CN214446608U - Battery side rubber coating machine and sucking disc type flexible glue pressing block thereof - Google Patents

Abstract

The utility model discloses a battery side edge rubber coating machine and a sucker type flexible glue pressing block thereof, which comprises a frame, and a rubber cloth conveying mechanism, a rubber cloth cutting mechanism, a battery placing mechanism and a rubber cloth pasting mechanism which are arranged on the frame; the mechanism is pasted to adhesive tape with the relative setting of battery placement mechanism, adhesive tape conveying mechanism carries the adhesive tape extremely between mechanism and the adhesive tape pasting mechanism are placed to the battery, the adhesive tape is decided to the movable type of cutter of adhesive tape cutting mechanism, be equipped with sucking disc formula flexible glue pressfitting piece in the mechanism is pasted to the adhesive tape, and this sucking disc formula flexible glue pressfitting piece adsorbs the adhesive tape, by the power supply drive and bond the battery of adhesive tape in the mechanism is placed to the battery. This rubber coating machine can accomplish automatic getting glue, tailor and the rubberizing, has avoided manual operation's error, has improved the quality and the efficiency of rubberizing. Especially, the sucker type soft rubber laminating block is adopted, has certain elasticity, can prevent the battery from being damaged by pressing, and can also ensure the laminating quality by laminating the adhesive paper more tightly.

Description

Battery side rubber coating machine and sucking disc type flexible glue pressing block thereof

Technical Field

The utility model belongs to the technical field of the battery is made and specifically relates to indicate a battery side rubber coating machine and sucking disc formula flexible glue pressfitting piece thereof.

Background

The battery provides the energy for portable electronic equipment such as various mobile terminal, accompanying sound, GPS navigation equipment, unmanned aerial vehicle, toy, earphone, is the essential mobile energy in people's life. During the production process of the battery, the side edges of the battery need to be encapsulated as necessary for the purpose of insulating and protecting the battery.

The battery encapsulation in the prior art generally adopts a manual mode, before the encapsulation, adhesive paper with a specified size needs to be cut, and then the adhesive paper is respectively attached to the side edges of the battery. The glue taking, cutting and sticking are carried out in a manual mode, the time is long, and the working efficiency is low. Meanwhile, due to manual factors, the sizes of the cut adhesive tapes are inconsistent or the adhesive tape sticking effects are inconsistent, the quality of subsequent adhesive tape sticking is affected, and the product reject ratio is high.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a battery side coating machine and a suction cup type soft rubber pressing block thereof, which can automatically pick, cut and paste rubber, and has good quality and high efficiency, thereby overcoming the disadvantages of the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the application provides a battery side rubber coating machine which comprises a rack, and a rubber cloth conveying mechanism, a rubber cloth cutting mechanism, a battery placing mechanism and a rubber cloth pasting mechanism which are arranged on the rack; the mechanism is pasted to the adhesive tape with the battery is placed the relative setting of mechanism, adhesive tape conveying mechanism carries the adhesive tape extremely between mechanism is pasted to battery placement mechanism and the adhesive tape, the adhesive tape is decided to the movable type of cutter of adhesive tape cutting mechanism, be equipped with sucking disc formula flexible glue pressfitting piece in the mechanism is pasted to the adhesive tape, and this sucking disc formula flexible glue pressfitting piece adsorbs the adhesive tape, by the power supply drive and paste the battery in the mechanism is placed to the adhesive tape.

As a preferred scheme, the sucking disc type soft rubber laminating block is a silica gel block.

As a preferred scheme, the bottom of the sucker type soft rubber laminating block is provided with a suction hole, and the suction hole is connected with a vacuumizing device through a vacuumizing channel.

As a preferred scheme, the sucking disc type soft rubber pressing block is arranged on a sucking disc seat, a hollow cavity is arranged inside the sucking disc seat, and the cavity is communicated with the sucking hole.

As a preferred scheme, the sucking disc type soft rubber pressing block is provided with two mounting grooves, the sucking disc seat is provided with two mounting plates, and the sucking disc type soft rubber pressing block is mounted through the matching of the mounting grooves and the mounting plates.

