CN218835691U - Pressure monitoring lithium battery protection plate bending mechanism - Google Patents

Abstract

The utility model relates to the technical field of automation equipment, in particular to a pressure-monitored lithium battery protection plate bending mechanism, wherein an upper top supporting module and a lower pressing supporting module are arranged oppositely, the upper top supporting module is positioned below a lithium battery protection plate, the lower pressing supporting module is positioned above the lithium battery protection plate, a slotting tool module is positioned on one side of the lower pressing supporting module, the slotting tool module defines a bending line on the lithium battery protection plate, and the bending module is positioned below the lithium battery protection plate and bends the lithium battery protection plate along the bending line; the pressing support module comprises a pressing unit, a pressure sensor, an electric control valve and a PLC (programmable logic controller), wherein the pressure sensor is connected with the pressing unit and the PLC, the PLC is connected with the electric control valve, and the electric control valve is connected with the pressing unit; the utility model discloses can carry out the close control to the pressure of pushing down the unit, play the guard action to lithium battery protection shield to can collect pressure data so that trace back, improve the product yield.

Description

Pressure monitoring lithium battery protection plate bending mechanism

Technical Field

The utility model relates to an automation equipment technical field especially relates to a lithium battery protection shield mechanism of buckling of pressure monitoring.

Background

The lithium battery has the characteristics of higher energy ratio, long service life, high rated voltage, environmental protection and the like, and is widely applied to various industries.

In lithium battery PACK technology, the operation of buckling to the lithium battery protection shield is one of important processes, at concrete in-process of buckling, need press the lithium battery protection shield to prevent that the lithium battery protection shield from taking place to shift and influence the effect of buckling, nevertheless discover in the actual production and application, there are many electronic components on the lithium battery protection shield, when pressing the too big or unstable pressure of lithium battery protection shield when buckling, damage electronic components on the lithium battery protection shield easily, and can't gather pressure data and trace back, be unfavorable for production management.

SUMMERY OF THE UTILITY MODEL

Damage lithium battery protection board easily and can't gather the problem of traceing back to pressure data when buckling to the aforesaid existence, the utility model provides a lithium battery protection board bending mechanism of pressure monitoring can carry out the strict control to the pressure of pushing down the unit, plays the guard action to lithium battery protection board to can collect pressure data so that traceing back, improve the product yield.

In order to solve the technical problem, the utility model provides a specific scheme as follows:

a lithium battery protection plate bending mechanism for pressure monitoring is used for bending operation of a lithium battery protection plate and comprises an upper top supporting module, a lower pressing supporting module, a slotting tool module and a bending module;

the upper top supporting module and the lower pressing supporting module are arranged oppositely, the upper top supporting module is positioned below the lithium battery protection board, the lower pressing supporting module is positioned above the lithium battery protection board, the slotting tool module is positioned on one side of the lower pressing supporting module, the slotting tool module defines a bending line on the lithium battery protection board, and the bending module is positioned below the lithium battery protection board and bends the lithium battery protection board along the bending line;

the pressing support module comprises a pressing unit, a pressure sensor, an electric control valve and a PLC (programmable logic controller), the pressure sensor is connected with the pressing unit and the PLC, the PLC is connected with the electric control valve, and the electric control valve is connected with the pressing unit.

Optionally, the pressing unit comprises a pressing cylinder and a pressing claw connected with the pressing cylinder, the pressing cylinder is connected with a pressure sensor and an electric control valve, the pressing cylinder applies pressure to the pressing claw to press the lithium battery protection plate, pressure data are detected through the pressure sensor and fed back to the PLC, and the electric control valve is dynamically adjusted through the PLC, so that stable pressure is achieved.

Optionally, the pressing unit further comprises a buffer assembly, the buffer assembly is connected between the pressing cylinder and the pressing claw, the buffer assembly is arranged to prevent the hard force from being directly applied to the lithium battery protection plate, and the lithium battery protection plate is protected.

Optionally, the buffer assembly includes a buffer spring and a spring mounting seat, the spring mounting seat is connected to the lower air cylinder, and the buffer spring is arranged on the spring mounting seat;

the lower end that pushes down the claw and connect in spring mounting seat utilizes buffer spring to play buffering and reset effect, the operation control of being convenient for.

