CN217752857U - Preparation device of battery insulating cover - Google Patents

Abstract

The utility model discloses a preparation device of a battery insulating cover, which belongs to the technical field of insulating covers and comprises a rotary conveying disc, and a feeding device, a labeling device, a waste discharge device, a preforming device and a forming device which are arranged at the periphery of the rotary conveying disc in sequence; the feeding device comprises a die cutting machine and a feeding machine connected with the die cutting machine through a guide rail; the actions of automatic feeding, automatic labeling, automatic waste discharge and automatic extrusion molding of the insulating cover are realized through the matching of the rotary conveying disc, the feeding device, the labeling device, the waste discharge device, the preforming device and the forming device; the preparation device of the battery insulating cover has the advantages of compact structure, low cost and convenient operation; the problems that the existing manual processing steps are easy to cause poor product production quality and low production efficiency due to the uncertainty of manual operation are effectively solved.

Description

Preparation device of battery insulating cover

Technical Field

The utility model belongs to the technical field of the insulating boot, in particular to preparation facilities of battery insulating boot.

Background

In the current society, facing more and more environmental problems, increasingly tense energy resources enable clean energy, environmental protection and sustainable development to become more and more the subject of modern social development, and electric automobiles which vigorously develop clean energy become the trend of automobile development. As an energy source of an electric vehicle, a market demand of a vehicle battery is increasing, and a demand of an insulating cover, which is also an important structure of the battery, is also increasing.

The existing insulating cover processing technology mainly depends on manual operation, and the main process route is as follows: firstly, manually discharging waste of materials subjected to die cutting; step two, manually pasting the label subjected to die cutting and marking; thirdly, pre-bending the product; and fourthly, feeding the pre-bending material into a rolling device for shaping. Firstly, the manual waste discharge process is adopted, so that incomplete waste discharge or careless waste discharge caused by manual errors is easily caused; secondly, a manual label pasting process is adopted, and the positions cannot be accurately limited, so that the positions cannot be unified frequently during manual labeling, so that size deviation is caused, and the product quality is influenced; finally, when the material is pre-bent, if manual operation is adopted, the bending position is easy to be inaccurate, and the material is indirectly scrapped. Therefore, a device for manufacturing the battery insulating cover, which can automatically process the insulating cover and ensure the product quality, needs to be designed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: how to provide a preparation facilities of battery insulating boot that can carry out insulating boot processing automatically, and guarantee product quality.

In order to solve the technical problem, the utility model discloses a technical scheme be: a preparation device of a battery insulating cover comprises a rotary conveying disc, and a feeding device, a labeling device, a waste discharge device, a pre-forming device and a forming device which are sequentially arranged on the periphery of the rotary conveying disc; the feeding device comprises a die cutting machine and a feeding machine connected with the die cutting machine through a guide rail.

Wherein, the rotary conveying disc is provided with at least 1 workpiece fixing table; the feeding machine, the labeling device, the waste discharge device and the preforming device are all located in the rotating range of the workpiece fixing table.

Wherein the feeding end of the guide track is higher than the discharging end; the feeding end of the guide rail is connected with the discharging end of the die cutting machine; 2 guide plates are arranged on the guide rail; the opening of the channel surrounded by the guide plates, which is close to the feeding end of the guide track, is larger than the opening of the channel, which is close to the discharging end of the guide track; the discharge end of the guide rail comprises a first limiting plate and a second limiting plate which are arranged in a right angle; the second limiting plate is opposite to the discharge end of the guide rail.

Wherein, the discharge end of the guide track is also provided with a positioning cylinder; the movable end of the positioning cylinder is arranged towards the first limiting plate.

The feeding machine comprises a horizontal transmission device and a grabbing device connected with the horizontal transmission device; the lower part of the gripping device is provided with a gripping sucker; the horizontal transmission device can drive the grabbing device to move along the axis direction of the second limiting plate.

The labeling device comprises a rack, and a material receiving and discharging device, a glue stripping device and a labeling head which are arranged on the rack in a flow line manner; one end of the glue stripping device close to the label sticking head is provided with an induction electric eye; the labeling head can move back and forth along the axis direction of the glue stripping device.

