CN221092532U

CN221092532U - Photovoltaic board conveyer

Info

Publication number: CN221092532U
Application number: CN202323266643.4U
Authority: CN
Inventors: 毛其林; 胡毅; 王佳俊; 寻文靓
Original assignee: China 22MCC Group Corp Ltd
Current assignee: China 22MCC Group Corp Ltd
Priority date: 2023-12-01
Filing date: 2023-12-01
Publication date: 2024-06-07
Anticipated expiration: 2033-12-01

Abstract

The utility model relates to a photovoltaic panel conveying device, which comprises a movable trolley and a belt conveyor; the belt conveyor comprises a plurality of transmission shafts, a driving device, a belt covered on the transmission shafts, a plurality of trays, a plurality of thin rods fixed on the belt, one side of each tray sleeved on each thin rod and connected with the belt in a rotating way, and an inverted trapezoid limiting block fixed on the lower bottom surface of each tray; the movable trolley is vertically fixed with a fixed column and a telescopic rod, and a hydraulic device is arranged in the movable trolley and used for controlling the telescopic rod; the upper end of the fixed column is rotationally connected with a transmission shaft at the leftmost side of the belt conveyor, a movable cavity is arranged between the transmission shafts at the right side of the belt conveyor, and a movable sliding block is arranged in the movable cavity; the upper end of the telescopic rod is fixed with the movable slide block.

Description

Photovoltaic board conveyer

Technical Field

The utility model relates to the technical field of photovoltaic panel construction, in particular to a photovoltaic panel transportation device.

Background

Solar energy is a green and environment-friendly new energy, is inexhaustible, and at present, solar energy products are highly applied in the aspects of aerospace and civil use; after the photovoltaic board is transported to the installation place, need carry the polylith photovoltaic board in proper order to the mounted position that has certain height, current photovoltaic board hoisting device mostly uses the arm to promote, but the davit can only promote a photovoltaic board once, and need clamp the device and fix the photovoltaic board to the davit goes up and down slowly, promotes efficiency extremely low.

Disclosure of utility model

The utility model aims to solve the problem of low efficiency of the photovoltaic panel lifting device, so as to provide a photovoltaic panel conveying device.

The utility model solves the problems, and adopts the following technical scheme:

A photovoltaic panel conveying device comprises a movable trolley and a belt conveyor; the belt conveyor comprises a plurality of transmission shafts, a driving device and a belt covered on the transmission shafts, the driving device drives the transmission shafts to rotate,

The device also comprises a plurality of trays, a plurality of thin rods are fixed on the belt, one side of each tray is sleeved on each thin rod and is rotationally connected with the belt, and a limiting block is fixed on the lower bottom surface of each tray;

The movable trolley is vertically fixed with a fixed column and a telescopic rod, and a hydraulic device is arranged in the movable trolley and used for controlling the telescopic rod; the upper end of the fixed column is rotationally connected with a transmission shaft at the leftmost side of the belt conveyor, a movable cavity is arranged between the transmission shafts at the right side of the belt conveyor, and a movable sliding block is arranged in the movable cavity; the upper end of the telescopic rod is fixed with the movable slide block.

Compared with the prior art, the utility model adopting the technical scheme has the outstanding characteristics that:

According to the skillful transportation structure of the moving belt conveyor, a plurality of trays are arranged on a belt of the belt conveyor, and one side of each tray is rotationally connected with the belt; the photovoltaic panels are placed on the trays, the trays are driven by the belt to transport upwards, the photovoltaic panels are taken down at the uppermost end of the belt conveyor, the photovoltaic panels can be transported to the designated height rapidly and in batches, and the transportation efficiency is improved; the lower end of the tray is provided with an inverted trapezoid limiting block, when the belt drives the tray to ascend, the tray is limited to be in a horizontal position, the photovoltaic panel is prevented from falling from the tray, and when the tray moves to the back of the belt conveyor, the tray is not fixed by the limiting block and naturally sags; the fixed rod and the telescopic rod on the movable trolley are connected with the transmission shaft of the belt conveyor, so that support is provided for the belt conveyor, the telescopic rod is controlled to stretch out and draw back through the hydraulic device, the inclination angle of the belt conveyor can be changed, and the transport height of the photovoltaic panel is changed.

