CN216056899U - But automatically regulated's installing support for solar power system - Google Patents

Abstract

The utility model provides an automatically adjustable mounting bracket for solar power generation equipment, which comprises a supporting member and an adjusting member arranged on the supporting member; the supporting component comprises a supporting column group, a main beam component and a plurality of mounting supports, wherein the main beam component can be mounted on the supporting column group; the photovoltaic panel mounting bracket is practical and reasonable in overall structure, the transmission principle of the worm gear is applied to the photovoltaic mounting bracket, so that the mounting bracket can realize flat single-axis tracking, the photovoltaic panel can meet direct solar radiation to the maximum extent, and the power generation capacity is improved; the utility model has the advantages of low cost and easy installation, and is suitable for mass popularization.

Description

But automatically regulated's installing support for solar power system

Technical Field

The utility model relates to the technical field of photovoltaic equipment, in particular to an automatically-adjustable mounting bracket for solar power generation equipment.

Background

The photovoltaic support is an important component of the photovoltaic power station and bears a power generation main body of the photovoltaic power station. The selection of the support directly influences the operation safety, the breakage rate and the construction investment of the photovoltaic module, and the selection of the appropriate photovoltaic support can not only reduce the engineering cost, but also reduce the later maintenance cost.

The flat single-axis tracking system is mostly applied to low latitude areas, and the assembled photovoltaic array can track the sun along with the east-west direction, so that larger generating capacity is obtained. However, most of the flat single-axis tracking systems in the prior art adopt a horizontal axis to adjust the direction of the photovoltaic panel, and the adopted support has low reliability and is difficult to be vigorously constructed in a wide range.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides an automatically adjustable mounting bracket for a solar power generation device.

The technical scheme of the utility model is as follows: an automatically adjustable mounting bracket for a solar power generation device, comprising a support member and an adjustment member provided on the support member; the supporting component comprises a supporting column group, a main beam component and a plurality of mounting supports, wherein the main beam component can be mounted on the supporting column group; the supporting column group comprises 2-4 supporting column pieces;

the main beam piece comprises a beam body, a plurality of groups of bearing seats, a plurality of limiting blocks and a plurality of mounting shafts, wherein the beam body is internally provided with a placing groove and is mounted at the top end of the column piece; the mounting shaft comprises a roll shaft member penetrating through the beam body and mounted on a bearing seat through a limiting block, a gear mounted at the inner side end of the roll shaft member and positioned inside the beam body, and a mounting block mounted at the outer side end of the roll shaft member and positioned outside the beam body and used for mounting the mounting support member; the mounting support is used for mounting a photovoltaic panel;

the adjusting component comprises an adjusting piece and a controller connected with the adjusting piece; the adjusting piece comprises a motor arranged on one side of the beam body and a worm which is connected with the output end of the motor and can be meshed with the gear.

Further, the strut member includes a first base and a first support column mounted on the first base; in practical use, the structure is more suitable for being fixedly installed on the ground, wherein the first base can be a concrete base.

Further, the pillar member includes a second base, a second supporting pillar mounted on the second base, and a first reinforcing rod for reinforcing the second supporting pillar; the second base comprises a base body and two elongated plates which are respectively arranged on two sides of the base body and used for increasing the bottom contact area; two groups of first reinforcing rods are arranged, one ends of the two groups of first reinforcing rods are respectively arranged on the two lengthening plates, and the other ends of the two groups of first reinforcing rods are respectively arranged on two sides of the second supporting column; in practical use, the structure has better stability and better wind resistance in use in a wide area.

Still further, the pillar member further includes a second reinforcing bar for reinforcing the beam body; two groups of second reinforcing rods are arranged, one ends of the two groups of second reinforcing rods are respectively arranged on the two lengthened plates, and the other ends of the two groups of second reinforcing rods are respectively arranged on two sides of the beam body; the second reinforcing rod can further improve the stability of the beam body, and further has better safety.

