CN216624368U - Be applied to lower electric core device of electric core income shell machine - Google Patents

Abstract

The utility model discloses a battery cell discharging device applied to a battery cell casing machine, which comprises a loading part and a battery cell discharging part, wherein the battery cell discharging part is arranged opposite to the loading part; the loading part comprises a shell and a positioning block which is arranged on one side of the shell and is connected with the shell through a hinge; the lower battery cell component comprises a support body, a power body arranged on one side of the support body, an induction body which is connected with the power body and movably connected with the support body, and a sliding body fixedly connected with the upper end of the support body, and the arrangement of a loading part and the lower battery cell component solves the problem that the operation of the lower battery cell is complicated and complex, realizes the effective simplification of the operation flow, ensures the easy and quick operation, effectively improves the operation efficiency, and has compact and reasonable structural design and convenient subsequent maintenance.

Description

Be applied to lower electric core device of electric core income shell machine

Technical Field

The utility model belongs to the technical field of battery cell casing equipment, and particularly relates to a battery cell discharging device applied to a battery cell casing machine.

Background

The shell machine is gone into to electric core is used for putting into the steel-shelled with it after electric core is regular, goes into the equipment of shell operation for accomplishing electric core.

In the prior art, the battery cell in the common battery cell loading box is directly placed at the bottom of the battery cell loading box, or the exposed height of the battery cell is determined by changing the depth of the battery cell loading box, the operation method is complex, multiple spare battery cells need to be prepared for loading the box, and the great operation efficiency is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a lower electric core device applied to an electric core casing machine, and through the arrangement of a loading part and a lower electric core part, the problem that the operation of a lower electric core is complex and complicated is solved, the operation flow is effectively simplified, the operation is easy and quick, the operation efficiency is effectively improved, the structural design is compact and reasonable, and the follow-up maintenance is convenient.

The technical scheme provided by the embodiment of the application is as follows:

a lower battery cell device applied to a battery cell casing machine comprises a loading part and a lower battery cell part arranged opposite to the loading part; the loading part comprises a shell and a positioning block which is arranged on one side of the shell and is connected with the shell through a hinge; the lower battery cell component comprises a supporting body, a power body arranged on one side of the supporting body, a sliding body connected with the power body and movably connected with the supporting body, and an induction body fixedly connected with the upper end of the supporting body.

Wherein, load the electricity core in the casing. One end of the positioning block is used for clamping the battery cell to enable the battery cell to be emptied at a certain position in the shell, and the other end of the positioning block corresponds to the lower battery cell component. The positioning block is hinged with one side of the shell, and the hinge connection is hinge damping connection.

In the utility model, the process of loading the battery cell is as follows: when the inductor senses the electric core on the upper end of the shell, the power body is driven to move upwards, so that the sliding body is driven to move towards the positioning block, the lower end of the positioning block is driven to move towards the direction close to the shell until the sliding body drives the lower end of the positioning block, the upper end of the positioning block for limiting the electric core moves towards the direction far away from the shell, the pressure of the positioning block and the electric core is reduced, the electric core can slowly fall down when the gravity of the electric core is greater than the pressure, and the electric core is not sensed until the inductor. When the electric core is not sensed to the inductor, the power body moves to initial position downwards, drives the slider and moves towards keeping away from the locating piece, breaks away from the lower extreme of locating piece and moves to initial position until the slider, and the locating piece upper end is injectd the electric core again on certain position in the casing to electric core operation under the completion. The action flow among all the parts is completed by adopting the existing PLC control program. Through this setting, electric core is easy and simple to handle swift down, and electric core operation under the high-efficient completion effectively improves the operating efficiency.

Furthermore, the supporter is including locating the first backup pad of lower extreme, fixed connection in first backup pad one end and rather than perpendicular second backup pad that sets up, fixed connection in the first backup pad other end and with second backup pad parallel arrangement's third backup pad, connect in second backup pad upper end with the fourth backup pad of third backup pad upper end. Put through the position of each backup pad, effectively make up into stable operation platform with the backup pad, effectively improve the stability of operation in-process, guarantee the accurate nature of operation of electric core down.

Furthermore, a through hole is formed in the fourth supporting plate in a penetrating manner; the longitudinal section of the through hole is parallel to the fourth supporting plate. Through the setting of through-hole, for the stability of slider motion provides the guarantee, guarantee the slider and promote the stability of locating piece, can effectively guarantee the life of slider.

Furthermore, the power body comprises a fifth support plate fixedly connected to one side of the second support plate and one side of the third support plate, a first connecting block hinged with the fifth support plate, and a power rod fixedly connected with the lower end of the first connecting block; the other end of the first connecting block is fixedly connected with the sliding body. The first connecting block is an L-shaped first connecting block. The fifth supporting plate and the first supporting plate are arranged in parallel. A groove is formed in the middle of the fifth supporting plate; the turning part of the first connecting block is arranged in the groove, and the fifth supporting plate is hinged with the first connecting block through a positioning pin.

