CN114735509B

CN114735509B - Heat dissipation graphite alkene film processing of moving away to avoid possible earthquakes is with equipment of laminating shaping of being convenient for

Info

Publication number: CN114735509B
Application number: CN202210408370.3A
Authority: CN
Inventors: 王昆明; 李鲁中; 李英杰; 傅海燕
Original assignee: Qingdao Haoxin New Energy Technology Co ltd
Current assignee: Qingdao Haoxin New Energy Technology Co ltd
Priority date: 2022-04-19
Filing date: 2022-04-19
Publication date: 2022-09-20
Anticipated expiration: 2042-04-19
Also published as: CN114735509A

Abstract

The invention belongs to the field of electronic product heat dissipation films, and relates to equipment convenient for laminating and forming for processing a shock-absorbing heat dissipation graphene film, which comprises a processing frame and also comprises: the mounting plate is fixedly connected to one side of the processing frame. According to the invention, through the matching between the tension adjusting assembly and the upper assembly, the tension in the rolling process of two sheets of materials can be changed, the phenomenon of dislocation when the subsequent two sheets of materials are jointed due to over-loose tension is effectively avoided, in addition, the tension of the two sheets of materials can be well adjusted according to different conditions, the phenomenon that the sheet with smaller looseness is fractured due to different tension looseness in the rolling process of the two sheets of materials and the same degree of tension expansion is effectively avoided, in addition, the dust cleaning can be well carried out on the surfaces of the two sheets of materials through the dust removing assembly, the dust attached to the surfaces of the materials is effectively avoided, and the influence on the jointing degree of the subsequent two sheets of materials is caused.

Description

Heat dissipation graphite alkene film processing of moving away to avoid possible earthquakes is with equipment of laminating shaping of being convenient for

Technical Field

The invention relates to the field of electronic product heat dissipation films, in particular to equipment convenient for attaching and forming for processing a shock-absorbing heat dissipation graphene film.

Background

The equipment which is convenient for laminating and molding for processing the shock-absorbing heat-dissipation graphene film is used for processing the shock-absorbing heat-dissipation graphene film, the equipment for laminating, molding and processing the film is widely applied to the production and processing occasions of graphene, along with the continuous development of society, the demand of people on graphene materials with more excellent performance is gradually improved, graphene is one of the materials with the highest known strength, meanwhile, the graphene has good toughness, can be bent, has high heat conductivity coefficient, and has excellent electronic, optical and solubility properties, so that the demand of people on graphene is gradually increased, particularly the shock-absorbing and heat-dissipating graphene film, and the fashioned equipment of laminating of being convenient for is used in current heat dissipation graphene film processing of moving away to avoid possible earthquakes can't satisfy people's user demand, needs the more excellent heat dissipation graphene film processing of moving away to avoid possible earthquakes use of the fashioned equipment of laminating of being convenient for.

The chinese patent publication No. CN110328960A discloses that when a marking device for neurology surgery areas is used, by means of a roller pressing column, an adjusting box, an adjusting rod, a rotating handle, a pressing spring, a threaded connecting rod, and a threaded inner hole, when materials are subjected to fitting molding, the fitting molding force is adjusted by changing the downward pressure of the pressing spring, so that the fitting molding processing of shock-absorbing and heat-dissipating graphene films with different thicknesses is facilitated.

However, when the equipment is used for laminating and molding materials, the tension of the materials becomes more and more loose along with the rolling process, if timely adjustment is not carried out on the materials, the phenomenon that dislocation occurs to two materials in subsequent laminating and molding processes can be caused, and a large amount of dust is often attached to the surfaces of the two materials mutually laminated in addition, so that the subsequent laminating degree of the two materials is influenced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problem that the tension of the material becomes more and more loose along with the winding process when the material is attached and molded, if the tension is not adjusted in time, the dislocation of two pieces of material can be caused in the subsequent attaching and molding process.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a processing of heat dissipation graphite alkene film of moving away to avoid possible earthquakes is with fashioned equipment of laminating of being convenient for, includes the processing frame, still includes: the mounting plate is fixedly connected to one side of the processing frame; the tension adjusting assembly is fixedly connected to one side of the front face of the processing frame; the two dust removal components are fixedly connected to the top and the bottom of one side of the front surface of the mounting plate respectively; the gluing component is fixedly connected to the back of the inner wall of the processing frame; the extrusion laminating assembly penetrates through the bottom of one side of the processing frame; the discharging mechanism is fixedly connected to one side of the front surface of the mounting plate; and the winding mechanism is fixedly connected with the front side of one side of the extrusion laminating assembly.

