CN221050939U - Connecting mechanism for conveying photovoltaic panels - Google Patents

Abstract

The utility model relates to the technical field of photovoltaic panel equipment, and discloses a photovoltaic panel conveying and connecting mechanism which comprises a bracket and a support, wherein the support is provided with the connecting mechanism, and the bracket is provided with an adjusting mechanism which comprises a motor, a spiral screw rod, a sliding seat, a guide rod, a moving plate, a fixed plate, a connecting plate, a limiting pin and a supporting rod. According to the utility model, the position height of the movable plate is driven to change by forward and backward rotation of the motor, and as the plurality of groups of connecting plates are alternately and movably connected to form the parallelogram connecting net, when the position height of the movable plate is changed, the parallelogram connecting net is simultaneously contracted transversely, so that the transverse distance between the plurality of groups of supports and the connecting mechanism is driven to change, therefore, in the actual production and processing process of the photovoltaic plate, the positions among the connecting mechanisms can be adapted to the width of the photovoltaic plate with the corresponding specification and size through the adjusting mechanism, so that the connecting mechanism is suitable for connecting clamping of the photovoltaic plates with various specifications and sizes, and the practicability of the photovoltaic plate conveying connecting mechanism is improved.

Description

Connecting mechanism for conveying photovoltaic panels

Technical Field

The utility model relates to the technical field of photovoltaic panel equipment, in particular to a photovoltaic panel conveying and connecting mechanism.

Background

Solar energy is the most widely used, cheapest and inexhaustible clean energy source in nature. Photovoltaic panels, commonly referred to as solar photovoltaic modules, are important electronic devices that enable the conversion of solar energy into electrical energy. Most of the existing photovoltaic panels are rectangular, and a plurality of scattered photovoltaic panels are fixedly connected by using a connecting mechanism, so that the subsequent conveying or further processing of the rectangular photovoltaic panels is facilitated.

The utility model discloses a solar photovoltaic panel connecting mechanism in Chinese patent publication No. CN216490298U, belongs to the technical field of solar photovoltaic panel connecting mechanisms, and mainly solves the problems that the traditional solar photovoltaic panel connecting mechanism is simple in structure and is not convenient to operate when clamping a solar photovoltaic panel. With respect to the related art in the above, the inventors consider that there are the following drawbacks: in the prior art, the fixing of the solar photovoltaic panel can be completed by arranging the slide bars and the discs and only using the plate-moving wrench when in use, so that the efficiency of the fixed connection of the photovoltaic panel can be improved; in the actual production and processing process of the photovoltaic panel, the specification and the size produced by the photovoltaic panel are various types, and the traditional linking mechanism is generally set into a fixed mode, and cannot be linked, clamped and fixed according to various specification and size of the photovoltaic panel, so that the photovoltaic panel conveying linking mechanism is required, and the position between the corresponding linking mechanisms can be adjusted according to the specification and size of the photovoltaic panel, so that the linking mechanism is suitable for linking, clamping and clamping of the photovoltaic panel with various specification and size, and the practicability of the photovoltaic panel conveying linking mechanism is improved.

Disclosure of utility model

The utility model provides a photovoltaic panel conveying and connecting mechanism, which aims to solve the technical problem that a traditional connecting mechanism is usually set to be in a fixed mode and cannot be connected, clamped and fixed according to various specification sizes of photovoltaic panels.

The utility model is realized by adopting the following technical scheme: the photovoltaic panel conveying and connecting mechanism comprises a bracket and a support, wherein the support is provided with a connecting mechanism, the connecting mechanism comprises a double-opening plate clamp, an adjusting bolt and an anti-slip rubber mat, the bracket is provided with an adjusting mechanism, and the adjusting mechanism comprises a motor, a spiral screw rod, a sliding seat, a guide rod, a moving plate, a fixed plate, a connecting plate, a limiting pin and a supporting rod;

The adjusting mechanism is used for adjusting the relative position of the driving engagement mechanism, four groups of motors are distributed and installed on an inner cavity supporting plate at the slotting position of the support, one end of the spiral screw is connected with the output end of the motor, the other end of the spiral screw is rotatably installed on the bottom wall of the inner cavity at the slotting position of the support, and the sliding seat is movably installed on the periphery of the spiral screw.

