CN222409945U - Follow-up flap equipment - Google Patents

Abstract

The application discloses a follow-up panel turnover device which is used for overturning a photovoltaic module, and comprises a frame, a follow-up mechanism, a traversing mechanism, a rotary lifting mechanism and a clamping jaw mechanism, wherein the follow-up mechanism is supported by the frame and comprises a first transmission piece, and the first transmission piece has a movement degree of freedom relative to the frame and along a first direction; the transverse moving mechanism is connected to the first transmission piece and comprises a second transmission piece, the second transmission piece is provided with a moving degree of freedom relative to the frame and along a second direction, the second direction is perpendicular to the first direction, the rotary lifting mechanism is connected to the second transmission piece and comprises a third transmission piece, the third transmission piece is provided with a moving degree of freedom relative to the frame and along a third direction, the third direction is perpendicular to the first direction and the second direction respectively, the clamping jaw mechanism is connected with the third transmission piece in a rotating mode, a rotating axis of the clamping jaw mechanism extends along the first direction, and the clamping jaw mechanism is used for clamping the photovoltaic module. Through the arrangement, the working efficiency of the follow-up panel turnover equipment can be improved.

Description

Follow-up panel turnover equipment

Technical Field

The application relates to the technical field of battery processing, in particular to follow-up panel turnover equipment.

Background

At present, when photovoltaic module production is carried out, the turnover work of the module is needed to be carried out by using a turnover machine, so as to help the work of processing production.

The existing panel turnover equipment cannot carry out follow-up operation, and is not suitable for integration on a follow-up line after the photovoltaic module is stopped, so that the working efficiency of the panel turnover equipment is reduced.

Disclosure of utility model

In order to solve the defects in the prior art, the application aims to provide follow-up panel turnover equipment with higher working efficiency.

In order to achieve the above purpose, the present application adopts the following technical scheme:

The follow-up panel turnover device is used for overturning a photovoltaic module and comprises a frame, a follow-up mechanism, a traversing mechanism, a rotary lifting mechanism and a clamping jaw mechanism, wherein the follow-up mechanism is supported by the frame and comprises a first transmission piece, and the first transmission piece has a moving degree of freedom relative to the frame and along a first direction; the transverse moving mechanism is connected to the first transmission piece and comprises a second transmission piece, the second transmission piece is provided with a moving degree of freedom relative to the frame and along a second direction, and the second direction is perpendicular to the first direction; the rotary lifting mechanism is connected with the second transmission part and comprises a third transmission part, wherein the third transmission part is provided with a degree of freedom of movement relative to the frame and along a third direction, and the third direction is perpendicular to the first direction and the second direction respectively;

The rotary lifting mechanism further comprises a rotary motor and a rotary power mounting plate which are fixedly connected with the third transmission piece, the rotary motor is in transmission connection with the rotary power mounting plate and drives the rotary power mounting plate to rotate, wherein the traversing mechanism is fixedly connected with the first transmission piece, the clamping jaw mechanism is fixedly connected with the rotary power mounting plate, and when the following motor and the rotary motor work, the following mechanism drives the traversing mechanism and the rotary lifting mechanism to move, and the clamping jaw mechanism rotates and synchronously moves along with the rotary lifting mechanism.

The servo plate turnover device comprises a frame, a first driving part, a second driving part, a transverse moving plate, a first driving mechanism, a second driving part, a first driving part, a second driving part and a servo motor.

Further, the follow-up mechanism comprises a synchronizing block fixedly connected with the first transmission piece, the traversing mechanism comprises a traversing block fixedly connected with the traversing plate, and the synchronizing block is detachably connected with the traversing block through a fastener.

Further, the rotary lifting mechanism further comprises a vertical column extending along a third direction, the third transmission piece is connected to the vertical column, the upper end of the vertical column is connected with the second transmission piece, and the third transmission piece can drive the rotary motor and the rotary power mounting plate to move along the third direction.

