CN111591003A - Automatic attached type paper cutting device that leaves behind copper foil rubber coating is dried - Google Patents

Abstract

The invention relates to the technical field of aluminum substrate production, in particular to an automatic attaching release paper cutting device after copper foil gluing and drying, which comprises a release paper feeding mechanism, a copper foil feeding mechanism, a driving mechanism, a lifting mechanism, a release paper attaching mechanism, a release paper cutting mechanism and a controller; the device comprises a copper foil feeding mechanism, a copper foil cutting mechanism, a release paper attaching mechanism, a drive mechanism, a lifting mechanism, a release paper cutting mechanism, a copper foil feeding mechanism, a copper foil cutting mechanism; the scheme saves labor cost, improves production sales rate, and is simple in structure and easy to realize.

Description

Automatic attached type paper cutting device that leaves behind copper foil rubber coating is dried

Technical Field

The invention relates to the technical field of aluminum substrate production, in particular to a cutting device for automatically attaching release paper after copper foil gluing and drying.

Background

The copper foil is a copper foil roll, and the aluminum substrate is a component used for heat dissipation in the LED lamp. The production process of the copper foil comprises the following steps: dissolving copper to produce copper sulfate solution, storing the solution, filtering to remove solid impurities, and continuously producing a roll of copper foil by a foil forming machine.

The production process of the aluminum substrate comprises the following steps: firstly, one surface of a large roll of copper foil is coated with glue and dried, the copper foil is cut into a square, a thin aluminum plate is cut into the same square, the copper foil and the thin aluminum plate are pressed together by using the glue on the copper foil, and the aluminum plate is cut and trimmed, so that the aluminum substrate is obtained.

Before the copper foil and the thin aluminum plate are pressed together, a layer of release paper needs to be attached to the copper foil, but after the release paper is attached, manual trimming needs to be carried out, and labor consumption is huge. And need stop the operation manual work and change from type scroll after the type paper is used up, greatly influence production efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the cutting device for the automatic attaching of the release paper after the copper foil is coated with glue and dried.

In order to solve the technical problems, the invention provides the following technical scheme:

a cutting device for automatically attaching release paper after copper foil gluing and drying is characterized by comprising a release paper feeding mechanism, a copper foil feeding mechanism, a driving mechanism, a lifting mechanism, a release paper attaching mechanism, a release paper cutting mechanism and a controller;

from type paper feed mechanism setting in one side of copper foil feed mechanism, under the operating condition from type paper feed mechanism work end position in copper foil feed mechanism top, the actuating mechanism drive end sets up at copper foil feed mechanism opposite side, actuating mechanism's partly sets up on from type paper feed mechanism, elevating system sets up the one side at copper foil feed mechanism, under the operating condition elevating system work end is in the same straight line of vertical direction with the copper foil on from type paper feed mechanism work end and the copper foil feed mechanism, from type paper attaching mechanism and from type paper cutting mechanism all set up on elevating system's work end, from type paper attaching mechanism and elevating system elastic connection, from type paper feed mechanism, copper foil feed mechanism, actuating mechanism, elevating system, from type paper attaching mechanism, from type paper cutting mechanism all is connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching release paper after copper foil gluing and drying, the release paper feeding mechanism comprises an index plate, a rotary workbench, a release paper feeding support and an end cover; the graduated disk sets up the one side at copper foil feed mechanism, swivel work head rotatably installs on the graduated disk, a plurality ofly from type paper material loading support mounting on swivel work head, be equipped with on the type paper material loading support and be used for the installation from two roller shafts of type scroll and rolling type paper leftover bits, end cover detachably installs on type paper material loading support, all be provided with on type paper material loading support and the end cover and from type paper roller shaft complex bearing, the roller both ends are run through from type paper material loading support and end cover and can be around the axis and be rotary motion, actuating mechanism's partly is installed and is served at the roller near copper foil feed mechanism, the graduated disk is connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching release paper after copper foil gluing and drying, the copper foil feeding mechanism comprises a first support, a belt conveyor, a guide plate, a lifting assembly, a supporting assembly and a positioning assembly; the first support is arranged between the release paper feeding mechanism and the driving mechanism driving end, the belt conveyor is arranged on the first support along the length direction of the first support, the guide plate is arranged on the inner side of the working end of the belt conveyor and is tightly propped against the two sides of the copper foil under the working state, the lifting components are arranged on the first support and are positioned below the belt conveyor, the movable ends of the lifting components can extend out of the gap between the belt conveyors, the lifting components are positioned right below the working end of the lifting mechanism, the pair of support components are symmetrically arranged on the two sides of the first support and are far away from or close to each other along the length direction of the belt conveyor, the gap formed when the movable ends of the support components are closed is the same as the shape of the working end of the lifting components, the positioning components are arranged on the first support and are positioned at the downstream position of the lifting components, the belt conveyor and the lifting components, the supporting component and the positioning component are electrically connected with the controller.

