CN211393302U - Automatic film all-in-one is received to rubber coating - Google Patents

Abstract

The utility model discloses an automatic membrane all-in-one is received to rubber coating, include: the film collecting and packaging machine comprises a rack, a rubber disc fixing module and a film separating control module which are arranged in the middle of the rack, a film collecting module arranged on the upper portion of the rack and a rubber coating module arranged on the lower portion of the rack, wherein a plurality of rubber belt discs which are arranged in two groups are arranged on the rubber disc fixing module, and adjacent rubber belt discs between the two groups are horizontally arranged in a staggered manner; the film separating control module comprises a tension adjusting assembly, a plurality of belt passing wheel shaft cores, a paper film adjusting assembly and a rubber belt transition assembly, wherein the belt passing wheel shaft cores are arranged below the tension adjusting assembly and are used for separating rubber belts and paper films; the film collecting module is provided with paper collecting discs with the same number as the adhesive tape discs. The utility model discloses a set up on the upper portion of frame and receive the membrane module to send sticky tape and paper membrane separation back to rubber coating module and receive the membrane module respectively by dividing membrane control module group, realize automatic with sticky tape and paper membrane separation, and can accomplish rubber coating and paper membrane collection automatically, make production efficiency increase, reduce cost, and be difficult to make mistakes, improve the yield.

Description

Automatic film all-in-one is received to rubber coating

The technical field is as follows:

the utility model relates to an automatic rubber coating technical field refers in particular to an automatic rubber coating and receives membrane all-in-one.

Background art:

at present, the rubber coating machine on the market can only realize the automatic rubber coating of sticky tape to the product, this kind of mode can only be suitable for the sticky tape of no paper membrane, to the tape paper membrane sticky tape that modern industry packaging production technical field adopted, current rubber coating machine can't separate the collection to the paper membrane of applying on the sticky tape, adopt semi-automatic mode to carry out the rubber coating usually, tailor the collection by the manual work with the paper membrane and handle, lead to production efficiency low like this, and increased manufacturing cost, and adopt the manual work to separate the processing paper membrane, not only inefficiency, it breaks to make the sticky tape the easy mistake still, lead to production to interrupt, influence efficiency and yield.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide an automatic membrane all-in-one is received to rubber coating.

In order to solve the technical problem, the utility model discloses a following technical scheme: this automatic membrane all-in-one is received to rubber coating includes: the film collecting and packaging machine comprises a rack, a rubber disc fixing module and a film separating control module which are arranged in the middle of the rack, a film collecting module arranged on the upper portion of the rack and a rubber coating module arranged on the lower portion of the rack, wherein a plurality of rubber belt discs which are arranged in two groups are arranged on the rubber disc fixing module, and the two adjacent rubber belt discs are horizontally arranged in a staggered manner; the film separating control module comprises a tension adjusting assembly positioned below the rubber disc fixing module, a plurality of belt passing wheel shaft cores arranged below the tension adjusting assembly and used for separating adhesive tapes and paper films, a paper film adjusting assembly arranged above the rubber disc fixing module and an adhesive tape transition assembly arranged between the adhesive tape discs; the film collecting module is provided with paper collecting discs equal in number to the adhesive tape discs.

Furthermore, in the above technical solution, the tension adjusting assembly includes a first passing rod movably mounted on the frame, a plurality of first main passing pulleys mounted on the first passing rod, a plurality of first swing rods rotatably mounted on the first passing rod, a first adjusting passing pulley mounted at one end of the first swing rods and located below the first main passing pulley, a first return tension spring having two ends respectively fixed to the other ends of the first passing rod and the first swing rods, and a first driving device mounted on the frame and used for driving the first passing rod to move.

Furthermore, in the above technical solution, a first connecting assembly is disposed between the first driving device and the first passing rod, and the first connecting assembly includes a first pushing block and a second pushing block which are mounted on the frame and drive the first passing rod to move, a connecting rod which penetrates through the first pushing block and the second pushing block, and a connecting block of which two ends are respectively fixed on the connecting rod and the first driving device.

Furthermore, in the above technical solution, the rack is provided with a first chute and a second chute for installing the first pushing block and the second pushing block, and the first belt passing rod is provided with a first clamping groove and a second clamping groove which are clamped with the first pushing block and the second pushing block.