Preferably, the guide rod is mounted on the bottom wall of the inner cavity at the slotting position of the support, the guide rod movably penetrates through the inside of the sliding seat, four groups of moving plates are mounted on opposite sides of the four groups of sliding seat in a distributed manner, and four groups of fixing plates are mounted on opposite sides of the four groups of supports in a distributed manner.

Preferably, the plurality of groups of connecting plates are movably arranged on the fixed plate and the movable plate through limiting pins, and the joint of every two groups of connecting plates is movably connected through the limiting pins.

Preferably, a plurality of groups of support rods are distributed and arranged on opposite sides of every two groups of connecting plates, and a plurality of groups of support seats are distributed and arranged on the periphery of a plurality of groups of support rods.

Preferably, the linking mechanism is used for connecting a plurality of groups of photovoltaic panels so as to convey the photovoltaic panels, wherein the double-opening panel clamp is positioned above the support, and a plurality of groups of the anti-skid rubber pads are distributed and installed at the top of the support.

Preferably, the adjusting bolt penetrates through the inside of the double-port plate clamp, and the bottom end of the adjusting bolt is installed in the inside of the support through threads.

Preferably, a plurality of groups of connecting rods are distributed and installed on opposite sides of each two groups of connecting plates, and are used for reinforcing the connection stability between the adjusting mechanisms.

Preferably, two groups of cross bars are distributed on the inner sides of the four groups of brackets, and land wheels are arranged at the bottoms of the four groups of brackets.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the motor is used for driving the position and the height of the movable plate to change, and as the plurality of groups of connecting plates are alternately and movably connected to form the parallelogram connecting net, when the position and the height of the movable plate are changed, the parallelogram connecting net is driven to change the bottom position of the parallelogram connecting net, and meanwhile, the parallelogram connecting net is transversely contracted, so that the intervals of the plurality of groups of supporting rods arranged at the top of the parallelogram connecting net are driven to transversely and equidistantly become larger or smaller, and further, the transverse distance between the plurality of groups of supporting rods and the connecting mechanism is driven to change, therefore, in the actual production and processing process of the photovoltaic plate, the positions among the connecting mechanisms can be adapted to the widths of the photovoltaic plates with corresponding specification and size through the adjusting mechanism, so that the connecting mechanism is suitable for connecting clamping of the photovoltaic plates with various specification and size, and the practicability of the photovoltaic plate conveying connecting mechanism is improved.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present utility model;

FIG. 2 is a schematic view of an adjusting mechanism according to the present utility model;

FIG. 3 is a schematic view of a semi-sectional structure of a stent of the present utility model;

fig. 4 is an enlarged schematic view of the structure at a in fig. 1.

In the figure: 1. a bracket; 2. a motor; 3. a spiral screw rod; 4. a slide; 5. a guide rod; 6. a moving plate; 7. a fixing plate; 8. a connecting plate; 9. a limiting pin; 10. a support rod; 11. a support; 12. a double-mouth plate clamp; 13. an adjusting bolt; 14. an anti-slip rubber pad; 15. a connecting rod; 16. a cross bar; 17. and (5) a land wheel.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