Optionally, the bending module comprises a bending mounting seat, a rotary bending cylinder and a bending block, the rotary bending cylinder is arranged on the bending mounting seat, the bending block is connected with the rotary bending cylinder, and the bending block automatically completes the bending operation of the lithium battery protection plate under the action of the rotary bending cylinder, so that the automatic operation effect is realized.

Optionally, the bending device further comprises a bending position adjusting module, wherein the bending position adjusting module is connected with the bending module, and the position of the bending module is adjusted, so that the bending operation requirement is met, and other operation modules are avoided.

Optionally, the bending position adjusting module comprises a bending Y-direction adjusting module and a bending Z-direction adjusting module, the bending Z-direction adjusting module is arranged on the bending Y-direction adjusting module, the bending module is connected with the bending Z-direction adjusting module, and the bending Y-direction adjusting module and the bending Z-direction adjusting module are used for adjusting the positions of the bending module in the Y direction and the Z direction so as to meet the bending operation requirement and avoid other operation modules.

Optionally, the slotting tool module includes slotting tool piece, telescopic cylinder and cylinder mount pad, telescopic cylinder is connected to the slotting tool piece, telescopic cylinder locates on the cylinder mount pad, and the slotting tool piece stretches out or contracts back under telescopic cylinder's effect, confirms the bending line on the lithium battery protection shield, realizes automatic operation effect.

Optionally, the device further comprises a slotting tool position adjusting module, the slotting tool position adjusting module is connected with the slotting tool module, and the slotting tool position adjusting module is used for adjusting the position of the slotting tool module so as to meet the operation requirements of the slotting tool module and avoid other operation modules.

Optionally, the upper supporting module comprises an upper supporting cylinder and an upper supporting block connected with the upper supporting cylinder, and the upper supporting block rises upwards under the action of the upper supporting cylinder and supports the lithium battery protection board, so that an automatic operation effect is achieved.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a pair of pressure monitoring's lithium battery protection board bending mechanism can carry out the strict control to the pressure that pushes down the unit, plays the guard action to lithium battery protection board to can collect pressure data so that trace back, improve the product yield.

Drawings

Fig. 1 and fig. 2 are schematic structural diagrams of a pressure monitoring lithium battery protection plate bending mechanism provided in an embodiment of the present invention;

FIG. 3 is a schematic structural view of an upper top support module and a lower pressure support module;

FIG. 4 is a side view of an upper top support module and a lower pressure support module;

FIGS. 5 and 6 are schematic structural views of the bending module;

wherein, 1 is an upper top supporting module; 11 is an upper jacking cylinder; 12 is an upper top supporting block; 2, a pressing support module; 21 is a pressing unit; 211 is a pressing cylinder; 212 is a pressing claw; 213 is a buffer component; 2131 is a buffer spring; 2132 a spring mounting seat; 22 is a pressure sensor; 3 is a slotting tool module; 31 is a slotting tool block; 32 is a telescopic cylinder; 33 is a cylinder mounting seat; 4 is a bending module; 41 is a bending mounting seat; 42 is a rotary bending cylinder; 43 is a bending block; 5 is a bending position adjusting module; 51 is a bending Y-direction adjusting module; 52 is a Z-direction bending adjustment module; and 6, a slotting tool position adjusting module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention will be combined to clearly and completely describe the technical solutions of the embodiments of the present invention. The described embodiments are some, but not all embodiments of the invention.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For example, a pressure-monitored lithium battery protection plate bending mechanism is used for bending a lithium battery protection plate, and comprises an upper top supporting module, a lower pressing supporting module, a slotting tool module and a bending module; the upper top supporting module and the lower pressing supporting module are arranged oppositely, the upper top supporting module is positioned below the lithium battery protection board, the lower pressing supporting module is positioned above the lithium battery protection board, the slotting tool module is positioned on one side of the lower pressing supporting module, the slotting tool module defines a bending line on the lithium battery protection board, and the bending module is positioned below the lithium battery protection board and bends the lithium battery protection board along the bending line; the pressing support module comprises a pressing unit, a pressure sensor, an electric control valve and a PLC (programmable logic controller), the pressure sensor is connected with the pressing unit and the PLC, the PLC is connected with the electric control valve, and the electric control valve is connected with the pressing unit.

