CN219350285U - Battery cell positioning and fixing device convenient for taking and placing materials - Google Patents
Battery cell positioning and fixing device convenient for taking and placing materials Download PDFInfo
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- CN219350285U CN219350285U CN202223398933.XU CN202220398933U CN219350285U CN 219350285 U CN219350285 U CN 219350285U CN 202220398933 U CN202220398933 U CN 202220398933U CN 219350285 U CN219350285 U CN 219350285U
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Abstract
The utility model discloses a battery cell positioning and fixing device convenient for taking and placing materials, which comprises a battery cell placing mechanism, a battery cell unlocking mechanism and a battery cell positioning and pressing mechanism, wherein the battery cell positioning and pressing mechanism is arranged on the battery cell placing mechanism and comprises a pressing block and an installation sliding rod, the installation sliding rod is arranged on the battery cell placing mechanism in a sliding manner, and the pressing block is fixed at the end part of the installation sliding rod; the electric core unlocking mechanism comprises a shifting block arranged above the electric core positioning and compressing mechanism in a lifting mode, the shifting block can drive the installation sliding rod to slide on the electric core placing mechanism in a lifting mode, and the pressing block can loosen or clamp the electric core along with the sliding of the installation sliding rod. The utility model is used for positioning and fixing the battery cell, and can clamp the battery cell from the side surface of the battery cell to take and put materials, so that the battery cell can be taken and put materials more conveniently.
Description
Technical Field
The utility model relates to the technical field of battery cell production and processing equipment, in particular to a battery cell positioning and fixing device convenient for taking and placing materials.
Background
The battery core is a main structure of the power battery, and the charging and discharging functions can be realized through the battery core power battery. The production and processing of the battery cell comprise the steps of pole piece manufacture, diaphragm manufacture, shell manufacture, pole piece diaphragm insertion, tab bending and welding, and the like, wherein the tab bending and welding steps are required to fix the battery cell integrally, so that the tab of the battery cell can be further bent and welded. The prior battery cell fixing method mostly adopts a clamping and fixing mode to fix the battery cell, and the battery cell is clamped and fixed in the fixing groove through a fixing groove with the same shape and size as the battery cell, so that the battery cell is stably fixed, but the battery cell fixing mode only can fix the battery cell by absorbing the upper side surface of the battery cell through a vacuum chuck and the like when the space above the fixing groove is limited and can not be used for absorbing and fixing the battery cell, and even the battery cell is difficult to load and unload when the space above the fixing groove is limited and can not be used for absorbing and fixing the vacuum chuck and the like, for example, in a clamp for battery laser welding of patent document CN201410669838.X, the battery cell is positioned and fixed by concavely forming a positioning groove 10 for accommodating the battery cell through the upper end surface of a positioning jig 1, and the technical problem that the battery cell positioning and fixing jig has inconvenient battery cell loading and unloading and even difficult battery cell loading and unloading when the space above the fixing groove is limited and the like can not be used for absorbing and fixing the battery cell.
Disclosure of Invention
The utility model provides a battery cell positioning and fixing device which can solve the technical problems that a battery cell is positioned and fixed by a fixing groove, and the battery cell is inconvenient to load and unload or even difficult to load and unload when a vacuum chuck and the like cannot be used for adsorbing and fixing due to space limitation above the fixing groove.
In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a conveniently get electric core location fixing device of blowing, includes electric core placement mechanism, electric core unlocking mechanism and electric core location hold-down mechanism, electric core location hold-down mechanism sets up on electric core placement mechanism, electric core location hold-down mechanism includes briquetting and installation slide bar, installation slide bar slides and sets up on electric core placement mechanism, the tip at installation slide bar is fixed to the briquetting; the electric core unlocking mechanism comprises a shifting block arranged above the electric core positioning and compressing mechanism in a lifting mode, the shifting block can drive the installation sliding rod to slide on the electric core placing mechanism in a lifting mode, and the pressing block can loosen or clamp the electric core along with the sliding of the installation sliding rod.
