CN215010117U - Supporting structure of photovoltaic support - Google Patents

Abstract

The utility model discloses a supporting structure of a photovoltaic bracket, which comprises a fixed hoop, a front inclined support and a supporting component; the support assembly includes: a support pillar; the mounting bottom plate is fixed at the bottom of the supporting column; the annular clamping groove is formed in the middle of the supporting column; the fixed hoop is arranged in the middle of the annular clamping groove; the front inclined support is connected to the left end of the fixed hoop; the rear inclined support is connected to the right end of the fixed hoop; a support cross beam connected to an upper end of the rear diagonal support; and the positioning hole is formed in the middle of the supporting cross beam. This bearing structure of photovoltaic support, it is convenient for carry out the support and the fixing of both sides to the supporting beam at top to adopt preceding bearing diagonal and back bearing diagonal, improves supporting beam's steadiness greatly, can prevent effectively that supporting beam from taking place to empty, is convenient for splice the connecting rod through setting up of cross draw-in groove moreover, and the equipment work of giving the staff brings the convenience.

Description

Supporting structure of photovoltaic support

Technical Field

The utility model relates to a photovoltaic support technical field specifically is a bearing structure of photovoltaic support.

Background

The photovoltaic is a solar photovoltaic power generation system for short, is a novel power generation system which directly converts solar radiation energy into electric energy by utilizing the photovoltaic effect of a solar cell semiconductor material and has two modes of independent operation and grid-connected operation. Meanwhile, solar photovoltaic power generation systems are classified, and one is centralized, such as a large northwest ground photovoltaic power generation system; one is distributed (with >6MW as the boundary), like industry and commerce factory building roof photovoltaic power generation system, the installation need be supported to it to the support of local-style dwelling houses roof photovoltaic power generation system when installing photovoltaic solar panel, therefore, we need a supporting structure of photovoltaic support.

Most photovoltaic supports on the market are not provided with a supporting structure, the photovoltaic supports are prone to toppling after being installed, and trouble is brought to installation and use of workers.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a supporting structure of photovoltaic support to solve the photovoltaic support on the market that proposes in the above-mentioned background art and mostly all not set up bearing structure, take place to empty very easily after the installation, use the problem of bringing trouble for staff's installation.

In order to achieve the above object, the utility model provides a following technical scheme: a support structure for a photovoltaic rack, comprising:

a support assembly;

the support assembly includes:

a support pillar;

the mounting bottom plate is fixed at the bottom of the supporting column;

the annular clamping groove is formed in the middle of the supporting column;

the fixed hoop is arranged in the middle of the annular clamping groove;

the front inclined support is connected to the left end of the fixed hoop;

the rear inclined support is connected to the right end of the fixed hoop;

a support cross beam connected to an upper end of the rear diagonal support;

and the positioning hole is formed in the middle of the supporting cross beam.

Preferably, the supporting columns are fixedly connected with the mounting bottom plate, and the supporting columns and the mounting bottom plate are vertically distributed.

Preferably, the fixed hoop is of a clamping structure formed between the annular clamping groove and the supporting column, and the annular clamping groove and the supporting column are of an integrated structure.

Preferably, the front diagonal brace is movably connected with the fixed hoop, and the front diagonal brace and the rear diagonal brace are symmetrically distributed around a vertical central axis of the fixed hoop.

Preferably, the upper end of the supporting column is provided with a connecting assembly;

the connecting assembly includes:

a connector;

the connecting hole position is arranged on the periphery of the connector;

the cross clamping groove is formed in the connector;

the connecting rod is connected to the upper end of the connector;

and the fixing plate is fixed at the top of the connecting rod.

Preferably, be integral structure between connection hole site and the connector, be the equidistance between the connection hole site and describe the distribution.

Preferably, the connecting rod forms an embedded structure through the cross clamping groove and the connector, and the cross clamping groove and the connector form an integrated structure.

