through the restraining groove 123. A screw entrance 125 having an extended width than the width is formed. Profile 120 is configured to apply an extruded aluminum material,

In the registered registration proposal No. 20-0457202, the photovoltaic light collecting plate installation structure is fixed to the photovoltaic light collecting plate (1) on the horizontal light collecting plate base (11), and the horizontal light collecting plate base (11) has a longitudinal upper support. In order to fix it to (13), in order to fix the transverse light collecting plate stand 11 to the longitudinal upper support 13, it is necessary to make a hole exactly in the transverse light collecting plate support 11 and the longitudinal upper support 13. If the hole position of the transverse light collecting plate stand 11 or the longitudinal upper support 13 is different, it is necessary to make additional holes by modifying it at the construction site.If the thickness of the steel structure is thick, it is very difficult to drill, steel There is a problem that requires a lot of labor and time to construct a hole in the structure,

In addition, the registered invention No. 10-1082117 solar cell module mounting unit for photovoltaic power generation, the solar cell module 200 is coupled to the base frame 110 through the mounting plate 130 and the profile 120, In order to bolt the profile 120 in the transverse direction and the base frame 110 in the longitudinal direction with a bolt, a hole must be drilled in the lower portion of the profile 120 in the transverse direction, and a hole in the upper side of the base frame 110 in the longitudinal direction may be provided. It is possible to fix it with a bolt only if it is drilled, but it is necessary to drill a hole in the profile 120 and to drill a hole in the base frame 110, which increases the labor cost, takes a lot of construction time, and incorrectly drills a hole in the profile 120 or the base frame. In this case, it is a problem that a lot of time and effort is required to fix the hole in the field, which increases the construction cost.

The problem to be solved by the present invention was created to solve the above problems, and in constructing a support structure for a solar module, it is possible to easily assemble and save labor costs at a construction site without welding or drilling a steel structure. The aim is to provide a support structure for a solar module that improves convenience and durability of construction and reduces installation cost.

The present invention was made in view of the above problems, and does not use an aluminum extruded structure to increase the structural strength of the solar module support structure and lower the solar module construction cost, and to the transverse support structure and the longitudinal support structure c- It uses a ruler steel structure or an H-shaped steel structure. It is smart to fix the transverse support structure and the longitudinal support structure without welding or drilling any holes in the U-shaped steel structure or the H-shaped steel structure. It is intended to be able to assemble and fix a U-shaped steel structure or an H-shaped steel structure in a cross direction and a longitudinal direction by using a fastening part,

The smart fastening part is composed of a main body, an upper support and a lower support, and can be assembled with bolts and nuts, and the main body has a steel structure upper release preventing jaw on one side of the upper side, and an upper pushing prevention protrusion of the steel structure on the upper center. A coupling hole for assembling the main body and the upper support and the lower support is formed at the center, and the lower escape prevention chin is formed at the lower side of the steel structure, and the lower sliding prevention protrusion of the steel structure is configured at the lower center, and the upper support is a-shaped It is composed of, a support jaw of the same height as the thickness of the steel structure is formed on one side of the support, a support coupling hole is formed in the center of the support, and the lower support is composed of an a-shape. When a support jaw of the same height as the thickness is formed, a support coupling hole is formed in the center of the support, and when using an H-shaped steel structure as a transverse support structure and using an H-shaped steel structure as a longitudinal support structure The main body is positioned between the lower side of the lower wing of the transverse H-shaped steel structure and the upper side of the upper wing of the longitudinal H-shaped steel structure, and the upper support is positioned above the lower wing of the transverse H-shaped steel structure, Position the lower support on the lower side of the upper wing of the longitudinal H-shaped steel structure, fit the upper escape prevention jaw of the main body on one side of the lower wing of the horizontal H-shaped steel structure, and the upper pushing prevention protrusion of the main body is the horizontal H- Position it on the opposite side wing of the ruler steel structure, fit the lower escape prevention chin of the main body on one side of the upper wing of the longitudinal H- ruler steel structure, and the lower push-off protrusion of the body is opposite side of the longitudinal H- ruler steel structure. When it is positioned on the wing, a bolt is inserted between the support engaging hole of the upper support and the body engaging hole of the main body and the support engaging hole of the lower support and assembled with a nut, the upper support and the main body are transversely located between the upper support and the main body. The lower wing of the H-shaped steel structure is fixedly coupled, and the lower support and the main body are longitudinal H-shaped iron located between the lower support and the main body. By assembling the upper wing of the steel structure to be assembled, the assembly structure between the horizontal H-shaped steel structure and the vertical H-shaped steel structure can be constructed without welding or drilling.