Preferably, the utility model further adopts the technical scheme that:

The hydraulic control system further comprises a controller and a power supply module, wherein the power supply module provides electric energy for the controller, the driving device and the hydraulic device, and the controller is connected with the hydraulic device and the driving device.

The beneficial effects obtained by the structure are as follows: the controller is arranged, so that the lifting of the telescopic rod is conveniently controlled by controlling the hydraulic device, and the inclination angle of the belt conveyor is changed; the belt conveyor is convenient to control to run by controlling the driving device.

The controller is also connected with a wireless communication module, and the wireless communication module is connected with an external terminal.

The beneficial effects obtained by the structure are as follows: and when the wireless communication module is arranged and the wireless communication module is convenient to use, an instruction is sent to the controller through the external terminal.

L-shaped stop blocks are fixed at four corners of the upper end of the tray, and a photovoltaic panel is placed in the middle of each L-shaped stop block.

The beneficial effects obtained by the structure are as follows: the L-shaped stop block is arranged to fix the position of the photovoltaic panel placed on the tray, so that the transportation stability of the photovoltaic panel is further ensured.

The movable sliding block protrudes out of the left side and the right side of the belt conveyor, a first U-shaped frame is fixed at the lower end of the position of the movable sliding block protruding out of the belt conveyor, and the lower end of the first U-shaped frame is fixed with the telescopic rod.

The beneficial effects obtained by the structure are as follows: the first U-shaped frame is arranged, space is provided for normal operation of the tray on the belt, and meanwhile, support is provided for the belt conveyor.

Bearing seats are sleeved at two ends of a shaft core of a transmission shaft at the leftmost side of the belt conveyor, the lower ends of the two bearing seats are fixedly connected with a second U-shaped frame, and the lower end of the second U-shaped frame is fixed with the upper end of the fixed column.

The beneficial effects obtained by the structure are as follows: the second U-shaped frame is arranged to provide space for normal operation of the tray on the belt and support for the belt conveyor.

The surface of the mobile trolley is fixedly provided with a plurality of control keys, and pins of the control keys are connected with the controller.

The beneficial effects obtained by the structure are as follows: by setting the control key, the transportation device is convenient to control by the control key.

Drawings

FIG. 1 is a front view of an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of an embodiment of the present utility model;

FIG. 3 is a right side view of an embodiment of the present utility model;

Fig. 4 is a structural view of a tray according to an embodiment of the present utility model;

In the figure: 1. a moving trolley; 11. a control key; 12. a power module; 2. a telescopic rod; 3. a first U-shaped frame; 4. a belt conveyor; 41. a tray; 42. a limiting block; 43. a belt; 44. a movable cavity; 45. a movable slide block; 46. a transmission shaft; 47. an L-shaped stop; 5. a second U-shaped frame; 51. a bearing seat; 6. and fixing the column.

Detailed Description

The utility model is further described below in connection with the following examples which are provided for the purpose of better understanding of the present utility model and are, therefore, not to be construed as limiting the scope of the utility model.

Referring to fig. 1-4, the embodiment discloses a photovoltaic panel transportation device, which comprises a mobile trolley 1 and a belt conveyor 4; the belt conveyor 4 comprises a plurality of transmission shafts 46, a driving device and a belt 43 covered on the transmission shafts 46, wherein the driving device drives the transmission shafts 46 to rotate,

The tray comprises a plurality of trays 41, a plurality of thin rods are fixed on the belt 43, one side of the tray 41 is sleeved on the thin rods and is in rotary connection with the belt 43, and a limiting block 42 is fixed on the lower bottom surface of the tray 41;

The movable trolley 1 is vertically fixed with a fixed column 6 and a telescopic rod 2, and a hydraulic device is arranged in the movable trolley 1 and used for controlling the telescopic rod 2; the upper end of the fixed column 6 is rotationally connected with a transmission shaft 46 at the leftmost side of the belt conveyor 4, a movable cavity 44 is arranged between the transmission shafts 46 at the right side of the belt conveyor 4, and a movable sliding block 45 is arranged in the movable cavity 44; the upper end of the telescopic rod 2 is fixed with a movable sliding block 45.