As a preferred scheme of the cutting device for automatically attaching release paper after copper foil gluing and drying, the lifting assembly comprises a fixing plate, a first linear driver, a first supporting plate, a vacuum chuck and a guide rod; the fixed plate is installed in first support central authorities bottom position, first linear actuator installs on the fixed plate and the vertical upwards setting of output, first layer board bottom and first linear actuator output fixed connection, the guide bar is evenly installed in first layer board bottom around first linear actuator axis, guide bar and fixed plate clearance fit, vacuum chuck installs on first layer board and top and first layer board up end parallel and level, the air pump is even to the vacuum chuck outer, first linear actuator is connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching release paper after copper foil gluing and drying, the supporting assembly comprises a second support, a first synchronous belt sliding table and a second supporting plate; the second support is arranged on two sides of the first support, the first synchronous belt sliding table is arranged at the upper end of the second support along the length direction of the second support, the second supporting plate is arranged at the movable end of the first synchronous belt sliding table, the upper end face of the second supporting plate is horizontally placed, an opening is formed in one side, facing the lower portion of the lifting mechanism, of the second supporting plate, and the first synchronous belt sliding table is electrically connected with the controller.

As a preferred scheme of the cutting device for automatically attaching the release paper after copper foil gluing and drying, the driving mechanism comprises a driver bracket, a second linear driver, a first rotary driver and a butt joint assembly; driver support mounting is kept away from one side from type paper feed mechanism at copper foil feed mechanism, and second sharp driver is installed on the driver support and expansion end direction of motion level sets up, and first rotary actuator installs on second sharp driver activity, and butt joint subassembly one end is installed on first rotary actuator output other end and is installed on from type paper feed mechanism work end, and second sharp driver, first rotary actuator all are connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching the release paper after copper foil gluing and drying, the butt joint assembly comprises a first joint and a second joint; the first joint is installed on the feed mechanism work end from type paper, and a plurality of joint grooves evenly distributed are on the first joint inner wall, and a plurality of sliders connect radially along the second and connect fluting sliding connection on the outer wall with the second, and first spring coupling slider and second connect the grooved tank bottom of perisporium.

As a preferred scheme of the cutting device for automatically attaching release paper after copper foil gluing and drying, the lifting mechanism comprises a hydraulic press and a suspension; the hydraulic press is installed in copper foil feed mechanism and is kept away from one side from type paper feed mechanism, and the suspension is installed on the output of hydraulic press, from attached mechanism of type paper and suspension clearance fit, from type paper cutting mechanism and install in suspension bottom both sides, and the hydraulic press is connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching the release paper after copper foil gluing and drying, the release paper attaching mechanism comprises a third support, a guide pillar, a limiting block, a second spring, a rodless cylinder, a fourth support, a second rotary driver and a roller; a plurality of guide pillars are installed perpendicularly in third support upper end, guide pillar and elevating system bottom clearance fit, the stopper is installed on the guide pillar top, the second spring cup joints on the guide pillar and between third support and elevating system bottom, rodless cylinder installs on third support bottom surface, rodless cylinder expansion end direction of motion sets up along copper foil transmission direction, fourth support mounting is served at rodless cylinder activity, the rotatory driver of second is installed on the fourth support, cylinder one end is rotatably installed on the fourth support, the cylinder other end and the rotatory driver output end fixed connection of second, rodless cylinder, the rotatory driver of second is connected with the controller electricity.

As a preferred scheme of the cutting device for automatically attaching the release paper after copper foil gluing and drying, the release paper cutting mechanism comprises a cutter wheel, a second synchronous belt sliding table and a cutter; the break bar is installed and is being rotated along with attached mechanism work end together from attached mechanism work end of type paper in attached mechanism bottom both sides of type paper, and a pair of second hold-in range slip table is installed and is being held in elevating system work end below and expansion end direction of motion and copper foil horizontal transmission direction perpendicular, and a pair of cutter is installed and is held in second hold-in range slip table activity, and second hold-in range slip table is connected with the controller electricity.

Compared with the prior art, the invention has the beneficial effects that:

the staff places copper foil rubber coating one side up on the horizontal drive assembly of copper foil feed mechanism to install from type paper roll from type paper feed mechanism work end on, can install a plurality ofly from type paper roll simultaneously from type paper feed mechanism, and automatic feeding after one is used up from type paper roll. When the copper foil moves to a preset position in the middle of the copper foil feeding mechanism, the copper foil feeding mechanism holds up and fixes the copper foil, and then the controller controls the copper foil feeding mechanism to support the bottom of the copper foil. And then the controller sends a signal to the driving mechanism, the driving mechanism receives the signal, then the driving end of the driving mechanism is close to the part of the driving mechanism, which is positioned on the release paper feeding mechanism, the release paper feeding mechanism is driven to enable the release paper tape to extend, and the release paper is laid on the copper foil under the action of gravity. Then the controller sends a signal to the lifting mechanism, and after the lifting mechanism receives the signal, the working end of the lifting mechanism drives the release paper attaching mechanism and the release paper cutting mechanism to move downwards to pass through the gap of the working end of the release paper feeding mechanism. Press in copper foil upper end one side from attached mechanism of type paper, then the controller send signal for make from attached mechanism's work end of type paper along the removal of copper foil surface with attached mechanism of type paper attached on the copper foil surface, cut the mechanism and still cut out from type paper both sides simultaneously from type paper. Because the release paper attaching mechanism is elastically connected with the lifting mechanism, the working end of the lifting mechanism continues to move downwards to enable the working end of the release paper cutting mechanism on the lifting mechanism to reach the other pair of side edges of the copper foil, and then the controller controls the release paper cutting mechanism to cut the side edges of the copper foil, so that the release paper is cut into a shape completely matched with the copper foil. Then the controller controls the lifting mechanism to drive the release paper attaching mechanism and the release paper cutting mechanism to reset. The controller sends a signal to the driving mechanism, and the driving mechanism drives the release paper feeding mechanism to roll the cut release paper tape. And finally, the controller sends a signal to a horizontal working end of the copper foil feeding mechanism to transmit the processed copper foil backwards. So repeatedly carry out automatic attached release paper and accomplish to subsequent copper foil and cut.