Further, the battery cell positioning and compressing mechanisms are respectively arranged on three sides of the battery cell placing mechanism, the battery cell placing mechanisms on each side are at least provided with two groups of battery cell positioning and compressing mechanisms, the installation slide bars of the battery cell positioning and compressing mechanisms in each group are connected through connecting rods, and the shifting block lifting driving connecting rods move to drive the installation slide bars to slide on the battery cell placing mechanism; one side of the battery cell placing mechanism except for the battery cell positioning and pressing mechanism is provided with a stop block.
Furthermore, a slope structure is arranged on the shifting block, and the slope structure vertically lifts and drives the connecting rod to transversely move.
Further, a cam follower is arranged on the connecting rod, and the slope of the slope structure is abutted with the cam follower.
Further, each cell positioning and compressing mechanism comprises a compressing spring, and each pressing block is elastically connected to the cell placing mechanism through the compressing spring.
Further, the battery cell placing mechanism is provided with a mounting block, and the mounting sliding rod is arranged on the mounting block in a sliding manner and penetrates through the mounting block to be connected with the pressing block.
Further, a linear bearing is arranged in the mounting block, and the mounting sliding rod is slidably mounted on the mounting block through the linear bearing.
Further, the electric core unlocking mechanism further comprises a fixed seat, a lifting driving piece and a shifting block mounting piece, wherein the shifting block mounting piece is installed on the fixed seat in a lifting manner through the lifting driving piece, and each shifting block is arranged on the lower side of the shifting block mounting piece.
Further, the shifting block mounting piece is of a U-shaped frame-shaped structure.
Further, the shifting block mounting piece is slidably mounted on the lifting driving piece through a sliding rail structure.
The beneficial effects achieved by the utility model mainly comprise the following points: the battery cell positioning and fixing device comprises a battery cell placing mechanism and a battery cell positioning and pressing mechanism, wherein the battery cell positioning and pressing mechanism is arranged on the battery cell placing mechanism, and the battery cell can be positioned and fixed through the battery cell positioning and pressing mechanism when placed on the battery cell placing mechanism, so that the battery cell is stably positioned and fixed on the battery cell placing mechanism, and the battery cell is convenient to bend and weld the electrode lugs. The electric core unlocking mechanism comprises a shifting block arranged above the electric core positioning and compressing mechanism in a lifting manner, the shifting block can drive the installation sliding rod to slide on the electric core placing mechanism in a lifting manner, and the pressing block can be used for loosening or clamping the electric core along with the sliding of the installation sliding rod, so that the electric core can be loosened or clamped by moving the pressing block through the shifting block, the electric core is positioned and fixed more accurately in the electric core placing mechanism, and the positioning precision is higher. The mounting sliding rod at the outer side of the electric core unlocking mechanism is driven by the shifting block to move so as to realize that the pressing block loosens or clamps the electric core, the outer side of the electric core placing mechanism is of an open structure, the electric core can be fixed at the outer side of the electric core placing mechanism during feeding and discharging, the electric core is not required to be adsorbed and fixed at the upper side of the electric core by a vacuum chuck and the like to take and discharge, and the technical problem that the electric core is inconvenient to feed and discharge and even difficult to feed and discharge when the space limitation right above the electric core cannot be adsorbed and fixed by the vacuum chuck and the like is avoided.
Drawings
Fig. 1 is a schematic perspective view of the whole cell positioning and fixing device for conveniently taking and placing materials in an embodiment of the utility model;
fig. 2 is a schematic structural diagram of a cell positioning and pressing mechanism of a cell positioning and fixing device for conveniently taking and placing materials, which is installed on a cell placing mechanism in an embodiment of the utility model;
fig. 3 is a schematic perspective view of a cell positioning and pressing mechanism of a cell positioning and fixing device for conveniently taking and placing materials in an embodiment of the utility model;
fig. 4 is a schematic diagram of a transverse cross-sectional structure of a cell positioning and pressing mechanism of a cell positioning and fixing device for conveniently taking and placing materials in an embodiment of the utility model;
fig. 5 is a schematic perspective view of a core unlocking mechanism of a core positioning and fixing device for conveniently taking and placing materials in an embodiment of the utility model.