Example 1: referring to fig. 1-4, a photovoltaic panel conveying and connecting mechanism of the present embodiment includes a bracket 1 and a support 11, two groups of cross bars 16 are distributed and installed on opposite inner sides of the four groups of brackets 1, land wheels 17 are installed at bottoms of the four groups of brackets 1, a connecting mechanism is installed on the support 11, the connecting mechanism includes a double-mouth panel clamp 12, an adjusting bolt 13 and an anti-skid rubber mat 14, wherein the double-mouth panel clamp 12 is located above the support 11, the adjusting bolt 13 is installed inside the double-mouth panel clamp 12 in a penetrating manner, bottom ends of the adjusting bolts 13 are installed inside the support 11 through threads, and multiple groups of anti-skid rubber mats 14 are installed at tops of the support 11 in a distributed manner; the stability between the supports 1 is reinforced by the cross rods 16, the land wheels 17 are matched with the supports 1 to complete the position adjustment of the adjusting mechanism on the connecting mechanism, in the use process, a user firstly adjusts the positions among the groups of connecting mechanisms to a position state adapting to the size of light Fu Bangui grid by the adjusting mechanism, then screws the adjusting bolts 13 to drive the double-mouth plate clamp 12 to move upwards, so that the photovoltaic plate can be easily placed into a clamping space formed by the double-mouth plate clamp 12 and the anti-slip rubber cushion 14, and screws the adjusting bolts 13 again to drive the double-mouth plate clamp 12 to move downwards until the soft cushion at the bottom of the double-mouth plate clamp is tightly contacted with the top of the photovoltaic plate, so that the connecting clamping of the photovoltaic plate can be completed, the conveying of the following photovoltaic plate is facilitated, the anti-slip rubber cushion 14 plays a role of anti-slip shock, and the safety and stability of the connecting clamping of the photovoltaic plate are ensured;

further, an adjusting mechanism is arranged on the bracket 1 and comprises a motor 2, a screw rod 3, a sliding seat 4, a guide rod 5, a moving plate 6, a fixed plate 7, a connecting plate 8, limiting pins 9 and supporting rods 10, wherein four groups of motors 2 are arranged on an inner cavity supporting plate at the slotting position of the bracket 1 in a distributed manner, one end of the screw rod 3 is connected with the output end of the motor 2, the other end of the screw rod is rotatably arranged on the inner cavity bottom wall at the slotting position of the bracket 1, the sliding seat 4 is movably arranged on the periphery of the screw rod 3, the guide rod 5 is arranged on the inner cavity bottom wall at the slotting position of the bracket 1, the guide rod 5 movably penetrates through the inside of the sliding seat 4, four groups of moving plates 6 are arranged on opposite sides of the four groups of sliding seat 4 in a distributed manner, four groups of fixed plates 7 are arranged on opposite sides of the four groups of brackets 1 in a distributed manner, a plurality of connecting plates 8 are movably arranged on opposite sides of the fixed plate 7 and the moving plate 6 through the limiting pins 9, a plurality of groups of supporting rods 10 are arranged on opposite sides of each two groups of connecting plates 8 in a distributed manner, a plurality of supporting rods 11 are arranged on the periphery of the inner cavity bottom wall of the slotting position of the bracket 10 in each group of the slotting position, the adjusting mechanism is used for adjusting the relative position, and the connecting plates 15 are fixedly connected between the two groups of connecting plates are arranged on opposite sides of connecting plates 15;

Further, in adjustment mechanism, motor 2 converts the electric energy into mechanical kinetic energy, drive the rotary motion of screw 3, utilize the positive and negative rotation of motor 2 output to drive the reciprocating of slide 4, guide arm 5 ensures the stationarity of slide 4 reciprocates, and then drive the change of the height of movable plate 6 position, because multiunit connecting plate 8 swing joint forms parallelogram link net in turn, and the connecting plate 8 at parallelogram link net both ends movable mounting respectively on movable plate 6 and fixed plate 7, when the position height of movable plate 6 changes, drive the change of parallelogram link net bottom position, drive the parallelogram link net simultaneously and transversely shrink, and then drive the interval of multiunit branch 10 of installing at parallelogram link net top and transversely equidistance grow or diminish, and then drive the change of the transverse distance between multiunit support 11 and the linking mechanism, thereby in the actual production course of photovoltaic board, through adjustment mechanism can make the position adaptation between the linking mechanism correspond the width of specification size photovoltaic board, so that the linking mechanism is applicable to the clamp of linking of the linking of multiple specification photovoltaic board, improve photovoltaic board conveying mechanism's practicality.