Further, the third transmission piece extends along the third direction and comprises a vertical sliding rail, a lifting motor and a lifting sliding plate, the lifting motor is fixedly connected with the vertical sliding rail and is in transmission connection with the lifting sliding plate, the lifting sliding plate is in sliding connection with the vertical sliding rail, and the lifting motor drives the lifting sliding plate to move along the third direction.

Further, the rotating motor is fixedly connected to the lifting slide plate, the rotating power rotating plate is connected to the lifting slide plate through the rotating motor, and the lifting slide plate can drive the rotating motor and the rotating power mounting plate to move along a third direction.

Further, the traversing mechanism comprises a traversing motor in transmission connection with the second transmission piece, the vertical column is fixedly connected with the second transmission piece, and the traversing motor drives the vertical column and the second transmission piece to move along the second direction.

Further, the upper end of the transverse moving plate is provided with a longitudinal rail extending along the second direction and a guide rail sliding block in sliding connection with the longitudinal rail, the upper end of the vertical column is fixedly connected with the guide rail sliding block and moves synchronously with the guide rail sliding block, the upper end of the vertical column is provided with a connecting plate, the upper end of the connecting plate is connected with the second transmission piece, and the lower end of the connecting plate is connected with the guide rail sliding block.

Further, the clamping jaw mechanism comprises a clamping jaw support and a clamping jaw block, wherein the clamping jaw support is fixedly connected with the rotary power mounting plate, and the clamping jaw block is connected to one end, far away from the rotary power mounting plate, of the clamping jaw support.

Above-mentioned follow-up panel turnover equipment can make follow-up mechanism, sideslip mechanism, rotatory elevating system and clamping jaw mechanism can synchronous operation to make photovoltaic module realize the synchronous motion of a plurality of directions, photovoltaic module can overturn and translation go on in step promptly, thereby is favorable to shortening photovoltaic module's process time, in order to improve photovoltaic module's process velocity, and then improved follow-up panel turnover equipment's work efficiency.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a follow-up panel turnover device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a follower base and a follower mechanism according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a lifting linear module according to an embodiment of the application.

Fig. 4 is a partial enlarged view of a portion a in fig. 1 according to an embodiment of the present application.

Fig. 5 is a partial schematic view of a traversing mechanism according to an embodiment of the present application.

Fig. 6 is a partial schematic view of a jaw mechanism according to an embodiment of the application.

Detailed Description

In order to make the present application better understood by those skilled in the art, the technical solutions in the specific embodiments of the present application will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present application.

Fig. 1 shows a follow-up flap arrangement 100, which follow-up flap arrangement 100 comprises a frame 11, a follow-up mechanism 12, a traversing mechanism 13, a rotary lifting mechanism 14 and a jaw mechanism 15. The frame 11 serves as a basic frame of the follow-up flap device 100 and is used for supporting the follow-up mechanism 12, the traversing mechanism 13, the rotary lifting mechanism 14 and the clamping jaw mechanism 15. The follower mechanism 12 is fixedly connected with the frame 11 and comprises a first transmission member 121, the first transmission member 121 has a degree of freedom of movement relative to the frame 11 along a first direction 201, and the first transmission member 121 is used for driving the traversing mechanism 13, the rotary lifting mechanism 14 and the clamping jaw mechanism 15 to move along the first direction 201. The traversing mechanism 13 is slidably connected to the frame 11, the traversing mechanism 13 is connected to the first transmission member 121 and includes a second transmission member 131, the second transmission member 131 has a degree of freedom of movement relative to the frame 11 along a second direction 202, the second direction 202 is perpendicular to the first direction 201, and the second transmission member 131 is configured to drive the rotary lifting mechanism 14 and the jaw mechanism 15 to move along the second direction 202. Specifically, the housing 11 is formed with an accommodating space 101 around, the rotary lifting mechanism 14 is located in the accommodating space 101 and is fixedly connected with the traversing mechanism 13, the rotary lifting mechanism 14 is connected to the second transmission member 131 and includes a third transmission member 141, the third transmission member 141 has a degree of freedom of movement relative to the housing 11 and along a third direction 203, the third direction 203 is perpendicular to the first direction 201 and the second direction 202, respectively, and the third transmission member 141 is used for driving the jaw mechanism 15 to move along the third direction 203. The clamping jaw mechanism 15 is located in the accommodating space 101 and is rotationally connected with the third transmission member 141, the rotation axis of the clamping jaw mechanism 15 extends along the first direction 201, and the clamping jaw mechanism 15 is used for clamping the photovoltaic module. Through the arrangement, the follow-up mechanism 12, the transverse moving mechanism 13, the rotary lifting mechanism 14 and the clamping jaw mechanism 15 can work simultaneously, so that the photovoltaic module can realize synchronous movement in multiple directions, namely, the photovoltaic module can turn over and translate synchronously, thereby being beneficial to shortening the processing time of the photovoltaic module, improving the processing speed of the photovoltaic module and further improving the working efficiency of the follow-up flap equipment 100. The first transmission member 121, the second transmission member 131, and the third transmission member 141 may be parts of a transmission belt, a hinge, a gear shaft, and the like that cooperate with each other. For clarity of description of the technical solution of the application, front, rear, left, right, up and down are also defined as shown in fig. 1. In the present application, the first direction 201 refers to the front-rear direction, the second direction 202 refers to the left-right direction, and the third direction 203 refers to the up-down direction.