Furthermore, in the above technical solution, the paper film adjusting assembly includes a second passing rod disposed above the frame, a first secondary passing belt wheel installed on the second passing rod in a plural number, a second swing rod installed on the second passing rod in a rotatable manner, a second adjusting passing belt wheel installed at one end of the second swing rod and located below the first secondary passing belt wheel, a second reset tension spring with two ends fixed to the other end of the second swing rod and the second passing rod respectively, a third passing rod disposed below the second passing rod, and a second secondary passing belt wheel installed on the third passing rod in a plural number, and a micro switch for controlling the rotation of the paper take-up plate is disposed beside the second swing rod.

Furthermore, in the above technical solution, the adhesive tape transition assembly includes a fourth tape passing rod installed on the frame, a plurality of second main tape passing wheels installed on the fourth tape passing rod, and a third auxiliary tape passing wheel installed beside the second main tape passing wheels.

Furthermore, in the above technical solution, the film collecting module includes a plurality of second driving devices mounted on an upper portion of the frame, and a paper collecting tray mounting assembly mounted on an output shaft of the second driving devices and used for fixing the paper collecting tray; the rubber disc fixing module comprises a plurality of bolt columns arranged on the rack, a rubber disc mounting assembly sleeved on the bolt columns and adjusting nuts for fixing the rubber disc mounting assembly on the bolt columns.

Further, in the above technical solution, the rubber coating module includes a rubber belt clamping device installed at the lower end of the frame, a plurality of belt limiting block devices installed at the lower end of the frame and located inside the rubber belt clamping device, a belt pressing block mechanism installed beside the belt limiting block devices, and a rubber cutting mechanism installed beside the belt pressing block mechanism.

Further, in the above technical solution, the tape clamping device includes a first tape clamping wall and a second tape clamping wall fixed to two sides of the lower end of the rack, a first slide rail and a second slide rail respectively provided with a lower end of the first tape clamping wall and a lower end of the second tape clamping wall, a tape clamping seat mounted on the first slide rail and the second slide rail through a first slider and a second slider, a plurality of tape clamping bars mounted on the tape clamping seat, and a third driving device for driving the tape clamping seat to move along the first slide rail and the second slide rail, and the tape limiting block device includes a tape mounting bracket mounted at the lower end of the rack and located above the tape clamping bar, a third adjusting tape passing wheel mounted at the lower end of the tape mounting bracket, a first adjusting block and a second adjusting block mounted on the third adjusting tape passing wheel, and a limiting block disposed on one side of the first adjusting block and the second adjusting block.

Further, in the above technical solution, the tape pressing mechanism includes a tape pressing block disposed beside the tape limiting block device and cooperating with the tape clamping device to clamp the tape, a tape pressing block seat rotatably mounted on the frame and fixed to an upper end of the tape pressing block, and a first driving assembly mounted on the frame and driving the tape pressing block to swing and stick the tape, and the tape cutting mechanism includes a cutter block disposed beside the tape pressing block, a cutter seat mounted at a lower end of the cutter block, a cutter mounted on the cutter seat, a cutter block seat rotatably mounted on the frame and fixed to an upper end of the cutter block, and a second driving assembly mounted on the frame and driving the cutter to swing and cut the tape.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses a set up in the upper portion of frame and receive the membrane module to send sticky tape and paper membrane separation back to rubber coating module and receive the membrane module respectively by dividing membrane control module group, consequently, can realize automatic with sticky tape and paper membrane separation, and can accomplish rubber coating and paper membrane collection automatically, thereby make production efficiency increase, reduction in production cost, and be difficult to make mistakes, improve the yield. And the adhesive tape discs are arranged in the adhesive tape disc fixing module in a staggered mode, so that the mounting width of the adhesive tape discs can be reduced, and the adhesive tape can be ensured to penetrate through.

Description of the drawings:

fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the middle membrane dividing control module of the present invention;

fig. 3 is a perspective view of the encapsulation module of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2 at A;

fig. 5 is a perspective view of the adhesive tape tray mounting assembly of the present invention;

fig. 6 is a perspective view of the middle band limiting block device of the present invention;

FIG. 7 is a perspective view of the mounting assembly of the paper receiving tray of the present invention;

fig. 8 is a partially enlarged view at B in fig. 2.

