CN211283150U - Cotton handle of electrically conductive bubble pastes equipment - Google Patents

Abstract

The utility model relates to a processing device of conductive foam, in particular to a handle pasting device of conductive foam, which comprises a frame, wherein a laminating device, a material pulling device and a waste discharge device are sequentially arranged on the frame; the laminating device is used for laminating the conductive foam and the handle material belt, the material pulling device is used for pulling the conductive foam and the handle material belt to move towards the waste discharge device, and the waste discharge device is used for removing waste materials on the handle material belt; laminating device includes handle locating component, laminating locating plate, absorption locating component and the laminating drive assembly that sets gradually from the top down, the laminating locating plate is fixed to be located in the frame, handle locating component is used for fixed handle material area, it is cotton that absorption locating component is used for bearing and adsorbing electrically conductive bubble, laminating drive assembly is used for driving and adsorbs locating component to the direction motion of being close to or keeping away from the laminating locating plate. The equipment has the function of sticking the handle and the conductive foam, and is favorable for improving the yield of the conductive foam.

Description

Cotton handle of electrically conductive bubble pastes equipment

Technical Field

The utility model relates to a cotton processing equipment of electrically conductive bubble, concretely relates to equipment is pasted to cotton handle of electrically conductive bubble.

Background

The conductive foam is formed by wrapping conductive cloth on flame-retardant sponge, and after a series of treatments, the conductive cloth has good surface conductivity and can be easily fixed on a device to be shielded by an adhesive tape.

The viscose generally adheres to one side of the existing conductive foam, release paper is adhered to the viscose, the release paper is removed during use, then one side of the conductive foam with the viscose is adhered to a shielding device, the conductive foam is fixed, the shape of the release paper adhered to the conductive foam is generally matched with the shape of the conductive foam, the difficulty of a user is large when the release paper is removed, the release paper cannot be removed quickly, and the assembly efficiency of the conductive foam is affected. In order to facilitate a user to quickly remove release paper on the conductive foam and improve the assembly efficiency of the conductive foam, the conventional conductive foam processing technology firstly arranges the formed conductive foam on the release paper, cuts the conductive foam into corresponding specifications, then selects a proper base material and punches the base material into a handle in accordance with a required shape by a mould, the base material can be release paper or a thin film, and finally removes the release paper of the cut conductive foam, takes one handle, and aligns and flatly attaches the handle and the conductive foam.

The setting up of handle makes the user can take off the base film of adhesion on the electrically conductive bubble is cotton fast, but the cotton inefficiency of artifical laminating handle and electrically conductive bubble, and the uneven phenomenon of handle and the cotton laminating of electrically conductive bubble appears easily, and the product yields that makes is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a cotton handle of electrically conductive bubble pastes equipment, this equipment have paste handle and the cotton function of electrically conductive bubble, are favorable to improving the cotton yields of electrically conductive bubble.

The utility model provides a technical scheme that its technical problem adopted is:

a conductive foam handle pasting device comprises a rack, wherein a laminating device, a material pulling device and a waste discharge device are sequentially arranged on the rack; the laminating device is used for laminating the conductive foam and the handle material belt, the material pulling device is used for pulling the conductive foam and the handle material belt to move towards the waste discharge device, and the waste discharge device is used for removing waste materials on the handle material belt;

laminating device includes handle locating component, laminating locating plate, absorption locating component and the laminating drive assembly that sets gradually from the top down, the laminating locating plate is fixed to be located in the frame, handle locating component is used for fixed handle material area, it is cotton that absorption locating component is used for bearing and adsorbing electrically conductive bubble, laminating drive assembly is used for driving and adsorbs locating component to the direction motion of being close to or keeping away from the laminating locating plate.

Further, adsorb locating component including laminating locating piece and vacuum pump, the inside circulation of gas room that is equipped with of laminating locating piece, a plurality of absorption holes have been seted up towards the side of laminating locating plate to the laminating locating piece, absorption hole intercommunication circulation of gas room, the laminating locating piece is equipped with the extraction opening with circulation of gas room intercommunication, vacuum pump connection extraction opening, laminating drive assembly drive laminating locating piece is to being close to or keeping away from the direction motion of laminating locating plate.