The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar components; the terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limiting the present patent.
Detailed Description
The present utility model will be described in further detail below with reference to the drawings and examples for the understanding of those skilled in the art.
Example 1
Referring to fig. 1-5, a battery cell positioning and fixing device convenient for taking and placing materials is used for positioning and fixing a battery cell, facilitates operations such as lug bending and welding of the battery cell, and the battery cell positioning and fixing device can fix the battery cell by pressing the battery cell outside through a movable pressing block and can clamp the battery cell from the side face of the battery cell to take and place materials, so that the battery cell taking and placing materials are more convenient. The cell positioning and fixing device convenient for taking and placing materials comprises a cell placing mechanism 1, a cell unlocking mechanism 3 and a cell positioning and pressing mechanism 2, wherein the cell placing mechanism 1 is a structure for supporting and placing a cell 5, the cell positioning and pressing mechanism 2 is a structure for fixing the cell 5 on the cell placing mechanism 1, and the cell unlocking mechanism 3 is a structure for opening or locking and fixing the cell positioning and pressing mechanism 2. The cell positioning and pressing mechanism 2 is arranged on the cell placement mechanism 1, so that the cell 5 can be positioned and fixed through the cell positioning and pressing mechanism 2 when placed on the cell placement mechanism 1, and the cell 5 can be stably positioned and fixed on the cell placement mechanism 1, so that the cell can be conveniently bent and welded with the tab. The cell positioning and compressing mechanism 2 comprises a pressing block 21 and a mounting sliding rod 22, the mounting sliding rod 22 is arranged on the cell placing mechanism 1 in a sliding mode, the pressing block 21 is fixed at the end portion of the mounting sliding rod 22, and accordingly the pressing block 21 can be driven to move to loosen or clamp the cell 5 through the sliding of the mounting sliding rod 22 on the cell placing mechanism 1. The cell positioning and pressing mechanism 2 is preferably provided with two parallel mounting slide bars 22, and each pressing block 21 is fixed at the inner side ends of the two parallel mounting slide bars 22, so that the pressing blocks 21 can be prevented from rotating to influence the positioning and fixing effects of the pressing blocks 21 on the cell 5. The electric core unlocking mechanism 3 comprises a shifting block 31 which is arranged above the electric core positioning and compressing mechanism 2 in a lifting manner, the shifting block 31 can drive the installation sliding rod 22 to slide on the electric core placing mechanism 1 in a lifting manner, the pressing block 21 can loosen or clamp the electric core along with the sliding of the installation sliding rod 22, and therefore the electric core can be loosened or clamped by moving the pressing block 21 through the shifting block 31, so that the electric core 5 is positioned and fixed more accurately in the electric core placing mechanism 1, and the positioning precision is higher. The shifting block 31 of the electric core unlocking mechanism 3 drives the installation slide bar 22 at the outer side position of the electric core 5 of the electric core placing mechanism 1 to move so as to realize that the pressing block 21 is used for loosening or clamping the electric core, the outer side of the electric core placing mechanism is of an open structure, the electric core can be fixed at the outer side position of the electric core placing mechanism during feeding and discharging, the electric core is not adsorbed and fixed at the upper side of the electric core by using a vacuum chuck and the like, and the technical problems that the electric core is inconvenient to feed and discharge and even the electric core is difficult to feed and discharge when the space limitation right above the electric core cannot be adsorbed and fixed by using the vacuum chuck and the like are avoided.