Preferably, the tension adjusting assembly comprises an adjusting frame, the adjusting frame is fixedly connected to one side of the mounting plate in the front direction, the top and the bottom of the adjusting frame are fixedly connected with a material limiting wheel, one side of the adjusting frame is fixedly connected with an asynchronous motor, an output shaft of the asynchronous motor is fixedly connected with a double-thread screw rod, one end of the double-thread screw rod penetrates through the adjusting frame and extends into the adjusting frame, one end of the double-thread screw rod is rotatably connected with one side of the inner wall of the adjusting frame, two sides of the surface of the double-thread screw rod are rotatably connected with thread plates in a threaded manner, the back surfaces of the two thread plates are slidably connected with the back surface of the adjusting frame, the front surfaces of the two thread plates are slidably connected with the front surface of the inner wall of the adjusting frame, a lifting assembly is fixedly connected between the top and the bottom of the two thread plates, and the asynchronous motor needs an external power supply, the outside is provided with a control switch.

Preferably, the lifting component comprises two rotating plates and a lifting plate, the two rotating plates are respectively rotatably connected to the tops of the two threaded plates, the tops of the two rotating plates are rotatably connected with the bottom of the lifting plate, the front sides of the two sides of the top of the lifting plate are rotatably connected with a first buffer frame, the rear sides of the two sides of the top of the lifting plate are rotatably connected with a second buffer frame, the bottoms of the inner walls of the first buffer frame and the second buffer frame are fixedly connected with a first telescopic rod, the top ends of the two first telescopic rods are fixedly connected with supporting blocks, a material pushing wheel is arranged between the tops of the two supporting blocks, the surfaces of the two first telescopic rods are sleeved with buffer springs, a connecting plate is fixedly connected between the first buffer frame and one side of the second buffer frame, one side of the connecting plate is rotatably connected with a second telescopic rod, and the bottom end of the second telescopic rod is rotatably connected with the top of the lifting plate, and a return spring is sleeved on the surface of the second telescopic rod.

Preferably, the dust removal subassembly includes the fixed block, fixed block fixed connection in the top of the positive one side of mounting panel, spacing spring under the top fixedly connected with of fixed block, the box is cleaned to the top fixedly connected with of spacing spring down, the inside of cleaning the box is provided with cleans the sponge, the both sides of cleaning the box all are provided with the dust collection box, clean the equal fixedly connected with pull rod in both sides of bottom of the box, two the bottom of pull rod all runs through the fixed block and extends to the outside of fixed block, two fixedly connected with presses the briquetting between the bottom of pull rod, and the quantity of spacing spring is a plurality of.

Preferably, the rubberizing subassembly includes the glue storage cylinder, the glue storage cylinder through installation piece fixed connection in the back of processing frame inner wall, the front side intercommunication of glue storage cylinder bottom has the glue outlet pipe, the bottom intercommunication of glue outlet pipe has total pipe, the bottom intercommunication of total pipe has the pipe of smearing, support fixedly connected with servo motor is passed through at the top of glue storage cylinder, servo motor's output shaft fixedly connected with (mixing) shaft, servo motor need external power supply, and the outside is provided with control switch.

Preferably, the inside of glue storage cylinder is run through to the bottom of (mixing) shaft, the (mixing) shaft is located the inside positive top of glue storage cylinder and the equal fixedly connected with bar shaped plate in bottom, two fixedly connected with scrapes the magazine between the relative one side of bar shaped plate, scrape one side fixedly connected with biasing spring of magazine inner wall, the flitch is scraped to biasing spring's one end fixedly connected with, it is inconsistent with the inner wall of glue storage cylinder to scrape the flitch, the fixed surface of (mixing) shaft is connected with stirring vane, and stirring vane's quantity is a plurality of.

Preferably, the extrusion laminating subassembly includes the pressure frame, the pressure frame run through in the bottom of processing frame one side, the bottom fixedly connected with extrusion platform of pressure frame inner wall, the top of pressure frame is run through there is the installation section of thick bamboo.