Further, laminating drive assembly is including locating the laminating cylinder in the frame and locating the vertical laminating spout in the frame, laminating locating piece and laminating spout sliding fit, laminating cylinder drive laminating locating piece motion.

Further, handle locating component is including fixed support frame of locating on the laminating locating plate, locate the location cylinder on the support frame, locate location cylinder below and with the connecting plate that the location cylinder is connected and locate the locating pin of connecting plate downside, set up the location perforation that supplies the locating pin to pass on the laminating locating plate.

Furthermore, a positioning sliding block is arranged between the positioning air cylinder and the connecting plate, a vertical positioning sliding groove is formed in the supporting frame, and the positioning sliding block is in sliding fit with the positioning sliding groove.

Further, draw the material device including locating in the frame draw the material platform, locate drawing the material locating plate of drawing the material platform top, locate to draw the material locating plate to be close to drawing the material round pin of drawing material platform one side, locate in the frame and be used for the drive to draw the lift drive subassembly that the material locating plate goes up and down and locate in the frame and be used for driving the horizontal drive subassembly that lift drive subassembly moved along the direction that is close to or keeps away from laminating device.

Further, two side edges of the material pulling platform parallel laminating device to the direction of the waste discharge device are respectively provided with a material pressing plate, a material pulling channel for the conductive foam to pass through is formed between the material pressing plate and the material pulling platform, a strip-shaped guide hole for the material pulling pin to pass through is formed in the material pressing plate, and the material pulling pin horizontally moves along the length direction of the guide hole.

Further, the lifting driving assembly comprises a base arranged on the rack in a sliding mode, a guide sliding groove arranged on the base, a guide sliding block in sliding fit with the guide sliding groove, and a lifting cylinder arranged on the base and used for driving the guide sliding block to lift, the guide sliding groove is vertically arranged, and the pulling positioning plate is connected with the guide sliding block.

Further, horizontal drive subassembly is including locating the guide rail in the frame, locating the locating part of guide rail length direction both sides and locating the frame and be used for driving the base along the drawing material cylinder that is close to or keeps away from the direction motion of laminating device, the length direction and the base horizontal motion direction of guide rail are parallel, one side that the base is close to the guide rail is equipped with draws the material spout with guide rail sliding fit, the locating part is used for blockking the base and moves to guide rail length direction's both ends.

Further, the waste discharge device is including locating the platform of wasting discharge in the frame, locating the bench of wasting discharge and leading useless board, locating the support of wasting discharge in the frame, locating waste receiving buffer roller and waste receiving roller on the support of wasting discharge and locating and be used for driving on the support of wasting discharge and receive useless roller pivoted and receive useless driving piece, waste receiving roller is located and receives useless buffer roller top, it is equipped with the guide passageway that supplies the cotton and handle material area of electrically conductive bubble to pass through to lead between useless board and the platform of wasting discharge.

The utility model has the advantages that:

1. the utility model has the advantages that the laminating device, the material pulling device and the waste discharge device are arranged, so that the equipment can realize the lamination of the conductive foam handle and can continuously work, and compared with the manual laminating handle, the efficiency is higher;

2. the utility model discloses a set up and adsorb locating component and adsorb electrically conductive bubble cotton, make electrically conductive bubble cotton be fixed in on adsorbing locating component, and then when making laminating drive assembly drive adsorb locating component motion, adsorb the cotton removal that can not take place of electrically conductive bubble on the locating component, the utility model discloses still set up the handle locating component who is used for fixed handle material area, make laminating in-process handle material area also can not take place to remove, ensure that laminating back electrically conductive bubble is cotton and the handle aligns, improve the product percent of pass.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

FIG. 2 is a schematic structural view of a bonding apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of an adsorption positioning assembly according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a material pulling device according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a waste discharge device according to an embodiment of the present invention.