As a preferable scheme, the adhesive tape pasting mechanism further comprises a fifth driving cylinder for driving the sucking disc type soft adhesive pressing block to horizontally slide, and a sixth driving cylinder for driving the sucking disc type soft adhesive pressing block to horizontally slide.

As a preferred scheme, the adhesive tape conveying mechanism comprises a feeding mechanism, a first clamp used for pressing the adhesive tape and a second clamp used for pulling the adhesive tape, the first clamp is connected with a second driving cylinder capable of clamping the adhesive tape, the second clamp is driven by a third driving cylinder and can clamp the tail end of the adhesive tape, and the second clamp is driven by a stepping motor and a screw rod to move back and forth to pull the adhesive tape.

As a preferable scheme, the adhesive tape cutter of the adhesive tape cutting mechanism is driven by a fourth driving cylinder; the feeding mechanism is provided with a first air cylinder capable of adjusting the tension of the adhesive tape.

As a preferred scheme, the battery placing mechanism is a metal section; the battery placing mechanism comprises a first seat body and a second seat body, the first seat body and the second seat body are arranged in a clearance mode, a top plate is arranged between the first seat body and the second seat body, and a positioning rod used for positioning the battery is arranged on one side of the battery placing mechanism.

As a preferred scheme, a sucking disc type soft rubber laminating block for a battery side rubber coating machine is arranged on the adhesive tape pasting mechanism to paste the adhesive tape on a battery on the battery placing mechanism.

Compared with the prior art, the utility model have obvious advantage and beneficial effect, particularly, can know by above-mentioned technical scheme, battery side rubber coating machine includes the frame and locates adhesive tape conveying mechanism, adhesive tape cutting mechanism, battery placement machine structure, adhesive tape pasting mechanism in the frame, can accomplish and get automatically and glue, tailor and the rubberizing, has avoided manual operation's error, has improved the quality and the efficiency of rubberizing. Especially, the sucker type soft rubber laminating block is adopted, has certain elasticity, can prevent the battery from being damaged by pressing, and can also ensure the laminating quality by laminating the adhesive paper more tightly.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is an overall schematic diagram of an embodiment of the present invention.

Fig. 2 is a schematic diagram of the embodiment of the present invention shown in fig. 1 without a frame.

Fig. 3 is a schematic view of the embodiment of the present invention, which is shown in fig. 1 without the frame and a part of the adhesive tape adhering mechanism.

Fig. 4 is an assembly diagram of the suction cup type flexible glue pressing block and the suction cup seat according to the embodiment of the present invention.

The attached drawings indicate the following:

10. frame 11, locating rod 12, adhesive tape

20. Feeding mechanism 21, feeding wheel 22 and discharging wheel

23. Guide rod 24, first driving cylinder 25 and first sliding rail

26. First slide block 30, positioning mechanism 31 and second driving air cylinder

32. A first clamp 33, a third driving cylinder 34, and a second clamp

35. Screw rod 36, stepping motor 37 and second sliding block

38. A second slide rail 40, a rubberized fabric cutting mechanism 41 and a fourth driving cylinder

42. Adhesive tape cutter 50, adhesive tape pasting mechanism 51 and fifth driving cylinder

52. Third slide block 53, third slide rail 54 and sixth driving cylinder

510. Battery placing mechanism 512, first seat 513 and second seat

514. Top plate 520, suction cup type soft rubber pressing block 521 and suction hole

523. Suction cup seat 524, cavity 525, and air exhaust hole

526. Mounting groove 527, mounting plate.

Detailed Description

Referring to fig. 1 to 4, specific structures of preferred embodiments of the present invention are shown, which are a battery side edge glue coating machine and a suction cup type soft glue pressing block thereof.

Wherein, the feeding mechanism 20 continuously provides the gummed paper 12 for the positioning mechanism 30, ensuring uninterrupted production. After the positioning mechanism 30 fixes the gummed paper 12 according to the cutting size, the sucking disc type soft rubber laminating block 520 on the adhesive tape pasting mechanism 50 sucks the gummed paper 12 fixed by the positioning mechanism 30, then the adhesive tape cutting mechanism 40 cuts the gummed paper 12, and finally the adhesive tape pasting mechanism 50 pastes the gummed paper 12 on the battery, so that automatic glue taking, cutting and pasting are realized, the error of manual operation is avoided, and the quality of pasting is improved.