The waste discharge device comprises a waste discharge lifting device, a waste discharge head and a waste material box, wherein the lifting device is used for driving the waste discharge head to lift; the waste discharge head can move from the inner side of the material to the outer side of the material; the waste material box is positioned right below the waste discharge head.

The preforming device comprises a grabbing part, a preforming part and a material pushing part; the preforming part comprises a feeding section, a pressing section and a discharging section which are arranged in sequence; the gripping part can move to the upper part of the feeding section of the preforming part; the material pushing part is arranged on one side of the feeding section of the preforming part.

Wherein the molding device comprises a conveying part and a molding part; the transfer part comprises a three-axis industrial mechanical arm and a mechanical arm claw which are connected with each other.

Wherein, the device also comprises a workbench and a material receiving box; the rotary conveying disc, the feeding device, the labeling device, the waste discharge device, the preforming device and the forming device are all arranged on the workbench; the material collecting box is arranged on one side of the workbench and is adjacent to the discharge end of the forming device.

The beneficial effects of the utility model reside in that: the utility model provides a preparation facilities compact structure, low cost of battery insulating boot through rotatory transfer dish, loading attachment, paste the cooperation between mark device, the device of wasting discharge, preforming device and the forming device, realize the material loading of insulating boot, paste the mark, waste discharge and extrusion's action, and this process is whole to be accomplished by automation equipment, has also improved production efficiency when having guaranteed insulating boot preparation precision.

Drawings

Fig. 1 is a schematic structural view of a device for manufacturing a battery insulating cover according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a feeding device according to an embodiment of the present invention;

FIG. 3 is a top view of a pilot track according to an embodiment of the present invention;

fig. 4 is a right side view of the feeding machine according to the embodiment of the present invention;

fig. 5 is a right side view of the labeling device according to the embodiment of the present invention;

FIG. 6 is a front view of a waste device according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a preforming device according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a molding apparatus according to an embodiment of the present invention;

fig. 9 is a schematic structural view of an insulation cover according to an embodiment of the present invention;

description of reference numerals:

1. rotating the transfer plate; 11. a workpiece fixing table;

2. a feeding device; 21. die-cutting machine; 22. a guide rail; 221. a guide plate; 23. a feeding machine; 231. a horizontal transmission device; 232. a gripping device; 2321. grabbing a sucker; 24. positioning the air cylinder; 25. a first limit plate; 26. a second limiting plate;

3. a labeling device; 31. a frame; 32. a material receiving and discharging device; 321. a discharge shaft; 322. a material receiving shaft; 323. a material receiving roller; 324. a guide roller; 33. stripping the glue device; 34. sticking a header; 35. an induction electric eye;

4. a waste discharge device; 41. a waste discharge lifting device; 42. waste head discharging; 43. a waste bin;

5. a preforming device; 51. a grasping section; 52. a preforming section; 53. a material pushing section;

6. a molding device; 61. a conveying section; 611. a three-axis industrial robot arm; 612. a robotic arm gripper; 62. a molding section;

7. a work table; 8. a material receiving box;

9. an insulating cover; 91. and an insulating cover pre-pressing section.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial design lies in: through the cooperation among the rotary conveying disc, the feeding device, the labeling device, the waste discharge device, the preforming device and the forming device, the actions of automatic feeding, labeling, waste discharge and extrusion forming of the insulating cover are realized.

Referring to fig. 1 to 9, the device for manufacturing a battery insulating cover according to the present invention includes a rotary conveying plate 1, and a feeding device 2, a labeling device 3, a waste discharging device 4, a preforming device 5 and a forming device 6 sequentially disposed at the periphery thereof; the feeding device 2 comprises a die cutting machine 21 and a feeding machine 23 connected with the die cutting machine through a guide rail 22.