Preferably, the left end and the right end of the supporting beam are provided with splicing assemblies;

the splicing assembly comprises:

a T-shaped splice plate;

the fixing hole position is arranged on the outer wall of the T-shaped splicing plate;

the splicing groove is formed in the supporting cross beam;

the positioning fixture block is fixed on the upper part of the outer end of the T-shaped splicing plate;

and the photovoltaic plate is arranged between the positioning clamping blocks.

Preferably, the T-shaped splicing plates form a clamping structure with the supporting beam through the splicing grooves, and the external sizes of the T-shaped splicing plates are matched with the internal sizes of the splicing grooves.

The utility model provides a bearing structure of photovoltaic support possesses following beneficial effect: this bearing structure of photovoltaic support, it is convenient for carry out the support and the fixing of both sides to the supporting beam at top to adopt preceding bearing diagonal and back bearing diagonal, improves supporting beam's steadiness greatly, can prevent effectively that supporting beam from taking place to empty, is convenient for splice the connecting rod through setting up of cross draw-in groove moreover, and the equipment work of giving the staff brings the convenience.

1. The utility model discloses an annular groove can fix a position the installation to fixed staple bolt, can prevent effectively that fixed staple bolt from taking place the landing, improves the steadiness after the installation greatly, and preceding bearing diagonal and the back bearing diagonal that set up through the fixed staple bolt left and right sides can stabilize the support to the supporting beam at top moreover.

2. The utility model discloses a cross draw-in groove that the connector middle part was seted up is convenient for splice the connecting rod to be convenient for fix the connector after the concatenation through connecting the hole site, improve the steadiness of connecting the connecting rod, can carry out the block through the fixed plate and fix to supporting beam, the inside draw-in groove gradient of fixed plate can be makeed according to supporting beam's gradient moreover.

3. The utility model discloses a splice groove and fixed hole site are convenient for adjust the installation between T type splice plate and the supporting beam, can accept the installation to the photovoltaic plate of different specifications size through the T type splice plate of adjusting different length, improve the practicality of device greatly, can fix a position the photovoltaic plate through the positioning fixture block moreover, prevent that the photovoltaic plate after the installation from taking place to slide, improve the stability of device.

Drawings

Fig. 1 is a schematic view of an overall structure of a support structure of a photovoltaic support according to the present invention;

fig. 2 is a schematic diagram of a connector structure of a support structure of a photovoltaic bracket according to the present invention;

fig. 3 is the utility model relates to a bearing structure's of photovoltaic support concatenation subassembly structure sketch map.

In the figure: 1. a support assembly; 101. a support pillar; 102. mounting a bottom plate; 103. an annular neck; 104. fixing the anchor ear; 105. front inclined supports; 106. rear inclined support; 107. a support beam; 108. positioning holes; 2. a connecting assembly; 201. a connector; 202. connecting hole sites; 203. a cross clamping groove; 204. a connecting rod; 205. a fixing plate; 3. splicing the components; 301. a T-shaped splice plate; 302. fixing hole positions; 303. splicing grooves; 304. positioning a fixture block; 305. photovoltaic panels.