Description of reference numerals:

1 first chute 112 and second chute of rack 111

2 rubber plate fixing module 21 rubber belt plate 22 bolt column

23 adhesive tape disc mounting assembly 24 adjusting nut 231 adhesive tape disc mounting rear seat

232 adhesive tape disc mounting shaft sleeve 233 adhesive tape disc front baffle 3 film-separating control module

31 tension adjusting component 311 first passing rod 312 first main passing pulley

313 first pendulum rod 314 first adjustment pulley 315 first return tension spring

316 first driver 317, first card slot 318, and second card slot

32-pass pulley shaft core 331, second pass pulley rod 332 and first secondary pass pulley

333 second swing link 334 second regulation belt passing wheel 341 fourth belt passing link

342 second primary pulley 343, third secondary pulley 335 second return tension spring

336 third passing rod 337 second secondary passing wheel 338 microswitch

33 paper film adjusting component 34 adhesive tape transition component 35 first connecting component

351 first pushing block 352 and second pushing block 353 connecting rod

354 connecting block 4 film collecting module 41 paper collecting plate

42 second driving device 43 paper receiving tray mounting assembly 431 paper receiving tray shaft core

Mounting shaft sleeve of 432 front paper receiving plate cover 433 rear paper receiving plate cover 434

51 tape clamping device for 435 flange 5 rubber coating module

511 first glue clamping wall 512 and second glue clamping wall 513 first slide rail

514 second slide rail 515 first slide 516 second slide

517 doubling seat 518 doubling rod 519 third driving device

Third adjustment pulley of 52-belt-limiting block device 521 wire belt mounting bracket 522

523 first adjusting block 524 and second adjusting block 525 limiting block

53 press belt block mechanism 531 press belt block 532 press belt block seat

533 first drive assembly 5331 fifth slide 5332 sixth slide

5333 fifth slide rail 5334 sixth slide rail 5335 push-belt slide bar

5336 connecting rod 5337 fifth driving device 5338 connecting block for driving press belt

54 surely gluey mechanism 541 cuts cutter piece 542 cutter seat

543 cutting knife 544 cutting knife block seat 545 second driving component

5451 third slide 5452 fourth slide 5453 cutter slide

5454 cutter pull shaft 5455 sixth driving device 5456 cutter push shaft

5457 fourth drive 546 second connection subassembly 5461 pendulum

5462 third reset tension spring

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1 to 8, an automatic film wrapping and collecting all-in-one machine is provided, which includes: the film laminating machine comprises a rack 1, a rubber disc fixing module 2 and a film separating control module 3 which are arranged in the middle of the rack 1, a film collecting module 4 arranged on the upper portion of the rack 1 and a rubber coating module 5 arranged on the lower portion of the rack 1, wherein a plurality of rubber belt discs 21 which are arranged in two groups are arranged on the rubber disc fixing module 2, and the two groups of adjacent rubber belt discs 21 are horizontally arranged in a staggered manner; the film separating control module 3 comprises a tension adjusting assembly 31 positioned below the adhesive tape disc fixing module 2, a plurality of belt passing wheel shaft cores 32 arranged below the tension adjusting assembly 31 and used for separating adhesive tapes and paper films, a paper film adjusting assembly 33 arranged above the adhesive tape disc fixing module 2 and an adhesive tape passing assembly 34 arranged between the adhesive tape discs 21; the film collecting module 4 is provided with paper collecting trays 41 with the same number as the adhesive tape trays 21.

The tension adjusting assembly 31 includes a first passing rod 311 movably mounted on the frame 1, a plurality of first main passing pulleys 312 mounted on the first passing rod 311, a plurality of first swing rods 313 rotatably mounted on the first passing rod 311, a first adjusting passing pulley 314 mounted at one end of the first swing rods 313 and located below the first main passing pulleys 312, a first return tension spring 315 having two ends respectively fixed to the other ends of the first passing rod 311 and the first swing rods 313, and a first driving device 316 mounted on the frame 1 and used for driving the first passing rod 311 to move. The first driving device 316 is a cylinder.