Preferably, the top fixedly connected with telescopic cylinder of installation section of thick bamboo inner wall, telescopic cylinder's bottom fixedly connected with mounting disc, the cylinder is pressed to the bottom fixedly connected with of mounting disc, the positive one side fixedly connected with laminating cylinder of pressure frame inner wall, the telescopic cylinder outside is provided with control switch.

The invention provides equipment convenient for laminating and forming for processing a shock-absorbing heat-dissipating graphene film,

in some embodiments, the tension of the graphene film processing material becomes more and more loose along with the winding process, and if the tension is not adjusted in time, the phenomenon that the two sheets of materials are dislocated in the subsequent laminating and forming process can be caused.

The invention has the beneficial effects that:

according to the equipment for processing the shock-absorbing heat-dissipation graphene film and facilitating laminating forming, the tension in the rolling process of two sheets of materials can be changed through the matching of the tension adjusting assembly and the upper assembly, the phenomenon that the subsequent two sheets of materials are staggered due to over-loose tension is effectively avoided, in addition, the tension of the two sheets of materials can be well adjusted according to different conditions, and the phenomenon that the sheet with smaller looseness is broken due to different tension looseness in the rolling process of the two sheets of materials and the tension expansion in the same degree is effectively avoided.

According to the equipment convenient for laminating and forming for processing the shock-absorbing heat-dissipation graphene film, the phenomenon that glue is solidified when the glue is in a standing state all the time in the gluing process can be effectively avoided through the matching of the parts inside the gluing component, and the solidified glue on the inner wall of the glue storage cylinder can be effectively cleaned through the matching of the scraping plate, the pressing spring and the scraping box.

According to the equipment convenient for laminating and forming for processing the shock-absorbing heat-dissipation graphene film, the surfaces of the two materials can be well cleaned through the dust removal assembly, so that the dust attached to the surfaces of the materials is effectively avoided, the subsequent laminating degree of the two materials can be influenced, and the wiping sponge in the structure is convenient to replace, so that the operation time is effectively saved, and the dust removal effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural diagram of a preferred embodiment of an apparatus for processing a shock-absorbing and heat-dissipating graphene film to facilitate attachment molding according to the present invention,

figure 2 is a schematic view of the external structure of the tension adjusting assembly shown in figure 1,

figure 3 is a schematic view of the internal structure of the tension adjusting assembly shown in figure 2,

figure 4 is a schematic view of the lifter plate of figure 3,

figure 5 is a front view of the lift assembly of figure 4,

figure 6 is a side view of the lift assembly of figure 4,

figure 7 is a schematic view of the external structure of the glue module shown in figure 1,

figure 8 is a schematic view of the internal structure of the glue module of figure 7,

FIG. 9 is a schematic view showing the structure of the stirring shaft shown in FIG. 8,

figure 10 is a schematic view showing the internal structure of the scraper plate shown in figure 9,

figure 11 is a schematic view of the external configuration of the pinch-fit assembly of figure 1,

FIG. 12 is a schematic view of the internal structure of the pinch-fit assembly of FIG. 7;

reference numerals: 1. processing the frame; 2. mounting a plate; 3. a tension adjustment assembly; 301. an adjusting frame; 302. a material limiting wheel; 303. an asynchronous motor; 304. a double-threaded screw; 305. a thread plate; 4. a dust removal assembly; 401. a fixed block; 402. a lower limiting spring; 403. wiping the box; 404. wiping sponge; 405. a dust collecting box; 406. a pull rod; 407. pressing the block; 5. a gluing component; 501. a glue storage cylinder; 502. discharging the rubber tube; 503. a main conduit; 504. coating a pipe; 505. a servo motor; 506. a stirring shaft; 507. a strip plate; 508. scraping the material box; 509. a pressure applying spring; 510. a scraping plate; 511. a stirring blade; 6. extruding the fitting assembly; 601. a pressurizing frame; 602. an extrusion table; 603. mounting the cylinder; 604. a telescopic cylinder; 605. mounting a disc; 606. pressing the roller; 607. laminating the roller; 7. a discharging mechanism; 8. a winding mechanism; 9. a lifting assembly; 901. a rotating plate; 902. a lifting plate; 903. a first buffer frame; 904. a second buffer frame; 905. a first telescopic rod; 906. a support block; 907. a material ejection wheel; 908. a buffer spring; 909. a connecting plate; 910. a second telescopic rod; 911. a return spring.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