Description of reference numerals: 10. a frame; 11. a work table; 12. supporting legs; 13. adjusting the foot; 131. a screw; 132. cushion blocks; 20. a bonding device; 21. a handle positioning assembly; 211. a support frame; 212. positioning the air cylinder; 213. a connecting plate; 214. positioning pins; 215. positioning the sliding block; 216. positioning the chute; 22. attaching a positioning plate; 221. positioning and punching; 23. an adsorption positioning component; 231. attaching a positioning block; 2311. a gas flow-through chamber; 2312. an adsorption hole; 2313. an air extraction opening; 232. a vacuum pump; 24. attaching a driving component; 241. attaching a cylinder; 242. fitting the sliding chute; 30. a material pulling device; 31. a material pulling table; 32. pulling a material positioning plate; 33. pulling a material pin; 34. a lift drive assembly; 341. a base; 3411. a material pulling chute; 342. a guide chute; 343. a guide slider; 344. a lifting cylinder; 35. a horizontal drive assembly; 351. a guide rail; 352. a limiting member; 353. a material pulling cylinder; 354. a hydraulic buffer; 36. a material pressing plate; 37. a material pulling channel; 38. a guide hole; 40. a waste discharge device; 41. a waste discharge station; 42. a waste guide plate; 43. a waste discharge support; 44. a waste collection buffer roller; 45. a waste collecting roller; 46. a waste-collecting driving member; 50. a feeding slide rail; 51. feeding a pressing plate; 60. placing a material bracket; 61. and (4) a discharging roller.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

The conductive foam tape in this embodiment is a conductive foam tape formed by laying out the molded conductive foam onto the release paper and cutting the molded conductive foam into half pieces of the bottom release paper, which is equivalent to punching the conductive foam compounded on the release paper into a corresponding product shape, and punching the release paper adhered to the conductive foam as a carrier without punching the release paper. The handle material strap in the embodiment is prepared by the following process: placing the base film and the composite material belt compounded from the type paper on a die, punching out a handle meeting the shape requirement of a product on the base film through the die, punching out a plurality of positioning holes on the type paper compounded with the base film, wherein the plurality of positioning holes are respectively distributed on two sides of the type paper in the width direction, the positioning holes on the two sides are symmetrically arranged, and after punching, redundant base film waste is discharged, and then rolling is carried out, so that the handle material belt is obtained.

The utility model provides a cotton handle of electrically conductive bubble pastes equipment, as shown in figure 1, it includes frame 10, be equipped with laminating device 20, draw material device 30 and exhaust apparatus 40 in proper order on the frame 10. The laminating device 20 is used for laminating conductive foam and a handle material belt, the material pulling device 30 is used for pulling the conductive foam and the handle material belt to move towards the direction of the waste discharge device 40, the waste discharge device 40 is used for removing waste materials on the handle material belt, and specifically, the waste materials are release paper on the handle material belt.

When the device works specifically, the worker removes release paper of the conductive foam material belt manually, then the conductive foam and the handle material belt are sequentially sent into the laminating device 20, the material pulling device 30 and the waste discharge device 40, the side face of the conductive foam composite back adhesive is mutually laminated with one side of the handle compounded by the handle material belt, the conductive foam and the handle material belt are tightly laminated under the action of the laminating device 20, the conductive foam material belt and the handle material belt gradually move forward under the action of the material pulling device 30, the conductive foam and the handle material belt are continuously sent into the laminating device 20 to be laminated, waste materials on the handle material belt are finally separated from conductive foam products compounded with the handle under the action of the waste discharge device 40, and the working efficiency is effectively improved.

Specifically, frame 10 includes workstation 11 of rectangle and four fixed supporting legs 12 of locating workstation 11 bottom, four right angle departments of workstation 11 are located respectively to supporting leg 12, and more stability when making workstation 11 place is difficult for collapsing, every the bottom threaded connection of supporting leg 12 has the regulation foot 13 that is used for adjusting the supporting leg 12 height, adjust foot 13 include with supporting leg 12 threaded connection's screw rod 131 with locate the cushion 132 of screw rod 131 lower extreme, adjust the height that four supporting legs 12 can be adjusted through rotating four regulation feet 13, make this frame 10 still can keep balance on the subaerial of unevenness. The laminating device 20, the material pulling device 30 and the waste discharge device 40 are arranged on the workbench 11.