1. The automatic feeding of the release paper is realized, and the labor cost is saved;

2. the automatic attaching and cutting of the release paper are realized, and the production and sales rate is improved;

3. simple structure easily realizes.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a partially exploded perspective view of a release paper feeding mechanism according to the present invention;

FIG. 4 is a perspective view of a copper foil feed mechanism of the present invention;

FIG. 5 is a perspective view of a lift assembly of the present invention;

FIG. 6 is a perspective view of the drive mechanism of the present invention;

FIG. 7 is a partial exploded perspective view of the docking assembly of the present invention;

FIG. 8 is a second perspective view of the present invention;

FIG. 9 is a front view of the present invention;

fig. 10 is a partial perspective view of the present invention.

The reference numbers in the figures are:

1. a release paper feeding mechanism; 1a, an index plate; 1b, rotating a workbench; 1c, a release paper feeding support; 1d, end cover;

2. a copper foil feeding mechanism; 2a, a first bracket; 2b, a belt conveyor; 2c, a guide plate; 2d, lifting the assembly; 2d1, fixing plate; 2d2, first linear driver; 2d3, first pallet; 2d4, vacuum chuck; 2d5, guide bar; 2e, a support component; 2e1, second bracket; 2e2, first timing belt slide; 2e3, second pallet; 2f, a positioning component;

3. a drive mechanism; 3a, a driver support; 3b, a second linear actuator; 3c, a first rotary drive; 3d, butting the components; 3d1, first joint; 3d2, second linker; 3d3, a clamping groove; 3d4, slider; 3d5, first spring;

4. a lifting mechanism; 4a, a hydraulic press; 4b, a suspension;

5. a release paper attaching mechanism; 5a, a third bracket; 5b, a guide post; 5c, a limiting block; 5d, a second spring; 5e, a rodless cylinder; 5f, a fourth bracket; 5g, a second rotary driver; 5h, rolling;

6. a release paper cutting mechanism; 6a, a cutter wheel; 6b, a second synchronous belt sliding table; 6c, a cutter.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 and 2, an automatic attaching and releasing paper cutting device after copper foil gluing and drying comprises a releasing paper feeding mechanism 1, a copper foil feeding mechanism 2, a driving mechanism 3, a lifting mechanism 4, a releasing paper attaching mechanism 5, a releasing paper cutting mechanism 6 and a controller;

the release paper feeding mechanism 1 is arranged on one side of the copper foil feeding mechanism 2, the working end of the release paper feeding mechanism 1 is positioned above the copper foil feeding mechanism 2 under the working state, the driving end of the driving mechanism 3 is arranged on the other side of the copper foil feeding mechanism 2, one part of the driving mechanism 3 is arranged on the release paper feeding mechanism 1, the lifting mechanism 4 is arranged on one side of the copper foil feeding mechanism 2, the working end of the lifting mechanism 4, the working end of the release paper feeding mechanism 1 and the copper foil on the copper foil feeding mechanism 2 are positioned on the same straight line in the vertical direction under the working state, the release paper attaching mechanism 5 and the release paper cutting mechanism 6 are both arranged on the working end of the lifting mechanism 4, the release paper attaching mechanism 5 is elastically connected with the lifting mechanism 4, the release paper feeding mechanism 1, the copper foil feeding mechanism 2 and the driving mechanism 3, the lifting mechanism 4, the release paper attaching mechanism 5 and the release paper cutting mechanism 6 are electrically connected with the controller.

