CN211879527U

CN211879527U - Positioning fixture for power battery core

Info

Publication number: CN211879527U
Application number: CN202020412039.5U
Authority: CN
Inventors: 于秀东; 刘兰; 王乾; 王文英; 农利锦; 肖曲; 高云松; 黄祥虎; 高云峰
Original assignee: Han s Laser Technology Industry Group Co Ltd
Current assignee: Shenzhen Han's Lithium Battery Intelligent Equipment Co ltd
Priority date: 2020-03-26
Filing date: 2020-03-26
Publication date: 2020-11-06
Anticipated expiration: 2030-03-26

Abstract

The utility model provides a positioning fixture of power battery cell, including installation mechanism, actuating mechanism, at least a set of minor face positioning mechanism, a set of long limit positioning mechanism and middle positioning mechanism, actuating mechanism is fixed in one side of installation mechanism, actuating mechanism and minor face positioning mechanism, long limit positioning mechanism, middle positioning mechanism are connected, wherein, installation mechanism includes first set of opposite side and second set of opposite side, the minor face positioning mechanism symmetry is fixed in first set of opposite side both sides, the long limit positioning mechanism symmetry is fixed in second set of opposite side both sides, middle positioning mechanism is fixed in the middle of the installation mechanism; the driving mechanism is utilized to drive the short edge positioning mechanism, the long edge positioning mechanism and the middle positioning mechanism to position the long edge and the short edge of the battery cell, so that the situation that different positioning mechanisms are driven by a multi-group cylinder combination to position the battery cell is avoided, the structure of the positioning fixture is more compact, and the occupied space is reduced.

Description

Positioning fixture for power battery core

Technical Field

The utility model relates to an anchor clamps especially indicate a positioning fixture of power battery electricity core.

Background

The battery core is a part of the power battery in the assembling process, and the battery core is required to be positioned on a plurality of stations of the power battery production. Generally, the appearance of electric core is fixed a position, and the long limit and the minor face of electric core need be fixed a position usually, generally adopt the mode of multiunit cylinder combination to fix a position electric core, and the structure is great, and the space that occupies equipment is great, and the cost is higher.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the existing battery cell has the defects of not compact structure and larger occupied space in the positioning process.

In order to solve the technical problem, the utility model provides a positioning fixture of power battery electricity core, including installation mechanism, actuating mechanism, at least a set of minor face positioning mechanism, a set of long limit positioning mechanism and middle positioning mechanism, actuating mechanism is fixed in one side of installation mechanism, actuating mechanism with minor face positioning mechanism, long limit positioning mechanism, middle positioning mechanism connect, wherein, installation mechanism is including first set of opposite side and the second group opposite side of organizing, minor face positioning mechanism symmetry is fixed in first set of opposite side both sides, long limit positioning mechanism symmetry is fixed in the second group opposite side both sides, middle positioning mechanism is fixed in the middle of the installation mechanism.

Further, installation mechanism still includes base, curb plate, mounting panel, supporting shoe subassembly and middle supporting shoe, the curb plate install in on the base, be provided with on the curb plate the mounting panel, supporting shoe subassembly and middle supporting shoe install in on the mounting panel, be provided with the locating pin on the middle supporting shoe.

Furthermore, the supporting block assemblies are arranged on two sides of the middle supporting block symmetrically, and each supporting block assembly comprises a first supporting block and a second supporting block.

Further, actuating mechanism includes cylinder, cylinder connecting plate, power plate, bearing, packing ring, guiding axle and fixed block, the cylinder is connected with the cylinder connecting plate, the power plate set up in cylinder connecting plate one side, the guiding axle is fixed in on the power plate, install respectively at the guiding axle both ends packing ring and bearing, the fixed block install in on the power plate.

Further, the bearing comprises at least 6.

Further, minor face positioning mechanism includes first slip subassembly, second slip subassembly, stop block, first compression spring, minor face connecting plate, minor face limiting plate and first cam plate, first slip subassembly passes through the connecting rod with the second slip subassembly and is connected, the connecting rod both ends are fixed in through the pivot first slip subassembly and second slip subassembly, the stop block is fixed on the mounting panel, first cam plate with first slip subassembly one side links to each other, first compression spring install in between stop block and the first cam plate, the minor face connecting plate is fixed in second slip subassembly one end, the minor face limiting plate with the minor face connecting plate other end links to each other.

Further, the first sliding assembly comprises a first sliding plate, a first sliding block and a first linear sliding rail, the first sliding plate is mounted on the first sliding block, the first sliding block is mounted on the first linear sliding rail and can slide on the first linear sliding rail relatively, and one side of the first sliding plate is connected with the first cam plate.