From the above description, the beneficial effects of the present invention are: the device for preparing the battery insulating cover is provided, and the actions of automatic feeding, automatic labeling, automatic waste discharging and automatic extrusion forming of the insulating cover 9 are realized through the matching among the rotary conveying disc 1, the feeding device 2, the labeling device 3, the waste discharging device 4, the preforming device 5 and the forming device 6; the preparation device for the battery insulating cover is compact in structure and convenient to operate, and compared with the existing manual processing steps, the preparation device can avoid the conditions that the product production quality is poor and the production efficiency is low due to the uncertainty of manual operation.

Furthermore, at least 1 workpiece fixing table 11 is arranged on the rotary conveying disc 1; the feeding machine 23, the labeling device 3, the waste discharging device 4 and the preforming device 5 are all located within the rotation range of the workpiece fixing table 11.

As can be seen from the above description, the design can provide a foundation for the joint operation between the subsequent devices, and ensure the work fluency between the devices.

Further, the feed end of the guide rail 22 is higher than the discharge end; the feeding end of the guide rail 22 is connected with the discharging end of the die cutting machine 21; 2 guide plates 221 are arranged on the guide rail 22; the opening of the channel surrounded by the guide plate 221, which is close to the feeding end of the guide rail 22, is larger than the opening of the channel, which is close to the discharging end of the guide rail 22; the discharge end of the guide rail 22 comprises a first limiting plate 25 and a second limiting plate 26 which are arranged at a right angle; the second limit plate 26 is opposite to the discharge end of the guide rail 22. Preferably, the distance between the 2 guide plates is gradually reduced from the discharge end to the feed end of the guide rail.

Further, a positioning cylinder 24 is arranged at the discharge end of the guide track 22; the movable end of the positioning cylinder 24 is disposed toward the first stopper plate 25.

According to the above description, the design enables the insulation covers 9 after die cutting by the die cutting machine 21 to enter the subsequent feeding device 2 smoothly and orderly, and in the process of sliding down the insulation covers 9, due to the guiding effect of the guide plate 221 and the limiting effect of the second limiting plate 26, the postures of each insulation cover 9 after sliding out from the discharge end of the guide rail 22 are kept consistent, and then the positioning cylinder 24 pushes the insulation cover 9 until contacting with the first limiting plate 25, so that the subsequent accurate feeding is guaranteed.

Further, the feeding machine 23 comprises a horizontal transmission device 231 and a gripping device 232 connected with the horizontal transmission device; the lower part of the gripping device 232 is provided with a gripping sucker 2321; the horizontal transmission device 231 can drive the grabbing device 232 to move along the axial direction of the second limiting block 26.

As will be understood from the above description, this design ensures that the feeding machine 23 can smoothly place the die-cut insulating cover 9 on the rotary transfer disk 1 for subsequent related work.

Further, the labeling device 3 comprises a frame 31, and a material receiving and discharging device 32, a glue stripping device 33 and a labeling head 34 which are arranged on the frame 31 in a flow line; one end of the glue stripping device close to the label sticking head 34 is provided with an induction electric eye 35; the labeling head 34 is reciprocally movable in the axial direction of the tape stripping device 33.

Further, the material receiving and discharging device 32 comprises a material discharging shaft 321, a material receiving shaft 322, a material receiving roller 323 and a guide roller 324.

As can be seen from the above description, the labels in the form of a roll are disposed on the feeding shaft 321, one end of the label in the form of a roll is pulled out, and the label passes through the receiving shaft 322, the glue stripping device 33, the guide roller 324, the receiving roller 323 and the receiving shaft 322 in sequence, when the glue stripping device 33 passes through, after the distance that the label tape on the glue stripping device 33 moves by one label is detected by the sensing electric eye 35, the receiving roller 323 and the receiving shaft 322 stop running, the labeling head 34 starts at this time, and after the label is clamped, the label is fixed on the insulating cover 9, so as to complete labeling work.

Further, the waste discharge device 4 comprises a waste discharge lifting device 41, a waste discharge head 42 and a waste material box 43, wherein the lifting device 41 is used for driving the waste discharge head 42 to lift; the waste discharge head 42 can move from the inner side of the material to the outer side of the material; the waste material box 43 is located directly below the waste discharge head 42.

