CN217037102U - Semi-hanging photovoltaic support - Google Patents

Abstract

The utility model relates to the field of photovoltaic supports, in particular to a semi-hanging photovoltaic support which comprises a rack, a supporting structure, a winch frame, a winch and a traction rope, wherein the winch is arranged on the winch frame, the traction rope is wound on the winch, one side of the supporting structure is hinged with the rack, the other side of the supporting structure is connected with the traction rope, the winch frame is connected with the rack in a sliding mode, the sliding direction of the winch frame is horizontally arranged, the supporting structure comprises a first supporting plate and a second supporting plate, and the first supporting plate and the second supporting plate are parallel and connected in a sliding mode. The utility model discloses a bearing structure can change bearing structure's size through adjusting the distance between first backup pad and the second backup pad, has enlarged the application range of semi-mounted photovoltaic support, and the capstan winch frame can slide in the frame, can adapt to the adjustment of bearing structure size.

Description

Semi-hanging photovoltaic support

Technical Field

The utility model relates to the field of photovoltaic supports, in particular to a semi-hanging photovoltaic support.

Background

The traditional energy source has serious pollution, the vigorous development of new energy source industry is promoted, and solar energy is the most common and most important basic energy source in clean energy sources, so that the photovoltaic industry for converting the solar energy into electric energy develops rapidly in recent years, wherein a photovoltaic panel for converting the energy is required to be arranged on a corresponding photovoltaic bracket, the existing photovoltaic bracket can only provide support for the photovoltaic panel with the same size, and the application range of the photovoltaic bracket is limited.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a semi-mounted photovoltaic support to solve the prior art problem.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that:

the utility model provides a semi-mounted photovoltaic support, includes frame, bearing structure, capstan winch frame, capstan winch and haulage rope, and the capstan winch is installed on the capstan winch frame, and the haulage rope winding is on the capstan winch, and bearing structure's one side is articulated with the frame, and bearing structure's another side is connected with the haulage rope, and its characterized in that, capstan winch frame and frame sliding connection, the slip direction level of capstan winch frame sets up, and bearing structure includes first backup pad and second backup pad, and first backup pad and second backup pad are parallel and sliding connection.

Preferably, the winch frame further comprises a first fastening bolt, a threaded hole which is in threaded connection with the first fastening bolt and penetrates through the winch frame is formed in the winch frame, and the head of the first fastening bolt is arranged towards the rack.

Preferably, semi-mounted photovoltaic support still includes fastening structure, and fastening structure has two, and fastening structure includes briquetting and second fastening bolt, and two fastening structure set up respectively at bearing structure's both ends, and the briquetting passes through second fastening bolt and bearing structure can dismantle and be connected.

Preferably, semi-mounted photovoltaic support is still including adjusting the structure, adjusts the structure and includes first transmission handle and first transmission shaft, and first transmission shaft is installed on the capstan winch frame, and first transmission handle is installed in the one end of first transmission shaft, and first transmission handle is in the outside of capstan winch frame, and the capstan winch passes through first transmission shaft and is connected with the capstan winch frame rotation.

Preferably, the adjusting structure further comprises a ratchet wheel, a second transmission handle, a second transmission shaft, a pawl, a spring piece and a support column, wherein the ratchet wheel is installed on the first transmission shaft, the second transmission shaft is arranged on the right side of the first transmission shaft and installed on the winch frame, the second transmission handle is installed at one end of the second transmission shaft and outside the winch frame, the pawl is fixedly installed on the second transmission shaft, the support column is arranged on the right side of the second transmission shaft and fixed on the winch frame, the spring piece is fixed on the support column, and the pawl is locked on the ratchet wheel through the elastic action of the spring piece.

Preferably, semi-mounted photovoltaic support still includes auxiliary support piece, and auxiliary support piece includes bracing piece, slider and third fastening bolt, and the one end and the first backup pad of bracing piece are articulated, and the other end of bracing piece is articulated with the one end of slider, and the other end and the third fastening bolt of slider are connected, slider and frame sliding connection.

Preferably, the semi-mounted photovoltaic support further comprises a traveling mechanism, and the traveling mechanism is arranged between the rack and the winch frame.

Compared with the prior art, the beneficial effect of this application is:

1. the supporting structure can change the size of the supporting structure by adjusting the distance between the first supporting plate and the second supporting plate, and the application range of the semi-hanging photovoltaic support is expanded;

2. the winch frame designed by the application can slide on the frame and can adapt to the adjustment of the size of the supporting structure.