The staff places copper foil rubber coating one side up on the horizontal drive assembly of copper foil feed mechanism 2 to install from type paper roll on 1 work end of type paper feed mechanism, can install a plurality ofly simultaneously from type paper roll on 1 from type paper feed mechanism, and automatic feeding after one is used up from type paper roll. When the copper foil moves to the middle preset position of the copper foil feeding mechanism 2, the copper foil feeding mechanism 2 holds up and fixes the copper foil, and then the controller controls the copper foil feeding mechanism 2 to support the bottom of the copper foil. And then the controller sends a signal to the driving mechanism 3, the driving mechanism 3 receives the signal, then the driving end of the driving mechanism is close to the part of the driving mechanism 3, which is positioned on the release paper feeding mechanism 1, the release paper feeding mechanism 1 is driven to enable the release paper tape to extend, and the release paper is laid on the copper foil under the action of gravity. Then the controller sends a signal to the lifting mechanism 4, and after the lifting mechanism 4 receives the signal, the working end of the lifting mechanism 4 drives the release paper attaching mechanism 5 and the release paper cutting mechanism 6 to move downwards to pass through the gap of the working end of the release paper feeding mechanism 1. Press in copper foil upper end one side from attached mechanism 5 of type paper, then the controller send signal for make from attached mechanism 5 of type paper work end along the copper foil surface removal with attached mechanism 5 of type paper attached on the copper foil surface, cut mechanism 6 from type paper simultaneously and still cut out from type paper both sides. Because of attached mechanism 5 of type paper and 4 elastic connection of elevating system, 4 work ends of elevating system continue to descend and make 6 work ends of cutting mechanism of type paper on elevating system 4 reach another a pair of side department of copper foil, then the controller control cuts this side department of copper foil from type paper cutting mechanism 6, cuts into the shape that agrees with completely with the copper foil from this type paper. Then the controller controls the lifting mechanism 4 to drive the release paper attaching mechanism 5 and the release paper cutting mechanism 6 to reset. The controller sends a signal to the driving mechanism 3, and the driving mechanism 3 drives the release paper feeding mechanism 1 to roll the cut release paper tape. And finally, the controller sends a signal to the horizontal working end of the copper foil feeding mechanism 2 to transmit the processed copper foil backwards. So repeatedly carry out automatic attached release paper and accomplish to subsequent copper foil and cut.

As shown in fig. 3, the release paper feeding mechanism 1 includes an index plate 1a, a rotary table 1b, a release paper feeding support 1c and an end cover 1 d; graduated disk 1a sets up the one side at copper foil feed mechanism 2, swivel work head 1b rotatably installs on graduated disk 1a, a plurality of from type paper material loading support 1c install on swivel work head 1b, be equipped with on the type paper material loading support 1c and be used for installing from type scroll and two roller shafts of rolling from type paper leftover bits, end cover 1d detachably installs on type paper material loading support 1c, all be provided with on type paper material loading support 1c and the end cover 1d with from type paper roller shaft complex bearing, the roller both ends are run through from type paper material loading support 1c and end cover 1d and can be around the axis and be rotary motion, a part of actuating mechanism 3 is installed in one of roller shaft near copper foil feed mechanism 2 and is served, graduated disk 1a is connected with the controller electricity.

The convenient installation of end cover 1d accessible bolt and dismantlement will be a set of from type scroll both ends cover on the roller from type paper material loading support 1c both sides after dismantling end cover 1d, leave the clearance that supplies under the operating condition to pass through from attached mechanism 5 of type paper and from type paper cutting mechanism 6 between the roller. After the release paper roll is installed on the release paper feeding support 1c, the end cover 1d is installed on the outer side of the tight paper roll, and the release paper roll can rotate along with the roll shaft. The roller shaft can be driven to rotate when the drive mechanism 3 drives the drive mechanism 3 components on the roller shaft. The controller makes a plurality of groups of release paper rolls alternate by controlling the index plate 1a, and the workers disassemble the used paper rolls to install new paper rolls, so that the working efficiency is greatly improved.

As shown in fig. 4 and 9, the copper foil feeding mechanism 2 includes a first support 2a, a belt conveyor 2b, a guide plate 2c, a lifting assembly 2d, a supporting assembly 2e and a positioning assembly 2 f; the first support 2a is arranged between the release paper feeding mechanism 1 and the driving end of the driving mechanism 3, the belt conveyor 2b is arranged on the first support 2a along the length direction of the first support 2a, the guide plate 2c is arranged on the inner side of the working end of the belt conveyor 2b and is tightly propped against the two sides of the copper foil under the working state, the lifting components 2d are arranged on the first support 2a and are positioned below the belt conveyor 2b, the movable ends of the lifting components 2d can extend out from the gap between the belt conveyors 2b, the lifting components 2d are positioned right below the working end of the lifting mechanism 4, the pair of supporting components 2e are symmetrically arranged on the two sides of the first support 2a, the movable ends are mutually far away or close to each other along the length direction of the belt conveyor 2b, the gap formed when the movable ends of the supporting components 2e are closed is the same as the shape of the working end of the lifting components 2d, the positioning component 2f is arranged on the first support 2a and is positioned at the downstream position of the lifting components 2d, the belt conveyor 2b, the lifting assembly 2d, the supporting assembly 2e and the positioning assembly 2f are all electrically connected with the controller.

