CN220173151U - Photovoltaic cell panel support - Google Patents

Abstract

A support frame for a photovoltaic cell panel. At present, a support frame of a household photovoltaic cell panel is generally positioned at the top of a house and fixedly connected with the roof through screws, and the roof structure is extremely easy to damage by the connection mode, so that great house loss is extremely easy to bring to a user. The photovoltaic cell panel's carriage, be connected through connecting stiffening rod (2) between two supports, two supports all include vertical support pole (1), horizontal support draw runner board (3) and slope carrier bar (9), sliding connection has weight box (4) between horizontal support draw runner board (3) in two supports, the top activity grafting of weight box has reinforced sealing head (5), the bottom activity grafting of weight box has the blowing sealing head, be connected with electric installation groove steel sheet (8) between the slope carrier bar in two supports, the top and the bottom of slope carrier bar all are connected with location installation channel-section steel body (10). The utility model is applied to the field of photovoltaic power generation.

Description

Photovoltaic cell panel support

Technical Field

The utility model relates to a support frame of a photovoltaic cell panel.

Background

Photovoltaic panels, also known as solar panels, are assemblies of several solar modules assembled in a certain way on a panel, usually as a unit of a photovoltaic matrix. The photovoltaic cell panel is used for converting solar light energy into electric energy and outputting direct current to be stored in the storage battery. The existing photovoltaic cell panel is generally fixed in an inclined manner through a supporting frame for fully contacting sunlight.

The existing support frame is of a tripod body structure formed by splicing channel steel, the photovoltaic cell panel is generally positioned and installed on an inclined plane of the frame body, and the existing support frame is simple in structure and convenient to use, but has the defect of limited use, and particularly has the support frame of the household photovoltaic cell panel. In the household, the support frame is generally positioned at the top of a house, and in order to improve the stability after the use, the support frame is generally fixedly connected with the roof through screws, so that the roof structure is easily damaged by the connection mode, and larger house loss is easily brought to a user; secondly, the support frame in the family expenses is fixed mode, and a support frame can only fix a position and install a photovoltaic cell board, just need to prepare a support frame again when needs install new photovoltaic cell board additional, and this kind of simple location mounting bracket body can't reduce user's use cost, can't be applicable to the changeable use mode of user, and the result of use is relatively poor.

Disclosure of Invention

The utility model aims to provide a support frame for photovoltaic cell panels, which is convenient to fix, can be used for installing a plurality of photovoltaic cell panels and has lower use cost.

The above object is achieved by the following technical scheme:

the support frame of the photovoltaic cell panel comprises two brackets, and the two brackets are connected through a connecting reinforcing rod; the horizontal support sliding chute plates in the two brackets are connected with a weight box in a sliding manner, the top of the weight box is movably inserted with a feeding sealing head, the bottom of the weight box is movably inserted with a discharging sealing head, an electric installation chute steel plate is connected between the inclined bearing rods in the two brackets, a positioning installation channel steel body is arranged between the two brackets, and two ends of the positioning installation channel steel body are respectively inserted with a telescopic installation channel steel body in a sliding manner.

The two supports are of triangular structures and comprise vertical support rods, horizontal support sliding groove plates and inclined bearing rods, wherein the vertical support rods, the horizontal support sliding groove plates and the inclined bearing rods are sequentially connected to form the triangular structures.

The photovoltaic cell panel support frame is characterized in that the end part of the positioning and mounting channel steel body is connected with the telescopic mounting channel steel body through fixing wires. The top side of the end part of the positioning and mounting channel steel body is provided with a first connecting hole, the top side of the telescopic mounting channel steel body is provided with a plurality of groups of second connecting holes which are uniformly distributed, and the fixing wire penetrates through the first connecting hole and is connected with a group of second connecting holes on the top side of the telescopic mounting channel steel body.

The photovoltaic cell panel support frame, the lateral part of electric installation groove steel sheet has seted up multiunit evenly distributed's louvre. A plurality of groups of first positioning installation grooves which are uniformly distributed are formed in the bottom of the inner side of the positioning installation channel steel body. The bottom of the inner side of the telescopic installation channel steel body is provided with a plurality of groups of second positioning installation grooves which are uniformly distributed. The outer side end of the telescopic installation channel steel body is connected with an external pulling handle. The weight box is made of hard plastic materials, and the feeding sealing head and the discharging sealing head are made of rubber materials.

When the photovoltaic cell panel is installed, the storage battery control device is installed at the rear side of the electric installation groove steel plate, and the fixing piece of the photovoltaic cell panel is connected with the first positioning installation groove in the positioning installation groove body or the second positioning installation groove in the telescopic installation groove body.