A first connecting assembly 35 is arranged between the first driving device 316 and the first over-belt rod 311, and the first connecting assembly 35 includes a first pushing block 351 and a second pushing block 352 which are mounted on the frame 1 and drive the first over-belt rod 311 to move, a connecting rod 353 which penetrates through the first pushing block 351 and the second pushing block 352, and a connecting block 354 of which two ends are respectively fixed on the connecting rod 353 and the first driving device 316.

The rack 1 is provided with a first sliding groove 111 and a second sliding groove 112 for mounting the first pushing block 351 and the second pushing block 352, and the first belt passing rod 311 is provided with a first clamping groove 317 and a second clamping groove 318 which are clamped with the first pushing block 351 and the second pushing block 352.

The paper film adjusting component 33 comprises a second passing rod 331 arranged above the frame 1, a first secondary passing belt wheel 332 arranged on the second passing rod 331 in a plural number, a second swing rod 333 arranged on the second passing rod 331 in a rotatable manner, a second adjusting passing belt wheel 334 arranged at one end of the second swing rod 333 and positioned below the first secondary passing belt wheel 332, a second reset tension spring 335 with two ends respectively fixed at the other end of the second swing rod 333 and the second passing rod 331, a third passing rod 336 arranged below the second passing rod 331 and a second secondary passing belt wheel 337 arranged on the third passing rod 336 in a plural number, and a micro switch 338 arranged beside the second swing rod 333 for controlling the rotation of the paper collecting tray 41.

The adhesive tape transition assembly 34 includes a fourth passing rod 341 mounted on the frame 1, a plurality of second primary passing pulleys 342 mounted on the fourth passing rod 341, and a third secondary passing pulley 343 disposed beside the second primary passing pulleys 342.

The film collecting module 4 comprises a plurality of second driving devices 42 mounted on the upper portion of the frame 1, a sheet collecting tray mounting assembly 43 mounted on an output shaft of the second driving device 42 and used for fixing the sheet collecting tray 41, wherein the sheet collecting tray mounting assembly 43 comprises a sheet collecting tray shaft core 431 mounted on the output shaft of the second driving device 42, a sheet collecting tray front blocking cover 432 and a sheet collecting tray rear blocking cover 433 sleeved on the sheet collecting tray shaft core 431, a sheet collecting tray mounting shaft sleeve 434 arranged between the sheet collecting tray front blocking cover 432 and the sheet collecting tray rear blocking cover 433 and used for fixing the sheet collecting tray 41, and a flange 435 used for fixing the sheet collecting tray front blocking cover 432 on the sheet collecting tray shaft core 431. The second driving device 42 is a motor.

The adhesive tape disc fixing module 2 comprises a plurality of bolt columns 22 arranged on the frame 1, an adhesive tape disc mounting assembly 23 sleeved on the bolt columns 22, and an adjusting nut 24 for fixing the adhesive tape disc mounting assembly 23 on the bolt columns 22, wherein the adhesive tape disc mounting assembly 23 comprises an adhesive tape disc mounting rear seat 231 sleeved on the bolt columns 22, an adhesive tape disc mounting shaft sleeve 232 sleeved on the adhesive tape disc mounting rear seat 231, and an adhesive tape disc front baffle 233 sleeved at the front ends of the bolt columns 22 and capable of being adjusted front and back.

The rubber coating module 5 comprises a rubber belt clamping device 51 arranged at the lower end of the rack 1, a plurality of belt limiting block devices 52 arranged at the lower end of the rack 1 and positioned at the inner side of the rubber belt clamping device 51, a belt pressing block mechanism 53 arranged at the side of the belt limiting block devices 52 and a rubber cutting mechanism 54 arranged at the side of the belt pressing block mechanism 53.

The tape clamping device 51 comprises a first tape clamping wall 511 and a second tape clamping wall 512 fixed on two sides of the lower end of the rack 1, a first slide rail 513 and a second slide rail 514 respectively provided with the lower ends of the first tape clamping wall 511 and the second tape clamping wall 512, a tape clamping base 517 arranged on the first slide rail 513 and the second slide rail 514 through a first slide block 515 and a second slide block 516, a plurality of tape clamping rods 518 arranged on the tape clamping base 517, and a third driving device 519 for driving the tape clamping base 517 to move along the first slide rail 513 and the second slide rail 514, the belt limiting block device 52 comprises a belt mounting bracket 521 mounted at the lower end of the frame 1 and located above the glue clamping rod 518, a third adjusting belt passing wheel 522 mounted at the lower end of the belt mounting bracket 521, a first adjusting block 523 and a second adjusting block 524 mounted on the third adjusting belt passing wheel 522, and a limiting block 525 arranged at one side of the first adjusting block 523 and the second adjusting block 524. The third driving device 519 is a cylinder.