The lithium battery protection board bending mechanism of pressure monitoring that this embodiment provided can carry out the strict control to the pressure that pushes down the unit, plays the guard action to the lithium battery protection board to can collect pressure data so that trace back, improve the product yield.

The first embodiment is as follows:

as shown in fig. 1-4, a lithium battery protection board bending mechanism of pressure monitoring for the operation of buckling of lithium battery protection board, including supporting module 1 on top, support module 2 pushes down, slotting tool module 3 and module 4 of buckling, wherein, supporting module 1 on top is used for playing the supporting role on top to lithium battery protection board, support module 2 is used for playing the supporting role of pushing down to lithium battery protection board down to push down, slotting tool module 3 is used for determining the line of buckling on lithium battery protection board, module 4 of buckling then is used for along the line of buckling on the lithium battery protection board, the operation of buckling is carried out to lithium battery protection board.

Specifically, it sets up for relative with support module 2 to push down to go up top support module 1, and go up top support module 1 and be located lithium battery protection board's below, push down support module 2 and be located lithium battery protection board's top, during the operation promptly, place lithium battery protection board between support module 1 and the support module 2 of pushing down on going up top, support module 1 and push down support module 2 through going up top and play stable support and press the effect to lithium battery protection board, avoid when the operation of buckling, lithium battery protection board takes place the displacement. The slotting tool module 3 is located one side of the downward pressing support module 2, and the slotting tool module 3 defines a bending line on the lithium battery protection board so that the bending module 4 can work along the bending line, and the bending module 4 is located below the lithium battery protection board and bends the lithium battery protection board upwards along the bending line.

In the actual operation in-process, place the lithium battery protection shield earlier and support between the module 1 and push down the support module 2, support the module 1 and push down the support module 2 through last top and play stable support and press the effect to the lithium battery protection shield, cutting insert module 3 action after that, after setting out the line of buckling on the lithium battery protection shield, buckle module 4 upwards buckles the lithium battery protection shield along the line of buckling, accomplish the operation of buckling of lithium battery protection shield, each module at last rolls back to initial position.

Referring to fig. 3 and 4, the pressing support module 2 includes a pressing unit 21, a pressure sensor 22, an electric control valve and a PLC controller, the pressure sensor 22 is connected to the pressing unit 21 and the PLC controller, the PLC controller is connected to the electric control valve, the electric control valve is connected to the pressing unit 21, the pressure sensor 22 is used for detecting pressure data of the pressing unit 21 and feeding the pressure data back to the PLC controller, and the PLC controller dynamically adjusts the electric control valve to enable the pressing unit 21 to apply stable pressure to the lithium battery protection plate.

The lithium battery protection board bending mechanism of pressure monitoring that provides in this example can detect the pressure data that pushes down unit 21 through pressure sensor to with pressure data feedback to the PLC controller, by PLC controller according to pressure data dynamic adjustment electric control valve, make unit 21 of pushing down exert stable pressure to the lithium battery protection board, apply the pressure that the lithium battery protection board was applied to unit 21 of pushing down and carry out the strict control, also can collect pressure data through the PLC controller simultaneously, so that production traces back, the production management of being convenient for.

Example two:

referring to fig. 3 and 4, the pressing unit 21 includes a pressing cylinder 211 and a pressing claw 212 connected to the pressing cylinder 211, the pressing claw 212 applies pressure to the lithium battery protection plate to press and position the lithium battery protection plate under the driving action of the pressing cylinder 211, the pressing cylinder 211 is connected to a pressure sensor 22 and an electric control valve, the pressure sensor 22 detects pressure data of the pressing cylinder 211 and feeds the pressure data back to the PLC controller, and the electric control valve maintains stable pressure in the pressing cylinder.

In a specific operation, the pressing cylinder 211 applies pressure to the pressing claw 212 to press the lithium battery protection plate, the pressure sensor 22 detects pressure data and feeds the pressure data back to the PLC controller, and the PLC controller dynamically adjusts the electric control valve to achieve stable pressure.