In the above, the present invention, in constructing a support structure for a solar module, does not use an aluminum profile molded product having a weak strength and a high material cost, and is a sturdy U-shaped steel structure or a lateral support structure using an H-shaped steel structure. It is possible to assemble and construct a support structure for a solar module without welding or drilling while combining and constructing a longitudinal support structure, thereby quickly and flexibly responding to the site while reducing labor costs and construction time, thereby significantly improving the solar construction capability. It is a very useful invention with the effect of increasing.

1 is a block diagram of an embodiment of the present invention.
2 to 8 is a block diagram of another embodiment of the present invention.
9 to 11 are configuration diagrams illustrating a conventional embodiment.

1 is a block diagram of an embodiment of the present invention, FIGS. 2 to 8 are diagrams of another embodiment of the present invention, and FIGS. 9 to 11 are block diagrams illustrating a conventional embodiment .

As shown in FIG. 1, the present invention is composed of a main body 100, an upper support 200, and a lower support 300, and can be assembled with bolts and nuts, and the main body 100 has a steel structure upper departure prevention jaw ( 101) is configured, the upper structure of the steel structure, the upper protrusion prevention protrusion 103 is configured, the main body 100 and the upper support 200 and the lower support 300 for assembling the body coupling hole 102 in the center This is configured, the lower side of the steel structure is provided with a lower separation preventing jaw 111, the lower center of the steel structure is configured with a lower push prevention protrusion 113, and the upper support 200 is composed of a-shape, A support jaw 201 of the same height as the thickness of the steel structure is formed on one side, and a support coupling hole 202 is formed in the center of the support, and the lower support 300 is composed of an a-shape, on one side of the support A support jaw 301 having the same height as the thickness of the steel structure is formed, a support coupling hole 302 is formed in the center of the support, and the assembly is performed without drilling holes in the H-shaped steel structure and the U-shaped steel structure. It is characterized in that this is possible, and the steel structure departure prevention jaws 101 and 111 of the main body are configured in a C-shape,

As shown in FIG. 1, when the H-shaped steel structure 401 is used as the transverse support structure, and when the H-shaped steel structure 501 is used as the longitudinal support structure, the H-shaped steel structure 401 of the transverse support structure is used. The main body 100 is positioned between the lower side of the lower wing and the upper side of the longitudinal H-shaped steel structure 501, and the upper support 200 is provided on the upper side of the lower wing of the transverse H-shaped steel structure 401. It is positioned, and the lower support 300 is positioned below the upper wing of the longitudinal H-shaped steel structure 501, and the upper departure preventing jaw 101 of the main body is located at one side of the lower wing of the horizontal H-shaped steel structure 401. ), The upper push-preventing protrusion 103 of the main body is positioned on the opposite side wing of the transverse H-shaped steel structure 401, and the main body on one side of the upper wing of the longitudinal H-shaped steel structure 501 Fit the lower escape prevention jaw 111 of the body, and the lower push-off protrusion 113 of the main body is located on the opposite side wing of the longitudinal H-shaped steel structure 501 to support the coupling hole 202 and the main body of the upper support When the bolt is inserted between the main body coupling hole 102 and the support coupling hole 302 of the lower support and assembled with a nut, the upper support 200 and the main body 100 are the upper support 200 and the main body 100 The lateral H-shaped lateral H-shaped steel structure 401 is fixedly coupled to the lower wing, and the lower support 300 and the main body 100 are longitudinal H-shaped located between the lower support 300 and the main body 100. As to be assembled by tightening the upper wing of the steel structure 501, the assembly configuration between the lateral H-shaped steel structure 401 and the vertical H-shaped steel structure 501 is constructed without welding or drilling. It becomes possible,