The positioning component 2f is a blocking cylinder. The belt conveyor 2b is provided with a sensor for sensing the position of the copper foil. The controller drives the copper foil to move towards the lower part of the working end of the lifting mechanism 4 through the belt conveyor 2b, and the guide plate 2c provides a guide effect for the movement of the copper foil. When the copper foil moves below the lifting mechanism 4, the controller controls the positioning component 2f to block the end part of the copper foil, and the controller also sends a signal to the belt conveyor 2b to stop working. The controller controls the working ends of the lifting components 2d to extend out of the gaps of the belt conveyor 2b to lift the copper foil, and then the controller controls the working ends of the supporting components 2e to be close to each other so as to lift the bottom of the copper foil. The area of the working end section of the lifting component 2d is smaller than that of the copper foil, and the working end of the lifting component 2d and the working end of the supporting component 2e form a complete plane together. And then the controller controls the lifting mechanism 4 to drive the release paper attaching mechanism 5 and the release paper cutting mechanism 6 to move downwards to attach release paper to the copper foils on the lifting assembly 2d and the supporting assembly 2e and finish cutting. The controller then controls the components of the copper foil feeding mechanism 2 to reset so that the copper foil is returned to the working surface of the belt conveyor 2 b. The belt conveyor 2b is then driven to continue conveying the finished copper foil downstream.

As shown in fig. 5, the lifting assembly 2d includes a fixing plate 2d1, a first linear driver 2d2, a first supporting plate 2d3, a vacuum chuck 2d4 and a guide rod 2d 5; the fixed plate 2d1 is installed in first support 2a central bottom position, first linear actuator 2d2 is installed on fixed plate 2d1 and the output end sets up vertically upwards, first layer board 2d3 bottom and first linear actuator 2d2 output end fixed connection, guide bar 2d5 is evenly installed in first layer board 2d3 bottom around first linear actuator 2d2 axis, guide bar 2d5 and fixed plate 2d1 clearance fit, vacuum chuck 2d4 is installed on first layer board 2d3 and the top is the same level with first layer board 2d3 up end, vacuum chuck 2d4 external air pump, first linear actuator 2d2 is connected with the controller electricity.

The controller sends a signal to the first linear driver 2d2, the output end of the first linear driver 2d2 pushes the first supporting plate 2d3 to move upwards after receiving the signal, and the guide rod 2d5 provides a guide for the movement of the first supporting plate 2d 3. The controller controls the vacuum chuck 2d4 to absorb the copper foil on the upper end of the first supporting plate 2d3, so that the copper foil cannot deflect, and the copper foil is convenient to accurately position.

As shown in fig. 4, the supporting assembly 2e includes a second bracket 2e1, a first synchronous belt sliding table 2e2 and a second pallet 2e 3; the second bracket 2e1 is arranged on two sides of the first bracket 2a, the first synchronous belt sliding table 2e2 is arranged on the upper end of the second bracket 2e1 along the length direction of the second bracket 2e1, the second supporting plate 2e3 is arranged on the movable end of the first synchronous belt sliding table 2e2, the upper end face of the second supporting plate 2e3 is horizontally arranged, an opening is arranged on one side of the second supporting plate 2e3 facing the lower part of the lifting mechanism 4, and the first synchronous belt sliding table 2e2 is electrically connected with the controller.

The opening in the second pallet 2e3 is adapted to receive the working end of the lifting assembly 2d, which together form a complete plane. When the lifting assembly 2d lifts up the copper foil, the controller controls the first synchronous belt sliding table 2e2 to drive the pair of second supporting plates 2e3 to approach each other to form a finished plane with the working end of the lifting assembly 2d so as to support the bottom end of the copper foil.

As shown in fig. 6, the driving mechanism 3 includes a driver bracket 3a, a second linear driver 3b, a first rotary driver 3c and a docking assembly 3 d; driver support 3a installs and keeps away from one side from type paper feed mechanism 1 at copper foil feed mechanism 2, second sharp driver 3b installs on driver support 3a and the activity end direction of motion level sets up, first rotary actuator 3c installs on second sharp driver 3b activity end, the other end is installed on first rotary actuator 3c output on leaving type paper feed mechanism 1 work end to butt joint subassembly 3d one end, second sharp driver 3b, first rotary actuator 3c all is connected with the controller electricity.

The driver support 3a provides support for the second linear driver 3b, and the controller makes the first rotary driver 3c move towards the working end of the release paper feeding mechanism 1 by driving the second linear driver 3b and makes the butt joint component 3d on the first rotary driver 3c and the butt joint component 3d on the working end of the release paper feeding mechanism 1 socket-and-spigot connected with each other. Then the controller controls the output end of the first rotary driver 3c to rotationally drive the roller shaft at the working end of the release paper feeding mechanism 1 to rotate.

As shown in fig. 7, the docking assembly 3d includes a first connector 3d1 and a second connector 3d 2; first joint 3d1 is installed on leaving type paper feed mechanism 1 work end, and a plurality of joint groove 3d3 evenly distributed is on first joint 3d1 inner wall, and a plurality of sliders 3d4 radially connect the fluting sliding connection on 3d2 outer wall with the second along second joint 3d2, and first spring 3d5 connects the slotted tank bottom of slider 3d4 and second joint 3d2 perisporium.

