CN219697581U - Photovoltaic module fixing device and photovoltaic power generation equipment - Google Patents

Abstract

The utility model discloses a photovoltaic module fixing device which comprises a beam, a frame and a clamp, wherein the beam is fixedly arranged above a photovoltaic support main beam, the beam and the photovoltaic support main beam are arranged in a crossed mode, the frame is fixedly arranged at the edge of a photovoltaic plate, the extending direction of the beam is parallel to the extending direction of the frame, the frame is arranged above the beam, the lower end of the frame is provided with a pressing plate, the pressing plate is tightly attached to the side edge of the upper end face of the beam, the upper end of the clamp is tightly pressed against the pressing plate, and the lower end of the clamp is tightly pressed against the same side edge of the lower end face of the beam. Constructor can press from both sides crossbeam and frame clamp fastening at the subassembly below, forms stable structure, and this fixed mode can be fixed at the photovoltaic plate back and carry out the subassembly, has saved the risk of operation of ascending a height, promotes the security, only needs to simplify connection structure with the frame and the crossbeam joint of photovoltaic plate, and the installation rate is fast, has improved the efficiency of construction. The utility model also discloses photovoltaic power generation equipment comprising the photovoltaic module fixing device.

Description

Photovoltaic module fixing device and photovoltaic power generation equipment

Technical Field

The utility model relates to the field of photovoltaic equipment, in particular to a photovoltaic module fixing device. In addition, the utility model also relates to photovoltaic power generation equipment comprising the photovoltaic module fixing device.

Background

The photovoltaic module is used as new energy equipment, and is widely applied to various fields, the traditional photovoltaic module is fixed by adopting a fixing mode of pressing blocks and bolts, the pressing blocks are arranged above the edges of the photovoltaic plates, the photovoltaic plates are paved and installed at the top of a house through the bolts connected with the pressing blocks and the main beams, construction staff is required to construct above the module in the fixing mode, so that the safety risk is increased, the bolt fixing construction process is complex, and the construction time and the construction cost are increased intangibly. In addition, photovoltaic threading needs to install extra fastener in order to fix photovoltaic cable, has increased construction cost and material cost to a certain extent.

Therefore, how to provide a photovoltaic module fixing device with convenient installation and simplified process is a technical problem that needs to be solved currently by those skilled in the art.

Disclosure of Invention

The utility model aims to provide a photovoltaic module fixing device, wherein a beam is fixedly arranged on a photovoltaic support main beam, a frame is connected with a photovoltaic plate, the beam and the frame are pressed by a clamp, the installation can be completed below the module, a stable structure is formed, and the risk of climbing operation is saved. Another object of the present utility model is to provide a photovoltaic power generation apparatus including the above photovoltaic module fixing device.

In order to solve the technical problems, the utility model provides a photovoltaic module fixing device which comprises a cross beam, a frame and a clamp, wherein the cross beam is fixedly arranged above a photovoltaic support main beam, the cross beam and the photovoltaic support main beam are arranged in a crossing manner, the frame is fixedly arranged at the edge of a photovoltaic panel, the extending direction of the cross beam is parallel to the extending direction of the frame, the frame is arranged above the cross beam, a pressing plate is arranged at the lower end of the frame, the pressing plate is tightly attached to the side edge of the upper end face of the cross beam, the upper end of the clamp is tightly pressed against the pressing plate, and the lower end of the clamp is tightly pressed against the same side edge of the lower end face of the cross beam.

Preferably, the lower end of the cross beam is provided with a mounting groove with a downward opening, an inward limiting boss is arranged at the opening of the mounting groove, the upper end of the mounting bolt is embedded into the mounting groove and compresses the limiting boss, and the lower end of the mounting bolt penetrates through the photovoltaic bracket main beam and is compressed by a connecting nut.

Preferably, two frames which are oppositely arranged are arranged above each beam, the inner side surfaces of the two frames are contacted, the pressing plates are respectively arranged on the outer side surfaces of the two frames, the pressing plates are respectively attached to the edges of two sides of the upper end surface of each beam, the upper ends of the outer sides of the frames are provided with connecting grooves for connecting the edges of the photovoltaic plates, and the clamps which are arranged in pairs are symmetrically arranged on the two sides of each beam.