As shown in fig. 1 and 2, the attaching device 20 includes a handle positioning assembly 21, an attaching positioning plate 22, an adsorbing positioning assembly 23, and an attaching driving assembly 24, which are arranged in sequence from top to bottom. Laminating locating plate 22 is fixed to be located on frame 10, handle locating component 21 is used for fixed handle material area, it is cotton that adsorption positioning component 23 is used for bearing and adsorbing the electrically conductive bubble, laminating drive assembly 24 is used for driving adsorption positioning component 23 to the direction motion of being close to or keeping away from laminating locating plate 22.

During the use, will electrically conduct the cotton and handle material area and pass and adsorb the clearance between locating component 23 and the laminating locating plate 22, then drive through laminating drive assembly 24 and adsorb locating component 23 and move up until laminating drive assembly 24 and laminating locating plate 22 butt, and then reach the purpose that makes the electrically conductive bubble that is located between laminating locating plate 22 and the adsorption locating component 23 and handle material area closely laminate. Because electrically conductive bubble is cotton and handle material area when the laminating, need make the handle on the handle material area and the cotton all around edge of electrically conductive bubble align, take place the position skew to lead to electrically conductive bubble after the laminating cotton and handle can not align with in order to avoid the laminating in-process electrically conductive bubble cotton and handle material area, the utility model discloses a setting adsorbs locating component 23 and adsorbs the electrically conductive bubble cotton, makes on electrically conductive bubble cotton is fixed in and adsorbs locating component 23, and then when making laminating drive assembly 24 drive adsorb locating component 23 motion, the electrically conductive bubble cotton on adsorbing locating component 23 can not take place to remove, the utility model discloses still set up the handle locating component 21 that is used for fixed handle material area, make the laminating in-process handle material area also can not take place to remove, ensure that the electrically conductive bubble is cotton and the handle aligns after the laminating, improve the product percent of pass.

As shown in fig. 2 and 3, the adsorption positioning assembly 23 includes a bonding positioning block 231 and a vacuum pump 232, a gas circulation chamber 2311 is disposed inside the bonding positioning block 231, a plurality of adsorption holes 2312 are disposed on a side surface of the bonding positioning block 231 facing the bonding positioning block 22, the adsorption holes 2312 are communicated with the gas circulation chamber 2311, an air pumping opening 2313 communicated with the gas circulation chamber 2311 is disposed on the bonding positioning block 231, the vacuum pump 232 is connected with the air pumping opening 2313, and the bonding driving assembly 24 drives the bonding positioning block 231 to move toward or away from the bonding positioning block 22.

By starting the vacuum pump 232, the vacuum pump 232 continuously pumps away the air in the air circulation chamber 2311 through the air pumping port 2313, so that the air pressure in the air circulation chamber 2311 is lower than the external atmospheric pressure, and the adsorption holes 2312 have a certain adsorption force on the conductive foam placed on the attaching positioning block 231, thereby achieving the purpose of fixing the conductive foam. After the bonding device 20 completes the bonding operation, the vacuum pump 232 is turned off and the vacuum breaking valve of the vacuum pump 232 is turned on, so that the vacuum degree in the gas circulation chamber 2311 is broken, the adsorption holes 2312 lose the adsorption effect on the conductive foam, and the conductive foam can be pulled by the pulling device 30 to move forward. Specifically, the vacuum pump 232 is commercially available, and the structure thereof is not described herein again.

As shown in fig. 1-2, the attaching driving assembly 24 includes an attaching cylinder 241 disposed on the frame 10 and a vertical attaching chute 242 disposed on the frame 10, the attaching positioning block 231 is in sliding fit with the attaching chute 242, and the attaching cylinder 241 drives the attaching positioning block 231 to move. Specifically, the cylinder block of the attaching cylinder 241 is fixedly disposed on the lower surface of the working table 11, and the telescopic rod of the attaching cylinder 241 is connected to the lower surface of the attaching positioning block 231. The setting of laminating spout 242 makes the motion of laminating locating piece 231 more stable, and difficult emergence vibrations and offset are favorable to improving the motion precision of laminating locating piece 231.

As shown in fig. 2, the handle positioning assembly 21 includes a supporting frame 211 fixedly disposed on the attaching positioning plate 22, a positioning cylinder 212 disposed on the supporting frame 211, a connecting plate 213 disposed below the positioning cylinder 212 and connected to the positioning cylinder 212, and two positioning pins 214 disposed on the lower side of the connecting plate 213, and two positioning through holes 221 for the two positioning pins 214 to pass through are disposed on the attaching positioning plate 22. Specifically, the positioning pin 214 is matched with a positioning hole on the handle material belt.