In this embodiment, as shown in fig. 1 to 12, a device for processing a shock-absorbing heat-dissipating graphene film, which is convenient for laminating and molding, includes a processing frame 1, and further includes: the mounting plate 2 is fixedly connected to one side of the processing frame 1; the tension adjusting component 3 is fixedly connected to one side of the front surface of the processing frame 1; the two dust removing components 4 are respectively and fixedly connected to the top and the bottom of one side of the front surface of the mounting plate 2; the gluing component 5 is fixedly connected to the back surface of the inner wall of the processing frame 1; the extrusion laminating assembly 6 is arranged, and the extrusion laminating assembly 6 penetrates through the bottom of one side of the processing frame 1; the discharging mechanism 7 is fixedly connected to one side of the front surface of the mounting plate 2; winding mechanism 8, winding mechanism 8 fixed connection is in the front side of extrusion laminating subassembly 6 one side, and drop feed mechanism 7 is used for placing two rolls of not laminating fashioned graphite alkene materials, through pulling out two pieces of materials, passes dust removal component 4, tension adjusting part 3, processing frame 1 and rubberizing subassembly 5 in proper order, and two last materials assemble extrusion laminating subassembly 6 inside, pass extrusion laminating subassembly 6 and winding mechanism 8 fixed, and two pieces of materials move left in the rolling process.

The tension adjusting component 3 comprises an adjusting frame 301, the adjusting frame 301 is fixedly connected to one side of the front surface of the mounting plate 2, the top and the bottom of the adjusting frame 301 are fixedly connected with a material limiting wheel 302, one side of the adjusting frame 301 is fixedly connected with an asynchronous motor 303, an output shaft of the asynchronous motor 303 is fixedly connected with a double-thread screw 304, one end of the double-thread screw 304 penetrates through the adjusting frame 301 and extends into the adjusting frame 301, one end of the double-thread screw 304 is rotatably connected with one side of the inner wall of the adjusting frame 301, two sides of the surface of the double-thread screw 304 are rotatably and threadedly connected with thread plates 305, the back surfaces of the two thread plates 305 are slidably connected with the back surface of the adjusting frame 301, the front surfaces of the two thread plates 305 are slidably connected with the front surface of the inner wall of the adjusting frame 301, a lifting component 9 is fixedly connected between the top and the bottom of the two thread plates 305, and the double-thread screw 304 is driven to rotate by controlling the asynchronous motor to rotate positively rotate, thereby driving the two thread plates 305 to slide in opposite directions along the inner wall of the adjusting frame 301, and further driving the rotating plate 901 to rotate along the connection point with the thread plates 305.

The lifting component 9 comprises two rotating plates 901 and a lifting plate 902, the two rotating plates 901 are respectively rotatably connected to the tops of two threaded plates 305, the tops of the two rotating plates 901 are respectively rotatably connected with the bottom of the lifting plate 902, the front sides of the two sides of the top of the lifting plate 902 are respectively rotatably connected with a first buffer frame 903, the rear sides of the two sides of the top of the lifting plate 902 are respectively rotatably connected with a second buffer frame 904, the bottoms of the inner walls of the first buffer frame 903 and the second buffer frame 904 are respectively fixedly connected with a first telescopic rod 905, the top ends of the two first telescopic rods 905 are respectively fixedly connected with a supporting block 906, a material ejection wheel 907 is arranged between the tops of the two supporting blocks 906, buffer springs 908 are respectively sleeved on the surfaces of the two first telescopic rods 905, a connecting plate 909 is fixedly connected between the first buffer frame 903 and one side of the second buffer frame 904, one side of the connecting plate 909 is rotatably connected with a second telescopic rod 910, the bottom end of the second telescopic rod 910 is rotatably connected with the top of the lifting plate 902, the surface cover of second telescopic link 910 is equipped with return spring 911, thereby rotor plate 901 rotates and two lifter plates 902 rise upwards, another downstream, thereby make two material wheels 907 extrude two materials respectively, again through the cooperation with two material wheels 302 of restricting, thereby the rolling route of two materials has been prolonged, first buffering frame 903 and second buffering frame 904 can rotate along lifter plate 902's tie point after the extrusion force is too big, thereby drive connecting plate 909 and compress second telescopic link 910 and return spring 911, thereby make two material wheels 907 slide towards both sides.