In an operating state, the operating end of the first rotary driver 3c pushes the second connector 3d2 to be inserted into the first connector 3d1, the sliding block 3d4 is compressed along the second connector 3d2 radially toward the axis of the second connector 3d2 by the pressure from the inner wall of the first connector 3d1, and when the sliding block 3d4 reaches the clamping groove 3d3, the sliding block is extended again to be clamped with the clamping groove 3d3 under the elastic force of the first spring 3d 5. When the output end of the first rotary driver 3c rotates, the first joint 3d1 is driven to rotate by the interaction between the side wall of the slider 3d4 and the side wall of the clamping groove 3d3, and the first joint 3d1 further drives the roll shaft at the working end of the release paper feeding mechanism 1 to rotate.

As shown in fig. 8, the lifting mechanism 4 includes a hydraulic machine 4a and a suspension 4 b; the hydraulic press 4a is installed in the copper foil feed mechanism 2 and is kept away from one side from type paper feed mechanism 1, and the suspension 4b is installed on the output end of hydraulic press 4a, from type paper attaching mechanism 5 and suspension 4b clearance fit, installs in suspension 4b bottom both sides from type paper cutting mechanism 6, and hydraulic press 4a is connected with the controller electricity.

The controller controls the hydraulic machine 4a to drive the suspension 4b and the release paper attaching mechanism 5 and the release paper cutting mechanism 6 on the suspension 4b to move up and down together.

As shown in fig. 10, the release paper attaching mechanism 5 includes a third bracket 5a, a guide post 5b, a limiting block 5c, a second spring 5d, a rodless cylinder 5e, a fourth bracket 5f, a second rotary driver 5g and a roller 5 h; the plurality of guide pillars 5b are vertically arranged at the upper end of the third support 5a, the guide pillars 5b are in clearance fit with the bottom of the lifting mechanism 4, the limiting block 5c is arranged at the top end of the guide pillars 5b, the second spring 5d is sleeved on the guide pillars 5b and is arranged between the bottom ends of the third support 5a and the lifting mechanism 4, the rodless cylinder 5e is arranged on the bottom surface of the third support 5a, the moving direction of the moving end of the rodless cylinder 5e is arranged along the copper foil transmission direction, the fourth support 5f is arranged on the moving end of the rodless cylinder 5e, the second rotary driver 5g is arranged on the fourth support 5f, one end of the roller 5h is rotatably arranged on the fourth support 5f, the other end of the roller 5h is fixedly connected with the output end of the second rotary driver 5g, and the rodless cylinder 5 e.

The lifting mechanism 4 drives the release paper attaching mechanism 5 to move downwards, and when the roller 5h abuts against the copper foil and the upper side of the release paper, the controller drives the rodless cylinder 5e to drive the fourth support 5f, the second rotary driver 5g and the roller 5h to move horizontally together to press the release paper on the upper end face of the copper foil. When the lifting mechanism 4 continues to move downwards, the second spring 5d contracts, the guide post 5b provides a guiding function, and the release paper cutting mechanism 6 approaches the copper foil. The stopper 5c prevents the guide post 5b from being detached from the working end of the lifting mechanism 4.

As shown in fig. 10, the release paper cutting mechanism 6 includes a cutter wheel 6a, a second synchronous belt sliding table 6b and a cutter 6 c; the knife flywheel 6a is installed and is being rotated along with attached 5 work ends of mechanism from 5 bottom work end both sides of attached mechanism from type paper, and a pair of second hold-in range slip table 6b is installed and is being perpendicular with the copper foil horizontal transmission direction in 4 work end belows and expansion end motion direction of elevating system, and a pair of cutter 6c is installed and is being served in the activity of second hold-in range slip table 6b, and second hold-in range slip table 6b is connected with the controller electricity.

The cutter wheel 6a rotates together with the working end of the release paper attaching mechanism 5 to cut a first pair of side edges of the copper foil, the controller drives the cutter 6c to cut the other pair of side edges of the copper foil through the second synchronous belt sliding table 6b, and finally the release paper and the copper foil are completely matched in shape.

The working principle of the invention is as follows:

the staff places copper foil rubber coating one side up on the horizontal drive assembly of copper foil feed mechanism 2 to install from type paper roll on 1 work end of type paper feed mechanism, can install a plurality ofly simultaneously from type paper roll on 1 from type paper feed mechanism, and automatic feeding after one is used up from type paper roll. When the copper foil moves to the middle preset position of the copper foil feeding mechanism 2, the copper foil feeding mechanism 2 holds up and fixes the copper foil, and then the controller controls the copper foil feeding mechanism 2 to support the bottom of the copper foil. And then the controller sends a signal to the driving mechanism 3, the driving mechanism 3 receives the signal, then the driving end of the driving mechanism is close to the part of the driving mechanism 3, which is positioned on the release paper feeding mechanism 1, the release paper feeding mechanism 1 is driven to enable the release paper tape to extend, and the release paper is laid on the copper foil under the action of gravity. Then the controller sends a signal to the lifting mechanism 4, and after the lifting mechanism 4 receives the signal, the working end of the lifting mechanism 4 drives the release paper attaching mechanism 5 and the release paper cutting mechanism 6 to move downwards to pass through the gap of the working end of the release paper feeding mechanism 1. Press in copper foil upper end one side from attached mechanism 5 of type paper, then the controller send signal for make from attached mechanism 5 of type paper work end along the copper foil surface removal with attached mechanism 5 of type paper attached on the copper foil surface, cut mechanism 6 from type paper simultaneously and still cut out from type paper both sides. Because of attached mechanism 5 of type paper and 4 elastic connection of elevating system, 4 work ends of elevating system continue to descend and make 6 work ends of cutting mechanism of type paper on elevating system 4 reach another a pair of side department of copper foil, then the controller control cuts this side department of copper foil from type paper cutting mechanism 6, cuts into the shape that agrees with completely with the copper foil from this type paper. Then the controller controls the lifting mechanism 4 to drive the release paper attaching mechanism 5 and the release paper cutting mechanism 6 to reset. The controller sends a signal to the driving mechanism 3, and the driving mechanism 3 drives the release paper feeding mechanism 1 to roll the cut release paper tape. And finally, the controller sends a signal to the horizontal working end of the copper foil feeding mechanism 2 to transmit the processed copper foil backwards. So repeatedly carry out automatic attached release paper and accomplish to subsequent copper foil and cut.