Through the setting of above-mentioned power body, the power body operation process does: when the power rod moves upwards, the first connecting block is driven to move upwards by taking the positioning pin as an axial direction, and the first connecting block is an L-shaped connecting block, so that the first connecting block moves leftwards and rightwards within a certain range, and the sliding body is driven to move towards the positioning block and perform lower battery core operation. When the power rod moves downwards, the first connecting block is driven to move downwards by taking the positioning pin as the axial direction, and the first connecting block is the L-shaped connecting block, so the first connecting block moves leftwards and rightwards within a certain range, the sliding body is driven to move towards the direction away from the positioning block, the battery cell is limited again after the battery cell is discharged, and preparation is made for subsequently discharging the battery cell. The structure design is ingenious and compact, the structure is compact, the space is effectively saved, and the follow-up maintenance is convenient.

And through the setting of the connecting position of the fifth supporting plate, the fifth supporting plate and the supporting body, the stability of operation is effectively improved, the accuracy of the movement amount is guaranteed, and the quality of the lower electric core is effectively guaranteed.

Furthermore, the sliding body comprises a second connecting block fixedly connected with the power body and a push rod fixedly connected with the other end of the second connecting block; the push rod penetrates through the through hole and is movably connected with the fourth supporting plate in the through hole. Through this setting, the power body removes the push rod toward being close to the locating piece direction until the contact gives power to the locating piece lower extreme for the locating piece reduces the pressure to electric core, makes electric core descend down. The power body moves the push rod towards the direction of keeping away from the positioning block until the push rod is separated from the lower end of the positioning block, so that the upper end of the positioning block can re-limit the position of the battery cell in the shell, and the battery cell operation can be completed. And through set up the second connecting block between power body and push rod, effective balanced power body is to the thrust of push rod, reduces the direct contact of push rod and power body simultaneously, effectively protects the push rod, improves life.

Furthermore, two positioning blocks are arranged; the push rods correspond to the lower ends of the positioning blocks, and the number of the push rods is two. Through this setting, two electric cores can be loaded to the casing, correspond locating piece, push rod, inductor respectively two, can be simultaneously to two electric cores under the electric core operation, effectively improve the operating efficiency.

Furthermore, the inductor comprises a positioning rod fixedly connected to the upper end of the fourth supporting plate, a sixth supporting plate penetrating through the positioning rod and movably and fixedly connected with the positioning rod, and an inductor which is opposite to the upper part of the push rod and connected with the sixth supporting plate. Through the setting of sixth backup pad, effectively guarantee the stability of inductor operation, guarantee the life of inductor. Meanwhile, the sixth supporting plate and the positioning rod can be fixedly connected in a bolt-thread fit mode, and the sensing position can be adjusted according to the distance required by the battery cell to fall. When the electric core needs to descend to a larger position, the sixth supporting plate drives the inductor to be fixedly connected to the lower end of the positioning rod. When the electric core needs to descend to a smaller position, the sixth supporting plate drives the inductor to be fixedly connected to the upper end of the positioning rod. Through the setting of locating lever, effectively satisfy the different distances of electric core down, satisfy multiple demand, the flexibility is high.

The utility model has the beneficial effects that:

through the arrangement of the loading part and the lower electric core part, the problem that the operation of the lower electric core is complex and complicated is solved, the operation flow is effectively simplified, the operation is easy and quick, the operation efficiency is effectively improved, the structural design is compact and reasonable, and the follow-up maintenance is convenient.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a schematic view of the structure of the loading unit of the present invention;

fig. 3 is a schematic structural diagram of a lower cell component in the present invention;

fig. 4 is a schematic structural diagram of a lower cell component in the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 3.

The labels in the figure are: the loading part 1, the shell 11 and the positioning block 12; the lower cell component 2, the support body 21, the first support plate 211, the second support plate 212, the third support plate 213, the fourth support plate 214, the power body 22, the fifth support plate 221, the groove 2211, the first connecting block 222, the power rod 223, the sliding body 23, the second connecting block 231, the push rod 232, the inductor 24, the positioning rod 241, the sixth support plate 242, and the inductor 243.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

To facilitate an understanding of the present invention for those skilled in the art, the present invention will be described in further detail below with reference to specific embodiments and accompanying drawings.

As shown in fig. 1 to 5, a cell discharging device applied to a cell casing machine according to an embodiment of the present invention includes a loading component 1, and a cell discharging component 2 disposed opposite to the loading component 1; the loading part 1 comprises a shell 11 and a positioning block 12 which is arranged on one side of the shell 11 and is connected with the shell through a hinge; the lower battery cell component 2 comprises a support body 21, a power body 22 arranged on one side of the support body 21, a sliding body 23 connected with the power body 22 and movably connected with the support body 21, and an inductor fixedly connected with the upper end of the support body 21.