Referring to fig. 1 to 5, the cell positioning and compressing mechanisms 2 are respectively arranged on three sides of the cell placing mechanism 1, the cell placing mechanism 1 on each side is provided with at least two groups of cell positioning and compressing mechanisms 2, the installation slide bars 22 of the groups of cell positioning and compressing mechanisms 2 are connected through the connecting rod 4, and the shifting block 31 lifts and drives the connecting rod 4 to move so as to drive the installation slide bars 22 to slide on the cell placing mechanism 1; one side of the battery cell placing mechanism 1 except for the battery cell positioning and pressing mechanism 2 is provided with a stop block 11. Therefore, when the battery cell 5 is placed on the battery cell placement mechanism 1 and fixed in a positioning manner, the battery cell 5 can be initially positioned and fixed on one side of the battery cell tab through the stop block 11, and then the battery cell 5 is stably positioned and fixed on the battery cell placement mechanism 1 through the battery cell positioning and pressing mechanism 2 on the other three sides, so that the battery cell is convenient to bend and weld the battery tab. Each side of the battery cell placing mechanism 1 is provided with at least two groups of battery cell positioning and compressing mechanisms 2, so that each side of the battery cell 5 is clamped and fixed through at least two groups of battery cell positioning and compressing mechanisms 2, the battery cell 5 can be positioned and fixed on the battery cell placing mechanism 1 more stably, and the bending and welding precision of battery cell lugs is improved. The installation slide bars 22 of the battery cell positioning and compressing mechanisms 2 on each side of the battery cell placing mechanism 1 are connected together through the connecting rods 4, the shifting block 31 drives the connecting rods 4 to move so as to drive the installation slide bars 22 to slide on the battery cell placing mechanism 1, so that the battery cell positioning and compressing mechanisms 2 on each side of the battery cell placing mechanism 1 can synchronously act, the positioning and fixing precision of the battery cells 5 on the battery cell placing mechanism 1 is further improved, the battery cell positioning and compressing mechanisms 2 on each side of the battery cell placing mechanism 1 are driven by one lifting driving mechanism, the structure of the battery cell positioning and fixing device is simplified, the running stability of the battery cell positioning and fixing device is improved, and the cost of the battery cell positioning and fixing device is reduced.
Referring to fig. 1 and 2, the shifting block 31 is provided with a slope structure, and the slope structure vertically lifts to drive the connecting rod 4 to move transversely, so that the vertical displacement of the shifting block 31 is converted into the transverse displacement of the connecting rod 4, and the installation sliding rod 22 drives the pressing block 21 to move transversely along with the transverse movement of the connecting rod 4 to loosen or clamp the battery cell 5. The structure of the cell positioning and fixing device can be further simplified, the running stability of the cell positioning and fixing device is further improved, and the cost of the cell positioning and fixing device is further reduced by realizing that the pressing block 21 transversely moves to loosen or clamp the cell 5 through a simple structure.
Referring to fig. 1, 2 and 5, in order to reduce the friction force when the shifting block 31 drives the connecting rod 4 to move, the connecting rod 4 is provided with a cam follower 41, and the slope of the slope structure 311 is abutted against the cam follower 41, so that the sliding friction between the shifting block 31 and the connecting rod 4 can be changed into the rolling friction between the shifting block 31 and the cam follower 41, the friction force when the shifting block 31 drives the connecting rod 4 to move is reduced, and the running stability and the service life of the cell positioning and fixing device are improved.
Referring to fig. 1 to 5, when the cell positioning and fixing device for conveniently taking and placing materials in the embodiment works, firstly, the cell unlocking mechanism 3 moves downwards, the shifting block 31 of the cell unlocking mechanism 3 moves downwards to drive the connecting rod 4 to move outwards to drive the installation slide rod 22 to slide outwards on the cell placing mechanism 1, so that the pressing block 21 moves outwards; then the battery cell 5 is placed in the position between each pressing block 21 and the stop block 11 on the battery cell placing mechanism 1 through an external clamping jaw and the like, and the tab of the battery cell 5 is positioned on one side of the stop block 11; then the electric core unlocking mechanism 3 moves upwards, the shifting block 31 of the electric core unlocking mechanism 3 moves upwards to be separated from the connecting rod 4, so that the pressing block 21 presses the electric core 5 from the outer side, positioning and fixing of the electric core 5 are realized, and operations such as lug bending and welding of the electric core can be further carried out; after the operation is finished, the cell unlocking mechanism 3 moves downwards again, the shifting block 31 of the cell unlocking mechanism 3 moves downwards to drive the connecting rod 4 to move so as to drive the installation sliding rod 22 to slide outwards on the cell placing mechanism 1, the pressing blocks 21 loosen the cell 5, and the cell 5 is taken away from the position between each pressing block 21 and the stop block 11 on the cell placing mechanism 1 through an external clamping jaw and the like.