The dust removal component 4 comprises a fixed block 401, the fixed block 401 is fixedly connected to the top of one side of the front surface of the mounting plate 2, the top of the fixed block 401 is fixedly connected with a lower limiting spring 402, the top end of the lower limiting spring 402 is fixedly connected with a wiping box 403, a wiping sponge 404 is arranged inside the wiping box 403, dust collection boxes 405 are arranged on two sides of the wiping box 403, pull rods 406 are fixedly connected to two sides of the bottom of the wiping box 403, the bottom ends of the two pull rods 406 penetrate through the fixed block 401 and extend to the outside of the fixed block 401, a pressing block 407 is fixedly connected between the bottoms of the two pull rods 406, two sheets of materials move leftwards in the winding process, so that the bottom of the graphite material above the dust removal component 4 is wiped, dust can fall into the dust collection boxes 405 to be collected in the wiping process, and the dust removal component 4 below can be used for carrying out dust removal treatment by being attached to the top surface of the graphene material below, when the wiping sponge 404 needs to be replaced, the pressing block 407 is pulled to drive the pull rod 406 to move downwards, so as to drive the wiping box 403 to move downwards.

Gluing subassembly 5 includes glue storage cylinder 501, glue storage cylinder 501 passes through the back of installation piece fixed connection in processing frame 1 inner wall, the front side intercommunication of glue storage cylinder 501 bottom has glue outlet pipe 502, the bottom intercommunication of glue outlet pipe 502 has total pipe 503, the bottom intercommunication of total pipe 503 has smearing pipe 504, support fixedly connected with servo motor 505 is passed through at glue storage cylinder 501's top, servo motor 505's output shaft fixedly connected with (mixing) shaft 506, through opening the valve on glue outlet pipe 502 surface, thereby make glue in the glue holding vessel enter into total pipe 503 through glue outlet pipe 502, the rethread is smeared pipe 504 and is smeared glue to the material surface of below, through starting servo motor 505, servo motor 505 drives (mixing) shaft 506 and rotates, thereby drive stirring vane 511 and rotate, thereby stir the glue in the glue holding vessel.

The inside of glue storage cylinder 501 is run through to the bottom of (mixing) shaft 506, the (mixing) shaft 506 is located the inside positive top of glue storage cylinder 501 and the equal fixedly connected with strip shaped plate 507 in bottom, fixedly connected with scrapes magazine 508 between the relative one side of two strip shaped plate 507, scrape one side fixedly connected with biasing spring 509 of magazine 508 inner wall, the one end fixedly connected with of biasing spring 509 scrapes flitch 510, it is inconsistent with glue storage cylinder 501's inner wall to scrape flitch 510, the fixed surface of (mixing) shaft 506 is connected with stirring vane 511, it also can strike off the glue on the glue storage tank inner wall to scrape flitch 510 at the rotation in-process.

Extrusion laminating subassembly 6 includes pressurization frame 601, and pressurization frame 601 runs through in the bottom of processing frame 1 one side, and the bottom fixedly connected with extrusion platform 602 of pressurization frame 601 inner wall, and the installation section of thick bamboo 603 has been run through at the top of pressurization frame 601, through the extension of control telescopic cylinder 604 to drive mounting disc 605 and descend, thereby drive and press cylinder 606 and descend, and the graphite alkene film after the laminating finishes carries out the rolling through winding mechanism 8 at last and handles.

The top of the inner wall of the mounting cylinder 603 is fixedly connected with a telescopic cylinder 604, the bottom of the telescopic cylinder 604 is fixedly connected with a mounting disc 605, the bottom of the mounting disc 605 is fixedly connected with a pressing roller 606, and one side of the front surface of the inner wall of the pressurizing frame 601 is fixedly connected with a laminating roller 607.