As shown in fig. 2 and 3, as an implementation manner, the follower mechanism 12 includes a follower motor 122 fixedly connected to the frame 11, and the follower motor 122 is in driving connection with the first transmission member 121 and drives the first transmission member 121 to rotate. The rotary lifting mechanism 14 comprises a rotary motor 142 fixedly connected with the third transmission member 141 and a rotary power mounting plate 143, the rotary power mounting plate 143 is connected to the third transmission member 141 through the rotary motor 142, and the rotary motor 142 is in transmission connection with the rotary power mounting plate 143 and drives the rotary power mounting plate 143 to rotate. Wherein, sideslip mechanism 13 and first driving medium 121 fixed connection, clamping jaw mechanism 15 and rotatory power mounting panel 143 fixed connection, when follower motor 122 and rotating electrical machines 142 work, follower mechanism 12 drive sideslip mechanism 13 and rotatory elevating system 14 removal, clamping jaw mechanism 15 rotates and along with rotatory elevating system 14 synchronous motion. Through the arrangement, the photovoltaic module fixed on the clamping jaw mechanism 15 can synchronously rotate along with the clamping jaw mechanism 15 and synchronously move along with the rotary lifting mechanism 14, so that the follow-up turning plate is carried out on the photovoltaic module in the processing process of the photovoltaic module, the follow-up turning plate is suitable for follow-up operation, the working efficiency of the follow-up turning plate device 100 is improved, and the processing efficiency of the photovoltaic module is further improved.

It should be noted that, the follower motor 122 includes a servo motor 1221, a speed reducer 1222 and a coupling 1223, the servo motor 1221 is located above the speed reducer 1222 and is in transmission connection with the speed reducer 1222, the coupling 1223 is located at two sides of the speed reducer 1222 along the second direction 202 and is in transmission connection with the speed reducer 1222, and the first transmission member 121 is in transmission connection with the coupling 1223, so that the servo motor 1221 and the speed reducer 1222 drive the coupling 1223 and the first transmission member 121 to work. Wherein, the servo motor 1221, the speed reducer 1222 and the coupling 1223 are all connected to the servo base 111, so that the servo motor 1221, the speed reducer 1222 and the coupling 1223 can be supported by the servo base 111, and the working stability of the servo motor 1221, the speed reducer 1222 and the coupling 1223 is improved.