As can be seen from the above description, the waste material on the insulating cover 9 is fixed by the waste material lifting device 41 and the waste material discharging heads 42 at both sides, and then the waste material discharging heads 42 are moved away from the insulating cover 9, so that the waste material can be separated from the insulating cover 9, and the separated waste material can fall into the waste material box 43.

Further, the preforming device 5 includes a grasping portion 51, a preforming portion 52, and a pushing portion 53; the preforming part 52 comprises a feeding section, a pressing section and a discharging section which are arranged in sequence; the gripping section 51 is movable above the feed section of the preform section 52; the pusher 53 is provided on one side of the feed section of the preform section 52.

As can be seen from the above description, the gripping part 51 can move the labeled insulating cover 9 to the feeding section of the preforming part 52; then the insulating cover 9 is moved to the material pressing section of the pre-forming part 52 through the material pushing part 53; after the material pressing is finished, the material pushing part 53 further moves the insulation cover 9 to the material discharging section of the preforming part 52, so that the subsequent processes can be conveniently carried out.

Further, the molding device 6 includes a conveying section 61 and a molding section 62; the transfer section 61 includes a three-axis industrial robot arm 611 and a robot arm gripper 612 connected to each other.

As can be seen from the above description, the insulation cover 9 formed by pre-pressing is moved to the forming portion 62 for final forming work by the cooperation between the three-axis industrial robot 611 and the robot gripper 612.

Further, the device for preparing the battery insulating cover further comprises a workbench 7 and a material receiving box 8; the rotary conveying disc 1, the feeding device 2, the labeling device 3, the waste discharge device 4, the preforming device 5 and the forming device 6 are all arranged on a workbench 7; the material receiving box 8 is arranged on one side of the workbench 7 and is adjacent to the discharge end of the forming device 6.

As can be seen from the above description, the design can ensure the stability of the operation of the equipment, and the material receiving box 8 can facilitate the collection of the insulating cover 9, thereby avoiding the trouble of manual material receiving.

The utility model discloses a preparation facilities of battery insulating boot can assist the subsides mark of battery insulating boot to and the fashioned work of bending.

The first embodiment of the utility model is that:

referring to fig. 1 to 4, a device for manufacturing a battery insulating cover comprises a rotary conveying disc 1, and a feeding device 2, a labeling device 3, a waste discharge device 4, a preforming device 5, a forming device 6, a workbench 7 and a receiving box 8 which are sequentially arranged on the periphery of the rotary conveying disc; the feeding device 2 comprises a die cutting machine 21 and a feeding machine 23 connected with the die cutting machine through a guide rail 22; the feed end of the guide track 22 is higher than the discharge end; the feeding end of the guide rail 22 is connected with the discharging end of the die cutting machine 21; 2 guide plates 221 are arranged on the guide rail 22; the opening of the channel surrounded by the guide plate 221, which is close to the feeding end of the guide rail 22, is larger than the opening of the channel, which is close to the discharging end of the guide rail 22; the discharge end of the guide rail 22 comprises a first limiting plate 25 and a second limiting plate 26 which are arranged at a right angle; the second limiting plate 26 is over against the discharge end of the guide track 22; the discharge end of the guide track 22 is also provided with a positioning cylinder 24; the movable end of the positioning cylinder 24 is arranged towards the first limit plate 25; the feeding machine 23 comprises a horizontal transmission device 231 and a grabbing device 232 connected with the horizontal transmission device; the lower part of the gripping device 232 is provided with a gripping sucker 2321; the horizontal transmission device 231 can drive the grabbing device 232 to move along the axis direction of the second limiting block 26; at least 4 workpiece fixing platforms 11 are arranged on the rotary conveying disc 1; the feeding machine 23, the labeling device 3, the waste discharge device 4 and the preforming device 5 are all positioned in the rotating range of the workpiece fixing table 11; the preparation device of the battery insulating cover also comprises a workbench 7 and a material receiving box 8; the rotary conveying disc 1, the feeding device 2, the labeling device 3, the waste discharge device 4, the preforming device 5 and the forming device 6 are all arranged on the workbench 7; the material receiving box 8 is arranged on one side of the workbench 7 and is arranged adjacent to the discharging end of the forming device 6.