When the handle material strap passes through the hole between the attaching positioning plate 22 and the attaching positioning block 231, the connecting plate 213 and the two positioning pins 214 are driven to synchronously move downwards by the positioning cylinder 212, so that the lower ends of the two positioning pins 214 respectively pass through the two positioning through holes 221 and further pass through the two positioning blocks in the width direction of the handle material strap, the handle material strap cannot generate position deviation in the attaching process, and then the handle on the handle material strap can be aligned and attached with the conductive foam, and the product percent of pass is improved.

In order to improve the movement accuracy of the positioning pin 214 and prevent the positioning pin 214 from deviating during movement, a positioning slider 215 is arranged between the positioning cylinder 212 and the connecting plate 213, a vertical positioning sliding groove 216 is arranged on the supporting frame 211, and the positioning slider 215 is in sliding fit with the positioning sliding groove 216. The setting of location spout 216 and location slider 215 is favorable to reducing the vibration that the location cylinder 212 produced, and the difficult emergence of more stable when making connecting plate 213 and locating pin 214 move rocks, is favorable to improving the motion precision of locating pin 214, and then reaches the accurate location to the handle material area.

Wherein, as shown in fig. 1, in order to feed the conductive foam material belt conveniently, be equipped with feeding slide rail 50 on the frame 10, feeding slide rail 50's one end is connected with laminating spout 242, feeding slide rail 50 width direction's both sides are equipped with feeding clamp plate 51 for support presses the both sides of conductive foam material belt width direction, makes the conductive foam material belt can keep leveling when the motion, and the cotton surface of conductive foam appears fold or the uneven phenomenon of laminating when avoiding the cotton motion of conductive foam one side perk to make conductive foam and handle material belt laminate, is favorable to improving the product percent of pass.

As shown in fig. 1, in order to conveniently feed the handle material strap, a discharging support 60 is arranged on one side of the rack 10 close to the attaching device 20, a discharging roller 61 is arranged on the discharging support 60 in a rotating manner, when the handle material strap is used, the coiled handle material strap is mounted on the discharging roller 61, and when the handle material strap is pulled by the pulling device 30, the discharging roller 61 rotates under the action of a pulling force, so that the purpose of discharging can be achieved, and the operation is simple.

As shown in fig. 1 and 4, the material pulling device 30 includes a material pulling platform 31 disposed on the frame 10, a material pulling positioning plate 32 disposed above the material pulling platform 31, a material pulling pin 33 disposed on one side of the material pulling positioning plate 32 close to the material pulling platform 31, a lifting driving assembly 34 disposed on the frame 10 for driving the material pulling positioning plate 32 to lift, and a horizontal driving assembly 35 disposed on the frame 10 for driving the lifting driving assembly 34 to move in a direction close to or away from the attaching device 20.

Through setting up the material pulling pin 33, during the use, the lift drive assembly 34 drives the material pulling pin 33 to descend, so that the lower end of the material pulling pin 33 passes through the positioning hole of the handle material belt, then the lift drive assembly 34 is driven by the horizontal drive assembly 35 to move in the direction far away from the laminating device 20, the laminating device 20 moves to further drive the material pulling positioning plate 32 and the material pulling pin 33 to move in the direction far away from the laminating device 20, namely move in the direction close to the waste discharge device 40, because the handle material belt located in the material pulling device 30 is laminated with the conductive foam, when the handle material belt moves, the conductive foam also moves synchronously, so that the non-laminated conductive foam and the handle material belt are sent into the laminating device 20, and the conductive foam and the handle which are laminated together through the laminating device 20 are pulled out of the laminating device 20 to move in the direction of the waste discharge device 40.

As shown in fig. 4, two side edges of the material pulling platform 31 parallel to the direction from the attaching device 20 to the waste discharging device 40 are respectively provided with a material pressing plate 36, a material pulling channel 37 for the conductive foam to pass through is formed between the material pressing plate 36 and the material pulling platform 31, a strip-shaped guide hole 38 for the material pulling pin 33 to pass through is formed in the material pressing plate 36, and the material pulling pin 33 horizontally moves along the length direction of the guide hole 38.