The tape pressing mechanism 53 comprises a tape pressing block 531 arranged beside the tape limiting block 52 and matched with the tape clamping device 51 to clamp the tape, a tape pressing block base 532 arranged on the frame 1 in a rotatable manner and fixed with the upper end of the tape pressing block 531, and a first driving component 533 arranged on the frame 1 and driving the tape pressing block 531 to swing and paste the tape, wherein the tape cutting mechanism 54 comprises a cutter block 541 arranged beside the tape pressing block 531, a cutter base 542 arranged at the lower end of the cutter block 541, a cutter 543 arranged on the cutter base 542, a cutter block base 544 arranged on the frame 1 in a rotatable manner and fixed with the upper end of the cutter block 541, and a second driving component 545 arranged on the frame 1 and driving the cutter 543 to swing and cut off the tape.

The first driving assembly 533 comprises a fifth slider 5331 and a sixth slider 5332 mounted on the frame 1, a fifth slide rail 5333 and a sixth slide rail 5334 mounted on the fifth slider 5331 and the sixth slider 5332, a press bar 5335 mounted on the fifth slide rail 5333 and the sixth slide rail 5334, a press bar connecting rod 5336 connecting the press bar 5335 and the press bar seat 532 and driving the press bar seat 532 to rotate, a fifth driving device 5337 mounted on the frame 1 and used for driving the press bar 5335 to move, and a press bar driving connecting block 5338 connecting the fifth driving device 5337 and the press bar 5335. The fifth driving device 5337 and the connecting block 5338 for driving the pressing belt are provided in two. When the first driving assembly 533 works, the fifth driving device 5377 drives the tape pressing slide bar 5335 to move left and right along the fifth slide rail 5333 and the sixth slide rail 5334 by pressing the driving connection block 5338, and then the tape pressing slide bar 5335 drives the tape pressing block seat 532 to rotate through the tape pressing connection bar 5336, so that the tape pressing block 531 swings to one side to paste the tape onto the product with the tape. The fifth driving device 5337 is an air cylinder.

The second driving assembly 545 comprises a third slide rail 5451 and a fourth slide rail 5452 which are mounted on the frame 1, a cutter slide bar 5453 which is mounted on the third slide rail 5451 and the fourth slide rail 542, a cutter pull shaft 5454 which is movably mounted at the lower end of the cutter slide bar 5453, a sixth driving device 5455 which is mounted on the cutter slide bar 5453 and is used for driving the cutter pull shaft 5454 to move, a plurality of cutter push shafts 5456 which are mounted on the cutter slide bar 5453 and are used for driving the cutter block base 544 to rotate, and a fourth driving device 5457 which is mounted on the frame 1 and is used for pushing the cutter slide bar 5453 to move, the rear end of the cutter block seat 544 is provided with a second connecting component 546 connected with the cutter push shaft 5454, the second connecting assembly 546 includes a swinging member 5461 mounted at the rear end of the cutter block seat 544, and a third return tension spring 5462 having two ends respectively connected to the rack 1 and the swinging member 5461. The number of the fourth driving means 5457 is two. When the second driving device 545 works, the fourth driving device 5457 drives the cutter slide bar 5453 to move up and down along the third slide rail 5451 and the fourth slide rail 542, the cutter slide bar 5453 drives the sixth driving device 5455 and the cutter pull shaft 5454 to move, and the sixth driving device 5455 drives the cutter pull shaft 5454 to move left and right, so that the cutter push shaft 5456 on the cutter pull shaft 5454 drives the cutter block seat 544 to rotate through the second connecting component 546, so that the cutter 543 swings to one side to cut off the adhesive tape. The sixth driving device 5455 and the fourth driving device 5457 are both air cylinders.