Referring to fig. 5, the labeling device 3 includes a frame 31, and a material receiving and discharging device 32, a glue stripping device 33 and a labeling head 34 which are arranged on the frame 31 in a flow line; one end of the glue stripping device close to the sticking head 34 is provided with an induction electric eye 35; the labeling head 34 can reciprocate along the axial direction of the glue stripping device 33; the material receiving and discharging device 32 comprises a material discharging shaft 321, a material receiving shaft 322, a material receiving roller 323 and a guide roller 324.

Referring to fig. 6, the waste discharge device 4 includes a waste discharge lifting device 41, a waste discharge head 42 and a waste material box 43, wherein the lifting device 41 is used for driving the waste discharge head 42 to lift; the waste discharge head 42 can move from the inner side of the material to the outer side of the material; the waste material box 43 is located directly below the waste discharge head 42.

Referring to fig. 7, the preforming device 5 includes a grasping portion 51, a preforming portion 52, and a pushing portion 53; the preforming part 52 comprises a feeding section, a pressing section and a discharging section which are arranged in sequence; the gripping section 51 is movable above the feed section of the preform section 52; the pusher 53 is provided on one side of the feed section of the preform section 52.

Referring to fig. 8, the molding device 6 includes a conveying section 61 and a molding section 62; the transfer section 61 includes a three-axis industrial robot arm 611 and a robot arm gripper 612 connected to each other.

The utility model discloses a theory of operation does: when the insulation cover 9 enters the die cutting machine 21 for die cutting, the discharge end of the die cutting machine 21 enters the feed end of the guide rail 22; in the process of sliding downwards, the posture of the insulating cover 9 is gradually changed until the insulating cover contacts the second limiting plate 26 under the guiding action of the guiding plate 221; at the moment, the positioning cylinder 24 is started, and the insulation cover 9 is pushed by the movable end of the positioning cylinder 24 until the movable end contacts the first limit plate 25; then the gripping device 232 on the feeding machine 23 descends to fix the insulation cover 9 by the gripping sucker 2321 and raise the insulation cover 9 to a height higher than the table top of the workbench 7, then the insulation cover 9 is moved above the workpiece fixing table 11 by the horizontal transmission device 231, and the gripping device 232 descends again to accurately place the insulation cover 9 on the workpiece fixing table 11, thereby completing the feeding operation.

Then, the rotary transmission disc 1 rotates to the labeling device 3; at this time, the material receiving roller 323 and the material receiving shaft 322 synchronously rotate, so as to drive the discharging shaft 321 to discharge the label; when the sensing electric eye 35 on the glue stripping device 33 detects that the label tape on the glue stripping device 33 moves a distance of one label, the material receiving roller 323 and the material receiving shaft 322 stop running, the labeling head 34 starts at the moment, and the label is fixed on the insulating cover 9 after being clamped, so that the labeling work is completed.

Then, the rotary transmission disc 1 rotates to the waste discharge device 4; at this time, the waste discharge elevating device 41 descends to fix the waste on the insulating cover 9 by the waste discharge heads 42 at both sides, and then moves to the outside of the insulating cover 9 along the inside of the insulating cover 9, thereby separating the waste from the insulating cover 9.

Then, the rotating transmission disc 1 rotates to the preforming device 5; the gripping part 51 can move the insulating cover 9 on the workpiece fixing table 11 to the feeding section of the preforming part 52; then, the insulation cover 9 is moved to the material pressing section of the preforming part 52 by the movable end of the material pushing part 53; after the pre-pressing forming, the movable end of the pushing part 53 further moves the insulation cover 9 to the discharging section of the pre-forming part 52, thereby completing the pre-forming operation.