The utility model has the beneficial effects that:

1. when the utility model is specifically operated, the weight box is connected between the horizontal support sliding groove plates in the two brackets in a sliding way, and when the utility model is used, the feeding sealing head is opened, and a counterweight is placed in the weight box, so that the fixing of the support frame is realized, the operation is more convenient, the connection with a roof through screws is not needed, the phenomenon of damaging the roof is effectively avoided, and the phenomenon of house loss is effectively prevented.

2. The positioning installation channel steel body is arranged between the two brackets, the two ends of the positioning installation channel steel body are respectively connected with the telescopic installation channel steel body in a sliding manner, when a plurality of photovoltaic cell panels are required to be installed, the telescopic installation channel steel body is pulled out, and the photovoltaic cell panels are installed on the positioning installation channel steel body and the telescopic installation channel steel body, so that the installation of the plurality of photovoltaic cell panels is realized, the use cost is low, the device is applicable to various use modes of users, and the use effect is good.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

fig. 2 is a schematic structural view of the weight box 4;

FIG. 3 is a state diagram of the present utility model;

the device comprises a vertical supporting rod 1, a connecting reinforcing rod 2, a horizontal supporting chute plate 3, a weight box 4, a feeding sealing head 5, a discharging sealing head 6, a heat dissipation hole 7, an electric installation chute steel plate 8, an inclined bearing rod 9, a positioning installation channel steel body 10, a first positioning installation chute 11, a first connecting hole 12, a fixing wire 13, a telescopic installation channel steel body 14, a second connecting hole 15, a second positioning installation chute 16 and an external handle 17.

Detailed Description

Examples

Referring to fig. 1, 2 and 3, the support frame of the photovoltaic cell panel according to the present utility model comprises two supports, wherein the two supports are connected through a connection reinforcing rod 2, the two supports are in a triangle structure, the two supports comprise a vertical support rod 1, a horizontal support sliding groove plate 3 and an inclined bearing rod 9, the vertical support rod 1, the horizontal support sliding groove plate 3 and the inclined bearing rod 9 are sequentially connected to form a triangle structure, a weight box 4 is slidably connected between the horizontal support sliding groove plates 3 in the two supports, a charging sealing head 5 is movably inserted at the top of the weight box 4, a discharging sealing head 6 is movably inserted at the bottom of the weight box 4, an electric installation groove steel plate 8 is connected between the inclined bearing rods 9 in the two supports, positioning installation channel steel bodies 10 are connected at the top and bottom of the inclined bearing rods 9, telescopic installation channel steel bodies 14 are slidably inserted at the two ends of the positioning installation channel steel bodies 10, and the ends of the positioning installation channel steel bodies 10 are connected with the telescopic installation channel steel bodies 14 through fixing wires 13.

The working principle of the utility model is as follows:

when the support frame is positioned, the feeding sealing head 5 at the top of the weight box 4 is opened, and water or fine sand weight is added into the weight box 4, so that the weight box 4 with increased weight can stably position the support frame; when the support frame is moved, the weight box 4 is firstly pulled out from between the two groups of horizontal support chute plates 3, and then the whole support frame is carried; when the weight is replaced, the discharging sealing head 6 at the bottom of the weight box 4 is opened, the discharging work of the weight can be completed, and then the weight is added into the weight box 4 again through the feeding sealing head 5.

When a group of photovoltaic cell panels are positioned and installed, the telescopic installation channel steel body 14 is completely inserted into the positioning installation channel steel body 10 and fixedly connected with the positioning installation channel steel body 10 through the fixing wires 13, the fixing piece of the photovoltaic cell panels is connected with the first positioning installation groove 11 in the positioning installation channel steel body 10, the storage battery control device is installed on the rear side of the electric installation groove steel plate 8, and the storage battery control device is connected with the photovoltaic cell panels after being installed.

When the photovoltaic cell panels are positioned and installed, the distance that the telescopic installation channel steel body 14 is inserted into the positioning installation channel steel body 10 is adjusted according to the total length of the photovoltaic cell panels, and the distance is adjusted, and then the telescopic installation channel steel body 14 is fixedly connected with the positioning installation channel steel body 10 through the fixing wire 13, so that the fixing piece of the photovoltaic cell panels is connected with the first positioning installation groove 11 in the positioning installation channel steel body 10 or the second positioning installation groove 16 in the telescopic installation channel steel body 14, the storage battery control device is installed on the rear side of the electric installation groove steel plate 8, and the storage battery control device is connected with the photovoltaic cell panels after being installed.