Furthermore, the second sliding assembly comprises a second sliding plate, a second sliding block and a second linear sliding rail, the second sliding plate is mounted on the second sliding block, the second sliding block is mounted on the second linear sliding rail and can slide on the second linear sliding rail relatively, the second sliding plate is connected with the first sliding plate through the connecting rod, and one end of the second sliding plate is connected with the short-side connecting plate.

Furthermore, the long-side positioning mechanism comprises a second cam plate, a second compression spring, a third sliding plate, a third sliding block, a long-side connecting plate, a long-side limiting plate and a spring pressing plate, the third sliding plate is mounted on the third sliding block, the third sliding block is mounted on the first linear sliding rail, the second compression spring penetrates through a through hole in the side plate, the end of the second compression spring is connected with the spring pressing plate, the other end of the second compression spring is connected with the second cam plate, the second cam plate is mounted on the third sliding plate, the inclined surface of the second cam plate is in contact with the bearing, the spring pressing plate is mounted on the side plate, one end of the long-side connecting plate is connected with the third sliding plate, and the other end of the long-side connecting plate is connected with the long-side.

Furthermore, the middle positioning mechanism comprises a fourth linear slide rail, a fourth slide block, a fourth slide plate, a third cam plate, a third compression spring, a middle adapter plate and a middle limiting plate, the fourth slide plate is mounted on the fourth slide block, the fourth slide block is mounted on the fourth linear slide rail and can relatively slide on the fourth linear slide rail, the fourth linear slide rail is mounted on the mounting plate, the third cam plate is fixed on the fourth slide plate, the inclined surface of the third cam plate is tangent to the bearing, two ends of the third compression spring are respectively connected with two side surfaces of the third cam plate, one end of the middle adapter plate is connected with the third cam plate, and the other end of the middle adapter plate is connected with the middle limiting plate.

The beneficial effects of the utility model reside in that: the utility model provides a positioning fixture of power battery cell, including installation mechanism, actuating mechanism, at least a set of minor face positioning mechanism, a set of long limit positioning mechanism and middle positioning mechanism, actuating mechanism is fixed in one side of installation mechanism, actuating mechanism with minor face positioning mechanism, long limit positioning mechanism, middle positioning mechanism are connected, wherein, installation mechanism includes first set of opposite side and second set of opposite side, minor face positioning mechanism symmetry is fixed in first set of opposite side both sides, long limit positioning mechanism symmetry is fixed in second set of opposite side both sides, middle positioning mechanism is fixed in the middle of the installation mechanism; the driving mechanism is utilized to drive the short edge positioning mechanism, the long edge positioning mechanism and the middle positioning mechanism to position the long edge and the short edge of the battery cell, so that the situation that different positioning mechanisms are driven by a multi-group cylinder combination to position the battery cell is avoided, the structure of the positioning fixture is more compact, and the occupied space is reduced.

Drawings

The following detailed description of the specific structure of the present invention with reference to the accompanying drawings

Fig. 1 is a schematic view of a first angle structure of a positioning fixture for a power battery cell of the present invention;

fig. 2 is a second angle structure diagram of the positioning fixture for power battery cells of the present invention;

FIG. 3 is a schematic structural view of the mounting mechanism of the present invention;

fig. 4 is a schematic structural view of the driving mechanism of the present invention;

FIG. 5 is a schematic structural view of the short edge positioning mechanism of the present invention;

fig. 6 is a schematic structural view of the long-side positioning mechanism of the present invention;

fig. 7 is a schematic view of a first angle structure of the middle positioning mechanism of the present invention;

fig. 8 is a second angle structure diagram of the middle positioning mechanism of the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1 and 2, the present invention provides a preferred embodiment of a positioning fixture for a power battery cell. A positioning fixture for a power battery cell comprises an installation mechanism 100, a driving mechanism 200, at least one group of short side positioning mechanisms 300, a group of long side positioning mechanisms 400 and a middle positioning mechanism 500, wherein the positioning fixture for the power battery cell is in a bilateral symmetry structure, the installation mechanism 100 comprises a first group of opposite sides and a second group of opposite sides and is used for installing an integral mechanism and generally fixed on a set bedplate or a set turntable, the driving mechanism 200 is fixed on one side of the installation mechanism 100, the short side positioning mechanisms 300 are symmetrically fixed on two sides of the first group of opposite sides, the long side positioning mechanisms 400 are symmetrically fixed on two sides of the second group of opposite sides, the middle positioning mechanism 500 is fixed in the middle of the installation mechanism 100, the positioning fixture for the power battery cell is used for positioning the cell, in an initial state, the driving mechanism 200 starts to work to drive the short side, Long limit positioning mechanism 400 and middle positioning mechanism 500 are all in the open mode, when installation mechanism was placed to electric core on, the pinhole in the middle of electric core 1 was fixed a position electric core 1's middle connection piece this moment, actuating mechanism 200 moves, drive minor face positioning mechanism 300, long limit positioning mechanism 400 and middle positioning mechanism 500 are all in the contraction state, fix a position electric core 1's long limit and minor face promptly, wherein the inside cam slope structure that adopts of positioning fixture of power battery electric core, be about to the motion of a direction turn into the motion of orthogonal direction with it.