Preferably, the upper end face of the beam is provided with two limit protrusions arranged in parallel, the lower end face of each frame is provided with a limit groove, and the limit protrusions are inserted into the corresponding limit grooves.

Preferably, the plurality of longitudinally extending photovoltaic support girders are parallel to each other and are sequentially arranged along the transverse direction, the plurality of transversely extending cross beams are parallel to each other and are sequentially arranged along the longitudinal direction, the cross beams are perpendicular to the photovoltaic support girders, and each cross beam is sequentially connected with the plurality of photovoltaic support girders.

Preferably, the cross beam is a hollow profile structure.

Preferably, the fixture comprises a bottom plate, an upper clamping arm and a lower clamping arm, wherein the upper clamping arm and the lower clamping arm are arranged at the upper end and the lower end of the bottom plate, the inner side surface of the bottom plate is tightly attached to the side surface of the cross beam, a reinforcing plate with a raised middle part is arranged on the outer side surface of the bottom plate, and a reinforcing cavity is arranged between the reinforcing plate and the bottom plate.

Preferably, the tail end of the upper clamping arm is provided with an upper elastic hook, the upper elastic hook is tightly pressed on the pressing plate, the tail end of the lower clamping arm is provided with a lower elastic hook, and the lower elastic hook is tightly pressed on the inner side surface of the limiting boss.

Preferably, a cable fixing groove with an outer opening is formed in the middle bulge of the reinforcing plate.

The utility model provides photovoltaic power generation equipment, which comprises a photovoltaic support girder and a photovoltaic module fixing device arranged on the photovoltaic support girder, wherein the photovoltaic module fixing device is specifically any one of the photovoltaic module fixing devices.

The utility model provides a photovoltaic module fixing device which comprises a beam, a frame and a clamp, wherein the beam is fixedly arranged above a photovoltaic support main beam, the beam and the photovoltaic support main beam are arranged in a crossed mode, the frame is fixedly arranged at the edge of a photovoltaic plate, the extending direction of the beam is parallel to the extending direction of the frame, the frame is arranged above the beam, the lower end of the frame is provided with a pressing plate, the pressing plate is tightly attached to the side edge of the upper end face of the beam, the upper end of the clamp is tightly pressed against the pressing plate, and the lower end of the clamp is tightly pressed against the same side edge of the lower end face of the beam.

In the installation, with crossbeam fixed mounting in photovoltaic support girder top, the frame is fixed at photovoltaic plate edge, place the frame of connecting the photovoltaic plate on the crossbeam, then compress tightly crossbeam and frame through anchor clamps, constructor work can press from both sides tight fixedly with crossbeam and frame in the subassembly below, form stable structure, this fixed mode can be fixed at the photovoltaic plate back subassembly, saved the risk of operation of ascending a height, promote the security, only need with the frame and the crossbeam joint of photovoltaic plate, simplify connection structure, the installation rate is fast, construction efficiency has been improved.

The utility model also provides a photovoltaic power generation device comprising the photovoltaic module fixing device, and the photovoltaic power generation device has the same technical effects as the photovoltaic module fixing device.

Drawings

Fig. 1 is a schematic structural diagram of a specific embodiment of a photovoltaic module fixing device provided by the utility model;

fig. 2 is a schematic structural diagram of a cross beam in a specific embodiment of the fixing device for a photovoltaic module according to the present utility model;

fig. 3 is a schematic structural view of a frame in an embodiment of the photovoltaic module fixing device provided by the present utility model;

fig. 4 is a schematic structural diagram of a fixture in an embodiment of the photovoltaic module fixing device provided by the utility model;

fig. 5 is a schematic view of an installation flow of an embodiment of the photovoltaic module fixing device provided by the utility model.