Example two
Referring to fig. 1 to 5, the overall structure of the cell positioning and fixing device for conveniently taking and placing materials in this embodiment is the same as that of the first embodiment, and the structure of the cell positioning and pressing mechanism 2 is improved based on the first embodiment, so that the cell positioning and pressing mechanism 2 can clamp or loosen the cell 5 better, and the same point of this embodiment as that of the first embodiment is referred to as the first embodiment, and the improvement will be further described.
Referring to fig. 3 and 4, each of the cell positioning and pressing mechanisms 2 includes a pressing spring 23, and each of the pressing blocks 21 is elastically connected to the cell placement mechanism 1 by the pressing spring 23. Thus, the pressing block 21 is extended to the inner side by the extension of the pressing spring 23 in a natural state, so that the battery cell 5 can be positioned and fixed at the outer side of the battery cell 5; when the pressing blocks 21 are required to be retracted, the pushing block 31 moves downwards to drive the connecting rod 4 to move outwards to compress the compression spring 23 to drive the installation sliding rod 22 to slide outwards on the cell placement mechanism 1, so that the pressing blocks 21 move outwards, and the cells 5 can be conveniently placed in or taken out from positions between the pressing blocks 21 and the stop blocks 11 on the cell placement mechanism 1.
Referring to fig. 2 to 4, in order to facilitate the installation of the installation slide bar 22 on the cell placement mechanism 1, the cell placement mechanism 1 is provided with an installation block 12, the installation slide bar 22 is slidably disposed on the installation block 12, and the installation slide bar 22 penetrates through the installation block 12 to be connected with the pressing block 21. Therefore, the mounting slide rod 22 and the pressing block 21 can be stably mounted on the cell placement mechanism 1 through the mounting block 12, and the positioning and fixing precision of the cell 5 on the cell placement mechanism 1 is improved. The compression spring 23 can be sleeved on the periphery of the installation sliding rod 22, and two ends of the compression spring 23 respectively abut against the installation block 12 and the installation block 12.
Referring to fig. 4, in order to reduce the friction force of the sliding of the installation slide bar 22 on the installation block 12, a linear bearing 121 is disposed in the installation block 12, and the installation slide bar 22 is slidably mounted on the installation block 12 through the linear bearing 121, so that the friction force of the sliding of the installation slide bar 22 on the installation block 12 can be reduced, the running stability of the cell positioning and fixing device is improved, and the service life of the cell positioning and fixing device is prolonged.
Referring to fig. 1 to 5, when the cell positioning and fixing device for conveniently taking and placing materials in the embodiment works, firstly, the cell unlocking mechanism 3 moves downwards, the shifting block 31 of the cell unlocking mechanism 3 moves downwards to drive the connecting rod 4 to move outwards to drive the installation slide rod 22 to slide outwards on the installation block 12 of the cell placement mechanism 1, so that the pressing block 21 moves outwards; then the battery cell 5 is placed in the position between each pressing block 21 and the stop block 11 on the battery cell placing mechanism 1 through an external clamping jaw and the like, and the tab of the battery cell 5 is positioned on one side of the stop block 11; then the electric core unlocking mechanism 3 moves upwards, the shifting block 31 of the electric core unlocking mechanism 3 moves upwards to be separated from the connecting rod 4, so that the pressing block 21 presses the electric core 5 from the outer side through the elastic action of the pressing spring 23, thereby realizing the positioning and fixing of the electric core 5, and further carrying out operations such as bending and welding of the lug of the electric core; after the operation is finished, the cell unlocking mechanism 3 moves downwards again, the shifting block 31 of the cell unlocking mechanism 3 moves downwards to drive the connecting rod 4 to move so as to drive the installation sliding rod 22 to slide outwards on the installation block 12 of the cell placement mechanism 1, the pressing blocks 21 loosen the cell 5, and the cell 5 is taken away from the position between each pressing block 21 and the stop block 11 on the cell placement mechanism 1 through an external clamping jaw and the like.