The battery cell is loaded in the casing 11. One end of the positioning block 12 is used for clamping the battery cell to make it empty at a certain position in the casing 11, and the other end corresponds to the lower battery cell component 2. The positioning block 12 is hinged to one side of the housing 11, and the hinge connection is hinge damping connection.

In the utility model, the process of loading the battery cell is as follows: when inductor 243 senses the electric core of casing 11 upper end, drive power body 22 upward movement to drive slider 23 and remove toward locating piece 12, the lower extreme that drives locating piece 12 until slider 23 is toward being close to casing 11 direction and is walked, and the locating piece 12 upper end that is used for injecing electric core is toward keeping away from casing 11 direction and remove, then the pressure of locating piece 12 and electric core reduces, when electric core gravity is greater than pressure, then electric core can slowly fall, do not sense electric core until the inductor. When the inductor does not sense the battery cell, the power body 22 moves downwards to the initial position, drives the sliding body 23 to move away from the positioning block 12 until the sliding body 23 breaks away from the lower end of the positioning block 12 and moves to the initial position, and the upper end of the positioning block 12 defines the battery cell in a certain position in the shell 11 again, thereby completing the operation of the battery cell. The action flow among all the parts is completed by adopting the existing PLC control program. Through this setting, electric core is easy and simple to handle swift down, and electric core operation under the high-efficient completion effectively improves the operating efficiency.

Further, the support body 21 includes a first support plate 211 disposed at a lower end, a second support plate 212 fixedly connected to one end of the first support plate 211 and vertically disposed thereto, a third support plate 213 fixedly connected to the other end of the first support plate 211 and parallel to the second support plate 212, and a fourth support plate 214 connected to an upper end of the second support plate 212 and an upper end of the third support plate 213. Put through the position of each backup pad, effectively make up into stable operation platform with the backup pad, effectively improve the stability of operation in-process, guarantee the accurate nature of operation of electric core down.

Further, a through hole is formed through the fourth supporting plate 214; the longitudinal section of the through hole is parallel to the fourth support plate 214. Through the setting of through-hole, for the stability of slider 23 motion provides the guarantee, guarantee the stability that slider 23 promoted locating piece 12, can effectively guarantee the life of slider 23.

Further, the power body 22 comprises a fifth support plate 221 fixedly connected to one side of the second support plate 212 and the third support plate 213, a first connecting block 222 hinged to the fifth support plate 221, and a power rod 223 fixedly connected to the lower end of the first connecting block 222; the other end of the first connecting block 222 is fixedly connected with the sliding body 23. The first connection block 222 is an L-shaped first connection block 222. The fifth support plate 221 is disposed in parallel with the first support plate 211. A groove 2211 is formed in the middle of the fifth supporting plate 221; the turning point of the first connection block 222 is disposed in the groove 2211, and the fifth support plate 221 and the first connection block 222 are hinged by a positioning pin.

By the above arrangement of the power body 22, the operation process of the power body 22 is as follows: when the power rod 223 moves upward, the first connecting block 222 is driven to move upward with the positioning pin as an axial direction, and since the first connecting block 222 is an L-shaped connecting block, the first connecting block 222 moves left and right within a certain range, so as to drive the sliding body 23 to move toward the positioning block 12, and perform the operation of discharging the battery cell. When the power rod 223 moves downwards, the first connecting block 222 is driven to move downwards by taking the positioning pin as an axial direction, and because the first connecting block 222 is an L-shaped connecting block, the first connecting block 222 moves leftwards and rightwards within a certain range, so that the sliding body 23 is driven to move towards the direction far away from the positioning block 12, and after the battery cell is discharged, the battery cell is limited again to prepare for subsequent battery cell discharging. The structure design is ingenious and compact, the structure is compact, the space is effectively saved, and the follow-up maintenance is convenient.

And through the arrangement of the fifth supporting plate 221, the connecting positions of the fifth supporting plate 221 and the supporting body 21, the stability of operation is effectively improved, the accuracy of movement amount is ensured, and the quality of the lower battery cell is effectively ensured.

Further, the sliding body 23 comprises a second connecting block 231 fixedly connected with the power body 22, and a push rod 232 fixedly connected with the other end of the second connecting block 231; the push rod 232 penetrates through the through hole and is movably connected with the fourth supporting plate 214 in the through hole. Through the arrangement, the power body 22 moves the push rod 232 towards the direction close to the positioning block 12 until the push rod contacts the lower end of the positioning block 12, so that the pressure of the positioning block 12 on the battery cell is reduced, and the battery cell descends. The power body 22 moves the push rod 232 in the direction away from the positioning block 12 until the push rod is separated from the lower end of the positioning block 12, so that the upper end of the positioning block 12 redefines the position of the battery cell on the shell 11, and the battery cell discharging operation is completed. And through set up second connecting block 231 between power body 22 and push rod 232, effective balanced power body 22 is to the thrust of push rod 232, reduces push rod 232 and power body 22's direct contact simultaneously, effectively protects push rod 232, improves life.