The application provides a battery side rubber coating machine, including frame 10, feeding mechanism 20, positioning mechanism 30, adhesive tape cutting mechanism 40, adhesive tape pasting mechanism 50, battery placement machine 510. The feeding mechanism 20, the positioning mechanism 30, the adhesive tape cutting mechanism 40 and the adhesive tape pasting mechanism 50 are arranged on the rack 10, and the feeding mechanism 20 and the positioning mechanism 30 form an adhesive tape conveying mechanism; the gummed paper 12 on the feeding mechanism 20 enters the positioning mechanism 30; the adhesive tape cutting mechanism 40 cuts the adhesive tape 12 on the positioning mechanism 30; the adhesive tape pasting mechanism 50 is provided with a suction disc type soft rubber pressing block 520, the suction disc type soft rubber pressing block 520 is provided with a plurality of suction holes 521, and the suction disc type soft rubber pressing block is connected with a vacuumizing device through a vacuumizing channel; the suction cup type soft glue pressing block 520 sucks the adhesive paper 12 from the positioning mechanism 30 to be attached to the side edge of the battery. The preferable working steps are as follows: in the first step, the positioning mechanism 30 obtains the adhesive paper 12 from the feeding mechanism 20, and fixes the adhesive paper 12 to the positioning mechanism 30 according to the cutting size. Secondly, the suction type soft rubber pressing block 520 on the adhesive tape pasting mechanism 50 sucks the adhesive tape 12 fixed by the positioning mechanism 30, and then the adhesive tape cutting mechanism 40 cuts the adhesive tape 12. Third, the adhesive tape sticking mechanism 50 sticks the adhesive tape 12 to the battery. Therefore, the battery side rubber coating machine realizes automatic rubber taking, cutting and rubber coating, avoids the error of manual operation, and improves the rubber coating quality and efficiency. In addition, the feeding mechanism 20 can continuously supply the gummed paper 12, so that uninterrupted production is ensured.

Further, the feeding mechanism 20 comprises a feeding wheel 21, a discharging wheel 22 and two guide rods 23; the discharging wheel 22 is arranged on one side of the material guiding rod 23; the gummed paper 12 on the feeding wheel 21 sequentially passes through the first guiding rod 23, the discharging wheel 22 and the second guiding rod 23 and then enters the positioning mechanism 30. The two guide rods 23 and the discharging wheel 22 are preferably arranged in a V-shaped manner to ensure that the adhesive paper 12 is continuously tensioned and does not loosen. Meanwhile, the feeding wheel 21 and the discharging wheel 22 are rotatable to reduce friction.

Further, the feeding mechanism 20 further includes a first driving cylinder 24, a first slide rail 25, and a first slide block 26; the discharge wheel 22 is disposed on the first slide block 26, and the first driving cylinder 24 drives the first slide block 26 to slide on the first slide rail 25. The first driving air cylinder 24 drives the first sliding block 26 to slide upwards or downwards on the first sliding rail 25, so that the distance between the discharging wheel 22 and the two material guiding rods 23 can be adjusted, and the effect of adjusting the tension of the adhesive paper 12 is achieved. The distance between the discharging wheel 22 and the two guide rods 23 is adjusted to adapt to the tension required by different adhesive tapes 12.