In the embodiment, the skillfully designed transportation structure of the moving belt conveyor 4 is characterized in that a plurality of trays 41 are arranged on a belt 43 of the belt conveyor 4, and one side of each tray 41 is rotatably connected with the belt 43; the photovoltaic panels are placed on the tray 41, the tray 41 is driven by the belt 43 to be transported upwards, the photovoltaic panels are taken down at the uppermost end of the belt conveyor 4, and the photovoltaic panels can be rapidly transported to the designated height in batches; the lower end of the tray 41 is provided with an inverted trapezoid limiting block 42, when the belt 43 drives the tray 41 to ascend, the tray 41 is limited to be in a horizontal position, the photovoltaic panel is prevented from falling from the tray 41, and when the tray 41 runs to the back of the belt conveyor 4, the tray 41 is not fixed by the limiting block 42 and naturally sags; the fixed rod and the telescopic rod 2 on the movable trolley 1 are connected with the transmission shaft 46 of the belt conveyor 4 to provide support for the belt conveyor 4, the telescopic rod 2 is controlled to stretch and retract through the hydraulic device, and the inclination angle of the belt conveyor 4 can be changed, so that the transport height of the photovoltaic panel is changed.

In this embodiment, a controller and a power module 12 are further provided, the controller is connected with the hydraulic device and the driving device, specifically, the controller is a PLC controller, so that the driving device and the hydraulic device can be conveniently connected through pins of a controller chip, and the power module 12 provides electric energy for the controller, the driving device and the hydraulic device; the driving device comprises a driving motor, and the driving motor drives a transmission shaft 46 of the belt conveyor 4 to rotate so as to drive the belt 43 to run; the hydraulic device comprises a motor, an oil pump, a hydraulic control valve and an oil cylinder, wherein the oil cylinder is connected with the telescopic rod 2, the controller controls the motor to rotate, the motor is connected with the oil pump, the hydraulic control valve is connected with the controller, the oil cylinder is connected with the hydraulic control valve, the controller controls the motor to rotate positively and negatively, so that the oil pump outputs pressure oil, the pressure oil is sent to the oil cylinder through the hydraulic control valve, and the oil cylinder drives the telescopic rod 2 to reciprocate in a piston mode, so that the telescopic rod 2 is controlled to stretch. The controller is arranged, so that the lifting of the telescopic rod 2 is conveniently controlled by controlling the hydraulic device, and the inclination angle of the belt conveyor 4 is changed; the belt conveyor 4 is conveniently controlled to operate by controlling the driving device.

In this embodiment, the controller is further connected with a wireless communication module, and the wireless communication module is connected with an external terminal. Specifically, the wireless communication module can adopt bluetooth module, connects external terminal through bluetooth module, and when being convenient for use, sends the instruction to the controller through external terminal.

In this embodiment, the upper end four corners of the tray 41 are fixed with L-shaped stoppers 47, and the photovoltaic panel is placed in the middle of the L-shaped stoppers 47. Specifically, the L-shaped stop block 47 is made of rubber, and is prevented from being in rigid contact with the photovoltaic panel to cause damage. An L-shaped stop block 47 is arranged to fix the position of the photovoltaic panel placed on the tray 41, so that the transportation stability of the photovoltaic panel is further ensured.

In this embodiment, the movable slider 45 protrudes from the left and right sides of the belt conveyor 4, specifically, the movable slider 45 is in a transverse cylindrical shape, the diameter of the movable slider is the same as that of the transmission shaft 46, two ends of the movable cavity 44 are arc-shaped, the arc shape of the movable slider 45 is the same as that of the movable slider 45, when the movable slider 45 contacts the movable cavity 44, the loss of the cavity wall of the movable cavity 44 is reduced, the movable slider 45 is limited in a certain area by the movable cavity 44, and lateral pressure is provided for the movable slider 45, so that the movable slider 45 can be fixed in the movable cavity 44; the both sides of the outstanding belt feeder 4 in both ends of movable slide block 45, the lower extreme in the position of outstanding belt feeder 4 is fixed with first U type frame 3, and the lower extreme of first U type frame 3 is fixed with the upper end of telescopic link 2, and the upper end of first U type frame 3 is circular-arc, and the contact position shape with movable slide block 45 is the same, is convenient for fix. The first U-shaped frame 3 is arranged to provide space for normal operation of the tray 41 on the belt 43, and the tray 41 cannot collide with the second U-shaped frame 5 when passing through the position of the first U-shaped frame 3, and meanwhile, support is provided for the belt conveyor 4.