From the above description, the beneficial effects of the present invention are: the driving mechanism is utilized to drive the short edge positioning mechanism, the long edge positioning mechanism and the middle positioning mechanism to position the long edge and the short edge of the battery cell, so that the situation that different positioning mechanisms are driven by a multi-group cylinder combination to position the battery cell is avoided, the structure of the positioning fixture is more compact, and the occupied space is reduced.

Referring to fig. 3, the mounting mechanism 100 includes a base 101, side plates 102, a mounting plate 103, support block assemblies and a middle support block 106, wherein the interior of the mounting mechanism is a symmetrical structure, the support block assemblies include a first support block 104 and a second support block 105, the base 101 is generally fixed on an equipment table or a turntable, the side plates 102 are fixed on two sides of the base 101, the mounting plate 103 is fixed on the two side plates 102, the first support block 104 and the second support block 105 are symmetrically arranged on the mounting plate 103 and are arranged on two sides of the middle support block 106, the middle support block 106 is fixed in the middle of the mounting plate 103, a positioning pin 107 is installed on the middle support block 106, the positioning pin 107 is used for positioning a connecting plate in the middle of the electrical core 1, and the first support block 104 and the second support block 105 are used for.

Referring to fig. 4, the driving mechanism 200 includes an air cylinder 201, an air cylinder connecting plate 202, a power plate 203, bearings 204, washers 205, a guide shaft 206 and a fixing block 207, the bearings 204 are symmetrically installed, two of the bearings are installed on two sides of the air cylinder connecting plate 202, the other 4 bearings are installed on the power plate 203 and are fixed through the guide shaft 206, the washers 205 are installed on the guide shaft 206, the guide shaft 206 is fixed through bolts, two fixing blocks 207 are symmetrically installed on two sides of the power plate 203, the bearings can rotate in the axial direction of the guide shaft 206, the air cylinder connecting plate 202 is connected with a movable piston rod in the air cylinder 201, the power plate 203 is fixed on the side of the air cylinder connecting plate 202, and the movement of the power plate 203 can be realized under the action of the air cylinder 201

Referring to fig. 5, the short-side positioning mechanism 300 includes a first sliding assembly, a second sliding assembly, a connecting rod 304, a rotating shaft 305, a stop block 309, a first compression spring 310, a short-side connecting plate 311, a short-side limiting plate 312, and a first cam plate 313, wherein the first sliding assembly includes a first sliding plate 306, a first sliding block 307, and a first linear sliding rail 308, the second sliding assembly includes a second sliding plate 301, a second sliding block 302, and a second linear sliding rail 303, the short-side positioning mechanism 300 is of a symmetrical structure, only one side of which is described herein, wherein the first linear sliding rails 308 are symmetrically fixed on the mounting plate 103, the first sliding block 307 can linearly move on the linear sliding rail 308, the first sliding plate 306 is mounted on the first sliding block 307, the second sliding plate 301 is mounted on the second sliding block 302, and two ends of the connecting rod 304 are symmetrically fixed on the mounting plate 103 through the rotating shaft 305 and the first sliding plate 306, The second sliding plate 301 is connected, wherein the second sliding block 302 can move linearly on the second linear sliding rail 303, the stop block 309 is fixed on the mounting plate 103, the first cam plate 313 is connected with the side surface of the first sliding plate, two ends of the first compression spring 310 are respectively installed between the stop block 309 and the first cam plate 313, the first compression spring 310 is always in a compression state, so that the reaction force is always kept to keep the pushing action of the moving part in the moving process, when the cylinder 201 acts, the piston rod is extended, namely, the bearing 204 installed on two sides of the cylinder connecting plate 202 moves forwards, wherein the surface of the first cam plate 313 contacted with the bearing 204 is an inclined surface, namely, when the bearing 204 moves forwards, the first sliding plate 306 moves outwards, and at the same time, the second sliding plate 301 connected through the connecting rod 304 moves towards each other, wherein one end of the short side connecting plate 311 is fixed with the second sliding plate 301, the short-side limiting plate 312 is connected to the other end of the short-side connecting plate 311, and is used to limit the short side of the electric core 1, at this time, the second sliding plates 301 move in the opposite direction, that is, the short-side limiting plate 312 also moves in the opposite direction, and at this time, the short-side positioning mechanism 300 is in an open state. Through the linear slide rail and connecting rod structure, adopt the cam structure on the mode of movement, the bearing contacts with the inclined plane, changes the removal of a direction into the direction removal of quadrature with it, and minor face positioning mechanism 300 is bilateral symmetry structure, through the contact of bearing and cam plate inclined plane, can realize the conversion of direction of movement under the effect of connecting rod.