Specifically, the vertical support rod 1, the connecting reinforcing rod 2, the horizontal support runner plate 3, the electric installation groove steel plate 8, the inclined bearing rod 9, the positioning installation channel steel body 10 and the telescopic installation channel steel body 14 are all made of stainless steel materials. The stainless steel material has better hardness, and simultaneously has better wear resistance and corrosion resistance, and the vertical support rod 1, the connecting reinforcing rod 2, the horizontal support sliding groove plate 3, the electric installation groove steel plate 8, the inclined bearing rod 9, the positioning installation channel steel body 10 and the telescopic installation channel steel body 14 which are made of the stainless steel material have long service lives.

Be connected with multiunit connection reinforcing rod 2 between two sets of vertical support pole 1, can effectively improve the compactness after two sets of vertical support pole 1 connect, can effectively prevent that two sets of vertical support pole 1 from appearing the separation phenomenon.

The top of the weight box 4 is connected with a plurality of groups of charging sealing heads 5, and the bottom of the weight box 4 is connected with a plurality of groups of discharging sealing heads 6. The multiple sets of charging sealing heads 5 can facilitate the user to add weights into the weight box 4, and the multiple sets of discharging sealing heads 6 can facilitate the user to discharge weights in the weight box 4.

The weight box 4 is made of hard plastic materials, and the feeding sealing head 5 and the discharging sealing head 6 are made of rubber materials. The hard plastic material has lighter weight, better wear resistance and corrosion resistance, and the weight box 4 made of the hard plastic material has long service life; the rubber material has better elasticity, better wear resistance and corrosion resistance, and the charging sealing head 5 and the discharging sealing head 6 which are made of the rubber material have long service lives.

The lateral part of electric installation groove steel sheet 8 has seted up multiunit evenly distributed's louvre 7, and the louvre 7 can effectively improve electric installation groove steel sheet 8's heat dispersion, can effectively improve electric installation groove steel sheet 8 interior installation electrical apparatus's life.

Further, the first positioning installation groove 11 of multiunit evenly distributed has been seted up to the inboard bottom of the location installation channel-section steel body 10, and the second positioning installation groove 16 of multiunit evenly distributed has been seted up to the inboard bottom of the flexible installation channel-section steel body 14, and the first positioning installation groove 11 can be convenient for the location installation channel-section steel body 10 location installation photovoltaic cell board, and the second positioning installation groove 16 can be convenient for the flexible installation channel-section steel body 14 location installation photovoltaic cell board.

The first connecting hole 12 has been seted up to the top side of the tip of the location installation channel-section steel body 10, the multiunit evenly distributed's second connecting hole 15 has been seted up to the top side of the flexible installation channel-section steel body 14, the location installation channel-section steel body 10 runs through first connecting hole 12 and the second connecting hole 15 of a set of top side of the flexible installation channel-section steel body 14 through fixed wire 13 is connected, be convenient for adjust the total length after the location installation channel-section steel body 10 is connected with the flexible installation channel-section steel body 14, the user of being convenient for installs multiunit photovoltaic cell board at the top of support frame.

The outside end of the telescopic installation channel steel body 14 is connected with the external handle 17, and the external handle 17 can be convenient for a user to draw out and stretch the telescopic installation channel steel body 14, effectively improves the availability factor of the telescopic installation channel steel body 14.

Claims (4)

1. The support frame of the photovoltaic cell panel is characterized by comprising two supports, wherein the two supports are connected through a connecting reinforcing rod, a weight box is connected between horizontal supporting sliding groove plates in the two supports in a sliding manner, a charging sealing head is movably inserted at the top of the weight box, a discharging sealing head is movably inserted at the bottom of the weight box, an electric installation groove steel plate with a side part provided with a heat radiation hole is connected between inclined bearing rods in the two supports, a positioning installation channel steel body is arranged between the two supports, two ends of the positioning installation channel steel body are respectively connected with a telescopic installation channel steel body in a sliding manner, and the outer side end of the telescopic installation channel steel body is connected with an external pulling handle;

the two brackets comprise vertical support rods, horizontal support chute plates and inclined bearing rods, and the vertical support rods, the horizontal support chute plates and the inclined bearing rods are sequentially connected to form a triangular structure.

2. The photovoltaic cell panel support of claim 1, wherein the top side of the end of the positioning and mounting channel steel body is provided with a first connecting hole, the top side of the telescopic mounting channel steel body is provided with a group of second connecting holes, and the fixing wire penetrates through the first connecting holes and is connected with the group of second connecting holes on the top side of the telescopic mounting channel steel body.

3. The photovoltaic panel support of claim 1, wherein a plurality of groups of first positioning installation grooves which are uniformly distributed are formed in the bottom of the inner side of the positioning installation channel steel body.

4. The photovoltaic panel support of claim 2, wherein a plurality of groups of second positioning and mounting grooves which are uniformly distributed are formed in the bottom of the inner side of the telescopic mounting channel steel.