In this example, the pressing unit 21 further includes a buffer member 213, the buffer member 213 is connected between the pressing cylinder 211 and the pressing claw 212, and the buffer member 213 is configured to prevent a hard force from being directly applied to the lithium battery protection plate, thereby protecting the lithium battery protection plate.

Specifically, the buffering assembly 213 comprises a buffering spring 2131 and a spring mounting seat 2132, the spring mounting seat 2132 is connected with the downward pressing cylinder 211, and the buffering spring 2131 is arranged on the spring mounting seat 2132; push down the pressure claw 212 and connect in the lower extreme of spring mount pad 2132, drive spring mount pad 2132 by pushing down cylinder 211 and move down, and then push down the pressure claw 212 by spring mount pad 2132 drive and move down, press the claw 212 and contact the back with lithium battery protection board when pushing down, under the continuation drive of pushing down cylinder 211, buffer spring 2131 can receive the extrusion effect, utilize buffer spring 2131 to play buffering and reset action, the operation control of being convenient for.

Example three:

referring to fig. 5 and 6, the bending module 4 includes a bending mounting seat 41, a rotary bending cylinder 42 and a bending block 43, the rotary bending cylinder 42 is disposed on the bending mounting seat 41, the bending block 43 is connected to the rotary bending cylinder 42, and the bending block 43 automatically completes the bending operation of the lithium battery protection plate under the action of the rotary bending cylinder 42, thereby achieving the automatic operation effect.

In this example, the bending device further comprises a bending position adjusting module 5, wherein the bending position adjusting module 5 is connected with the bending module 4, and the position of the bending module 4 is adjusted to meet the bending operation requirement and avoid other operation modules.

Specifically, the bending position adjusting module 5 includes a bending Y-direction adjusting module 51 and a bending Z-direction adjusting module 52, the bending Z-direction adjusting module 52 is disposed on the bending Y-direction adjusting module 51, the bending module 4 is connected to the bending Z-direction adjusting module 52, and the bending Y-direction adjusting module 51 and the bending Z-direction adjusting module 52 are utilized to adjust the positions of the bending module 4 in the Y direction and the Z direction, so as to meet the bending operation requirement and avoid other operation modules.

For example, the bending module 4 is adjusted to the position to be bent by the bending Y-direction adjusting module 51 and the bending Z-direction adjusting module 52, and after the bending operation is completed, the bending Y-direction adjusting module 51 and the bending Z-direction adjusting module 52 continue to adjust the bending module 4 to return to the initial position, so as to avoid the operation of other modules.

The slotting tool module 3 comprises a slotting tool block 31, a telescopic cylinder 32 and a cylinder mounting seat 33, the slotting tool block 31 is connected with the telescopic cylinder 32, the telescopic cylinder 32 is arranged on the cylinder mounting seat 33, the slotting tool block 31 extends out or retracts under the action of the telescopic cylinder 32 to determine a bending line on a lithium battery protection plate, and automatic operation effect is achieved.

Still include slotting tool position adjustment module 6, slotting tool position adjustment module 6 connects slotting tool module 3, adjusts the position of slotting tool module 3 through slotting tool position adjustment module to satisfy the operation demand and dodge other operation modules.

For example, under the action of the slotting tool position adjusting module 6, the slotting tool module 3 is adjusted to the position to be operated, and after the operation of the slotting tool module 6 is completed, the slotting tool module 3 is continuously retracted to the initial operation position under the action of the slotting tool position adjusting module 6, so as to avoid affecting the operation of other modules.

In the actual operation in-process, under telescopic cylinder 32 effect, slotting tool piece 31 stretches out to and lithium battery protection shield contact, establish the line of buckling on lithium battery protection shield, buckle module 4 after upwards buckling 90 along the line of buckling, slotting tool piece 31 retracts under telescopic cylinder 32's effect, avoid influencing the operation of buckling module 4, after slotting tool piece 31 retracts, buckle module 4 and continue to buckle 90 with lithium battery protection shield, whole in-process of buckling promptly, accomplish 180 operations of buckling of lithium battery protection shield.