As shown in fig. 4, in the present embodiment, the follow-up flap device 100 includes at least two transverse rails 102 fixedly connected to the chassis 11, the transverse rails 102 extending in a first direction 201 and being distributed along a second direction 202. The traversing mechanism 13 includes a traversing plate 132 extending along a second direction 202, the lower end of the traversing plate 132 is slidably connected with the transverse rail 102, the first transmission member 121 is fixedly connected with the traversing plate 132, and the follower motor 122 drives the first transmission member 121 to rotate and drives the traversing plate 132 to slide on the transverse rail 102. Specifically, the transverse rail 102 is used for carrying the traversing mechanism 13, the rotary lifting mechanism 14 and the jaw mechanism 15, while the transverse rail 102 has a guiding function to move the traversing mechanism 13, the rotary lifting mechanism 14 and the jaw mechanism 15 along the first direction 201, so as to improve the operation stability of the traversing mechanism 13, the rotary lifting mechanism 14 and the jaw mechanism 15. In addition, the friction force between the transverse track 102 and the transverse moving plate 132 is smaller, so that the moving time of the transverse moving mechanism 13, the rotary lifting mechanism 14 and the clamping jaw mechanism 15 is reduced, and the moving speed of the follow-up flap device 100 is further improved.

As shown in fig. 2 and 5, the follower mechanism includes a synchronizing block 123 fixedly connected to the first transmission member 121, and the traverse mechanism 13 includes a traverse block 133 fixedly connected to the traverse plate 132, and the synchronizing block 123 is detachably connected to the traverse block 133 by a fastener. Specifically, the fastening member may be a connecting member such as a bolt to facilitate the mounting and dismounting of the synchronizing block 123 and the traverse block 133, thereby improving the assembly efficiency of the synchronizing block 123 and the traverse block 133. Meanwhile, when the first transmission member 121 is replaced due to abrasion, the synchronization block 123 and the traverse block 133 can be separated to quickly replace the first transmission member 121, so that the disassembly steps in the replacement process of the first transmission member 121 are reduced, and the assembly efficiency of the first transmission member 121 is improved.

As shown in fig. 3, as an implementation manner, the rotary lifting mechanism 14 further includes a vertical column 144 extending along the third direction 203, the third transmission member 141 is connected to the vertical column 144, and an upper end of the vertical column 144 is connected to the second transmission member 131, and the third transmission member 141 is capable of driving the rotary motor 142 and the rotary power mounting plate 143 to move along the third direction 203. Specifically, the third transmission member 141 is connected to the lower half portion of the vertical column 144, so that the third transmission member 141 is substantially located in the middle of the accommodating space 101, thereby avoiding interference with the frame 11 and the like during the overturning process of the photovoltaic module, and thus being beneficial to improving the safety during the working process of the follow-up flap device 100.

In the present embodiment, the third transmission member 141 extends along the third direction 203 and includes a vertical sliding rail 1411, a lifting motor 1412 and a lifting slide plate 1413, the lifting motor 1412 is fixedly connected with the vertical sliding rail 1411 and is in transmission connection with the lifting slide plate 1413, the lifting slide plate 1413 is slidingly connected with the vertical sliding rail 1411, and the lifting motor 1422 drives the lifting slide plate 1413 to move along the third direction 203. Specifically, the vertical sliding rail 1411 is fixedly connected with the vertical column 144, the lifting motor 1412 is located at the upper end of the vertical sliding rail 1411, and the lifting sliding plate 1413 is slidingly connected to the side of the vertical sliding rail 1411 away from the vertical column 144. By the arrangement, the lifting slide plate 1413 can be prevented from interfering with the vertical column 144, and the safety performance of the third transmission member 141 can be further improved.

Further, the rotating motor 142 is fixedly connected to the lifting slide plate 1413, the rotating power mounting plate 143 is connected to the lifting slide plate 1413 through the rotating motor 142, and the lifting slide plate 1413 can drive the rotating motor 142 and the rotating power mounting plate 143 to move along the third direction 203. Specifically, lift motor 1412 may be operable to move lift sled 1413 in third direction 203, thereby moving rotary motor 142 and rotary power mounting plate 143 in third direction 203. More specifically, the jaw mechanism 15 is coupled to the rotary power mounting plate 143 such that when the lift motor 1412 and the rotary motor 142 are operated simultaneously, the jaw mechanism 15 is rotated and moved in the third direction 203, thereby rotating the photovoltaic module and moving in the third direction 203. Through the above arrangement, the follow-up flap device 100 can realize various movements, thereby improving the functional diversity of the follow-up flap device 100.

