CN220641573U - Frock is carried in direction of photovoltaic board production - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic conveying, and particularly relates to a photovoltaic panel production guiding conveying tool, which comprises the following components: the upper output belt, the middle output belt and the lower output belt are longitudinally distributed at intervals, a group of middle-lower transmission switching frames are arranged between the input belt and the middle output belt in a contact mode, a group of middle-lower transmission switching plates are arranged in the middle-lower transmission switching frames in a swinging mode, a control mechanism for controlling the middle-lower transmission switching plates to swing in an arc mode inside the middle-lower transmission switching frames is connected to the bottoms of the middle-lower transmission switching plates, a group of horizontal top plates are arranged right above the middle-lower transmission switching frames, a group of upper swing guide plates are arranged on the lower sides of the top plates in a swinging mode, lifting mechanisms are arranged on one sides, close to the direction of the input belt, of the top plates, a plurality of transmission paths are formed through automatic guiding of the tool, classification transmission functions are provided for the photovoltaic plates, and the application range of the device is fully improved.

Description

Frock is carried in direction of photovoltaic board production

Technical Field

The utility model belongs to the technical field of photovoltaic conveying, and particularly relates to a photovoltaic panel production guiding conveying tool.

Background

Along with the rapid development of economy and technological progress in various areas, new energy technology is mature and the application market is wide, and the new energy photovoltaic panel has a plurality of steps, processes and flows in the production process, when a plurality of processing operations are required to be carried out on the new energy photovoltaic panel, the new energy photovoltaic panel needs to be carried out through a conveying device with a whole row function, so that the new energy photovoltaic panel can be conveniently and well prepared and processed.

The prior patent application number is: 2021103369573 it discloses a frock is carried in direction of photovoltaic board production, including supporting platform, supporting platform's one side slope rotates and is provided with climbing conveyor, still is equipped with the feeding conveyor who links up with climbing conveyor on the supporting platform, is equipped with the guider who carries out the direction placed in middle to the photovoltaic board on the supporting platform, still is equipped with buffering correction mechanism on the guider. The device solves the problem that the photovoltaic panel cannot be converted from a low position to a high position for conveying, and the stability of the photovoltaic panel in the conveying process cannot be ensured; the guide conveying of the photovoltaic panels with different specifications cannot be realized, and the phenomenon that corners of the photovoltaic panels are broken easily occurs to influence the quality of products; however, after analysis of the device, the safety of photovoltaic transmission and the transmission and transfer between high and low positions are only increased when the photovoltaic panel is transmitted, but in the actual transmission process, the photovoltaic panel is matched with detection when being transferred, the quality of the transmitted photovoltaic panel is detected, and then the photovoltaic panel is classified and transmitted according to different paths according to the detection result, but the device does not have the function of guiding the photovoltaic panel in a classified and transfer way, so that the device has certain limitation in use;

therefore, in view of the above problems, the present application designs a new photovoltaic panel production guiding and conveying tool.

Disclosure of Invention

The embodiment of the utility model aims to provide a guide conveying tool for photovoltaic panel production, and aims to solve the problems.

The utility model is realized in such a way that a photovoltaic panel production guiding and conveying tool comprises: an input belt, an upper output belt, a middle output belt, and a lower output belt; the upper output belt, the middle output belt and the lower output belt are longitudinally distributed at intervals, the input belt is arranged at the same height of the middle output belt and positioned at the front side of the middle output belt and is used for transferring the initial transmission photovoltaic panel towards the upper output belt, the middle output belt and the lower output belt, a group of middle-lower transmission switching frames are arranged between the input belt and the middle output belt in a contact mode, a group of middle-lower transmission switching plates are arranged in the middle-lower transmission switching frames in a swinging mode, the bottom of each middle-lower transmission switching plate is connected with a control mechanism for controlling the arc swinging of the middle-lower transmission switching plates in the middle-lower transmission switching frames, when the middle-lower transmission switching plates are driven by the control mechanism to be transferred to the middle-lower transmission switching frames, at the moment, a middle conveying channel is formed by the input belt, the middle-lower transmission switching frames and the middle output belt, when the middle-lower transmission switching plates are driven by the control mechanism to be transferred to the lower part of the middle-lower transmission switching frames, the middle-lower transmission switching frames are in an opening state, at this time, the input belt, the middle-lower transmission switching frame and the lower output belt form a lower conveying channel, a group of horizontal top plates are arranged right above the middle-lower transmission switching frame, a group of upper swing guide plates are arranged on the lower side of the top plates in a swinging manner, a lifting mechanism is arranged on one side, close to the direction of the input belt, of the top plates, the lifting mechanism is used for controlling the end parts of the upper swing guide plates towards one side of the input belt to swing, and when the end parts of the upper swing guide plates are inclined downwards to be in contact with the upper surface of the input belt, the upper conveying channel of the input belt, the upper swing guide plates and the upper conveying channel of the upper output belt are formed at this time, so that under the action of the control mechanism and the lifting mechanism, the photovoltaic plates on the input belt are controlled to be output in different paths according to guiding requirements.