Finally, the preformed insulating cover 9 is clamped through the matching between the three-axis industrial mechanical arm 611 and the mechanical arm claw 612, and is conveyed to the feeding hole of the forming part 62, and meanwhile, the insulating cover 9 is pushed towards the direction of the discharging hole of the forming part 62; in the pushing process, the pre-pressing sections 91 (refer to fig. 9) of the insulation cover at the two sides of the insulation cover 9 are gradually folded towards the middle; finally, the formed insulating cover 9 falls into the material receiving box 8, thereby completing the production work of the whole set of insulating cover 9.

In summary, the device for preparing the battery insulating cover provided by the utility model has the advantages of compact overall structure, low cost and convenient operation; the actions of automatic feeding, automatic labeling, automatic waste discharge and automatic extrusion molding of the insulating cover are realized through the matching of the rotary conveying disc, the feeding device, the labeling device, the waste discharge device, the preforming device and the forming device; the defects that the existing manual processing steps are easy to cause poor product production quality and low production efficiency due to the uncertainty of manual operation are overcome.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The device for preparing the battery insulating cover is characterized by comprising a rotary conveying disc, and a feeding device, a labeling device, a waste discharge device, a preforming device and a forming device which are sequentially arranged on the periphery of the rotary conveying disc; the feeding device comprises a die cutting machine and a feeding machine connected with the die cutting machine through a guide rail.

2. The apparatus for preparing a battery insulating case according to claim 1, wherein at least 1 workpiece fixing station is provided on the rotary transfer plate; the feeding machine, the labeling device, the waste discharge device and the preforming device are all located in the rotating range of the workpiece fixing table.

3. The device for preparing the battery insulating cover according to claim 1, wherein the feeding end of the guide rail is higher than the discharging end; the feeding end of the guide rail is connected with the discharging end of the die cutting machine; 2 guide plates are arranged on the guide rail; the opening of the channel surrounded by the guide plates, which is close to the feeding end of the guide track, is larger than the opening of the channel, which is close to the discharging end of the guide track; the discharge end of the guide rail comprises a first limiting plate and a second limiting plate which are arranged in a right angle; the second limiting plate is opposite to the discharge end of the guide rail.

4. The device for preparing the battery insulating cover according to claim 3, wherein a positioning cylinder is further arranged at the discharge end of the guide rail; the movable end of location cylinder sets up towards first limiting plate.

5. The device for preparing the battery insulating cover according to claim 3, wherein the feeding machine comprises a horizontal transmission device and a grabbing device connected with the horizontal transmission device; the lower part of the gripping device is provided with a gripping sucker; the horizontal transmission device can drive the grabbing device to move along the axis direction of the second limiting plate.

6. The device for preparing the battery insulating cover according to claim 1, wherein the labeling device comprises a rack, and a material receiving and discharging device, a glue stripping device and a labeling head which are arranged on the rack in a flow line manner; one end of the glue stripping device close to the label sticking head is provided with an induction electric eye; the labeling head can move back and forth along the axis direction of the glue stripping device.

7. The device for preparing the battery insulating cover according to claim 1, wherein the waste discharging device comprises a waste discharging lifting device, a waste discharging head and a waste material box, and the lifting device is used for driving the waste discharging head to lift; the waste discharge head can move from the inner side of the material to the outer side of the material; the waste material box is positioned right below the waste discharge head.

8. The device for preparing the battery insulating cover according to claim 1, wherein the preforming device comprises a grabbing part, a preforming part and a pushing part; the preforming part comprises a feeding section, a pressing section and a discharging section which are arranged in sequence; the gripping part can move above the feeding section of the preforming part; the material pushing part is arranged on one side of the feeding section of the preforming part.

9. The apparatus for manufacturing a battery insulating case according to claim 8, wherein the molding means includes a transfer part and a molding part; the conveying part comprises a three-axis industrial mechanical arm and a mechanical arm claw which are connected with each other.

10. The device for preparing the battery insulating cover according to claim 1, characterized by further comprising a workbench and a material receiving box; the rotary conveying disc, the feeding device, the labeling device, the waste discharge device, the preforming device and the forming device are all arranged on the workbench; the material collecting box is arranged on one side of the workbench and is arranged adjacent to the discharge end of the forming device.

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