In one embodiment, there are 6 adhesive tape discs 21, which are distributed in two rows of 3 staggered discs; the paper receiving trays 41 are also provided with 6 corresponding paper receiving trays which are distributed in a row; the first main belt passing wheel 312, the first swing rod 313, the first adjusting belt passing wheel 314, the first auxiliary belt passing wheel 332, the second swing rod 333, the second adjusting belt passing wheel 334, the second reset tension spring 335, the second auxiliary belt passing wheel 337, the second main belt passing wheel 342, the third auxiliary belt passing wheel 343, the second driving device 42, the paper collecting tray mounting assembly 43, the bolt column 22, the adhesive tape tray mounting assembly 23, the adjusting nut 24, the belt limiting block device 52, the belt pressing block mechanism 53, the rubber cutting mechanism 54, the rubber clamping rod 518, the belt pressing connecting rod 5336 and the cutter pushing shaft 5456 are all correspondingly provided with 6 belt pressing rods, and are in one-to-one correspondence from left to right from top to bottom. The adhesive tape is a 150mm adhesive tape disc formed by adhering a double-layer adhesive tape on a layer of paper film and then coiling.

The tape winding mode in the upper row of tape tray 21 is as follows: after coming out of the adhesive tape disc 21, the adhesive tape with the paper film firstly bypasses the second main passing pulley 342, further bypasses the first main passing pulley 312, further bypasses the pulley shaft core 32 to separate the adhesive tape from the paper film, then after downwards bypasses the third adjusting passing pulley 522, the adhesive tape is clamped between the tape pressing block 531 and the adhesive clamping bar 518, further the paper film upwards bypasses the first adjusting passing pulley 314, further bypasses the third secondary passing pulley 343, further bypasses the left side of the adhesive tape disc 21, upwards bypasses the second secondary passing pulley 337, further upwards bypasses the second adjusting passing pulley 334, further bypasses the first secondary passing pulley 332 and then is wound on the paper collecting disc 41; the tape winding mode in the lower tape disc 21 is as follows: after coming out of the adhesive tape disc 21, the adhesive tape with the paper film firstly winds around the first main passing pulley 312, further passes through the pulley shaft core 32 downwards to separate the adhesive tape from the paper film, then after the adhesive tape winds around the third adjusting passing pulley 522 downwards, the adhesive tape is clamped between the tape pressing block 531 and the adhesive clamping rod 518, further the paper film winds around the first adjusting passing pulley 314 upwards, further winds around the third auxiliary passing pulley 343, further winds around the second auxiliary passing pulley 337 upwards through the left side of the adhesive tape disc 21, further winds around the second adjusting passing pulley 334 upwards, further winds around the first auxiliary passing pulley 332 and then winds on the paper collecting disc 41.