Further, the positioning mechanism 30 comprises a second driving cylinder 31, a first clamp 32 connected with the output end of the second driving cylinder 31, a third driving cylinder 33, and a second clamp 34 connected with the output end of the third driving cylinder 33; the second clamp 34 is movably connected to the first clamp 32 back and forth;

the adhesive tape cutting mechanism 40 comprises a fourth driving cylinder 41 and an adhesive tape cutter 42 connected with the output end of the fourth driving cylinder 41; the adhesive paper cutter 42 cuts the adhesive paper 12 on the first clamp 32. The third driving air cylinder 33 drives the second clamp 34 to clamp the adhesive tape 12, then the second clamp 34 pulls the adhesive tape 12, and then the second driving air cylinder 31 drives the first clamp 32 to clamp the adhesive tape 12. The adhesive sheet 12 is fixed by the first and second clamps 32 and 34, and then the fourth driving cylinder 41 drives the adhesive sheet cutter 42 to cut the adhesive sheet 12. Finally, the cut adhesive tape 12 is pasted on the battery by the suction type soft adhesive pressing block 520 on the adhesive tape pasting mechanism 50. The adhesive paper 12 cut by the adhesive tape cutting mechanism 40 is better leveled and has higher efficiency.

Further, the positioning mechanism 30 further includes a screw 35, a stepping motor 36, a second slider 37, and a second slide rail 38; the output end of the stepping motor 36 is connected with the screw rod 35, the screw rod 35 drives the second sliding block 37 to slide on the second sliding rail 38, and the second sliding block 37 is connected with the third driving cylinder 33. The stepping motor 36 drives the screw 35 to drive the second slider 37 to slide on the second slide rail 38. Since the second clamp 34 is disposed on the third driving cylinder 33, when the second slider 37 slides, the second clamp 34 can pull the adhesive tape 12, so that the adhesive tape 12 satisfies the attaching length. The gluing length of the adhesive tape 12 is designed in advance, so that manual operation is avoided, and the gluing length of the adhesive tape 12 can be controlled more accurately.

Further, the adhesive tape pasting mechanism 50 further comprises a fifth driving cylinder 51, a third slider 52, a third slide rail 53 and a sixth driving cylinder 54; the fifth driving cylinder 51 drives the third slide block 52 to slide on the third slide rail 53; the sixth driving air cylinder 54 is disposed on the third slide block 52, and the sixth driving air cylinder 54 drives the suction cup type soft rubber press-fit block 520 to move towards the battery placing mechanism 510. After the suction cup type soft glue pressing block 520 sucks the adhesive paper 12, the fifth driving cylinder 51 drives the third slide block 52 to move outwards on the third slide rail 53. When the third slide block 52 slides to the design position, the sixth driving air cylinder 54 drives the suction cup type soft rubber press-fit block 520 to move towards the battery placing mechanism 510 so as to attach the adhesive paper 12 to the battery in the battery placing mechanism 510. The fifth driving cylinder 51 and the sixth driving cylinder 54 constitute a power source for driving the suction cup type soft rubber laminating block 520.

Preferably, the battery placement mechanism 510 is a metal profile. The battery placement mechanism 510 has a space adapted to the size of the battery, so as to prevent the battery from being crushed and make the adhesive paper 12 fit more tightly. The battery placing mechanism 510 includes a first seat 512 and a second seat 513, the first seat 512 and the second seat 513 are arranged in a gap, and a top plate 514 is disposed between the first seat 512 and the second seat 513, so as to prevent the battery from being damaged due to too large stress. Also, the top plate 514 can facilitate removal of the battery.

Further, a positioning rod 11 for positioning the battery is disposed on one side of the battery placing mechanism 510, so that the battery can be taken out conveniently. The positioning rod 11 can also control the position of the battery, and the accuracy of rubberizing is guaranteed.

Preferably, the suction cup type soft rubber laminating block 520 is a silica gel block, so that the suction cup type soft rubber laminating block 520 has certain elasticity, can prevent the battery from being damaged by pressure, and can also attach the adhesive paper 12 more tightly. The sucker type soft rubber laminating block 520 is a silica gel block, can adapt to the structure of a long strip of the adhesive paper 12, and guarantees the quality of lamination.

Further, a suction disc seat 523 is arranged on the suction disc type soft rubber pressing block 520, a cavity 524 is arranged in the suction disc seat 523, and the cavity 524 is communicated with the suction hole 521. The suction cup holder 523 is provided on the sixth driving cylinder 54. The sucker type soft rubber press-fit block 520 is inserted into the sucker seat 523, then the two mounting plates 527 are clamped on the mounting grooves 526 of the sucker type soft rubber press-fit block 520, and the mounting plates 527 are screwed on the sucker seat 523. The suction cup holder 523 has a suction hole 525 communicating with the suction hole 521 through the cavity 524. When the air is exhausted from the air exhaust holes 525, the suction cup type soft rubber laminating block 520 sucks the gummed paper 12 through the suction holes 521.