Due to the arrangement of the material pressing plate 36, the attached conductive foam and handle material belt can be kept flat on the material pulling table 31, and the phenomenon of tilting cannot occur. The guide hole 38 is formed in a long strip shape, which facilitates the smooth movement of the lifter pin 33 in the horizontal direction.

As shown in fig. 1 and 4, the lifting driving assembly 34 includes a base 341 slidably disposed on the frame 10, a guiding chute 342 disposed on the base 341, a guiding slider 343 slidably engaged with the guiding chute 342, and a lifting cylinder 344 disposed on the base 341 and configured to drive the guiding slider 343 to lift, wherein the guiding chute 342 is vertically disposed, and the material pulling and positioning plate 32 is connected to the guiding slider 343. The setting of direction spout 342 and direction slider 343 can reduce the vibration that lift cylinder 344 produced, makes the stability that draws material locating plate 32 and draw material round pin 33 motion more, is favorable to improving the accuracy when drawing material round pin 33 motion, and then is favorable to guaranteeing that the handle can align the laminating with the electrically conductive bubble cotton, improves the product percent of pass.

As shown in fig. 1 and 4, the horizontal driving assembly 35 includes a guide rail 351 disposed on the frame 10, a limiting member 352 disposed on both sides of the guide rail 351 in the length direction, and a pulling cylinder 353 disposed on the frame 10 and used for driving the base 341 to move in the direction close to or away from the attaching device 20, the length direction of the guide rail 351 is parallel to the horizontal movement direction of the base 341, a pulling chute 3411 slidably engaged with the guide rail 351 is disposed on one side of the base 341 close to the guide rail 351, and the limiting member 352 is used for blocking the base 341 from moving to both ends of the guide rail 351 in the length direction.

Specifically, as shown in fig. 4, a hydraulic buffer 354 is disposed on the limiting member 352, the hydraulic buffer 354 is commercially available, and details thereof are not repeated herein, and a head of the hydraulic buffer 354 faces the base 341. The hydraulic buffer 354 is arranged to prevent the base 341 and the limiting member 352 from directly colliding, and by arranging the hydraulic buffer 354, when the base 341 approaches the limiting member 352, the base 341 first contacts with a collided head of the hydraulic buffer 354, the moving speed of the base 341 is gradually reduced under the blocking action of the hydraulic buffer 354, the collision force between the limiting member 352 and the base 341 is effectively reduced, and the situation that the material pulling pin 33 is greatly vibrated due to too large collision to cause the position deviation of the material pulling pin 33 to cause inaccurate positioning of the material pulling strip is avoided.

As shown in fig. 5, the waste discharging device 40 includes a waste discharging platform 41 disposed on the rack 10, a waste guiding plate 42 disposed on the waste discharging platform 41, a waste discharging bracket 43 disposed on the rack 10, a waste collecting buffer roller 44 and a waste collecting roller 45 disposed on the waste discharging bracket 43, and a waste collecting driving member 46 disposed on the waste discharging bracket 43 and used for driving the waste collecting roller 45 to rotate, specifically, the waste collecting driving member 46 is a motor. The waste collecting roller 45 is positioned above the waste collecting buffer roller 44, and a material guiding channel (not shown) for the conductive foam and the handle material belt to pass through is arranged between the waste guiding plate 42 and the waste discharging platform 41.

Through setting up leading useless board 42, after the electrically conductive bubble after the laminating and the handle material area passed the guide passageway, on the waste material in the handle material area and the cotton separation of handle and electrically conductive bubble and establish receipts useless buffer roller 44 and receipts waste roller 45 to the top, lead useless board 42 its to the effect of pressing electrically conductive bubble cotton and handle, make its both can not follow the waste material upward movement.