To sum up, in the operation of the present invention, firstly, the adhesive tape and the paper film are pulled out from the adhesive tape disc and wound, and the first driving device 316 drives the first passing rod 311 to drive the first main passing pulley 312 to move left and right, so as to adjust the wound adhesive tape and paper film to be in a tight state, when the product to be encapsulated is sent to the encapsulation module 5, i.e. to be located on the left side of the adhesive tape clamping device 51, firstly, the product to be encapsulated is moved to the right side to be adhered with the adhesive tape, next, the third driving device 519 drives the adhesive tape clamping rod 518 to move forward through the adhesive tape clamping seat 517, so as to separate from the adhesive tape, next, the first driving component 533 drives the belt pressing block 531 to press on the product to be encapsulated, so as to press the adhesive tape on the product to be encapsulated, then, the product to be encapsulated automatically rotates clockwise, and then, after encapsulation is completed, the first driving component 533 drives the belt pressing block 531 to reset to the original position, then the third driving device 519 drives the glue clamping rod 518 to move backwards through the glue clamping base 517, the adhesive tape is clamped between the tape pressing block 531 and the glue clamping rod 518, next, the second driving assembly 545 drives the cutter 543 to swing leftwards to cut the adhesive tape, and the end of the adhesive tape is smoothed by the cambered surface on the cutter base 542, next, because the paper film is pulled out of the adhesive tape disc 21 during the rubber coating process, the tightened paper film is gradually loosened, so that the second adjusting belt wheel 334 loses the pressure, at this time, the second resetting tension spring 335 generates the resetting tension force, pulls the second swing rod 333 to drive the second adjusting belt wheel 334 to be separated from the microswitch 338, the microswitch 338 energizes the second driving device 42, so that the second driving device 42 drives the paper collecting disc 41 to rotate through the paper disc mounting assembly 43, the loosened paper film is wound to collect the paper film, next, when the paper film is gradually wound and restored to the original tightened state by the paper collecting disc 41, the paper film presses the second adjusting belt wheel 334 against the microswitch 338, the power supply of the second driving device 42 is cut off, at the moment, the second driving device 42 stops rotating, the automatic collection of the paper film is completed, and meanwhile, the automatic encapsulation and film collection work is also completed. When the device works, the six groups of adhesive tape discs 21 and the paper receiving discs 41 independently work repeatedly without mutual interference, and the encapsulation efficiency is improved.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: the utility model discloses a set up in the upper portion of frame 1 and receive membrane module 4 to send sticky tape and paper membrane separation back to rubber coating module 4 and receive membrane module 5 respectively by branch membrane control module group 3, consequently, can realize automatic with sticky tape and paper membrane separation, and can accomplish rubber coating and paper membrane automatically and collect, thereby make production efficiency increase, reduction in production cost, and be difficult to make mistakes, improve the yield. And the adhesive tape discs 21 are arranged in the adhesive tape disc fixing module 2 in a staggered mode, so that the mounting width of the adhesive tape discs 21 can be reduced, and the adhesive tape can penetrate through the adhesive tape discs.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides an automatic membrane all-in-one is received to rubber coating which characterized in that includes: the film laminating machine comprises a rack (1), a film fixing module (2) and a film separating control module (3) which are arranged in the middle of the rack (1), a film collecting module (4) which is arranged at the upper part of the rack (1) and a rubber coating module (5) which is arranged at the lower part of the rack (1), wherein a plurality of two groups of arranged adhesive tape discs (21) are arranged on the film fixing module (2), and the two groups of adjacent adhesive tape discs (21) are horizontally arranged in a staggered manner; the film separating control module (3) comprises a tension adjusting assembly (31) positioned below the adhesive tape disc fixing module (2), a plurality of belt passing wheel shaft cores (32) arranged below the tension adjusting assembly (31) and used for separating an adhesive tape and a paper film, a paper film adjusting assembly (33) arranged above the adhesive tape disc fixing module (2) and an adhesive tape passing assembly (34) arranged between the adhesive tape discs (21); the film collecting module (4) is provided with paper collecting trays (41) with the same number as the adhesive tape trays (21).

2. The automatic film wrapping and collecting all-in-one machine of claim 1, wherein: the tension adjusting assembly (31) comprises a first belt passing rod (311) movably mounted on the rack (1), a plurality of first main belt passing wheels (312) mounted on the first belt passing rod (311), a plurality of first swing rods (313) rotatably mounted on the first belt passing rod (311), a first adjusting belt passing wheel (314) mounted at one end of the first swing rods (313) and located below the first main belt passing wheels (312), a first return tension spring (315) with two ends respectively fixed to the other ends of the first belt passing rod (311) and the first swing rods (313), and a first driving device (316) mounted on the rack (1) and used for driving the first belt passing rod (311) to move.

3. The automatic film wrapping and collecting all-in-one machine of claim 2, wherein: a first connecting component (35) is arranged between the first driving device (316) and the first tape passing rod (311), and the first connecting component (35) comprises a first pushing block (351) and a second pushing block (352) which are arranged on the rack (1) and drive the first tape passing rod (311) to move, a connecting rod (353) which penetrates through the first pushing block (351) and the second pushing block (352), and connecting blocks (354) of which the two ends are respectively fixed on the connecting rod (353) and the first driving device (316).

4. The automatic film wrapping and collecting all-in-one machine as claimed in claim 3, wherein: the frame (1) on be provided with first spout (111) and second spout (112) of installation first promotion piece (351) and second promotion piece (352), first passing the area pole (311) on be provided with first draw-in groove (317) and second draw-in groove (318) that first promotion piece (351) and second promotion piece (352) block.