As one implementation, the traversing mechanism 13 includes a traversing motor 134, the second transmission member 131 is in transmission connection with the traversing motor 134, the vertical column 144 is fixedly connected with the second transmission member 131, and the traversing motor 134 drives the vertical column 144 and the second transmission member 131 to move along the second direction 202. Specifically, the traversing motor 134 and the second transmission member 131 are located at the upper end of the frame 11, and because the photovoltaic modules have different specifications, the photovoltaic modules have different sizes, the position of the clamping jaw mechanism 15 is adjusted by driving the second transmission member 131 and the vertical column 144 through the traversing motor 134, so that the clamping of the photovoltaic modules with different specifications is realized, and the application range of the follow-up flap device 100 is further improved.

As shown in fig. 4, for example, the upper end of the traverse plate 132 is provided with a longitudinal rail 103 extending along the second direction 202 and a rail slider 104 slidably connected to the longitudinal rail 103, and the upper end of the vertical column 144 is fixedly connected to the rail slider 104 and moves synchronously with the rail slider 104. Specifically, the upper end of the vertical column 144 is provided with a connecting plate 1441, the upper end of the connecting plate 1441 is connected with the second transmission member 131, and the lower end of the connecting plate 1441 is connected with the guide rail slider 104, so that the vertical column 144 and the guide rail slider 104 are both connected to the second transmission member 131. Through the arrangement, the friction force between the longitudinal rail 103 and the guide rail sliding block 104 is small, so that the second transmission piece 131 can conveniently drive the vertical column 144 to move, and the working efficiency of the follow-up panel turnover equipment 100 can be improved.

As one implementation, the jaw mechanism 15 includes a jaw support 151 and a jaw block 152, where the jaw support 151 is fixedly connected to the rotary power mounting plate 143 and the jaw block 152 is connected to an end of the jaw support 151 remote from the rotary power mounting plate 143. Specifically, the clamping jaw block 152 is used for clamping the photovoltaic module, and the clamping jaw bracket 151 is used for supporting the clamping jaw block 152 and the photovoltaic module, so that stability of the photovoltaic module in the processing process is improved. In addition, the clamping jaw block 152 is connected with the clamping jaw bracket 151 through a fastener, so that the clamping jaw block 152 can be selectively arranged at different positions on the clamping jaw bracket 151 to match photovoltaic modules with different specifications, and the application range of the follow-up flap device 100 is further improved.

The clamping jaw bracket 151 may enable the purlin, the square tube and other structures of the aluminum alloy, so that the quality of the clamping jaw bracket 151 may be reduced, and the weight of the clamping jaw mechanism 15 may be reduced, and meanwhile, the clamping jaw block 152 may also be made of an aluminum alloy material, and the clamping jaw block 152 includes a first clamping jaw plate 1521, a second clamping jaw plate 1522 and a third clamping jaw plate 1523, where the first clamping jaw plate 1521, the second clamping jaw plate 1522 and the third clamping jaw plate 1523 are connected with each other, a clamping space 105 is formed between the first clamping jaw plate 1521, the second clamping jaw plate 1522 and the third clamping jaw plate 1523, and the photovoltaic assembly is at least partially abutted on the first clamping jaw plate 1521, the second clamping jaw plate 1522 and the third clamping jaw plate 1523, thereby being beneficial to improving the connection stability of the photovoltaic assembly and the clamping jaw block 152.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (10)

1. A follow-up flap device for turning over a photovoltaic module, the follow-up flap device comprising:

A frame;

A follower supported by the frame and including a first transmission member having a degree of freedom of movement relative to the frame and in a first direction;

The transverse moving mechanism is connected to the first transmission piece and comprises a second transmission piece, the second transmission piece has a moving degree of freedom relative to the frame and along a second direction, and the second direction is perpendicular to the first direction;

The rotary lifting mechanism is connected to the second transmission part and comprises a third transmission part, the third transmission part has a movement degree of freedom relative to the frame and along a third direction, and the third direction is perpendicular to the first direction and the second direction respectively;

The clamping jaw mechanism is rotationally connected with the third transmission piece, the rotation axis of the clamping jaw mechanism extends along the first direction, and the clamping jaw mechanism is used for clamping the photovoltaic module.