According to the photovoltaic panel production guiding and conveying tool, the upper output belt, the middle output belt and the lower output belt are longitudinally arranged at the output end of the input belt, meanwhile, the middle and lower transmission switching frames, the middle and lower transmission switching plates and the upper swing guide plates are arranged between the input belt and the upper output belt, the middle output belt and the lower output belt, the photovoltaic panel is guided to move towards different paths, the lifting mechanism and the control mechanism are arranged among the upper swing guide plates, the middle and lower transmission switching frames and the middle and lower transmission switching plates, the output end of the input belt is controlled to be connected with the upper swing guide plates, the middle and lower transmission switching frames are controlled to be connected with the middle and lower transmission switching frames or fall along the middle and lower transmission switching frames, so that the photovoltaic panel is automatically guided to different conveying directions, and the automatic classifying and conveying efficiency of the photovoltaic panel is fully improved.

Drawings

Fig. 1 is a schematic perspective view of a guiding and conveying tool for photovoltaic panel production.

Fig. 2 is a schematic diagram of a front view structure of a guiding and conveying tool for photovoltaic panel production.

Fig. 3 is a schematic top view of a guiding and conveying tool for photovoltaic panel production.

Fig. 4 is an enlarged schematic view of the structure of fig. 2 a.

Fig. 5 is an enlarged schematic view of the structure B in fig. 1.

In the accompanying drawings: the conveying tool base 10, the input belt 11, the upper output belt 12, the middle output belt 13, the lower output belt 14, the bracket 15, the top plate 16, the supporting rod 17, the rotating shaft 18, the upper swing guide plate 19, the connecting column 20, the winding motor 21, the winding wheel 22, the winding rope 23, the middle and lower transmission switching frame 24, the middle and lower transmission switching plate 25, the first swing rod 26, the second swing rod 27, the swing bolt frame 28, the rotating wheel 29, the air cylinder 30, the rotating rod 31 and the mounting plate 32.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1-3, a structure diagram of a guiding and conveying tool for producing a photovoltaic panel according to an embodiment of the present utility model includes: an input belt 11, an upper output belt 12, a middle output belt 13, a lower output belt 14; the upper output belt 12, the middle output belt 13 and the lower output belt 14 are longitudinally distributed at intervals, the input belt 11 is arranged at the same height of the middle output belt 13 and positioned at the front side of the middle output belt 13 and is used for transferring the initial transmission photovoltaic panel towards the upper output belt 12, the middle output belt 13 and the lower output belt 14, a group of middle-lower transmission switching frames 24 are arranged between the input belt 11 and the middle output belt 13 in a contact mode, a group of middle-lower transmission switching plates 25 are arranged in the middle-lower transmission switching frames 24 in a swinging mode, a control mechanism for controlling arc swinging of the middle-lower transmission switching plates 25 in the middle-lower transmission switching frames 24 is connected to the bottoms of the middle-lower transmission switching plates 25, when the middle-lower transmission switching plates 25 are driven to be transferred into the middle-lower transmission switching frames 24 through the control mechanism, at the moment, the middle-lower transmission switching plates 25 are driven to form a middle conveying channel by the control mechanism to be transferred to the lower part of the middle-lower transmission switching frames 24, the inside of the middle and lower transmission switching frame 24 is in an open state, at this time, the input belt 11, the middle and lower transmission switching frame 24 and the lower output belt 14 form a lower conveying channel, a group of horizontal top plates 16 are arranged right above the middle and lower transmission switching frame 24, a group of upper swing guide plates 19 are arranged on the lower side of the top plates 16 in a swinging manner, a lifting mechanism is arranged on one side of the top plates 16 close to the direction of the input belt 11 and used for controlling the end part of the upper swing guide plates 19 towards one side of the input belt 11 to swing, when the end part of the upper swing guide plates 19 is inclined downwards to be in contact with the upper surface of the input belt 11, at this time, the upper conveying channels of the input belt 11, the upper swing guide plates 19 and the upper output belt 12 are formed, thereby, the upper swing guide plates 19 are matched with the middle and lower output belt 13 and the lower output belt 14 through the input belt 11, the middle and lower transmission switching frame 24 under the action of the control mechanism and the lifting mechanism, the photovoltaic panels on the control input tape 11 are sorted according to the guiding requirements and output in different paths.