Detailed Description

As shown in fig. 1-2, a support structure of a photovoltaic support includes: a support assembly 1; a support column 101; the mounting base plate 102 is fixed at the bottom of the supporting column 101, the supporting column 101 is fixedly connected with the mounting base plate 102, and the supporting column 101 and the mounting base plate 102 are vertically distributed; the annular clamping groove 103 is formed in the middle of the supporting column 101; the fixing hoop 104 is arranged in the middle of the annular clamping groove 103, the fixing hoop 104 forms a clamping structure with the support column 101 through the annular clamping groove 103, the annular clamping groove 103 and the support column 101 are of an integrated structure, the support column 101 is convenient to position and install in a place needing to be used through the installation bottom plate 102, the annular clamping groove 103 is arranged in the middle of the support column 101, the fixing hoop 104 can be positioned and installed through the annular clamping groove 103, the fixing hoop 104 can be effectively prevented from slipping off, and the stability after installation is greatly improved; a front diagonal brace 105 connected to the left end of the fixed hoop 104; the rear inclined strut 106 is connected to the right end of the fixed hoop 104, the front inclined strut 105 is movably connected with the fixed hoop 104, and the front inclined strut 105 and the rear inclined strut 106 are symmetrically distributed around a vertical central axis of the fixed hoop 104; a support cross member 107 connected to an upper end of the rear diagonal support 106; the positioning hole 108 is formed in the middle of the supporting cross beam 107, the supporting cross beam 107 at the top can be stably supported through the front inclined supports 105 and the rear inclined supports 106 arranged on the left side and the right side of the fixing hoop 104, convenience is brought to connection adjustment between the supporting cross beam 107 and the rear inclined supports 106 through the positioning hole 108, the inclination of the rear inclined supports 106 can be adjusted through the positioning holes 108 at different positions, and the supporting stability is greatly improved; the upper end of the support column 101 is provided with a connecting component 2; a connector 201; the connecting hole sites 202 are arranged on the periphery of the connector 201, the connecting hole sites 202 and the connector 201 are of an integrated structure, and the connecting hole sites 202 are distributed in an equidistant manner; a cross slot 203, which is opened inside the connector 201; the connecting rod 204 is connected to the upper end of the connecting head 201, the connecting rod 204 can be conveniently spliced through the cross-shaped clamping groove 203 formed in the middle of the connecting head 201, the spliced connecting head 201 can be conveniently fixed through the connecting hole 202, and the connecting stability of the connecting rod 204 is improved; the fixing plate 205 is fixed to the top of the connecting rod 204, the connecting rod 204 forms an embedded structure with the connecting head 201 through the cross clamping groove 203, the cross clamping groove 203 and the connecting head 201 are of an integrated structure, the supporting cross beam 107 can be clamped and fixed through the fixing plate 205, and the inclination of the clamping groove in the fixing plate 205 can be manufactured according to the inclination of the supporting cross beam 107.

As shown in fig. 3, the splicing assemblies 3 are arranged at the left end and the right end of the supporting beam 107; a T-shaped splice plate 301; a fixing hole position 302 which is arranged on the outer wall of the T-shaped splicing plate 301; a splice groove 303 opened inside the support beam 107; the positioning fixture block 304 is fixed on the upper part of the outer end of the T-shaped splicing plate 301, the T-shaped splicing plate 301 and the supporting beam 107 can be conveniently adjusted and installed through the splicing groove 303 and the fixing hole position 302, and photovoltaic plates 305 with different specifications and sizes can be subjected and installed through adjusting the T-shaped splicing plates 301 with different lengths, so that the practicability of the device is greatly improved; the photovoltaic plate 305 is arranged between the positioning clamping blocks 304; t type splice plate 301 passes through to constitute the block structure between splice groove 303 and the supporting beam 107, and the outside size of T type splice plate 301 is identical with the inside size of splice groove 303, can fix a position photovoltaic plate 305 through location fixture block 304, prevents that the photovoltaic plate 305 after the installation from taking place to slide, improves the stability of device.

In summary, when the supporting structure of the photovoltaic bracket is used, firstly, according to the structure shown in fig. 1 and fig. 2, the supporting column 101 is conveniently positioned and installed at a required place through the installation bottom plate 102, the annular clamping groove 103 is arranged in the middle of the supporting column 101, the fixing hoop 104 can be positioned and installed through the annular clamping groove 103, the fixing hoop 104 can be effectively prevented from sliding off, the stability after installation is greatly improved, the front inclined support 105 and the rear inclined support 106 arranged on the left side and the right side of the fixing hoop 104 can be used for stably supporting the supporting cross beam 107 on the top, the positioning hole 108 is used for conveniently adjusting the connection between the supporting cross beam 107 and the rear inclined support 106, the inclination of the rear inclined support 106 can be adjusted through the positioning holes 108 at different positions, the stability of the support is greatly improved, the connecting rod 204 can be conveniently spliced through the cross clamping groove 203 arranged in the middle of the connecting head 201, and be convenient for fix the connector 201 after the concatenation through connecting hole site 202, improve the steadiness of connecting to connecting rod 204, can carry out the block through fixed plate 205 and fix to supporting beam 107, and the inside draw-in groove gradient of fixed plate 205 can be made according to supporting beam 107's gradient, be convenient for adjust the installation between T type splice plate 301 and supporting beam 107 through splice groove 303 and fixed hole site 302, can accept the installation to the photovoltaic plate 305 of different specifications size through the T type splice plate 301 of adjusting different length, improve the practicality of device greatly, and can fix a position photovoltaic plate 305 through location fixture block 304, prevent that the photovoltaic plate 305 after the installation from taking place to slide, improve the stability of device.