The working process is as follows:

as shown in fig. 1-5, adopt the utility model discloses a before the cotton handle of equipment laminating electrically conductive bubble, the staff removes the release paper of electrically conductive bubble cotton material area one end manually earlier, then send into the cotton one end of electrically conductive bubble in proper order on feeding slide rail 50 and the laminating locating piece 231, and make electrically conductive bubble cotton material area width direction's both sides supported and pressed in two feeding clamp plates 51 below, make electrically conductive bubble cotton material area keep leveling, the one side of the cotton compound gum of electrically conductive bubble up, start vacuum pump 232, make the electrically conductive bubble cotton that is located on laminating locating piece 231 receive the adsorption of absorption hole 2312 on being fixed in laminating locating piece 231. Meanwhile, the worker manually pulls the handle material belt on the discharging roller 61, the handle material belt passes through the gap between the joint positioning block 231 and the joint positioning plate 22 and the material pulling table 31 and further onto the waste discharging table 41, passes through the material guide channel on the waste discharging table 41 and then winds upwards onto the waste receiving buffer roller 44 and the waste receiving roller 45, the positioning hole of the handle material belt is aligned with the positioning pin 214 and the material pulling pin 33, the composite handle of the handle material belt is positioned above the conductive foam with one surface facing downwards, the positioning cylinder 212 is started, the positioning cylinder 212 drives the positioning slide block 215 to move downwards, the positioning slide block 215 drives the connecting plate 213 and the positioning pin 214 to move downwards synchronously, the two positioning pins 214 pass through the positioning through holes 221 on the joint positioning plate 22 and pass through the positioning holes on the two sides of the width direction of the handle material belt, so that the handle material belt is fixed by the positioning pin 214 and can not move forwards and backwards, at which time the positioning cylinder 212 is deactivated.

And then, the attaching cylinder 241 is started, and the attaching cylinder 241 drives the attaching positioning block 231 to move upwards, so that the conductive foam and the handle material belt located on the attaching positioning block 231 move upwards until the conductive foam and the handle material belt are tightly attached together under the extrusion action of the upper surface of the attaching positioning block 231 and the lower surface of the attaching positioning plate 22, and the attaching work of the conductive foam and the handle is completed.

Further, the positioning cylinder 212 and the attaching cylinder 241 are started, the positioning cylinder 212 drives the positioning slider 215 to move upwards, the positioning slider 215 drives the connecting plate 213 and the positioning pin 214 to move upwards and separate from the positioning hole of the handle material strip, the attaching cylinder 241 moves downwards, the vacuum pump 232 is turned off, the vacuum degree in the gas circulation chamber 2311 of the attaching positioning block 231 is damaged through a vacuum breaking valve of the vacuum pump 232, the adsorption hole 2312 on the attaching positioning block 231 loses the adsorption effect on the conductive foam, and the attached conductive foam and the handle material strip can move in the attaching device 20.

Then the lifting cylinder 344 is started, the lifting cylinder 344 drives the guide slider 343 to move downwards, so that the guide slider 343 drives the pulling positioning plate 32 and the pulling pin 33 to synchronously move downwards until the pulling pin 33 passes through the guide hole 38 and the positioning hole of the handle material strap, the lifting cylinder 344 is closed, then the pulling cylinder 353 is started, the pulling cylinder 353 drives the base 341 to move towards the direction close to the waste discharge device 40, so as to drive the pulling pin 33 to move towards the direction close to the waste discharge device 40, the pulling pin 33 moves to pull the handle material strap and the conductive foam to move towards the direction close to the waste discharge device 40, so that the non-attached conductive foam and the handle material strap are pulled into the attaching device 20 to be attached, the attached handle material strap and the conductive foam are pulled into the waste discharge device 40, and the waste material on the handle material strap is separated from the handle and the conductive foam under the pulling of the waste collection roller 45 and is wound on the waste collection roller 45, the bonding work of the conductive foam handle is finished at the moment.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. The utility model provides a cotton handle of electrically conductive bubble pastes equipment which characterized in that: the laminating machine comprises a rack, wherein a laminating device, a material pulling device and a waste discharge device are sequentially arranged on the rack; the laminating device is used for laminating the conductive foam and the handle material belt, the material pulling device is used for pulling the conductive foam and the handle material belt to move towards the waste discharge device, and the waste discharge device is used for removing waste materials on the handle material belt;

laminating device includes handle locating component, laminating locating plate, absorption locating component and the laminating drive assembly that sets gradually from the top down, the laminating locating plate is fixed to be located in the frame, handle locating component is used for fixed handle material area, it is cotton that absorption locating component is used for bearing and adsorbing electrically conductive bubble, laminating drive assembly is used for driving and adsorbs locating component to the direction motion of being close to or keeping away from the laminating locating plate.