The photovoltaic bracket comprises a beam 1, a mounting groove 11, a limiting boss 12, a limiting protrusion 13, a frame 2, a pressing plate 21, a connecting groove 22, a limiting groove 23, a clamp 3, a bottom plate 31, an upper clamping arm 32, a lower clamping arm 33, a reinforcing plate 34, an upper elastic hook 35, a lower elastic hook 36, a cable fixing groove 37, a photovoltaic panel 4, a photovoltaic bracket main beam 5 and a mounting bolt 6.

Detailed Description

The utility model provides a photovoltaic module fixing device, wherein a beam is fixedly arranged on a photovoltaic support main beam, a frame is connected with a photovoltaic plate, the beam and the frame are pressed by a clamp, the photovoltaic module fixing device can be installed below a module, a stable structure is formed, and the risk of climbing operation is saved. Another core of the present utility model is to provide a photovoltaic power generation apparatus including the above-described photovoltaic module fixing device.

In order to better understand the aspects of the present utility model, the present utility model will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a photovoltaic module fixing device provided by the present utility model.

The utility model provides a photovoltaic module fixing device which comprises a beam 1, a frame 2 and a clamp 3, wherein the beam 1 is fixedly arranged above a photovoltaic support main beam 5, the beam 1 and the photovoltaic support main beam 5 are in crossed arrangement, the cross point of the beam 1 and the photovoltaic support main beam 5 is fixedly connected through a mounting piece, the frame 2 is fixedly arranged at the edge of a photovoltaic plate 4, the extending direction of the beam 1 is parallel to the extending direction of the frame 2, the frame 2 is arranged above the beam 1, further, the lower end of the frame 2 is provided with a pressing plate 21, the pressing plate 21 is tightly attached to the upper end face of the beam 1 and is close to one side edge of the upper end face, the upper end of the clamp 3 is tightly pressed against the pressing plate 21, and the lower end of the clamp 3 is tightly pressed against the same side edge of the lower end face of the beam 1.

In the installation, with crossbeam 1 fixed mounting in photovoltaic support girder 5 top, frame 2 is fixed at photovoltaic plate 4 edge, place the frame 2 of connecting photovoltaic plate 4 on crossbeam 1, then compress tightly crossbeam 1 and frame 2 through anchor clamps 3, constructor can press from both sides tightly fixedly with crossbeam 1 and frame 2 in the work of subassembly below, form stable structure, this fixed mode can carry out the subassembly at photovoltaic plate 4 back and fix, saved the risk of operation of ascending a height, promote the security, only need with frame 2 and crossbeam 1 joint of photovoltaic plate 4, simplify connection structure, the installation rate is fast, and efficiency of construction is improved.

Referring to fig. 2 and fig. 3, fig. 2 is a schematic structural diagram of a cross beam in an embodiment of the fixing device for a photovoltaic module according to the present utility model; fig. 3 is a schematic structural view of a frame in an embodiment of the photovoltaic module fixing device provided by the utility model.

In order to realize stable installation of the cross beam 1, the lower end of the cross beam 1 is provided with an installation groove 11 with a downward opening, the extending direction of the installation groove 11 is parallel to the extending direction of the cross beam 1, namely, the lower end face of the cross beam 1 is provided with a transverse groove along the extending direction of the cross beam, meanwhile, the opening of the installation groove 11 is provided with an inward limiting boss 12, namely, the lower ends of two inner walls of the installation groove 11 are provided with limiting bosses 12, the section of the installation groove 11 is in a T shape, a nut at the upper end of the installation bolt 6 is embedded into the installation groove 11, meanwhile, the lower end face of the nut compresses the limiting boss 12, meanwhile, a through hole is arranged at the corresponding position of the photovoltaic bracket girder 5, during installation, the nut of the installation bolt 6 is pushed into the installation groove 11 from the opening at the end of the installation groove 11, the nut is embedded into the installation groove 11, the lower end opening of the installation groove 11 of the installation bolt 6 extends out, the installation bolt 6 is transversely moved, the position of the installation bolt 6 is adjusted, the lower end of the installation bolt 6 is aligned with the through hole on the photovoltaic bracket girder 5, the cross beam 1 is put down, the lower end of the installation bolt 6 penetrates through the corresponding through the through hole, and then the nut is connected and compressed, and the photovoltaic bracket girder 1 is fixedly installed on the photovoltaic bracket 5. Of course, other connection methods, such as rivet connection, etc., are also possible and within the scope of the present utility model.