Example III
Referring to fig. 1 to 5, the overall structure of the cell positioning and fixing device for conveniently taking and placing materials in this embodiment is the same as that of the embodiment, and the structure of the cell unlocking mechanism 3 is improved based on the second embodiment, so that the cell unlocking mechanism 3 can stably drive the cell positioning and pressing mechanism 2 to release or press the cell 5.
Referring to fig. 1 and 5, the cell unlocking mechanism 3 further includes a fixing base 32, a lifting driving member 33 and a block mounting member 34, the block mounting member 34 is installed on the fixing base 32 through the lifting movement of the lifting driving member 33, and each block 31 is disposed at the lower side of the block mounting member 34, so that the block mounting member 34 can be lifted and moved on the fixing base 32 to drive the block 31 to lift and move to drive the pressing block 21 to move outwards, so that the cell 5 is released, and the cell 5 is conveniently taken away from the position between each pressing block 21 and the stop block 11 on the cell placement mechanism 1 by using an external clamping jaw or the like, and is also conveniently placed into the position between each pressing block 21 and the stop block 11 on the cell placement mechanism 1 by using the cell 5. The lift drive 33 may employ a telescopic cylinder or a screw mechanism. The said setting block mounting member 34 is configured as a U-shaped frame, one side of the U-shaped opening of the setting block mounting member 34 corresponds to the stopper 11, and each setting block 31 is disposed around the underside of the U-shaped frame. The shifting block mounting piece 34 is slidably mounted on the lifting driving piece 33 through a sliding rail structure, so that the shifting block mounting piece 34 is more stable when lifting and moving on the fixing seat 32, the running stability of the battery cell positioning and fixing device is improved, and the service life of the battery cell positioning and fixing device is prolonged.
Referring to fig. 1 to 5, when the cell positioning and fixing device for conveniently taking and placing materials in this embodiment works, the lifting driving piece 33 drives the shifting block mounting piece 34 to move downwards on the fixing seat 32, and the shifting block 31 moves downwards along with the shifting block mounting piece 34 to drive the connecting rod 4 to move outwards to drive the mounting slide rod 22 to slide outwards on the mounting block 12 of the cell placement mechanism 1, so that the pressing block 21 moves outwards; then the battery cell 5 is placed in the position between each pressing block 21 and the stop block 11 on the battery cell placing mechanism 1 through an external clamping jaw and the like, and the tab of the battery cell 5 is positioned on one side of the stop block 11; then the lifting driving piece 33 drives the shifting block mounting piece 34 to move upwards on the fixed seat 32, and the shifting block 31 moves upwards along with the shifting block mounting piece 34 to be separated from the connecting rod 4, so that the pressing block 21 presses the battery cell 5 from the outer side through the elastic action of the pressing spring 23, thereby realizing the positioning and fixing of the battery cell 5, and further carrying out operations such as bending and welding of the tab of the battery cell; after the operation is finished, the lifting driving piece 33 drives the shifting block mounting piece 34 to move downwards on the fixed seat 32, the shifting block 31 moves downwards along with the shifting block mounting piece 33 to drive the connecting rod 4 to move so as to drive the mounting slide rod 22 to slide outwards on the mounting block 12 of the cell placement mechanism 1, the pressing blocks 21 loosen the cell 5, and the cell 5 is taken away from the position between each pressing block 21 and the stop block 11 on the cell placement mechanism 1 through an external clamping jaw and the like.
It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.
Claims (10)
1. Electric core positioning and fixing device convenient for taking and discharging is characterized in that: the battery cell positioning and compressing mechanism comprises a battery cell placing mechanism (1), a battery cell unlocking mechanism (3) and a battery cell positioning and compressing mechanism (2), wherein the battery cell positioning and compressing mechanism (2) is arranged on the battery cell placing mechanism (1), the battery cell positioning and compressing mechanism (2) comprises a pressing block (21) and an installation sliding rod (22), the installation sliding rod (22) is arranged on the battery cell placing mechanism (1) in a sliding manner, and the pressing block (21) is fixed at the end part of the installation sliding rod (22); the electric core unlocking mechanism (3) comprises a shifting block (31) which is arranged above the electric core positioning and compressing mechanism (2) in a lifting mode, the shifting block (31) can drive the installation sliding rod (22) to slide on the electric core placing mechanism (1) in a lifting mode, and the pressing block (21) can loosen or clamp the electric core along with the sliding of the installation sliding rod (22).
