CN211662666U - Electromagnetic induction heating laminating cutting machine - Google Patents

Abstract

The utility model relates to the technical field of heating, laminating and splitting machines for electronic materials such as optical films or lithium battery films, in particular to an electromagnetic induction heating, laminating and splitting machine, which comprises a frame, wherein a first feeding belt coil and a second feeding belt coil which are arranged up and down, and a first discharging belt coil and a second discharging belt coil which are arranged up and down are respectively arranged at two ends of the frame, a driving cylinder is arranged at the middle part of the frame, the driving cylinder is connected with a laminating pressing wheel in a driving way, an electromagnetic induction heating roller is arranged below the laminating pressing wheel, the electromagnetic induction heating roller and the first feeding belt coil are arranged, a guide wheel set is arranged between the second feeding strip coils, a circular cutter set is arranged between the electromagnetic induction heating roller and the first discharging strip coils and between the electromagnetic induction heating roller and the second discharging strip coils, a transition wheel is arranged on the side of the circular cutter set, a code counting wheel is arranged on the top of the transition wheel, a material guide cylinder is arranged on the side of the transition wheel, and the material guide cylinder is connected with the material guide wheel in a driving mode. The machining requirements of a plurality of working procedures are met simultaneously, and the working efficiency and the production quality are improved.

Description

Electromagnetic induction heating laminating cutting machine

Technical Field

The utility model relates to an electronic material's such as blooming or lithium cell membrane heating laminating cutting machine technical field especially relates to an electromagnetic induction heating laminating cutting machine.

Background

Traditional heating rigging machine uses heat conduction oil roller or resistance wire roller that generates heat to accomplish multiple film material's heating laminating work usually, but heat conduction oil roller or resistance wire roller that generates heat have calorific loss big, it is big to operational environment pollution, heat utilization efficiency is low, the big scheduling problem of energy consumption, influence the production quality of product, can't satisfy the processing requirement of heating laminating, cut, different processes such as rolling simultaneously in same equipment in addition, service function is single, degree of automation is low, work efficiency is low.

Disclosure of Invention

An object of the utility model is to prior art not enough, provide an electromagnetic induction heating laminating cutting machine, satisfy the processing requirement of a plurality of processes simultaneously, degree of automation is high, and heat energy is high, and heating temperature homogeneity is good, improves work efficiency and production quality.

In order to achieve the purpose, the electromagnetic induction heating laminating dividing and cutting machine of the utility model comprises a frame, a first feeding belt coil and a second feeding belt coil which are arranged up and down, and a first discharging belt coil and a second discharging belt coil which are arranged up and down are respectively arranged at the two ends of the stand, a driving cylinder is arranged in the middle of the frame, the power output end of the driving cylinder is connected with a joint pinch roller in a driving way, an electromagnetic induction heating roller is arranged below the laminating pressing wheel, a guide wheel set is arranged between the electromagnetic induction heating roller and the first feeding belt coil and between the electromagnetic induction heating roller and the second feeding belt coil, a circular knife group is arranged between the electromagnetic induction heating roller and the first discharging belt coil and between the electromagnetic induction heating roller and the second discharging belt coil, the side of circle knife tackle is provided with the ferryboat, the top of ferryboat is provided with the meter yardage wheel, the side of ferryboat is provided with material direction cylinder, the power take off end drive of material direction cylinder is connected with the material leading wheel.

Preferably, a first air expansion shaft is arranged at the joint between the rack and the first feeding belt roll, a second air expansion shaft is arranged at the joint between the rack and the second feeding belt roll, a first slip shaft is arranged at the joint between the rack and the first discharging belt roll, and a second slip shaft is arranged at the joint between the rack and the second discharging belt roll.