Referring to fig. 6, the long-side positioning mechanism 400 includes a second cam plate 401, a second compression spring 402, a third sliding plate 403, a long-side connecting plate 404, a long-side limiting plate 405, a spring pressing plate 406, and a third sliding block 407, wherein the long-side positioning mechanism 400 is internally symmetrical, and only one side of the structure is described herein, wherein the third sliding block 407 can move linearly on the first linear sliding rail 308, the third sliding plate 403 is mounted on the third sliding block 407, the second cam plate 401 is mounted on the third sliding plate 403, wherein the spring pressing plate 406 is fixed on the side plate 102, the side plate 102 has a through hole in the axial direction of the second compression spring 402, wherein the second compression spring 402 passes through the through hole of the side plate 102, one end of the second compression spring 402 contacts the spring pressing plate 406, and the other end of the second compression spring contacts the second cam plate 401, wherein under the action of the second compression spring 402, the bearing 204 and the inclined plane of the second cam, when the piston rod in the cylinder 201 extends out, the third sliding plates 403 on the two sides move towards each other, that is, the long-side positioning mechanism 400 is in an open state, and the side surfaces of the third sliding plates 403 are fixed to one end of the long-side connecting plate 404, and the long-side limiting plate 405 is fixed to the other end of the long-side connecting plate 404, so as to position the long side of the battery cell 1. The long side positioning mechanism structure 400 adopts a cam structure, i.e. the bearing contacts with the inclined surface, and converts the movement in one direction into the movement in the direction orthogonal to the direction.

Referring to fig. 7 and 8, the middle positioning mechanism 500 is fixed below the mounting plate 103, wherein the middle positioning mechanism 500 is a symmetrical structure, only one side of which is described herein, the middle positioning mechanism 500 has an internal structure of a cam ramp structure, i.e., the movement in one direction is converted into the movement in the direction orthogonal to the one direction, the middle positioning mechanism 500 further includes a fourth linear sliding rail 501, a fourth slider 502, a fourth sliding plate 503, a third cam plate 504, a third compression spring 505, a middle adapter plate 506 and a middle limiting plate 507, the fourth linear sliding rail 501 is fixed on the mounting plate 103, the fourth slider 502 can move linearly on the fourth linear sliding rail 501, the fourth sliding plate 503 is mounted on the fourth slider 502, wherein the third sliding plate 504 is fixed on the fourth sliding plate, the inclined plane of the third cam plate 504 is tangent to the bearing 204, two ends of the third compression spring 505 are respectively connected to two side surfaces of the third cam plate 504, a reaction force is ensured during the movement of the fourth sliding plate 503, ensuring a pressing state during the movement. One end of the intermediate adapter plate 506 is connected with the third cam plate 504, the intermediate limiting plate 507 is connected with the other end of the intermediate adapter plate 506, when the piston rod of the cylinder 201 extends, the third cam plate 504 moves in the opposite direction, that is, the intermediate limiting plate 507 moves in the opposite direction, so that the intermediate positioning mechanism 500 is in an open state.

To sum up, the utility model provides a pair of positioning fixture of power battery electricity core comes long limit, the minor face of electric core to fix a position through the mode of a set of cylinder combination, has avoided because the mode of multiunit cylinder combination drives different positioning mechanism and fixes a position electric core for positioning fixture's structure is compacter, has reduced the space that occupies.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims

1. The utility model provides a positioning fixture of power battery electricity core, positioning fixture of power battery electricity core is bilateral symmetry structure, its characterized in that: including installation mechanism, actuating mechanism, at least a set of minor face positioning mechanism, a set of long limit positioning mechanism and middle positioning mechanism, actuating mechanism is fixed in one side of installation mechanism, actuating mechanism with minor face positioning mechanism, long limit positioning mechanism, middle positioning mechanism connect, wherein, installation mechanism is including first set of opposite side and second group opposite side, minor face positioning mechanism symmetry is fixed in first set of opposite side both sides, long limit positioning mechanism symmetry is fixed in second group opposite side both sides, middle positioning mechanism is fixed in the middle of the installation mechanism.