To sum up, the utility model discloses a design focus lies in that its positioning mechanism 30 can get and glue location adhesive tape automatically, and adhesive tape cutting mechanism 40 can cut the glue automatically, and adhesive tape pasting mechanism 50 can automatic rubberizing, thereby makes battery side rubber coating machine can get automatically and glue, tailor and the rubberizing, has avoided manual operation's error, has improved the quality of rubberizing.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a battery side rubber coating machine which characterized in that: comprises a frame, an adhesive tape conveying mechanism, an adhesive tape cutting mechanism, a battery placing mechanism and an adhesive tape pasting mechanism, wherein the adhesive tape conveying mechanism, the adhesive tape cutting mechanism, the battery placing mechanism and the adhesive tape pasting mechanism are arranged on the frame; the mechanism is pasted to adhesive tape with the relative setting of battery placement mechanism, adhesive tape conveying mechanism carries the adhesive tape extremely between mechanism and the adhesive tape pasting mechanism are placed to the battery, the adhesive tape is decided to the movable type of cutter of adhesive tape cutting mechanism, be equipped with sucking disc formula flexible glue pressfitting piece in the mechanism is pasted to the adhesive tape, and this sucking disc formula flexible glue pressfitting piece adsorbs the adhesive tape, by the power supply drive and bond the battery of adhesive tape in the mechanism is placed to the battery.

2. The battery side rubber coating machine of claim 1, wherein: the sucker type soft rubber laminating block is a silica gel block.

3. The battery side rubber coating machine of claim 1, wherein: and the bottom of the sucker type soft rubber laminating block is provided with a suction hole and is connected with a vacuumizing device through a vacuumizing channel.

4. The battery side rubber coating machine of claim 3, wherein: the sucking disc type soft rubber pressing block is installed on the sucking disc seat, a hollow cavity is arranged inside the sucking disc seat, and the cavity is communicated with the sucking hole.

5. The battery side rubber coating machine of claim 4, wherein: the sucking disc type soft rubber pressing block is provided with two mounting grooves, the sucking disc seat is provided with two mounting plates, and the sucking disc type soft rubber pressing block is installed through the matching of the mounting grooves and the mounting plates.

6. The battery side rubber coating machine of claim 1, wherein: the adhesive tape pasting mechanism further comprises a fifth driving cylinder for driving the sucking disc type soft adhesive pressing block to horizontally slide and a sixth driving cylinder for driving the sucking disc type soft adhesive pressing block to horizontally slide.

7. The battery side rubber coating machine of claim 1, wherein: adhesive tape conveying mechanism includes feed mechanism, is used for compressing tightly the first anchor clamps of adhesive tape, is used for dragging the second anchor clamps of adhesive tape, the second that first anchor clamps are connected can press from both sides tight adhesive tape drives actuating cylinder, the second anchor clamps drive actuating cylinder drive and can press from both sides the end of tight adhesive tape by the third, and this second anchor clamps are dragged the adhesive tape by its round trip movement of step motor and lead screw cooperation drive.

8. The battery side edge encapsulating machine according to claim 7, characterized in that: the adhesive tape cutter of the adhesive tape cutting mechanism is driven by a fourth driving cylinder; the feeding mechanism is provided with a first air cylinder capable of adjusting the tension of the adhesive tape.

9. The battery side rubber coating machine of claim 1, wherein: the battery placing mechanism is a metal section; the battery placing mechanism comprises a first seat body and a second seat body, the first seat body and the second seat body are arranged in a clearance mode, a top plate is arranged between the first seat body and the second seat body, and a positioning rod used for positioning the battery is arranged on one side of the battery placing mechanism.

10. The utility model provides a sucking disc formula flexible glue pressfitting piece for battery side rubber coating machine which characterized in that: a battery mounted on the taping mechanism of claim 1 to bond the tape to the battery placement mechanism.

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