2. The follower flap device of claim 1, wherein the flap device comprises a plurality of flaps,

The servo mechanism further comprises a servo motor fixedly connected with the frame, the servo motor is in transmission connection with the first transmission piece and drives the first transmission piece to rotate, the rotary lifting mechanism further comprises a rotary motor and a rotary power mounting plate which are fixedly connected with the third transmission piece, the rotary motor is in transmission connection with the rotary power mounting plate and drives the rotary power mounting plate to rotate, the traversing mechanism is fixedly connected with the first transmission piece, the clamping jaw mechanism is fixedly connected with the rotary power mounting plate, and when the servo motor and the rotary motor work, the servo mechanism drives the traversing mechanism and the rotary lifting mechanism to move, and the clamping jaw mechanism rotates and moves synchronously along with the rotary lifting mechanism.

3. The follower flap device of claim 2, wherein the flap device comprises a plurality of flaps,

The follow-up panel turnover equipment comprises transverse tracks fixedly connected with at least two frames, wherein the transverse tracks extend along the first direction and are distributed along the second direction;

The transverse moving mechanism comprises a transverse moving plate extending along the second direction, the lower end of the transverse moving plate is in sliding connection with the transverse rail, the first transmission piece is fixedly connected with the transverse moving plate, and the follow-up motor drives the first transmission piece to rotate and drive the transverse moving plate to slide on the transverse rail.

4. The follower flap device of claim 3 wherein the flap device comprises a plurality of flaps,

The follow-up mechanism comprises a synchronizing block fixedly connected with the first transmission piece, the transverse moving mechanism comprises a transverse moving block fixedly connected with the transverse moving plate, and the synchronizing block is detachably connected with the transverse moving block through a fastener.

5. The follower flap device of claim 4 wherein the flap device is configured to control the position of the flap device,

The rotary lifting mechanism further comprises a vertical column extending along the third direction, the third transmission piece is connected to the vertical column, the upper end of the vertical column is connected with the second transmission piece, and the third transmission piece can drive the rotary motor and the rotary power mounting plate to move along the third direction.

6. The follower flap device of claim 5 wherein the flap device is configured to control the position of the flap device,

The third transmission piece extends along the third direction and comprises a vertical sliding rail, a lifting motor and a lifting sliding plate, wherein the lifting motor is fixedly connected with the vertical sliding rail and in transmission connection with the lifting sliding plate, the lifting sliding plate is in sliding connection with the vertical sliding rail, and the lifting motor drives the lifting sliding plate to move along the third direction.

7. The follower flap device of claim 6 wherein the flap device is configured to control the position of the flap device,

The rotating motor is fixedly connected to the lifting slide plate, the rotating power rotating plate is connected to the lifting slide plate through the rotating motor, and the lifting slide plate can drive the rotating motor and the rotating power mounting plate to move along the third direction.

8. The follower flap device of claim 6 wherein the flap device is configured to control the position of the flap device,

The transverse moving mechanism comprises a transverse moving motor, the transverse moving motor is in transmission connection with the second transmission piece, the vertical column is fixedly connected with the second transmission piece, and the transverse moving motor drives the vertical column and the second transmission piece to move along the second direction.

9. The follower flap device of claim 7 wherein the flap device is configured to control the position of the flap device,

The upper end of the transverse moving plate is provided with a longitudinal rail extending along the second direction and a guide rail sliding block in sliding connection with the longitudinal rail, and the upper end of the vertical column is fixedly connected with the guide rail sliding block and synchronously moves with the guide rail sliding block;

The upper end of the vertical column is provided with a connecting plate, the upper end of the connecting plate is connected with the second transmission piece, and the lower end of the connecting plate is connected with the guide rail sliding block.

10. The follower flap device of claim 6 wherein the flap device is configured to control the position of the flap device,

The clamping jaw mechanism comprises a clamping jaw support and a clamping jaw block, wherein the clamping jaw support is fixedly connected with the rotary power mounting plate, and the clamping jaw block is connected with one end, far away from the rotary power mounting plate, of the clamping jaw support.