Further, the mounting support comprises a mounting frame arranged on the mounting block and a sandal rack mounted inside the mounting frame; can utilize the sandalwood frame to carry out better connection to the photovoltaic board in the in-service use, can avoid the photovoltaic board effectively to receive the problem that drops that external disturbance rejection factor leads to.

Furthermore, the four corners of the mounting frame are provided with illumination sensors, so that the actual illumination intensity can be sensed by the illumination sensors during use, and data guidance can be further performed for actual adjustment; when the solar tracking device is used, the data measured by the illumination sensors at the four corners are guaranteed to be consistent all the time, so that the sun is tracked, namely, the installation frame is adjusted in angle rotation along with the movement of the sun.

Compared with the prior art, the utility model has the beneficial effects that: the photovoltaic panel mounting bracket is practical and reasonable in overall structure, the transmission principle of the worm gear is applied to the photovoltaic mounting bracket, so that the mounting bracket can realize flat single-axis tracking, the photovoltaic panel can meet direct solar radiation to the maximum extent, and the power generation capacity is improved; in addition, the utility model has simple integral structure, and can effectively avoid the problem of lower integral reliability caused by more mechanical parts in an outdoor area by utilizing the transmission principle of the worm gear and the worm and utilizing simple components; the utility model has the advantages of low cost and easy installation, and is suitable for mass popularization.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 of the present invention;

FIG. 2 is a partial top cross-sectional view of the main beam member of the present invention;

FIG. 3 is a schematic structural view of embodiment 2 of the present invention;

FIG. 4 is a schematic structural view of embodiment 3 of the present invention;

the main beam part comprises a support column group 1, a support column group 111, a first base 112, a first support column 121, a second base 1211, a base body 1212, a lengthened plate 122, a second support column 123, a first reinforcing rod 124, a main beam part 124, a beam body 21, a bearing seat 22, a limiting block 23, a mounting shaft 24, a roller shaft 241, a gear 242, a mounting block 243, a mounting support 3, a mounting frame 31 and a sandal strip frame 32.

Detailed Description

Example 1: an automatically adjustable mounting bracket for a solar power plant as shown in fig. 1 comprises a support member and an adjusting member disposed on the support member; the supporting member comprises a supporting column set 1, a main beam part 2 capable of being installed on the supporting column set 1 and a plurality of installation support parts 3 installed on the main beam part 2; the strut group 1 comprises 2 strut members;

as shown in fig. 2, the main beam member 2 includes a beam body 21 having a placement groove therein and mounted on the top end of the post member, 4 groups of bearing housings 22 uniformly and movably mounted on the beam body 21, 8 limiting blocks 23 for limiting and reinforcing the bearing housings 22 and mounted on the beam body 21, and 8 mounting shafts 24 penetrating through the beam body 21 and the limiting blocks 23 mounted on the bearing housings 22 and capable of being connected with an adjusting member; the mounting shaft 24 comprises a roller member 241 penetrating through the beam body 21 and the limiting block 23 and mounted on the bearing seat 22, a gear 242 mounted at the inner end of the roller member 241 and located inside the beam body 21, and a mounting block 243 mounted at the outer end of the roller member 241 and located outside the beam body 21 and used for mounting the mounting support 3; the mounting support 3 is used for mounting a photovoltaic panel; the mounting support 3 comprises a mounting frame 31 arranged on the mounting block 243 and a sandal rack 32 mounted inside the mounting frame 31; the four corners of the mounting frame 31 are provided with illuminance sensors;

the adjusting component comprises an adjusting piece and a controller connected with the adjusting piece; the adjusting member includes a motor installed at one side of the beam body 21, and a worm connected to an output end of the motor and capable of meshing with the gear 242.

The support member includes a first base 111 and a first support column 112 mounted on the first base 111.

It should be noted that: in this embodiment, the controller and the motor are commercially available.