In the photovoltaic module fixing device provided by the embodiment of the utility model, two opposite side frames 2 are arranged above each beam 1, opposite inner side surfaces of the two side frames 2 are contacted, the pressing plates 21 are arranged on outer side surfaces of the side frames 2, which are opposite, namely, the two side frames 2 are symmetrically arranged, so that the two pressing plates 21 are respectively arranged on the outer side surfaces of the two side frames 2 to form an inverted T-shaped structure, the inner ends of the pressing plates 21 are connected with the lower ends of the side frames 2, the outer ends of the pressing plates 21 extend outwards, the two pressing plates 21 are respectively abutted against two side edges of the upper end surface of the beam 1, the paired clamps 3 are symmetrically arranged on two sides of the beam 1, and the two clamps 3 respectively clamp the two side frames 2 on the beam 1. Further, in order to stably connect the frame 2 to the photovoltaic panel 4, a connection groove 22 for connecting the edge of the photovoltaic panel 4 is provided at the upper end of the outer side of the frame 2.

Preferably, the upper end surface of the cross beam 1 is provided with two limit protrusions 13 arranged in parallel, the lower end surface of each frame 2 is provided with a limit groove 23, and when the two frames 2 are placed above the cross beam 1, the two limit protrusions 13 are respectively inserted into the limit grooves 23 of the two side frames 2 in parallel. Realize vertical spacing, prevent that photovoltaic panel 4 from producing to rock after the installation is accomplished, promote equipment reliability.

In order to complete the arrangement of the plurality of photovoltaic panel 4 and adapt to different working areas, a plurality of photovoltaic support girders 5 and a plurality of cross beams 1 are arranged, wherein the extending direction of the cross beams 1 is transverse, the direction perpendicular to the extending direction of the cross beams 1 is longitudinal, specifically, the plurality of photovoltaic support girders 5 extending longitudinally are mutually parallel and are sequentially arranged along the transverse direction, the plurality of cross beams 1 extending transversely are mutually parallel and are sequentially arranged along the longitudinal direction, the cross beams 1 are perpendicular to the photovoltaic support girders 5, and each cross beam 1 is sequentially connected with the plurality of photovoltaic support girders 5. Each photovoltaic support girder 5 is located the coplanar, and each crossbeam 1 is located another plane of photovoltaic support girder 5 top, and a plurality of crossbeams 1 and a plurality of photovoltaic support girders 5 splice and form grid structure, and frame 2 is all installed to the both sides edge of photovoltaic plate 4, makes photovoltaic plate 4 install between two adjacent crossbeams 1, and a plurality of photovoltaic plate 4 are installed in proper order, form array structure. Simultaneously, anchor clamps 3 are installed between two adjacent photovoltaic support girders 5, can not take place to interfere between anchor clamps 3 and the photovoltaic support girders 5 promptly, and further, according to the length of crossbeam 1, can set up a plurality of anchor clamps 3 between two adjacent photovoltaic support girders 5, evenly arrange in proper order along horizontal 1, and is fixed through multiple spot to frame 2. The number and arrangement modes of the components can be adjusted according to the situation, or the included angle between the photovoltaic bracket main beam 5 and the cross beam 1 can be adjusted, and the utility model is within the protection scope.

The cross beam 1 and the frame 2 are hollow section bar structures, the interior is hollow, the weight is reduced, the strength is improved, and materials with other structures, such as channel steel structures or I-steel, can be adopted.

Referring to fig. 4, fig. 4 is a schematic structural diagram of a fixture in an embodiment of the photovoltaic module fixing device provided by the present utility model.