2. The cell positioning and fixing device for conveniently taking and placing materials according to claim 1, wherein: the battery cell positioning and compressing mechanisms (2) are respectively arranged on three sides of the battery cell placing mechanism (1), the battery cell placing mechanism (1) on each side is at least provided with two groups of battery cell positioning and compressing mechanisms (2), the installation slide bars (22) of the battery cell positioning and compressing mechanisms (2) in each group are connected through the connecting rod (4), and the shifting block (31) drives the connecting rod (4) to move so as to drive the installation slide bars (22) to slide on the battery cell placing mechanism (1); one side of the battery cell placing mechanism (1) except for the battery cell positioning and pressing mechanism (2) is provided with a stop block (11).
3. The cell positioning and fixing device for conveniently taking and placing materials according to claim 2, wherein: the dial block (31) is provided with a slope structure, and the slope structure vertically lifts and drives the connecting rod (4) to transversely move.
4. A cell positioning and fixing device for facilitating taking and placing according to claim 3, wherein: the connecting rod (4) is provided with a cam follower (41), and the slope of the slope structure (311) is abutted with the cam follower (41).
5. The cell positioning and fixing device convenient for taking and placing materials according to any one of claims 1 to 4, wherein the cell positioning and fixing device is characterized in that: each cell positioning and compressing mechanism (2) comprises a compressing spring (23), and each pressing block (21) is elastically connected to the cell placing mechanism (1) through the compressing spring (23).
6. The cell positioning and fixing device for conveniently taking and placing materials according to claim 5, wherein: the battery cell placement mechanism (1) is provided with a mounting block (12), and the mounting sliding rod (22) is arranged on the mounting block (12) in a sliding manner and penetrates through the mounting block (12) to be connected with the pressing block (21).
7. The cell positioning and fixing device for conveniently taking and placing materials according to claim 6, wherein: a linear bearing (121) is arranged in the mounting block (12), and the mounting sliding rod (22) is slidably mounted on the mounting block (12) through the linear bearing (121).
8. The cell positioning and fixing device for conveniently taking and placing materials according to claim 7, wherein: the battery core unlocking mechanism (3) further comprises a fixed seat (32), a lifting driving piece (33) and a shifting block mounting piece (34), wherein the shifting block mounting piece (34) is installed on the fixed seat (32) in a lifting manner through the lifting driving piece (33), and each shifting block (31) is arranged on the lower side of the shifting block mounting piece (34).
9. The cell positioning and fixing device for conveniently taking and placing materials according to claim 8, wherein: the shifting block mounting piece (34) is of a U-shaped frame-shaped structure.
10. The cell positioning and fixing device for conveniently taking and placing materials according to claim 8, wherein: the shifting block mounting piece (34) is slidably mounted on the lifting driving piece (33) through a sliding rail structure.
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CN202223398933.XU CN219350285U (en) | 2022-12-15 | 2022-12-15 | Battery cell positioning and fixing device convenient for taking and placing materials |
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CN202223398933.XU CN219350285U (en) | 2022-12-15 | 2022-12-15 | Battery cell positioning and fixing device convenient for taking and placing materials |
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Address after: 518052 left door of e901-1, building 5, Shenzhen software industrial base, No. 11, 13, 15, No. 14 and No. 16, Haitian No. 2 Road, Binhai community, Yuehai street, Nanshan District, Shenzhen City, Guangdong Province Patentee after: Shenzhen Cyclic Laser Technology Co.,Ltd. Address before: 518052 left door of e901-1, building 5, Shenzhen software industrial base, No. 11, 13, 15, No. 14 and No. 16, Haitian No. 2 Road, Binhai community, Yuehai street, Nanshan District, Shenzhen City, Guangdong Province Patentee before: Shenzhen Honghe laser Co.,Ltd. |