In the embodiment of the utility model, the input belt 11, the upper output belt 12, the middle output belt 13 and the lower output belt 14 are supported and fixed on the top of the conveying tool base 10 through the brackets 15, and meanwhile, two sides of the top plate 16 and the middle lower transmission switching frame 24 are also fixed on the conveying tool base 10 through the middle lower transmission switching plates 25, so that the photovoltaic panels transferred to the upper swing guide plate 19 and the middle lower transmission switching plates 25 can be smoothly and backwardly transmitted to the upper output belt 12, the middle output belt 13 and the lower output belt 14, namely, the lengths of the upper swing guide plate 19 and the middle lower transmission switching plates 25 are smaller than those of the photovoltaic panels, namely, one ends of the photovoltaic panels are always positioned on the input belt 11, the upper output belt 12, the middle output belt 13 and the lower output belt 14, namely, under the driving of the corresponding input belt 11, the upper output belt 12, the middle output belt 13 and the lower output belt 14, and are in a self-moving state;

specifically, in order to keep the end of the upper swing guide plate 19 placed on the input belt 11, the photovoltaic panel can be smoothly transferred onto the upper swing guide plate 19 under the driving of the input belt 11, and the end of the upper swing guide plate 19 is set to be an inclined surface structure; meanwhile, two sides of the other end of the upper swing guide plate 19 are connected with a supporting rod 17 in an upward rotating way through a rotating shaft 18, the top end of the supporting rod 17 is fixed on a top plate 16, namely, the supporting rod 17 and the rotating shaft 18 are in rotating connection with one end of the upper swing guide plate 19, and then a lifting mechanism is matched, so that the upper swing guide plate 19 is stably controlled to swing along the rotating shaft 18;

referring to fig. 5, the lifting mechanism includes a connecting post 20 installed at two ends of one side of the upper swing guide plate 19 facing the input belt 11, a winding rope 23 is connected to the connecting post 20, a winding wheel 22 is windingly connected to the top of the winding rope 23, one end of the winding wheel 22 is connected to a winding motor 21 fixed on the top plate 16, the winding motors 21 on two sides synchronously operate, i.e. control the winding wheel 22 to rotate, thereby controlling the winding layer number of the winding rope 23 placed on the winding wheel 22, and thus controlling the upper swing guide plate 19 to swing around the rotation shaft 18.

In one example of the utility model, referring to fig. 1, 2 and 4, the control mechanism comprises a mounting plate 32 mounted on one side facing to the input belt 11, a first swinging rod 26, a second swinging rod 27 and a first swinging rod 26 are respectively rotatably connected between one side of the middle lower transmission switching plate 25 and the mounting plate 32, the second swinging rod 27 is used for controlling the middle lower transmission switching plate 25 to be arranged in the middle lower transmission switching frame 24 to move, a swinging bolt frame 28 is downwardly mounted on one side of the second swinging rod 27 far away from the middle lower transmission switching plate 25, a rotating wheel 29 is rotatably connected to the end of the swinging bolt frame 28, an air cylinder 30 is rotatably connected to one side of the rotating wheel 29 far away from the middle lower transmission switching plate 25, the end of the air cylinder 30 is rotatably connected with a supporting rod with the top end fixed at the bottom of the mounting plate 32 through a rotating rod 31, namely the rotating rod 31 is started to control the expansion and contraction of the same, then the swinging bolt frame 28 is synchronously driven to swing, thereby the first swinging rod 26 and the swinging rod 27 are driven to synchronously swing, and further the middle lower transmission switching plate 25 of the end of the swinging rod 26 and the swinging rod 27 are controlled to swing inside and outside the middle lower transmission switching frame 24 to perform arc track swinging, thereby controlling the middle lower transmission switching plate 24, and the end of the middle lower transmission switching plate 24 to realize opening and closing of the upper and closing of the output belt 11 and the output belt 14;

specifically, in order to maintain stable and safe falling of the photovoltaic panel falling along the middle-lower transfer switching frame 24 while transferring the photovoltaic panel onto the lower output belt 14, a cushion pad is laid on the outer surface of the lower output belt 14 for safely buffering the photovoltaic panel falling from the middle-lower transfer switching frame 24.