2. The conductive foam handle pasting device as claimed in claim 1, wherein: the adsorption positioning assembly comprises a laminating positioning block and a vacuum pump, a gas circulation chamber is arranged inside the laminating positioning block, a plurality of adsorption holes are formed in the laminating positioning block towards the side face of the laminating positioning plate, the adsorption holes are communicated with the gas circulation chamber, the laminating positioning block is provided with an air suction opening communicated with the gas circulation chamber, the vacuum pump is connected with the air suction opening, and the laminating driving assembly drives the laminating positioning block to move towards the direction close to or away from the laminating positioning plate.

3. The conductive foam handle pasting device as claimed in claim 2, wherein: laminating drive assembly is including locating the laminating cylinder in the frame and locating the vertical laminating spout in the frame, laminating locating piece and laminating spout sliding fit, laminating cylinder drive laminating locating piece motion.

4. The conductive foam handle pasting device as claimed in claim 1, wherein: handle locating component is including fixed support frame of locating on the laminating locating plate, locate the location cylinder on the support frame, locate location cylinder below and with the connecting plate that the location cylinder is connected and locate the locating pin of connecting plate downside, set up the location perforation that supplies the locating pin to pass on the laminating locating plate.

5. The conductive foam handle pasting device as claimed in claim 4, wherein: and a positioning sliding block is arranged between the positioning cylinder and the connecting plate, a vertical positioning sliding groove is arranged on the supporting frame, and the positioning sliding block is in sliding fit with the positioning sliding groove.

6. The conductive foam handle pasting device as claimed in claim 1, wherein: draw the material device including locating in the frame draw the material platform, locate draw the material locating plate of drawing material platform top, locate to draw the material locating plate to be close to draw material platform one side draw the material round pin, locate in the frame and be used for the drive to draw the lift drive subassembly that the material locating plate goes up and down and locate in the frame and be used for driving the horizontal drive subassembly that the direction motion that the lift drive subassembly was followed and is close to or keep away from laminating device.

7. The conductive foam handle pasting device of claim 6, wherein: draw the parallel laminating device of material platform to the both sides limit of exhaust apparatus direction to be equipped with respectively and press the flitch, press the flitch and draw and form the drawing material passageway that supplies the cotton passing of electrically conductive bubble between the material platform, set up the guiding hole that supplies to draw the bar that the material round pin passed on pressing the flitch, draw the length direction horizontal motion of material round pin along the guiding hole.

8. The conductive foam handle pasting device of claim 6, wherein: the lifting driving assembly comprises a base, a guide sliding groove, a guide sliding block and a lifting cylinder, wherein the base is arranged on the rack in a sliding mode, the guide sliding groove is arranged on the base, the guide sliding block is in sliding fit with the guide sliding groove, the lifting cylinder is arranged on the base and used for driving the guide sliding block to lift, the guide sliding groove is vertically arranged, and the pulling positioning plate is connected with the guide sliding block.

9. The conductive foam handle attaching device as claimed in claim 8, wherein: horizontal drive subassembly is including locating the guide rail in the frame, locating the locating part of guide rail length direction both sides and locating and be used for driving the base along the drawing material cylinder that is close to or keeps away from the direction motion of laminating device in the frame, the length direction and the base horizontal motion direction of guide rail are parallel, one side that the base is close to the guide rail is equipped with draws the material spout with guide rail sliding fit, the locating part is used for blockking the base and moves to guide rail length direction's both ends.

10. The conductive foam handle pasting device as claimed in claim 1, wherein: the waste discharge device comprises a waste discharge platform arranged on the frame, a waste guide plate arranged on the waste discharge platform, a waste discharge support arranged on the frame, a waste collection buffer roller and a waste collection roller arranged on the waste discharge support, and a waste collection driving piece arranged on the waste discharge support and used for driving the waste collection roller to rotate, wherein the waste collection roller is positioned above the waste collection buffer roller, and a material guide channel for allowing a conductive foam and a handle material belt to pass through is arranged between the waste guide plate and the waste discharge platform.

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