Preferably, the guide wheel set comprises a first guide wheel, a second guide wheel, a third guide wheel, a fourth guide wheel and a fifth guide wheel, the first guide wheel and the second guide wheel are respectively arranged at the side of the first feeding belt roll and the side of the second feeding belt roll, and the third guide wheel, the fourth guide wheel and the fifth guide wheel are distributed at the side of the first guide wheel and the side of the second guide wheel from top to bottom.

Preferably, the circular knife group comprises an upper circular knife and a lower circular knife, and the upper circular knife and the lower circular knife are arranged in a tangent mode.

Preferably, a static eliminator is arranged between the transition wheel and the material guide wheel.

The utility model has the advantages that: the utility model relates to an electromagnetic induction heating laminating dividing and cutting machine, which comprises a frame, wherein a first feeding strip coil and a second feeding strip coil which are arranged up and down and a first discharging strip coil and a second discharging strip coil which are arranged up and down are respectively arranged at two ends of the frame, a driving cylinder is arranged in the middle of the frame, the power output end of the driving cylinder is connected with a joint pinch roller in a driving way, an electromagnetic induction heating roller is arranged below the laminating pressing wheel, a guide wheel set is arranged between the electromagnetic induction heating roller and the first feeding belt coil and between the electromagnetic induction heating roller and the second feeding belt coil, a circular knife group is arranged between the electromagnetic induction heating roller and the first discharging belt coil and between the electromagnetic induction heating roller and the second discharging belt coil, the side of circle knife tackle is provided with the ferryboat, the top of ferryboat is provided with the meter yardage wheel, the side of ferryboat is provided with material direction cylinder, the power take off end drive of material direction cylinder is connected with the material leading wheel.

When the device works, a film material A is led out from a first feeding tape roll, a film material B is led out from a second feeding tape roll, the film material A and the film material B are respectively guided by a guide wheel set to be conveyed to a gap position between a laminating pressing wheel and an electromagnetic induction heating roller, a driving cylinder drives the laminating pressing wheel to move downwards to press the film material A and the film material B on the roller surface of the electromagnetic induction heating roller together, the electromagnetic induction heating roller is controlled by PLC (programmable logic controller) full-electric gasification, the heating and temperature rising speed is high, the uniformity of the heating temperature of the roller surface is good, the temperature control precision is high, no oil stain pollution exists, the cleanness and sanitation of a production environment are ensured, the film material A and the film material B can form a wide aluminum battery film or an optical film coiled material through the heating and laminating work between the electromagnetic induction heating roller and the laminating pressing wheel, and the film material A and the film material B can select different corresponding film materials, the utility model discloses a material guiding device, including a frame, a material guiding cylinder, a circle knife tackle, a meter code wheel, a sensor, a material guiding cylinder, a material guiding wheel, a material guiding cylinder, a material. The utility model discloses satisfy the processing requirement of a plurality of processes simultaneously, degree of automation is high, and heat energy is high, and heating temperature homogeneity is good, improves work efficiency and production quality.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

The reference numerals include:

1-frame 2-first feeding coil 3-second feeding coil

4-first discharging belt coil 5-second discharging belt coil 6-driving cylinder

7-laminating pressure roller 8-electromagnetic induction heating roller

9-guide pulley group 91-first guide pulley 92-second guide pulley

93-third guide pulley 94-fourth guide pulley 95-fifth guide pulley

10-circular knife group 101-upper circular knife 102-lower circular knife

11-transition wheel 12-code wheel 13-material guide cylinder

14-material guide wheel 15-first inflatable shaft 16-second inflatable shaft

17-first slip shaft 18-second slip shaft 19-static eliminator.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the utility model relates to an electromagnetic induction heating laminating slitter, which comprises a frame 1, wherein a first feeding strip coil 2 and a second feeding strip coil 3 which are arranged up and down and a first discharging strip coil 4 and a second discharging strip coil 5 which are arranged up and down are respectively arranged at two ends of the frame 1, a driving cylinder 6 is arranged at the middle part of the frame 1, a laminating pinch roller 7 is connected with the driving of the power output end of the driving cylinder 6, an electromagnetic induction heating roller 8 is arranged below the laminating pinch roller 7, a guide wheel group 9 is arranged between the electromagnetic induction heating roller 8 and the first feeding strip coil 2 and the second feeding strip coil 3, a circular knife group 10 is arranged between the electromagnetic induction heating roller 8 and the first discharging strip coil 4 and the second discharging strip coil 5, a transition wheel 11 is arranged at the side of the circular knife group 10, a code wheel 12 is arranged at the top of the transition wheel 11, a material guide cylinder 13 is arranged beside the transition wheel 11, and a material guide wheel 14 is connected to the power output end of the material guide cylinder 13 in a driving manner.

When the device works, a film material A is led out from a first feeding tape coil 2, a film material B is led out from a second feeding tape coil 3, the film material A and the film material B are respectively guided by a guide wheel set 9 to be conveyed to a gap position between a laminating pressing wheel 7 and an electromagnetic induction heating roller 8, a driving cylinder 6 drives the laminating pressing wheel 7 to move downwards to press the film material A and the film material B on the roller surface of the electromagnetic induction heating roller 8 together, the electromagnetic induction heating roller 8 is controlled by PLC (programmable logic controller) full-electric gasification, the heating temperature rise speed is high, the roller surface heating temperature uniformity is good, the temperature control precision is high, no oil stain pollution exists, the cleanness and sanitation of a production environment are ensured, the film material A and the film material B can form a wide aluminum battery film or an optical film coiled material through the heating laminating work between the electromagnetic induction heating roller 8 and the laminating pressing wheel 7, the film material A and the film material B can select different corresponding film materials according to the actual product, then the coil material is cut into narrow-width coil material according to the specification of the processing requirement by the circular knife group 10, the narrow-width coil material is conveyed forwards and drives the code wheel 12 to rotate, the code wheel 12 measures and counts the number of self-rotating circles through a sensor, the total length of the narrow-width aluminum battery film or optical film coil material can be obtained through the circumference and the number of circles of the code wheel 12, two material guide wheels 14 are arranged, one is fixedly installed on the rack 1, the other is movably connected to the material guide cylinder 13 and used for guiding and conveying the narrow-width aluminum battery film or optical film coil material to the first discharging coil material 4 for discharging and winding, and the material guide wheel fixedly installed on the rack 1 is used for guiding and conveying the other narrow-width aluminum battery film or optical film coil material to the second discharging coil material 5 for discharging and winding. The utility model discloses satisfy the processing requirement of a plurality of processes simultaneously, degree of automation is high, and heat energy is high, and heating temperature homogeneity is good, improves work efficiency and production quality.

As shown in fig. 1, a first air-expanding shaft 15 is disposed at a joint between the machine frame 1 and the first feeding tape roll 2, a second air-expanding shaft 16 is disposed at a joint between the machine frame 1 and the second feeding tape roll 3, a first slip shaft 17 is disposed at a joint between the machine frame 1 and the first discharging tape roll 4, and a second slip shaft 18 is disposed at a joint between the machine frame 1 and the second discharging tape roll 5. Specifically, a first feeding strip coil 2, a second feeding strip coil 3, a first discharging strip coil 4 and a second discharging strip coil 5 are respectively installed on the rack 1 through a first air expansion shaft 15, a second air expansion shaft 16, a first slip shaft 17 and a second slip shaft 18, and the air expansion shafts and the slip shafts adopt an electrified control type automatic tension force adjustment mode to prevent slippage and ensure good position precision and connection stability.