In the above embodiment of the present utility model, a guiding and conveying tool for producing a photovoltaic panel is provided, the photovoltaic panel to be conveyed is placed on an input belt 11, then is detected, analyzed and processed by a detecting device on the input belt 11, and then is conveyed according to a detected result, when the photovoltaic panel is required to be classified and conveyed according to the detected result, according to a pre-conveying path requirement, when the photovoltaic panel is conveyed to an output end portion of the input belt 11, if the photovoltaic panel is conveyed upwards towards the upper output belt 12, a winding motor 21 is started to drive a winding rope 23 to descend, then an end portion of an upper swing guide plate 19 is contacted with an upper surface of an output end portion of the input belt 11, at this time, the photovoltaic panel is conveyed to an upper output belt 12 along the upper swing guide plate 19, if the photovoltaic panel is required to be conveyed by a middle output belt 13, at this time, the upper swing guide plate 19 is lifted, and the middle lower transmission switch plate 25 is stored in the middle lower transmission switch frame 24, the photovoltaic panel is directly conveyed along the input belt 11, the middle lower transmission switch frame 24 and the middle output belt 13, when the photovoltaic panel is required to be conveyed by the lower output belt 14, if the photovoltaic panel is required to be conveyed by the middle output belt 14, a cylinder 30 is started to shrink, and then the swing rod 26 and the swing rod 27 is controlled to drive the middle lower transmission switch plate 25 to the lower transmission frame 24 to fall along the middle lower transmission frame 24 and then to the lower transmission frame 24 along the inside the upper transmission frame and the lower transmission frame 14 when the photovoltaic panel is required to turn down.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. Frock is carried in photovoltaic board production direction, a serial communication port, frock is carried in photovoltaic board production direction includes: an input belt (11), an upper output belt (12), a middle output belt (13) and a lower output belt (14); go up output area (12), well output area (13), lower output area (14) longitudinal interval distribution, input area (11) are arranged in output area (13) the same height and are located in output area (13) front side, contact between input area (11) and well output area (13) is provided with a set of well lower transmission switch board (24), the inside swing of well lower transmission switch board (24) is provided with a set of well lower transmission switch board (25), well lower transmission switch board (25) bottom is connected with the control mechanism of its inside arc swing at well lower transmission switch board (24), be provided with a set of horizontally roof (16) directly over well lower transmission switch board (24), roof (16) downside swing is provided with a set of upper swing deflector (19), one side that roof (16) are close to input area (11) direction is provided with hoisting mechanism.

2. The photovoltaic panel production guide conveying tool according to claim 1, wherein the inlet belt (11), the upper output belt (12), the middle output belt (13) and the lower output belt (14) are supported and fixed on the top of the conveying tool base (10) through brackets (15), and the two sides of the top plate (16) and the middle-lower conveying switching frame (24) are also fixed on the conveying tool base (10) through middle-lower conveying switching plates (25).

3. The photovoltaic panel production guide conveying tool according to claim 2, wherein the lengths of the upper swing guide plate (19) and the middle-lower transmission switching plate (25) are smaller than the length of the photovoltaic panel.

4. A photovoltaic panel production guide conveying tool according to claim 3, wherein the end part of the upper swing guide plate (19) is provided with an inclined surface structure, two sides of the other end of the upper swing guide plate (19) are connected with a supporting rod (17) in an upward rotating manner through a rotating shaft (18), and the top end of the supporting rod (17) is fixed on the top plate (16).

5. The photovoltaic panel production guide conveying tool according to claim 4, wherein the lifting mechanism comprises connecting columns (20) arranged at two ends of one side, facing the input belt (11), of the upper swing guide plate (19), winding ropes (23) are connected to the connecting columns (20), winding wheels (22) are connected to the tops of the winding ropes (23) in a winding mode, and winding motors (21) fixed to the top plate (16) are connected to one ends of the winding wheels (22).

6. The photovoltaic panel production guide conveying tool according to claim 5, wherein the control mechanism comprises a mounting plate (32) arranged on one side facing the input belt (11), a swing rod I (26) is rotatably connected between one side of the middle-lower transmission switching plate (25) and the mounting plate (32), a swing rod II (27) and the swing rod I (26), a swing bolt frame (28) is downwards arranged on one side, far away from the middle-lower transmission switching plate (25), of the swing rod II (27), a rotating wheel (29) is rotatably connected to the end part of the swing bolt frame (28), a cylinder (30) is connected to one side, far away from the middle-lower transmission switching plate (25), of the rotating wheel (29), and a supporting rod with the top end fixed at the bottom of the end of the mounting plate (32) is rotatably connected to the end part of the cylinder (30) through a rotating rod (31).