Claims (9)

1. A support structure for a photovoltaic rack, comprising:

a support assembly (1);

it is characterized in that;

the support assembly (1) comprises:

a support column (101);

a mounting base plate (102) fixed to the bottom of the support column (101);

the annular clamping groove (103) is formed in the middle of the supporting column (101);

the fixing hoop (104) is arranged in the middle of the annular clamping groove (103);

a front inclined support (105) connected to the left end of the fixing hoop (104);

a rear inclined support (106) connected to the right end of the fixed hoop (104);

a support cross member (107) connected to an upper end of the rear diagonal support (106);

and the positioning hole (108) is arranged in the middle of the supporting cross beam (107).

2. The supporting structure of a photovoltaic bracket according to claim 1, wherein the supporting columns (101) are fixedly connected with the mounting base plate (102), and the supporting columns (101) are vertically distributed with the mounting base plate (102).

3. The supporting structure of the photovoltaic bracket as claimed in claim 1, wherein the fixing hoop (104) passes through a clamping structure formed between the ring-shaped clamping groove (103) and the supporting column (101), and an integrated structure is formed between the ring-shaped clamping groove (103) and the supporting column (101).

4. The supporting structure of the photovoltaic bracket as claimed in claim 1, wherein the front diagonal braces (105) are movably connected with the fixing hoop (104), and the front diagonal braces (105) and the rear diagonal braces (106) are symmetrically distributed about a vertical central axis of the fixing hoop (104).

5. Support structure for photovoltaic racks, according to claim 1, characterized in that the upper ends of the supporting columns (101) are provided with connection assemblies (2);

the connection assembly (2) comprises:

a connector (201);

the connecting hole position (202) is arranged on the periphery of the connecting head (201);

the cross clamping groove (203) is formed in the connector (201);

a connecting rod (204) connected to the upper end of the connecting head (201);

and a fixing plate (205) fixed to the top of the connecting rod (204).

6. The supporting structure of a photovoltaic bracket as claimed in claim 5, wherein the connecting holes (202) and the connecting head (201) are integrated, and the connecting holes (202) are distributed at equal intervals.

7. The supporting structure of a photovoltaic bracket as claimed in claim 5, wherein the connecting rod (204) passes through a cross slot (203) and forms an embedded structure with the connecting head (201), and the cross slot (203) and the connecting head (201) are of an integrated structure.

8. The supporting structure of a photovoltaic bracket as recited in claim 1, characterized in that the left and right ends of the supporting beam (107) are provided with splicing components (3);

the splice assembly (3) comprises:

a T-shaped splice plate (301);

the fixing hole position (302) is arranged on the outer wall of the T-shaped splicing plate (301);

a splice groove (303) opened inside the support beam (107);

the positioning fixture block (304) is fixed on the upper part of the outer end of the T-shaped splicing plate (301);

the photovoltaic plate (305) is arranged between the positioning clamping blocks (304).

9. The supporting structure of the photovoltaic bracket as recited in claim 8, wherein the T-shaped splicing plate (301) forms a clamping structure with the supporting beam (107) through the splicing groove (303), and the external size of the T-shaped splicing plate (301) is matched with the internal size of the splicing groove (303).

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