The working principle is as follows: the discharging mechanism 7 is used for placing two rolls of graphene materials which are not laminated and formed, the two rolls of graphene materials sequentially pass through the dust removal component 4, the tension adjustment component 3, the processing frame 1 and the gluing component 5 by pulling out the two sheets of materials, the last two sheets of materials are gathered inside the extrusion lamination component 6 and fixed with the winding mechanism 8 by passing through the extrusion lamination component 6, the two sheets of materials move leftwards in the winding process, so that the bottom of the graphite material above the dust removal component 4 is cleaned, dust falls into the dust collection box 405 to be collected in the cleaning process, the dust removal component 4 below can be fixed on the top surface of the graphene material below to be subjected to dust removal treatment, when the cleaning sponge 404 needs to be replaced, only the pressing block 407 needs to be pulled, so that the pull rod 406 is driven to move downwards, so that the cleaning box 403 is driven to move downwards, the asynchronous motor 303 is controlled, so that the double-thread screw 304 is driven to rotate in forward rotation, thereby driving the two thread plates 305 to slide in opposite directions along the inner wall of the adjusting frame 301, thereby driving the rotating plate 901 to rotate along the connection point with the thread plates 305, thereby one of the two lifting plates 902 rises upwards, the other moves downwards, thereby the two material ejecting wheels 907 extrudes the two materials respectively, and then the two material ejecting wheels 302 are matched, thereby the rolling paths of the two materials are prolonged, when the extrusion force is too large, the first buffer frame 903 and the second buffer frame 904 rotate along the connection point of the lifting plate 902, thereby driving the connecting plate 909 to compress the second telescopic rod 910 and the return spring 911, thereby the two material ejecting wheels 907 slide towards two sides, by opening the valve on the surface of the rubber outlet pipe 502, thereby the glue in the glue storage tank enters the main conduit 503 through the rubber outlet pipe 502, and then the glue is smeared on the material surface below through the smearing pipe 504, through starting servo motor 505, servo motor 505 drives (mixing) shaft 506 and rotates, thereby it rotates to drive stirring vane 511, thereby glue to in the glue holding vessel stirs, scrape flitch 510 in the rotation process in addition and also can strike off glue on the glue holding vessel inner wall, two materials that scribble glue at last carry out preliminary laminating of pressing through laminating cylinder 607, press cylinder 606 at the rethread and go on further pressing the laminating and handle two materials, and extend through control telescopic cylinder 604, thereby drive mounting disc 605 and descend, thereby it descends to drive pressing cylinder 606, graphite alkene film after the laminating finishes carries out the rolling through winding mechanism 8 at last and handles.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a processing of heat dissipation graphite alkene film of moving away to avoid possible earthquakes is with fashioned equipment of laminating of being convenient for, includes processing frame (1), its characterized in that still includes: the mounting plate (2), the mounting plate (2) is fixedly connected to one side of the processing frame (1); the tension adjusting component (3), the tension adjusting component (3) is fixedly connected to one side of the front face of the processing frame (1); the two dust removal assemblies (4) are respectively and fixedly connected to the top and the bottom of one side of the front surface of the mounting plate (2); the gluing component (5) is fixedly connected to the back of the inner wall of the processing frame (1); the extrusion laminating assembly (6), the extrusion laminating assembly (6) penetrates through the bottom of one side of the processing frame (1); the discharging mechanism (7), the discharging mechanism (7) is fixedly connected to one side of the front face of the mounting plate (2); winding mechanism (8), winding mechanism (8) fixed connection in the front side of extrusion laminating subassembly (6) one side, tension adjusting part (3) is including adjusting frame (301), adjust frame (301) fixed connection in mounting panel (2) positive one side, the top and the equal fixed connection in bottom of adjusting frame (301) have material wheel (302) limitedly, one side fixedly connected with asynchronous machine (303) of adjusting frame (301), the output shaft fixedly connected with double thread screw rod (304) of asynchronous machine (303), the inside that adjusts frame (301) and extend to adjusting frame (301) is run through to the one end of double thread screw rod (304), the one end of double thread screw rod (304) is rotated with one side of adjusting frame (301) inner wall and is connected, threaded connection has thread board (305) all to rotate on the both sides on double thread screw rod (304) surface, the back surfaces of the two threaded plates (305) are in sliding connection with the back surface of the adjusting frame (301), the front surfaces of the two threaded plates (305) are in sliding connection with the front surface of the inner wall of the adjusting frame (301), a lifting assembly (9) is fixedly connected between the top parts and the bottom parts of the two threaded plates (305), the lifting assembly (9) comprises two rotating plates (901) and a lifting plate (902), the two rotating plates (901) are respectively and rotatably connected to the top parts of the two threaded plates (305), the top parts of the two rotating plates (901) are respectively and rotatably connected with the bottom parts of the lifting plate (902), the front sides of the two sides of the top part of the lifting plate (902) are respectively and rotatably connected with a first buffering frame (903), the rear sides of the two sides of the top part of the lifting plate (902) are respectively and rotatably connected with a second buffering frame (904), and the bottom parts of the inner walls of the first buffering frame (903) and the second buffering frame (904) are respectively and fixedly connected with a first telescopic rod (905), two equal fixedly connected with supporting shoe (906) in top of first telescopic link (905), two be provided with between the top of supporting shoe (906) material ejection wheel (907), two the surface of first telescopic link (905) all overlaps and is equipped with buffer spring (908), fixedly connected with connecting plate (909) between one side of first buffering frame (903) and second buffering frame (904), one side of connecting plate (909) is rotated and is connected with second telescopic link (910), the bottom of second telescopic link (910) is rotated with the top of lifter plate (902) and is connected, the surface cover of second telescopic link (910) is equipped with back force spring (911).