5. The automatic film wrapping and collecting all-in-one machine of claim 1, wherein: the paper film adjusting component (33) comprises a second passing rod (331) arranged above the rack (1), a first secondary passing belt wheel (332) arranged on the second passing rod (331), a second swing rod (333) arranged on the second passing rod (331) in a rotatable mode, a second adjusting passing belt wheel (334) arranged at one end of the second swing rod (333) and positioned below the first secondary passing belt wheel (332), a second reset tension spring (335) with two ends respectively fixed at the other end of the second swing rod (333) and the second passing rod (331), a third passing rod (336) arranged below the second passing rod (331) and a second secondary passing belt wheel (338) arranged on the third passing rod (336), and a microswitch (338) arranged beside the second swing rod (333) and used for controlling the rotation of the paper collecting tray (41).

6. The automatic film wrapping and collecting all-in-one machine of claim 1, wherein: the adhesive tape transition assembly (34) comprises a fourth tape passing rod (341) arranged on the frame (1), a plurality of second main tape passing wheels (342) arranged on the fourth tape passing rod (341) and third auxiliary tape passing wheels (343) arranged at the side of the second main tape passing wheels (342).

7. The automatic film wrapping and collecting all-in-one machine of claim 1, wherein: the film collecting module (4) comprises a plurality of second driving devices (42) arranged at the upper part of the rack (1) and a paper collecting tray mounting assembly (43) which is arranged on an output shaft of the second driving devices (42) and is used for fixing the paper collecting tray (41); the rubber disc fixing module (2) comprises a plurality of bolt columns (22) arranged on the rack (1), a rubber disc mounting assembly (23) sleeved on the bolt columns (22), and adjusting nuts (24) for fixing the rubber disc mounting assembly (23) to the bolt columns (22).

8. The automatic film wrapping and collecting all-in-one machine of claim 1, wherein: the rubber coating module (5) comprises a rubber belt clamping device (51) arranged at the lower end of the rack (1), a plurality of belt limiting block devices (52) arranged at the lower end of the rack (1) and positioned on the inner side of the rubber belt clamping device (51), a belt pressing block mechanism (53) arranged on the side of the belt limiting block devices (52) and a rubber cutting mechanism (54) arranged on the side of the belt pressing block mechanism (53).

9. The automatic film wrapping and collecting all-in-one machine of claim 8, wherein: the rubber belt clamping device (51) comprises a first rubber clamping wall (511) and a second rubber clamping wall (512) which are fixed on two sides of the lower end of the rack (1), a first sliding rail (513) and a second sliding rail (514) which are respectively provided with a first rubber clamping wall (511) and a second rubber clamping wall (512) at the lower end, a rubber clamping base (517) which is arranged on the first sliding rail (513) and the second sliding rail (514) through a first sliding block (515) and a second sliding block (516), a plurality of rubber clamping rods (518) arranged on the rubber clamping base (517) and a third driving device (519) used for driving the rubber clamping base (517) to move along the first sliding rail (513) and the second sliding rail (514), and a belt limiting block device (52) comprises a belt installation support (521) which is arranged at the lower end of the rack (1) and is positioned above the rubber clamping rods (518), and a third adjusting belt passing wheel (522) and a belt wheel (522) which are arranged at the lower end of the belt installation support (521) A first adjusting block (523) and a second adjusting block (524) which are arranged on the third adjusting belt passing wheel (522), and a limiting block (525) which is arranged at one side of the first adjusting block (523) and the second adjusting block (524).

10. The automatic film wrapping and collecting all-in-one machine of claim 8, wherein: the belt pressing block mechanism (53) comprises a belt pressing block (531) which is arranged at the side of the belt limiting block device (52) and is matched with the belt clamping device (51) to clamp the adhesive tape, a belt pressing block seat (532) which is rotatably arranged on the rack (1) and is fixed with the upper end of the belt pressing block (531), and a first driving component (533) which is arranged on the rack (1) and drives the belt pressing block (531) to swing and paste the adhesive tape, the glue cutting mechanism (54) comprises a cutter block (541) arranged beside the tape pressing block (531), a cutter seat (542) arranged at the lower end of the cutter block (541), a cutter (543) arranged on the cutter seat (542), a cutter block seat (544) which is rotatably arranged on the frame (1) and fixed with the upper end of the cutter block (541), and a second driving assembly (545) which is arranged on the frame (1) and drives the cutter (543) to swing to cut off the adhesive tape.

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