In the embodiment, two ends of the shaft core of the transmission shaft 46 at the leftmost side of the belt conveyor 4 are sleeved with bearing blocks 51, and the inner wall of each bearing block 51 is fixed with the shaft core of the transmission shaft 46; the lower end supports of the two bearing seats 51 are fixedly connected with a second U-shaped frame 5, and the lower ends of the second U-shaped frames 5 are fixed with the upper ends of the fixed columns 6. The second U-shaped frame 5 is arranged to provide space for normal operation of the tray 41 on the belt 43, and the tray 41 cannot collide with the second U-shaped frame 5 when passing through the position of the second U-shaped frame 5, and meanwhile, support is provided for the belt conveyor 4.

In the embodiment, a plurality of control keys 11 are fixed on the surface of the mobile trolley 1, and pins of the control keys 11 are connected with a controller; the control key 11 includes a traveling carriage 1 forward key, a traveling carriage 1 stop key, a traveling carriage 1 backward key, a telescopic rod 2 up key, a telescopic rod 2 down key, a telescopic rod 2 stop key, a belt conveyor 4 start key, and a belt conveyor 4 stop key. The control keys 11 are provided to facilitate control of the driving means and the hydraulic means thereof by the control keys 11.

In this example, since there are two types of 60 and 72 solar photovoltaic panels, the sizes thereof are 1.65m×0.991 and 1.956m×0.991, respectively. The size of the tray 41 is set to 2×1m in this embodiment to satisfy the sizes of the photovoltaic panels of the two types described above.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the claims, but rather to cover all equivalent modifications within the scope of the present utility model as defined by the appended claims.

Claims

1. A photovoltaic panel conveying device comprises a movable trolley and a belt conveyor; the belt feeder includes a plurality of transmission shafts, drive arrangement and covers the belt at the transmission shaft, and drive arrangement drives the transmission shaft and rotates its characterized in that:

The device also comprises a plurality of trays, a plurality of thin rods are fixed on the belt, one side of each tray is sleeved on each thin rod and is rotationally connected with the belt, and an inverted trapezoid limiting block is fixed on the lower bottom surface of each tray;

2. A photovoltaic panel transportation apparatus according to claim 1, wherein: the hydraulic control system further comprises a controller and a power supply module, wherein the power supply module provides electric energy for the controller, the driving device and the hydraulic device, and the controller is connected with the hydraulic device and the driving device.

3. A photovoltaic panel transportation apparatus according to claim 2, characterized in that: the controller is also connected with a wireless communication module, and the wireless communication module is connected with an external terminal.

4. A photovoltaic panel transportation apparatus according to claim 1, wherein: l-shaped stop blocks are fixed at four corners of the upper end of the tray, and a photovoltaic panel is placed in the middle of each L-shaped stop block.

5. A photovoltaic panel transportation apparatus according to claim 1, wherein: the movable sliding block protrudes out of the left side and the right side of the belt conveyor, a first U-shaped frame is fixed at the lower end of the position of the movable sliding block protruding out of the belt conveyor, and the lower end of the first U-shaped frame is fixed with the telescopic rod.

6. A photovoltaic panel transportation apparatus according to claim 1, wherein: bearing seats are sleeved at two ends of a shaft core of a transmission shaft at the leftmost side of the belt conveyor, the lower ends of the two bearing seats are fixedly connected with a second U-shaped frame, and the lower end of the second U-shaped frame is fixed with the upper end of the fixed column.

7. A photovoltaic panel transportation apparatus according to claim 2, characterized in that: the surface of the mobile trolley is fixedly provided with a plurality of control keys, and pins of the control keys are connected with the controller.