Drawings

Fig. 1 is a front view of a semi-mounted photovoltaic mount of the present application;

fig. 2 is a perspective view of a semi-mounted photovoltaic mount of the present application;

fig. 3 is a left side view of the semi-mounted photovoltaic mount of the present application;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is a partial enlarged view at B of FIG. 4;

FIG. 6 is an enlarged view of a portion of FIG. 4 at C;

FIG. 7 is a perspective view of the auxiliary support of the present application;

FIG. 8 is a top view of the winch frame and adjustment arrangement of the present application;

FIG. 9 is a front view of the winch frame and adjustment structure of the present application;

the reference numbers in the figures are:

1-a frame;

2-a support structure; 2 a-a first support plate; 2 b-a second support plate;

3-a capstan frame; 3 a-a second fastening bolt;

4-a winch;

5-a traction rope;

6-fastening structure; 6 a-briquetting; 6 b-first fastening bolt;

7-a regulating structure; 7 a-a first transmission handle; 7 b-a first transmission shaft; 7 c-ratchet; 7 d-a second drive handle; 7 e-a second drive shaft; 7 f-pawl; 7 g-leaf spring; 7 h-a pillar;

8-an auxiliary support; 8 a-a support bar; 8 b-a slider; 8 c-a third fixing bolt;

9-a traveling mechanism.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 to 9, the present application provides:

the utility model provides a semi-mounted photovoltaic support, which comprises a frame 1, bearing structure 2, capstan winch frame 3, capstan winch 4 and haulage rope 5, capstan winch 4 is installed on capstan winch frame 3, haulage rope 5 winding is on capstan winch 4, bearing structure 2 one side is articulated with frame 1, bearing structure 2's another side and haulage rope 5 are connected, a serial communication port, capstan winch frame 3 and 1 sliding connection of frame, capstan winch frame 3's slip direction level sets up, bearing structure 2 includes first backup pad 2a and second backup pad 2b, first backup pad 2a and second backup pad 2b are parallel and sliding connection.

Based on the above embodiments, the technical problem that the present application intends to solve is how to place photovoltaic panels of different sizes on a photovoltaic support. For this purpose, the present application provides for a simple and reliable construction of the support structure by designing the winch frame 3 slidably connected to the machine frame 1, the support structure 2 with the first support plate 2a and the second support plate 2b parallel and slidably connected to each other, when the photovoltaic panel is small in size, the winch frame 3 is close to one end of the support structure 2 hinged with the machine frame 1, meanwhile, the first supporting plate 2a and the second supporting plate 2b slide inwards relatively, the size of the supporting structure 2 is reduced, the size of the supporting structure 2 is consistent with that of the photovoltaic plate, when the photovoltaic panel is large in size, the winch frame 3 is far away from one end of the support structure 2 hinged with the machine frame 1, simultaneously first backup pad 2a and second backup pad 2b outwards slide relatively, enlarge bearing structure 2's size, make bearing structure 2's size unanimous with the photovoltaic size, and then solved a photovoltaic support and can placed the problem of the photovoltaic board of different sizes.

Further, as shown in fig. 2 and 9:

the winch frame 3 further comprises a first fastening bolt 3a, a threaded hole which is in threaded connection with the first fastening bolt 3a and penetrates through the winch frame 3 is arranged on the winch frame 3, and the head of the first fastening bolt 3a is arranged towards the machine frame 1.

Based on the above embodiments, the technical problem that the present application intends to solve is how to fix the winch frame 3 on the frame 1 when the winch frame 3 is moved to a designated position on the frame 1. Therefore, the fastening bolts are arranged at the sliding connection position of the winch frame 3 and the rack 1, when the winch frame 3 moves to the designated position on the rack 1, the first fastening bolt 3a is screwed, the winch frame 3 is clamped by the first fastening bolt 3a and the rack 1, the relative position of the winch frame 3 and the rack 1 is fixed, and the problem of how to fix the winch frame 3 after moving to the designated position on the rack 1 is solved.