Claims (10)

1. A cutting device for automatically attaching release paper after copper foil gluing and drying is characterized by comprising a release paper feeding mechanism (1), a copper foil feeding mechanism (2), a driving mechanism (3), a lifting mechanism (4), a release paper attaching mechanism (5), a release paper cutting mechanism (6) and a controller;

from one side of type paper feed mechanism (1) setting at copper foil feed mechanism (2), from type paper feed mechanism (1) work end position in copper foil feed mechanism (2) top under operating condition, actuating mechanism (3) drive end sets up at copper foil feed mechanism (2) opposite side, a part setting of actuating mechanism (3) is on from type paper feed mechanism (1), elevating system (4) set up in one side of copper foil feed mechanism (2), elevating system (4) work end and from type paper feed mechanism (1) work end and the copper foil on copper foil feed mechanism (2) are on vertical direction's same straight line under operating condition, from type paper attaching mechanism (5) and from type paper cutting mechanism (6) all set up on elevating system's (4) work end, from type paper attaching mechanism (5) and elevating system (4) elastic connection, from type paper feed mechanism (1), The copper foil feeding mechanism (2), the driving mechanism (3), the lifting mechanism (4), the release paper attaching mechanism (5) and the release paper cutting mechanism (6) are all electrically connected with the controller.

2. The cutting device for the automatic attaching and releasing paper after the copper foil is glued and dried according to claim 1, characterized in that the releasing paper feeding mechanism (1) comprises an index plate (1a), a rotary workbench (1b), a releasing paper feeding support (1c) and an end cover (1 d); graduated disk (1a) sets up the one side in copper foil feed mechanism (2), swivel work head (1b) rotatably installs on graduated disk (1a), a plurality of from type paper feed support (1c) install on swivel work head (1b), be equipped with on type paper feed support (1c) and be used for installing two roller shafts from type scroll and rolling from type paper leftover bits, end cover (1d) detachably installs on type paper feed support (1c), all be provided with on type paper feed support (1c) and end cover (1d) with from type paper roller shaft complex bearing, the roller both ends are run through from type paper feed support (1c) and end cover (1d) and can be rotary motion around the axis, a part of actuating mechanism (3) is installed on the roller is close to one end of copper foil feed mechanism (2), graduated disk (1a) is connected with the controller electricity.

3. The cutting device for the automatic attaching release paper after the copper foil is glued and dried according to claim 1, characterized in that the copper foil feeding mechanism (2) comprises a first bracket (2a), a belt conveyor (2b), a guide plate (2c), a lifting assembly (2d), a supporting assembly (2e) and a positioning assembly (2 f); the first support (2a) is arranged between the release paper feeding mechanism (1) and the driving end of the driving mechanism (3), the belt conveyor (2b) is arranged on the first support (2a) along the length direction of the first support (2a), the guide plate (2c) is arranged on the inner side of the working end of the belt conveyor (2b) and is tightly propped against the two sides of the copper foil under the working state, the lifting assembly (2d) is arranged on the first support (2a) and is positioned below the belt conveyor (2b), the movable end of the lifting assembly (2d) can extend out from the gap between the belt conveyors (2b), the lifting assembly (2d) is positioned right below the working end of the lifting mechanism (4), the pair of support assemblies (2e) are symmetrically arranged on the two sides of the first support (2a) and are mutually far away from or close to each other along the length direction of the belt conveyor (2b), the shape of the gap formed under the closed state of the movable end of the support assemblies (2e) is the same as the shape of the working end of the lifting assembly (2d), locating component (2f) sets up on first support (2a) and is located the downstream position of lifting assembly (2d), and belt conveyor (2b), lifting assembly (2d), supporting component (2e), locating component (2f) all are connected with the controller electricity.