2. The shock-absorbing heat-dissipating graphene film processing equipment convenient to attach and mold as claimed in claim 1, wherein: dust removal subassembly (4) include fixed block (401), fixed block (401) fixed connection in the top of the positive one side of mounting panel (2), spacing spring (402) under the top fixedly connected with of fixed block (401), box (403) is cleaned to the top fixedly connected with of spacing spring (402) down, the inside of cleaning box (403) is provided with cleans sponge (404), the both sides of cleaning box (403) all are provided with dust collection box (405), clean the equal fixedly connected with pull rod (406) in both sides of box (403) bottom, two the bottom of pull rod (406) all runs through fixed block (401) and extends to the outside of fixed block (401), two fixedly connected with presses piece (407) between the bottom of pull rod (406).

3. The shock-absorbing heat-dissipating graphene film processing equipment convenient for laminating molding according to claim 1, characterized in that: rubberizing subassembly (5) include glue storage cylinder (501), glue storage cylinder (501) through installation piece fixed connection in the back of processing frame (1) inner wall, the front side intercommunication of glue storage cylinder (501) bottom has glue outlet pipe (502), the bottom intercommunication of glue outlet pipe (502) has total pipe (503), the bottom intercommunication of total pipe (503) has scribbles pipe (504), support fixedly connected with servo motor (505) is passed through at the top of glue storage cylinder (501), the output shaft fixedly connected with (mixing) shaft (506) of servo motor (505).

4. The shock-absorbing heat-dissipating graphene film processing equipment convenient to attach and mold as claimed in claim 3, wherein: the inside of glue storage cylinder (501) is run through to the bottom of (mixing) shaft (506), mixing shaft (506) are located inside positive top and the equal fixedly connected with bar shaped plate in bottom (507) of glue storage cylinder (501), two fixedly connected with scrapes magazine (508) between one side that bar shaped plate (507) is relative, scrape one side fixedly connected with pressure spring (509) of magazine (508) inner wall, flitch (510) are scraped to the one end fixedly connected with of pressure spring (509), it is inconsistent with the inner wall of glue storage cylinder (501) to scrape flitch (510), the fixed surface of mixing shaft (506) is connected with stirring vane (511).

5. The shock-absorbing heat-dissipating graphene film processing equipment convenient to attach and mold as claimed in claim 1, wherein: extrusion laminating subassembly (6) are including pressurization frame (601), pressurization frame (601) run through in the bottom of processing frame (1) one side, the bottom fixedly connected with extrusion platform (602) of pressurization frame (601) inner wall, the installation cylinder (603) has been run through at the top of pressurization frame (601).

6. The shock-absorbing heat-dissipating graphene film processing equipment convenient to attach and mold as claimed in claim 5, wherein: the top fixedly connected with telescopic cylinder (604) of installation section of thick bamboo (603) inner wall, the bottom fixedly connected with mounting disc (605) of telescopic cylinder (604), the bottom fixedly connected with of mounting disc (605) presses cylinder (606), positive one side fixedly connected with laminating cylinder (607) of pressure frame (601) inner wall.