Further, as shown in fig. 3 and 6:

semi-mounted photovoltaic support still includes fastening structure 6, and fastening structure 6 has two, and fastening structure 6 includes briquetting 6a and second fastening bolt 6b, and two fastening structure 6 set up respectively at bearing structure 2's both ends, and briquetting 6a can be dismantled with bearing structure 2 through second fastening bolt 6c and be connected, and spring 6b cover is established on second fastening bolt 6 b.

Based on the above embodiments, the technical problem that the present application is intended to solve is how to fix the photovoltaic panel on the photovoltaic support. Therefore, the fastening structures 6 are arranged at the two ends of the supporting structure 2, when the photovoltaic panel needs to be placed on the supporting structure 2, the second fastening bolt 6b is rotated, the pressing block 6a firmly presses the photovoltaic panel, the photovoltaic panel is fixed on the supporting structure 2, and when the photovoltaic panel needs to be detached from the supporting structure 2, the second fastening bolt 6b is rotated in the opposite direction, so that the problem that the photovoltaic panel is fixed on the photovoltaic support is solved.

Further, as shown in fig. 8:

semi-mounted photovoltaic support is still including adjusting structure 7, adjusts structure 7 and includes first transmission handle 7a and first transmission shaft 7b, and first transmission shaft 7b is installed on capstan winch frame 3, and first transmission handle 7a is installed in the one end of first transmission shaft 7b, and first transmission handle 7a is in the outside of capstan winch frame 3, and capstan winch 4 rotates through first transmission shaft 7b and capstan winch frame 3 to be connected.

Based on the above embodiments, the technical problem that the present application intends to solve is how to adjust the length of the pulling rope 5 and thus the included angle between the supporting structure 2 and the horizontal direction. For this reason, this application is through setting up first transmission handle 7a and first transmission shaft 7b on capstan winch frame 3, and the staff is through rotating first transmission handle 7a, and first transmission handle 7a drives first transmission shaft 7b rotatory, and then drives capstan winch 4 and rotates, and capstan winch 4 rotates and packs up or emit haulage rope 5, has solved the problem of adjusting bearing structure 2 and horizontal direction contained angle.

Further, as shown in fig. 8:

the adjusting structure 7 further comprises a ratchet wheel 7c, a second transmission handle 7d, a second transmission shaft 7e, a pawl 7f, a spring piece 7g and a support 7h, the ratchet wheel 7c is installed on the first transmission shaft 7b, the second transmission shaft 7e is arranged on the right side of the first transmission shaft 7b, the second transmission shaft 7e is installed on the winch frame 3, the second transmission handle 7d is installed at one end of the second transmission shaft 7e, the second transmission handle 7d is outside the winch frame 3, the pawl 7f is fixedly installed on the second transmission shaft 7e, the support 7h is arranged on the right side of the second transmission shaft 7e, the support 7h is fixed on the winch frame 3, the spring piece 7g is fixed on the support 7h, and the pawl 7f is locked on the ratchet wheel 7c through the elastic action of the spring piece 7 g.

Based on the above embodiments, the technical problem that the present application intends to solve is how to keep the included angle unchanged after the included angle between the support structure 2 and the horizontal direction is adjusted by the pulling rope 5. Therefore, this application is through setting up ratchet 7c, pawl 7f and spring leaf 7g mutually support, through adjusting the length that first transmission handle 7a adjusted haulage rope 5, drive ratchet 7c and rotate towards the same direction simultaneously, haulage rope 5 adjusts to the length of needs after, ratchet 7c also stall, spring leaf 7g pushes down pawl 7f and pins ratchet 7c and do not let ratchet 7c rotate backward, so fixed haulage rope 5's length, when needs adjustment haulage rope 5 length, drive pawl 7f through adjusting second transmission handle 7d and leave ratchet 7c, then repeat above-mentioned step, keep haulage rope 5's length again, and then how to fix the problem of supporting structure 2 and horizontal direction contained angle.

Further, as shown in fig. 5 and 7:

semi-mounted photovoltaic support still includes auxiliary support piece 8, and auxiliary support piece 8 includes bracing piece 8a, slider 8b and third fastening bolt, and the one end of bracing piece 8a is articulated with first backup pad 2a, and the other end of bracing piece 8a is articulated with slider 8 b's one end, and slider 8 b's the other end and third fastening bolt are connected, slider 8b and 1 sliding connection of frame.