Example 2: the difference from example 1 is: as shown in fig. 3, the support column member includes a second base 121, a second support column 122 mounted on the second base 121, and a first reinforcing rod 123 for reinforcing the second support column 122; the second base 121 includes a base body 1211 and two extension plates 1212 respectively disposed at two sides of the base body 1211 for increasing a bottom contact area; there are two sets of first reinforcing rods 123, and one end of each of the two sets of first reinforcing rods 123 is installed on the two elongated plates 1212, and the other end is installed on each of the two sides of the second supporting column 122.

Example 3: the difference from example 2 is: as shown in fig. 4, the pillar member further includes a second reinforcing bar 124 for reinforcing the beam body 21; two sets of the second reinforcing rods 124 are provided, one end of each set is mounted on the two elongated plates 1212, and the other end is mounted on each side of the beam 21.

Claims (6)

1. An automatically adjustable mounting bracket for a solar power generation device, comprising a support member and an adjustment member provided on the support member; the supporting component comprises a supporting column group (1), a main beam component (2) capable of being installed on the supporting column group (1) and a plurality of installation support components (3) installed on the main beam component (2); the support column set is characterized in that the support column set (1) comprises 2-4 support column pieces;

the main beam piece (2) comprises a beam body (21) which is internally provided with a placing groove and is arranged at the top end of the column piece, a plurality of groups of bearing seats (22) which are uniformly and movably arranged on the beam body (21), a plurality of limiting blocks (23) which are used for limiting and reinforcing the bearing seats (22) and are arranged on the beam body (21), and a plurality of mounting shafts (24) which penetrate through the beam body (21) and are arranged on the bearing seats (22) and can be connected with an adjusting member; the mounting shaft (24) comprises a roller shaft member (241) penetrating through the beam body (21) and a limiting block (23) and mounted on a bearing seat (22), a gear (242) mounted at the inner end of the roller shaft member (241) and located inside the beam body (21), and a mounting block (243) mounted at the outer end of the roller shaft member (241) and located outside the beam body (21) and used for mounting the mounting support member (3); the mounting support (3) is used for mounting a photovoltaic panel;

the adjusting component comprises an adjusting piece and a controller connected with the adjusting piece; the adjusting piece comprises a motor arranged on one side of the beam body (21) and a worm connected with the output end of the motor and capable of being meshed with the gear (242).

2. An automatically adjustable mounting bracket for a solar power plant according to claim 1, characterized in that said post member comprises a first base (111) and a first support post (112) mounted on said first base (111).

3. The mounting bracket for a self-adjusting solar power plant of claim 1, wherein the post member comprises a second base (121), a second support post (122) mounted on the second base (121), and a first reinforcing rod (123) for reinforcing the second support post (122); the second base (121) comprises a base body (1211) and two extension plates (1212) which are respectively arranged at two sides of the base body (1211) and used for increasing the bottom contact area; the first reinforcing rods (123) are divided into two groups, one ends of the two groups of first reinforcing rods (123) are respectively arranged on the two lengthening plates (1212), and the other ends of the two groups of first reinforcing rods are respectively arranged on two sides of the second supporting column (122).

4. An automatically adjustable mounting bracket for a solar power plant according to claim 3, characterised in that the post member further comprises a second reinforcement bar (124) for reinforcing the beam body (21); two groups of second reinforcing rods (124) are arranged, one ends of the two groups of second reinforcing rods are respectively arranged on the two lengthened plates (1212), and the other ends of the two groups of second reinforcing rods are respectively arranged on two sides of the beam body (21).

5. The mounting bracket for a solar power plant capable of automatic adjustment according to claim 1, characterized in that the mounting support (3) comprises a mounting frame (31) arranged on the mounting block (243) and a sandal rack (32) mounted inside the mounting frame (31).

6. The mounting bracket for the solar power generation equipment capable of being automatically adjusted according to claim 5, wherein the four corners of the mounting frame (31) are provided with illuminance sensors.

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