On the basis of the photovoltaic module fixing device provided in the above embodiments, the clamp 3 includes a bottom plate 31, an upper clamping arm 32 and a lower clamping arm 33 disposed at the upper end and the lower end of the bottom plate 31, the inner side surface of the bottom plate 31 is tightly attached to the side surface of the beam 1, the upper clamping arm 32 tightly presses the pressing plate 21, and the lower clamping arm 33 tightly presses the lower end surface of the limiting boss 12. Meanwhile, the outer side surface of the bottom plate 31 is provided with a reinforcing plate 34 with a raised middle part, a reinforcing cavity is arranged between the reinforcing plate 34 and the bottom plate 31, the bottom plate 31 and the reinforcing plate 34 form a triangular frame structure, the integral strength of the device is improved, and the elastic deformation resistance of the clamp 3 is improved, so that the clamp 3 is connected more safely and reliably.

Further, an upper elastic hook 35 is arranged at the tail end of the upper clamping arm 32, the upper elastic hook 35 presses the upper surface of the pressing plate 21, a lower elastic hook 36 is arranged at the tail end of the lower clamping arm 33, and the lower elastic hook 36 presses and hooks the inner side surface of the limiting boss 12, so that the clamp 3 is prevented from falling off. Preferably, a clamping groove is also provided on the pressing plate 21, so that the upper elastic hook 35 can be inserted into the clamping groove.

In the photovoltaic module fixing device provided by the embodiment of the utility model, the cable fixing groove 37 with an outer opening is arranged at the convex part of the middle part of the reinforcing plate 34. Specifically, the cable fixing groove 37 is a circular groove, the width of the opening is smaller than the diameter of the circular groove, and the photovoltaic cable enters the cable fixing groove 37 from the opening during installation, and the cable is prevented from being separated due to size limitation. The assembly photovoltaic cable is fixed on the clamp 3, so that the material cost and the labor cost for additionally arranging the cable fixing clamp are saved.

Referring to fig. 5, fig. 5 is a schematic view illustrating an installation flow of an embodiment of the photovoltaic module fixing device provided by the present utility model.

The specific installation process is as follows:

during installation, a nut of the installation bolt 6 is pushed into the installation groove 11 from an opening at the end part of the installation groove 11, the nut is embedded into the installation groove 11, a lower end opening of the installation groove 11 is arranged on a screw rod part of the installation bolt 6 to extend out, the installation bolt 6 is transversely moved, the position of the installation bolt 6 is adjusted, the lower end of the installation bolt 6 is aligned with a through hole on the photovoltaic bracket main beam 5, the cross beam 1 is put down, after the lower end of the installation bolt 6 passes through the corresponding through hole, the nut is connected and pressed, and then the cross beam 1 is fixedly installed on the photovoltaic bracket main beam 5. A plurality of cross beams 1 are sequentially installed to form a grid structure. The frame 2 is fixed at the edge of the photovoltaic panel 4, then the frame 2 connected with the photovoltaic panel 4 is placed on the cross beam 1, the limit groove 22 of the frame 2 is sleeved on the limit protrusion 13, the frames 2 at two sides of the same photovoltaic panel 4 are respectively placed on the two adjacent cross beams 1, and the frames 2 of the two adjacent photovoltaic panels 4, which are close to each other, are placed on the same cross beam 1. The constructor can directly install the clamp 3 on two sides of the cross beam 1 at the lower part, specifically, the upper elastic hook 35 of one clamp 3 is placed on the pressing plate 21, then the lower end of the clamp 3 is pushed inwards to enable the lower elastic hook 36 to generate certain elastic deformation, after the lower elastic hook passes through the limiting boss 12, the lower elastic hook 36 compresses the limiting boss 12 to enable the frame 2 on one side to be fixed with the cross beam 1, then the clamp 3 on the other side is installed in the same mode, and the installation of a plurality of clamps 3 is completed sequentially.

In addition to the above-mentioned photovoltaic module fixing device, the specific embodiment of the present utility model further provides a photovoltaic power generation device including the above-mentioned photovoltaic module fixing device, and the structure of other parts of the photovoltaic power generation device is referred to the prior art, and will not be described herein.