Based on the above embodiments, the technical problem that the present application intends to solve is how to further fix the support plate. Therefore, an auxiliary supporting piece 8 is arranged between the rack 1 and the supporting plate, the supporting structure 2 is adjusted to a certain angle and then is screwed with a third fastening bolt, the sliding block 8b is fixed on the rack 1 through the third fastening bolt, the supporting rod 8a is further fixed, upward supporting force is provided for the supporting plate through the supporting rod 8a, and the problem of fixing the supporting plate is further solved.

Further, as shown in fig. 2 and 9:

the semi-mounted photovoltaic support further comprises a traveling mechanism 9, and the traveling mechanism 9 is arranged between the rack 1 and the winch frame 3.

Based on the above embodiments, the technical problem that the present application intends to solve is how to facilitate the sliding of the winch frame 3 on the rack 1. For this reason, this application has made things convenient for capstan winch 3 to slide on frame 1 through running gear 9 by setting up running gear 9 between frame 1 upper surface and capstan winch 3 lower surface.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the utility model, and these changes and modifications are all within the scope of the utility model. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (7)

1. The utility model provides a semi-mounted photovoltaic support, which comprises a frame (1), bearing structure (2), capstan winch frame (3), capstan winch (4) and haulage rope (5), install on capstan winch frame (3) capstan winch (4), haulage rope (5) winding is on capstan winch (4), one side and frame (1) of bearing structure (2) are articulated, the another side and the haulage rope (5) of bearing structure (2) are connected, a serial communication port, capstan winch frame (3) and frame (1) sliding connection, the slip direction level of capstan winch frame (3) sets up, bearing structure (2) are including first backup pad (2a) and second backup pad (2b), first backup pad (2a) and second backup pad (2b) are parallel and sliding connection.

2. Semi-mounted photovoltaic bracket according to claim 1, characterized in that the winch frame (3) further comprises first fastening bolts (3a), the winch frame (3) is provided with threaded holes which are in threaded connection with the first fastening bolts (3a) and penetrate through the winch frame (3), and the heads of the first fastening bolts (3a) are arranged towards the rack (1).

3. A semi-mounted photovoltaic support according to claim 1, further comprising two fastening structures (6), wherein the fastening structures (6) comprise a pressing block (6a) and a second fastening bolt (6b), the two fastening structures (6) are respectively disposed at two ends of the supporting structure (2), and the pressing block (6a) is detachably connected with the supporting structure (2) through the second fastening bolt (6 b).

4. A semi-mounted photovoltaic support according to claim 1, further comprising an adjustment structure (7), wherein the adjustment structure (7) comprises a first transmission handle (7a) and a first transmission shaft (7b), the first transmission shaft (7b) is mounted on the winch frame (3), the first transmission handle (7a) is mounted at one end of the first transmission shaft (7b), the first transmission handle (7a) is external to the winch frame (3), and the winch (4) is rotatably connected to the winch frame (3) through the first transmission shaft (7 b).

5. A semi-mounted photovoltaic support according to claim 4, wherein the adjustment structure (7) further comprises a ratchet wheel (7c), a second transmission handle (7d), a second transmission shaft (7e), a pawl (7f), a spring plate (7g) and a support (7h), the ratchet wheel (7c) is mounted on the first transmission shaft (7b), the second transmission shaft (7e) is arranged on the right side of the first transmission shaft (7b), the second transmission shaft (7e) is mounted on the winch frame (3), the second transmission handle (7d) is mounted on one end of the second transmission shaft (7e), the second transmission handle (7d) is outside the winch frame (3), the pawl (7f) is fixedly mounted on the second transmission shaft (7e), the support (7h) is arranged on the right side of the second transmission shaft (7e), the support (7h) is fixed on the winch frame (3), the spring piece (7g) is fixed on the support (7h), and the pawl (7f) is locked on the ratchet wheel (7c) through the elastic action of the spring piece (7 g).

6. A semi-mounted photovoltaic support according to claim 1, characterized in that it further comprises an auxiliary support (8), the auxiliary support (8) comprises a support rod (8a), a slider (8b) and a third fastening bolt, one end of the support rod (8a) is hinged to the first support plate (2a), the other end of the support rod (8a) is hinged to one end of the slider (8b), the other end of the slider (8b) is connected to the third fastening bolt, and the slider (8b) is slidably connected to the frame (1).

7. A semi-mounted photovoltaic support according to claim 1, further comprising a running gear (9), the running gear (9) being arranged between the frame (1) and the winch frame (3).

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