In this example, the upper supporting module 1 includes an upper supporting cylinder 11 and an upper supporting block 12 connected to the upper supporting cylinder 11, and the upper supporting block 12 is lifted upwards by the upper supporting cylinder 11 and supports the lithium battery protection plate, so as to achieve an automatic operation effect.

According to the technical scheme of above-mentioned embodiment, the utility model provides a pair of lithium battery protection board bending mechanism of pressure monitoring can carry out the strict control to the pressure that pushes down the unit, plays the guard action to lithium battery protection board to can collect pressure data so that trace back, improve the product yield.

In the description of the present invention, it is to be understood that the terms indicating orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the equipment or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "suspended" and the like do not imply that the components are absolutely horizontal or suspended, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

Claims (10)

1. A pressure-monitored lithium battery protection plate bending mechanism is used for bending operation of a lithium battery protection plate and is characterized by comprising an upper top supporting module (1), a lower pressing supporting module (2), a slotting tool module (3) and a bending module (4);

the upper top supporting module (1) and the lower pressing supporting module (2) are arranged oppositely, the upper top supporting module (1) is located below the lithium battery protection board, the lower pressing supporting module (2) is located above the lithium battery protection board, the slotting tool module (3) is located on one side of the lower pressing supporting module (2), the slotting tool module (3) defines a bending line on the lithium battery protection board, and the bending module (4) is located below the lithium battery protection board and bends the lithium battery protection board along the bending line;

the pressing support module (2) comprises a pressing unit (21), a pressure sensor (22), an electric control valve and a PLC (programmable logic controller), the pressure sensor (22) is connected with the pressing unit (21) and the PLC, the PLC is connected with the electric control valve, and the electric control valve is connected with the pressing unit (21).

2. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 1, wherein the pressing unit (21) comprises a pressing cylinder (211) and a pressing claw (212) connected with the pressing cylinder (211), and the pressing cylinder (211) is connected with the pressure sensor (22) and the electric control valve.

3. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 2, wherein the pressing unit (21) further comprises a buffer assembly (213), and the buffer assembly (213) is connected between the pressing cylinder (211) and the pressing claw (212).

4. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 3, wherein the buffer assembly (213) comprises a buffer spring (2131) and a spring mounting seat (2132), the spring mounting seat (2132) is connected to the down-pressing cylinder (211), and the buffer spring (2131) is disposed on the spring mounting seat (2132);

the pressing claw (212) is connected to the lower end of the spring mounting seat (2132).

5. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 1, wherein the bending module (4) comprises a bending mounting base (41), a rotary bending cylinder (42) and a bending block (43), the rotary bending cylinder (42) is disposed on the bending mounting base (41), and the bending block (43) is connected to the rotary bending cylinder (42).

6. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 1, further comprising a bending position adjusting module (5), wherein the bending position adjusting module (5) is connected to the bending module (4).

7. The pressure-monitored lithium battery protection plate bending mechanism as claimed in claim 6, wherein the bending position adjusting module (5) comprises a bending Y-direction adjusting module (51) and a bending Z-direction adjusting module (52), the bending Z-direction adjusting module (52) is disposed on the bending Y-direction adjusting module (51), and the bending module (4) is connected to the bending Z-direction adjusting module (52).

8. The pressure-monitored lithium battery protection plate bending mechanism as claimed in claim 1, wherein the slotting tool module (3) comprises a slotting tool block (31), a telescopic cylinder (32) and a cylinder mounting seat (33), the slotting tool block (31) is connected with the telescopic cylinder (32), and the telescopic cylinder (32) is arranged on the cylinder mounting seat (33).

9. The lithium battery protection plate bending mechanism for pressure monitoring as claimed in claim 1, further comprising a slotting tool position adjusting module (6), wherein the slotting tool position adjusting module (6) is connected with the slotting tool module (3).

10. The pressure-monitored lithium battery protection plate bending mechanism as claimed in claim 1, wherein the upper top support module (1) comprises an upper top cylinder (11) and an upper top support block (12) connected with the upper top cylinder (11).

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