2. The positioning fixture for power battery cells of claim 1, characterized in that: the installation mechanism further comprises a base, a side plate, an installation plate, a support block assembly and a middle support block, wherein the side plate is installed on the base, the installation plate is arranged on the side plate, the support block assembly and the middle support block are installed on the installation plate, and a positioning pin is arranged on the middle support block.

3. The positioning fixture for power battery cells of claim 2, characterized in that: the supporting block assemblies are arranged on two sides of the middle supporting block symmetrically, and each supporting block assembly comprises a first supporting block and a second supporting block.

4. The positioning fixture for power battery cells of claim 3, characterized in that: actuating mechanism includes cylinder, cylinder connecting plate, power plate, bearing, packing ring, guiding axle and fixed block, the cylinder is connected with the cylinder connecting plate, the power plate set up in cylinder connecting plate one side, the guiding axle is fixed in on the power plate, install respectively at the guiding axle both ends packing ring and bearing, the fixed block has two sets ofly, the fixed block symmetry install in the power plate both sides.

5. The positioning fixture for power battery cells of claim 4, characterized in that: the number of the bearings is at least 6.

6. The positioning fixture for power battery cells of claim 5, characterized in that: the short edge positioning mechanism comprises a first sliding assembly, a second sliding assembly, a stop block, a first compression spring, a short edge connecting plate, a short edge limiting plate and a first cam plate, the first sliding assembly is connected with the second sliding assembly through a connecting rod, the two ends of the connecting rod are fixed to the first sliding assembly and the second sliding assembly through rotating shafts, the stop block is fixed to the mounting plate, the first cam plate is connected with one side of the first sliding assembly, the first compression spring is installed between the stop block and the first cam plate, the short edge connecting plate is fixed to one end of the second sliding assembly, and the short edge limiting plate is connected with the other end of the short edge connecting plate.

7. The positioning fixture for power battery cells of claim 6, characterized in that: the first sliding assembly comprises a first sliding plate, a first sliding block and a first linear sliding rail, the first sliding plate is mounted on the first sliding block, the first sliding block is mounted on the first linear sliding rail and can slide on the first linear sliding rail relatively, and one side of the first sliding plate is connected with the first cam plate.

8. The positioning fixture for power battery cells of claim 7, characterized in that: the second sliding assembly comprises a second sliding plate, a second sliding block and a second linear sliding rail, the second sliding plate is mounted on the second sliding block, the second sliding block is mounted on the second linear sliding rail and can slide on the second linear sliding rail relatively, the second sliding plate is connected with the first sliding plate through the connecting rod, and one end of the second sliding plate is connected with the short side connecting plate.

9. The positioning fixture for power battery cells of claim 8, characterized in that: the long-edge positioning mechanism comprises a second cam plate, a second compression spring, a third sliding plate, a third sliding block, a long-edge connecting plate, a long-edge limiting plate and a spring pressing plate, the third sliding plate is mounted on the third sliding block, the third sliding block is mounted on the first linear sliding rail, the second compression spring penetrates through a through hole in the side plate, the end of the second compression spring is connected with the spring pressing plate, the other end of the second compression spring is connected with the second cam plate, the second cam plate is mounted on the third sliding plate, the inclined surface of the second cam plate is in contact with the bearing, the spring pressing plate is mounted on the side plate, one end of the long-edge connecting plate is connected with the third sliding plate, and the other end of the long-edge connecting plate is connected with the long.

10. The positioning fixture for power battery cells of claim 9, characterized in that: the middle positioning mechanism comprises a fourth linear slide rail, a fourth slide block, a fourth slide plate, a third cam plate, a third compression spring, a middle adapter plate and a middle limiting plate, the fourth slide plate is mounted on the fourth slide block, the fourth slide block is mounted on the fourth linear slide rail and can relatively slide on the fourth linear slide rail, the fourth linear slide rail is mounted on the mounting plate, the third cam plate is fixed on the fourth slide plate, the inclined plane of the third cam plate is tangent to the bearing, two ends of the third compression spring are respectively connected with two side faces of the third cam plate, one end of the middle adapter plate is connected with the third cam plate, and the other end of the middle adapter plate is connected with the middle limiting plate.