The photovoltaic module fixing device and the photovoltaic power generation equipment provided by the utility model are described in detail. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. The utility model provides a photovoltaic module fixing device, its characterized in that, including crossbeam (1), frame (2) and anchor clamps (3), crossbeam (1) fixed mounting in photovoltaic support girder (5) top, just crossbeam (1) with photovoltaic support girder (5) cross arrangement, frame (2) fixed mounting in light Fu Banjian (4) edge, the extending direction of crossbeam (1) is on a parallel with the extending direction of frame (2), frame (2) install in crossbeam (1) top, frame (2) lower extreme is provided with clamp plate (21), clamp plate (21) are tightly pasted crossbeam (1) up end side edge, clamp plate (21) are compressed tightly to the upper end of anchor clamps (3), clamp plate (3) lower extreme compresses tightly terminal surface homolateral edge under crossbeam (1).

2. The photovoltaic module fixing device according to claim 1, wherein a mounting groove (11) with a downward opening is formed in the lower end of the cross beam (1), an inward limiting boss (12) is arranged at the opening of the mounting groove (11), the upper end of the mounting bolt (6) is embedded into the mounting groove (11) and compresses the limiting boss (12), and the lower end of the mounting bolt (6) penetrates through the photovoltaic support main beam (5) and is compressed by a connecting nut.

3. The photovoltaic module fixing device according to claim 2, wherein two frames (2) are installed above each beam (1) and are oppositely arranged, the inner side surfaces of the two frames (2) are contacted, two pressing plates (21) are respectively arranged on the outer side surfaces of the two frames (2), the two pressing plates (21) are respectively attached to two side edges of the upper end face of each beam (1), connecting grooves (22) for connecting the edges of the light Fu Banjian (4) are formed in the upper end of the outer side of each frame (2), and the clamps (3) arranged in pairs are symmetrically installed on two sides of each beam (1).

4. A photovoltaic module fixing device according to claim 3, wherein two limit protrusions (13) are arranged on the upper end face of the cross beam (1) in parallel, a limit groove (23) is arranged on the lower end face of each frame (2), and the limit protrusions (13) are inserted into the corresponding limit grooves (23).

5. The photovoltaic module fixing device according to claim 4, wherein a plurality of the photovoltaic support girders (5) extending longitudinally are parallel to each other and are arranged in sequence in the lateral direction, a plurality of the cross girders (1) extending transversely are parallel to each other and are arranged in sequence in the longitudinal direction, the cross girders (1) are perpendicular to the photovoltaic support girders (5), and each of the cross girders (1) is connected in sequence to a plurality of the photovoltaic support girders (5).

6. The photovoltaic module fixing device according to claim 5, characterized in that the cross beam (1) is a hollow profile structure.

7. The photovoltaic module fixing device according to any one of claims 2 to 6, wherein the clamp (3) comprises a bottom plate (31), an upper clamping arm (32) and a lower clamping arm (33) arranged at the upper end and the lower end of the bottom plate (31), the inner side surface of the bottom plate (31) is tightly attached to the side surface of the cross beam (1), a reinforcing plate (34) with a raised middle part is arranged on the outer side surface of the bottom plate (31), and a reinforcing cavity is arranged between the reinforcing plate (34) and the bottom plate (31).

8. The photovoltaic module fixing device according to claim 7, wherein an upper elastic hook (35) is arranged at the tail end of the upper clamping arm (32), the upper elastic hook (35) presses on the pressing plate (21), a lower elastic hook (36) is arranged at the tail end of the lower clamping arm (33), and the lower elastic hook (36) presses on the inner side surface of the limiting boss (12).

9. The photovoltaic module fixing device according to claim 8, characterized in that the middle protrusion of the reinforcement plate (34) is provided with an outside open cable fixing groove (37).

10. Photovoltaic power generation equipment, including photovoltaic support girder (5) and install in photovoltaic module fixing device of photovoltaic support girder (5), its characterized in that, photovoltaic module fixing device specifically is the photovoltaic module fixing device of any one of claims 1 to 9.