As shown in FIG. 2, when the U-shaped steel structure 402 is used as the transverse support structure, and when the H-shaped steel structure 501 is used as the longitudinal support structure, the U-shaped steel structure 402 of the transverse direction is provided. The main body 100 is positioned between the lower side of the lower wing and the upper side of the upper H-shaped steel structure 501, and the upper support 200 is provided on the lower wing upper side of the lateral U-shaped steel structure 402. It is positioned, and the lower support 300 is positioned below the upper wing of the longitudinal H-shaped steel structure 501, and the upper separation preventing jaw 101 of the main body at the lower edge of the transverse U-shaped steel structure 402 To position, the upper push-off protrusion 103 of the main body is positioned on the wing of the U-shaped steel structure 402 in the transverse direction, and the lower side of the main body on the upper wing side of the longitudinal H-shaped steel structure 501 Fit the release preventing jaw 111, and the lower push-off protrusion 113 of the main body is located on the opposite wing of the longitudinal H-shaped steel structure 501 to support the coupling hole 202 of the upper support and the body of the main body When a bolt is inserted between the coupling hole 102 and the support coupling hole 302 of the lower support and assembled with a nut, the upper support 200 and the main body 100 are between the upper support 200 and the main body 100. The lateral transverse U-shaped steel structure 402 is fixedly coupled to the lower wing, and the lower support 300 and the main body 100 are longitudinal H-shaped steel structures located between the lower support 300 and the main body 100. By assembling the upper wing of (501) tightly, the assembly structure between the lateral U-shaped steel structure 402 and the longitudinal H-shaped steel structure 501 enables construction without welding or drilling. And

As shown in FIG. 3, when the U-shaped steel structure 402 is used as the transverse support structure and the U-shaped steel structure 502 is used as the longitudinal support structure, the U-shaped steel structure 402 of the transverse direction U-shaped steel structure 402 is used. The main body 100 is positioned between the lower side of the lower wing and the upper side of the upper U-shaped steel structure 502, and the upper support 200 is provided at the upper side of the lower wing of the transverse U-shaped steel structure 402. It is to be positioned, and the vertical supporter 300 is positioned on the lower side of the upper U-shaped steel structure 502, and the upper edge of the main body at the lower edge of the horizontal U-shaped steel structure 402 101 To position, and the upper push-off protrusion 103 of the main body is positioned on the wing of the U-shaped steel structure 402 in the transverse direction, and the lower departure of the main body at the upper edge of the U-shaped steel structure 502 in the longitudinal direction. The protruding jaw 111 is positioned, and the lower push-off protrusion 113 of the main body is positioned on the wing of the longitudinal U-shaped steel structure 502 so that the support coupling hole 202 of the upper support and the main body coupling hole of the main body When the bolt is inserted between the support coupling hole 302 of the lower supporter 102 and assembled with a nut, the upper supporter 200 and the main body 100 are transversely located between the upper supporter 200 and the main body 100. The longitudinal U-shaped steel structure 502 is fixedly coupled to the lower wing of the U-shaped steel structure 402, and the lower support 300 and the main body 100 are located between the lower support 300 and the main body 100. ) By tightly tightening the upper wing of the assembly, the assembly structure of the transverse U-shaped steel structure 402 and the longitudinal U-shaped steel structure 502 is possible to construct without welding or drilling. ,

As shown in FIG. 5, the departure preventing jaws 101 and 111 may be configured in an a-shape to prevent the departure of one wing of the H-shaped steel structure, and also the departure of the corner portion of the U-shaped steel structure. And

In addition, the escape prevention jaws 101 and 111 are configured in a protruding shape as shown in FIG. 6 to prevent the departure of one wing of the H-shaped steel structure, and also to prevent the departure of the corner portion of the U-shaped steel structure. And