As shown in fig. 1, the guide pulley set 9 of the present embodiment includes a first guide pulley 91, a second guide pulley 92, a third guide pulley 93, a fourth guide pulley 94 and a fifth guide pulley 95, the first guide pulley 91 and the second guide pulley 92 are respectively disposed at the lateral sides of the first feeding belt roll 2 and the second feeding belt roll 3, and the third guide pulley 93, the fourth guide pulley 94 and the fifth guide pulley 95 are distributed at the lateral sides of the first guide pulley 91 and the second guide pulley 92 from top to bottom. Specifically, the film material a is taken out from the first feed roll 2 and is guided by the first guide roller 91 to be carried to the third guide roller 93, then carried by the third guide roller 93 to the fourth guide roller 94, and then carried by the fourth guide roller 94 to the gap position between the bonding roller 7 and the electromagnetic induction heating roller 8. The film material B is drawn from the second feed roll 3, guided by the second guide roller 92, conveyed to the fifth guide roller 95, and conveyed by the fifth guide roller 95 to the gap between the bonding roller 7 and the electromagnetic induction heating roller 8. The structure is coherent and compact, the transmission efficiency is high, when the problem occurs and the guide wheel is damaged, only the damaged guide wheel needs to be replaced, the whole guide wheel set 9 does not need to be replaced, and the cost is saved.

As shown in fig. 1, the circular knife set 10 of the present embodiment includes an upper circular knife 101 and a lower circular knife 102, and the upper circular knife 101 is arranged tangentially to the lower circular knife 102. Specifically, the upper circular knife 101 and the lower circular knife 102 which are placed up and down rotate in a tangent mode, the forward conveyed wide aluminum battery film or optical film coiled material can be cut in a strip mode, the installation and the disassembly are convenient, and the cutting efficiency is high.

As shown in fig. 1, a static eliminator 19 is disposed between the transition wheel 11 and the material guide wheel 14 in this embodiment. Specifically, the static eliminator 19 can effectively eliminate static on the surface of the finished aluminum battery film or optical film coil, and prevent the static from adsorbing dust and foreign matters too much to affect the product quality.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (5)

1. The utility model provides an electromagnetic induction heating laminating cutting machine, includes the frame, its characterized in that: the utility model discloses a rolling machine, including frame, electromagnetic induction heating roller, first feeding roll of strip, second feeding roll of strip and first ejection of compact book of placing, second ejection of compact book of placing from top to bottom, the middle part of frame is provided with and drives actuating cylinder, the power take off end drive that drives actuating cylinder is connected with the laminating pinch roller, the below of laminating pinch roller is provided with the electromagnetic induction heating roller, be provided with the guide pulley group between electromagnetic induction heating roller and first feeding roll of strip, the second feeding roll of strip, be provided with the circular knife group between electromagnetic induction heating roller and first ejection of compact roll of strip, the second ejection of compact roll of strip, the side of circular knife group is provided with the ferryboat, the top of crossing the ferryboat is provided with the meter wheel, the side of crossing the ferryboat is provided with material guide cylinder, the power take off end drive.

2. The electromagnetic induction heating laminating and splitting machine of claim 1, wherein: the joint between the rack and the first feeding belt roll is provided with a first air expansion shaft, the joint between the rack and the second feeding belt roll is provided with a second air expansion shaft, the joint between the rack and the first discharging belt roll is provided with a first slip shaft, and the joint between the rack and the second discharging belt roll is provided with a second slip shaft.

3. The electromagnetic induction heating laminating and splitting machine of claim 1, wherein: the guide wheel set comprises a first guide wheel, a second guide wheel, a third guide wheel, a fourth guide wheel and a fifth guide wheel, the first guide wheel and the second guide wheel are respectively arranged at the side of the first feeding belt roll and the side of the second feeding belt roll, and the third guide wheel, the fourth guide wheel and the fifth guide wheel are distributed at the side of the first guide wheel and the side of the second guide wheel from top to bottom.

4. The electromagnetic induction heating laminating and splitting machine of claim 1, wherein: the circular knife group comprises an upper circular knife and a lower circular knife, and the upper circular knife and the lower circular knife are arranged in a tangent mode.

5. The electromagnetic induction heating laminating and splitting machine of claim 1, wherein: and a static eliminator is arranged between the transition wheel and the material guide wheel.

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