4. The cutting device for the automatic pasting and releasing paper after the copper foil gluing and drying as claimed in claim 3, wherein the lifting assembly (2d) comprises a fixing plate (2d1), a first linear driver (2d2), a first supporting plate (2d3), a vacuum chuck (2d4) and a guide rod (2d 5); fixed plate (2d1) is installed in first support (2a) central bottom position, first linear actuator (2d2) is installed on fixed plate (2d1) and the output end sets up vertically upwards, first layer board (2d3) bottom and first linear actuator (2d2) output fixed connection, guide bar (2d5) evenly install in first layer board (2d3) bottom around first linear actuator (2d2) axis, guide bar (2d5) and fixed plate (2d1) clearance fit, vacuum chuck (2d4) are installed on first layer board (2d3) and the top is the same level with first layer board (2d3) up end, vacuum chuck (2d4) outer air pump that links, first linear actuator (2d2) is connected with the controller electricity.

5. The cutting device for the automatic pasting and releasing paper after the copper foil gluing and drying as claimed in claim 3, wherein the supporting assembly (2e) comprises a second bracket (2e1), a first synchronous belt sliding table (2e2) and a second supporting plate (2e 3); second support (2e1) sets up in first support (2a) both sides, first synchronous belt slip table (2e2) set up in second support (2e1) upper end along second support (2e1) length direction, second layer board (2e3) are installed on first synchronous belt slip table (2e2) activity end, second layer board (2e3) up end level is placed, second layer board (2e3) are equipped with the opening towards one side of elevating system (4) below, first synchronous belt slip table (2e2) are connected with the controller electricity.

6. The cutting device for the automatic sticking and releasing paper after the copper foil is glued and dried according to claim 1, characterized in that the driving mechanism (3) comprises a driver bracket (3a), a second linear driver (3b), a first rotary driver (3c) and a butt joint component (3 d); driver support (3a) are installed and are kept away from one side from type paper feed mechanism (1) in copper foil feed mechanism (2), install on driver support (3a) and the activity end direction of motion level sets up second sharp driver (3b), install on second sharp driver (3b) activity end first rotatory driver (3c), butt joint subassembly (3d) one end is installed on first rotatory driver (3c) output end the other end is installed on from type paper feed mechanism (1) work end, second sharp driver (3b), first rotatory driver (3c) all are connected with the controller electricity.

7. The cutting device for the automatic pasting and releasing paper after the copper foil gluing and drying as claimed in claim 6, wherein the butt joint component (3d) comprises a first joint (3d1) and a second joint (3d 2); first joint (3d1) is installed on being held from type paper feed mechanism (1) work, a plurality of joint groove (3d3) evenly distributed are on first joint (3d1) inner wall, a plurality of slider (3d4) along second joint (3d2) radial with the fluting sliding connection on second joint (3d2) outer wall, slider (3d4) and the slotted tank bottom of second joint (3d2) perisporium are connected to first spring (3d 5).

8. The cutting device for the automatic pasting and release paper after copper foil gluing and drying as claimed in claim 1, wherein the lifting mechanism (4) comprises a hydraulic press (4a) and a suspension (4 b); the hydraulic press (4a) is installed on one side, away from the release paper feeding mechanism (1), of the copper foil feeding mechanism (2), the suspension (4b) is installed on the output end of the hydraulic press (4a), the release paper attaching mechanism (5) is in clearance fit with the suspension (4b), the release paper cutting mechanism (6) is installed on two sides of the bottom end of the suspension (4b), and the hydraulic press (4a) is electrically connected with the controller.

9. The cutting device for automatically attaching the release paper after copper foil gluing and drying as claimed in claim 1, wherein the release paper attaching mechanism (5) comprises a third bracket (5a), a guide post (5b), a limiting block (5c), a second spring (5d), a rodless cylinder (5e), a fourth bracket (5f), a second rotary driver (5g) and a roller (5 h); a plurality of guide pillars (5b) are vertically arranged at the upper end of a third support (5a), the guide pillars (5b) are in clearance fit with the bottom of a lifting mechanism (4), a limiting block (5c) is arranged at the top end of the guide pillars (5b), a second spring (5d) is sleeved on the guide pillars (5b) and is arranged between the bottom ends of the third support (5a) and the lifting mechanism (4), a rodless cylinder (5e) is arranged on the bottom surface of the third support (5a), the moving direction of the moving end of the rodless cylinder (5e) is arranged along the copper foil transmission direction, a fourth support (5f) is arranged on the moving end of the rodless cylinder (5e), a second rotary driver (5g) is arranged on the fourth support (5f), one end of a roller (5h) is rotatably arranged on the fourth support (5f), the other end of the roller (5h) is fixedly connected with the output end of the second rotary driver (5g), the rodless cylinder (5e), The second rotary driver (5g) is electrically connected with the controller.

10. The cutting device for the automatic attaching release paper after copper foil gluing and drying as claimed in claim 1, wherein the release paper cutting mechanism (6) comprises a cutter wheel (6a), a second synchronous belt sliding table (6b) and a cutter (6 c); knife flywheel (6a) are installed and are being simultaneously rotatory along with attached mechanism (5) work end from attached mechanism (5) work end in type paper both sides in the attached mechanism (5) bottom of type paper, and a pair of second hold-in range slip table (6b) are installed and are being held below elevating system (4) work and expansion end direction of motion and copper foil horizontal transmission direction perpendicular, and a pair of cutter (6c) are installed and are held in second hold-in range slip table (6b) activity, and second hold-in range slip table (6b) are connected with the controller electricity.

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