Further, two positioning blocks 12 are arranged; the push rods 232 correspond to the lower ends of the positioning blocks 12, and two push rods 232 are arranged. Through this setting, two electric cores can be loaded to casing 11, correspond locating piece 12, push rod 232, inductor 243 respectively two, can descend electric core operation to two electric cores simultaneously, effectively improve the operating efficiency.

Further, the sensor includes a positioning rod 241 fixedly connected to the upper end of the fourth supporting plate 214, a sixth supporting plate 242 penetrating the positioning rod 241 and movably and fixedly connected thereto, and a sensor 243 opposite to the upper side of the push rod 232 and connected to the sixth supporting plate 242. Through the setting of sixth backup pad 242, effectively guarantee the stability of inductor 243 operation, guarantee inductor 243's life. Meanwhile, the movable fixed connection between the sixth supporting plate 242 and the positioning rod 241 can be fixed by adopting bolt and thread fit, and the sensing position can be adjusted by reducing the distance of the battery cell. When the battery cell needs to descend to a larger position, the sixth supporting plate 242 drives the inductor 243 to be fixedly connected to the lower end of the positioning rod 241. When the battery cell needs to descend to a smaller position, the sixth supporting plate 242 drives the inductor 243 to be fixedly connected to the upper end of the positioning rod 241. Through the setting of locating lever 241, effectively satisfy the different distances of lower electric core, satisfy multiple demand, the flexibility is high.

The utility model has the beneficial effects that:

through the arrangement of the loading part 1 and the lower electric core part 2, the problem that the operation of the lower electric core is complex and complicated is solved, the operation flow is effectively simplified, the operation is easy and quick, the operation efficiency is effectively improved, the structural design is compact and reasonable, and the follow-up maintenance is convenient.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art. It should be noted that the technical features not described in detail in the present invention can be implemented by any prior art.

Claims (10)

1. The lower battery cell device applied to the battery cell casing machine is characterized by comprising a loading part and a lower battery cell part arranged opposite to the loading part; the loading part comprises a shell and a positioning block which is arranged on one side of the shell and is connected with the shell through a hinge; the lower battery cell component comprises a supporting body, a power body arranged on one side of the supporting body, a sliding body connected with the power body and movably connected with the supporting body, and an induction body fixedly connected with the upper end of the supporting body.

2. The battery cell discharging device of claim 1, wherein the support body includes a first support plate disposed at a lower end, a second support plate fixedly connected to one end of the first support plate and disposed perpendicular to the first support plate, a third support plate fixedly connected to the other end of the first support plate and disposed parallel to the second support plate, and a fourth support plate connected to an upper end of the second support plate and an upper end of the third support plate.

3. The cell blanking device applied to the cell casing machine of claim 2, wherein the fourth support plate is provided with a through hole; the longitudinal section of the through hole is parallel to the fourth supporting plate.

4. The battery cell discharging device applied to the battery cell casing machine according to claim 2, wherein the power body comprises a fifth support plate fixedly connected to one side of the second support plate and one side of the third support plate, a first connecting block hinged to the fifth support plate, and a power rod fixedly connected to a lower end of the first connecting block; the other end of the first connecting block is fixedly connected with the sliding body.

5. The cell blanking device applied to the cell casing machine of claim 4, wherein the first connecting block is an L-shaped first connecting block.

6. The battery cell discharging device applied to the battery cell casing machine according to claim 5, wherein the fifth support plate is disposed in parallel with the first support plate.

7. The cell unloading device applied to the cell casing machine according to claim 6, wherein a groove is formed in the middle of the fifth support plate; the turning part of the first connecting block is arranged in the groove, and the fifth supporting plate is hinged with the first connecting block through a positioning pin.

8. The cell unloading device applied to the cell casing machine of claim 3, wherein the sliding body comprises a second connecting block fixedly connected with the power body and a push rod fixedly connected with the other end of the second connecting block; the push rod penetrates through the through hole and is movably connected with the fourth supporting plate in the through hole.

9. The cell blanking device applied to the cell casing machine according to claim 8, wherein there are two positioning blocks; the push rods correspond to the lower ends of the positioning blocks, and the number of the push rods is two.

10. The lower battery cell device applied to the battery cell casing machine of claim 9, wherein the inductor includes a positioning rod fixedly connected to an upper end of the fourth supporting plate, a sixth supporting plate penetrating through the positioning rod and movably and fixedly connected to the positioning rod, and an inductor connected to the sixth supporting plate and located above the push rod.

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