In addition, as shown in FIG. 7, the body coupling holes 102 of the main body are configured at two sides, and the upper support 200 and the lower support 300 are also configured at two sides, so that the lateral support structure 401 is formed. The lower wing and the upper wing of the longitudinal support structure 501 are configured to be fixedly coupled with two bolts and nuts, so that the fixed coupling between the lateral support structure 401 and the longitudinal support structure 501 can be made stronger. ,

In addition, the lower escape preventing jaw 111 of the main body is removed, and one or two main body coupling holes 102 are formed, and one or two holes are drilled in the upper wing of the longitudinal support structure 501, One or two support 200 is configured to support the lower wing of the lateral support structure 401 and the upper wing of the longitudinal support structure 501, the support coupling hole 202 of the upper support and the body coupling hole of the main body ( 102) to be fixedly coupled with one or two bolts and nuts between the holes of the longitudinal support structure 501 to make the fixed coupling of the lateral support structure 401 and the longitudinal support structure 501 stronger. You may

In addition, as shown in FIG. 8, the upper and lower separation preventing jaws 101 and 111 of the steel structure of the body 100 are removed, and four body coupling holes 102 of the body are formed at four corners, and the upper support 200 And four lower supports 300 at four corners, and the lower wing of the transverse support structure and the upper wing of the longitudinal support structure 501 support support hole 202 of the upper support body and the body coupling hole of the main body ( It may be used to fix the fixed coupling between the lateral support structure and the longitudinal support structure 501 by fixing them with four bolts and nuts between the support coupling hole 302 of the lower support 102 and the lower support.

As described above, the present invention does not weld or drill a H-shaped steel structure or a U-shaped steel structure, but assembles and constructs a support structure for a solar module, thereby reducing material costs, reducing construction time and labor costs, and actively in the field situation. The feature is to provide a support structure for a solar module that can flexibly construct a solar module.

100: main body
101: upper deviation preventing jaw
102: body coupling hole
103: upper push prevention protrusion
111: lower deviation prevention jaw
113: the lower bump prevention protrusion
200: upper support
201: support jaw
202: support coupling hole
300: lower support
301: support jaw
302: support coupling hole
401: upper H-shaped steel structure
402: Upper U-shaped steel structure
501: Lower H-shaped steel structure
502: Lower U-shaped steel structure

Claims (19)

In the support structure for a solar module consisting of a transverse support structure and a longitudinal support structure and a smart fastening part,
The transverse support structure is composed of either a U-shaped steel structure or an H-shaped steel structure,
The longitudinal support structure is composed of either a U-shaped steel structure or an H-shaped steel structure,
The smart fastening component is composed of a main body and an upper support and a lower support,
The main body constitutes a steel structure upper release preventing jaw on one side of the upper side, configures a steel structure upper push-off protrusion on the upper side, and configures a coupling hole for assembling the main body, the upper side support and the lower side support in the center, and the lower side. On one side, the steel structure is provided with a fall-off protruding jaw, and on the lower side, the steel structure is formed with a push-down prevention protrusion,
The upper support is composed of an a-shape, a support jaw on one side, and a support coupling hole in the center,
The lower support consists of an a-shape, a support jaw on one side, a support coupling hole in the center,
Assembled and fixed with bolts and nuts using the smart fastening parts without any welding or drilling in the transverse support structure and the longitudinal support structure,
The main body of the smart fastening part is configured to be positioned between the lower wing of the transverse support structure and the upper wing of the longitudinal support structure,
The lower wing of the lateral support structure is configured to be fixedly assembled by the main body and the upper support,
The upper wing of the longitudinal support structure is configured to be fixedly assembled by the main body and the lower support,
By assembling the upper support and the main body and the lower support with the bolt and the nut,
A support structure for a solar module configured such that the longitudinal support structure can be assembled to the transverse support structure by using the smart fastening part without welding or drilling the transverse support structure and the longitudinal support structure. In claim 1, the upper release preventing jaw is a support structure for a solar module composed of one of a C-shaped or a-shaped or projection-shaped. In claim 1, the lower departure prevention jaw is a support structure for a solar module composed of one of a C-shaped or a-shaped or projection-shaped one. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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