Working principle: the user twists first adjusting bolt 13 and drives the double-mouth board clamp 12 and remove for the photovoltaic board can be easily put into the clamp space that double-mouth board clamp 12 and anti-skidding cushion 14 constitute, screw down adjusting bolt 13 drive double-mouth board clamp 12 down motion clamp photovoltaic board again can, be convenient for follow-up photovoltaic board carry, when the relative position between the adjustment linking mechanism of photovoltaic board width is needed, starter motor 2 drives the reciprocating of slide 4 through screw 3, and then drive the change of movable plate 6 position height, because multiunit connecting plate 8 alternate swing connects forms parallelogram link net, when the position height of movable plate 6 changes, drive parallelogram link net bottom position's change, make the parallelogram link net carry out horizontal shrink simultaneously, and then drive the horizontal equidistance of interval of multiunit branch 10 of installing in parallelogram link net top and change of linking mechanism, and then drive multiunit support 11 and linking mechanism horizontal distance, in the actual production course of working of photovoltaic board, from this can make linking mechanism position adaptation size photovoltaic board's corresponding to the size through adjusting mechanism, the practical size linking mechanism of photovoltaic board, the photovoltaic board is convenient for carrying the practical size linking mechanism of photovoltaic board.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (8)

1. The utility model provides a link up mechanism is carried to photovoltaic board, includes support (1), support (11), its characterized in that, install link up mechanism on support (11), link up mechanism and include two mouthful board clamp (12), adjusting bolt (13) and anti-skidding cushion (14), be provided with adjustment mechanism on support (1), adjustment mechanism includes motor (2), screw rod (3), slide (4), guide arm (5), movable plate (6), fixed plate (7), connecting plate (8), spacer pin (9) and branch (10);

The adjusting mechanism is used for adjusting the relative position of the driving engagement mechanism, wherein four groups of motors (2) are arranged on an inner cavity supporting plate at the slotting position of the bracket (1) in a distributed mode, one end of the spiral screw (3) is connected with the output end of the motor (2), the other end of the spiral screw is rotatably arranged on the bottom wall of the inner cavity at the slotting position of the bracket (1), and the sliding seat (4) is movably arranged on the periphery of the spiral screw (3).

2. The photovoltaic panel conveying and connecting mechanism according to claim 1, wherein the guide rods (5) are installed on the bottom wall of the inner cavity of the slotting part of the support (1), the guide rods (5) movably penetrate through the sliding seat (4), four groups of moving plates (6) are installed on opposite sides of the four groups of sliding seat (4) in a distributed manner, and four groups of fixing plates (7) are installed on opposite sides of the four groups of supports (1) in a distributed manner.

3. The photovoltaic panel conveying and connecting mechanism according to claim 1, wherein a plurality of groups of connecting plates (8) are movably mounted on the fixed plate (7) and the movable plate (6) through limiting pins (9), and the joint of every two groups of connecting plates (8) is movably connected through the limiting pins (9).

4. The photovoltaic panel conveying and connecting mechanism according to claim 1, wherein a plurality of groups of the supporting rods (10) are distributed and arranged on opposite sides of every two groups of the connecting plates (8), and a plurality of groups of the supporting seats (11) are distributed and arranged on the periphery of a plurality of groups of the supporting rods (10).

5. The photovoltaic panel conveying and connecting mechanism according to claim 1, wherein the connecting mechanism is used for connecting a plurality of groups of photovoltaic panels so as to convey the photovoltaic panels subsequently, the double-port panel clamp (12) is located above the support (11), and a plurality of groups of the anti-slip rubber pads (14) are distributed and installed on the top of the support (11).

6. The photovoltaic panel conveying engagement mechanism according to claim 1, wherein the adjusting bolt (13) is installed inside the double-port panel clamp (12) in a penetrating manner, and the bottom end of the adjusting bolt (13) is installed inside the support (11) through threads.

7. A photovoltaic panel transport engagement mechanism according to claim 1, characterized in that a plurality of sets of connecting rods (15) are arranged on opposite sides of each two sets of connecting plates (8) for reinforcing the stability of the connection between the adjustment mechanisms.

8. The photovoltaic panel conveying and connecting mechanism according to claim 1, wherein two groups of cross bars (16) are distributed on the opposite inner sides of the four groups of brackets (1), and land wheels (17) are arranged at the bottoms of the four groups of brackets (1).