CN111823685A - Hot melting bonder for graphene floor heating material - Google Patents

Abstract

The invention discloses a hot-melt bonding machine for graphene floor heating materials, which comprises a rack, a film unwinding device, a copper strip unwinding device, a graphene material unwinding device, a winding device, a hot-pressing device, a cooling device and a cutting device, wherein the film unwinding device and the copper strip unwinding device are arranged on the rack, the graphene material unwinding device is arranged on one side of the rack and is connected with the rack through a material guiding frame, the winding device is arranged on the other side of the rack, materials discharged by the film unwinding device, the copper strip unwinding device and the graphene material unwinding device are led to the hot-pressing device through a material guiding shaft, the three materials are bonded into a whole and then pass through a weighing sensor after being led to the cooling device through the material guiding shaft, and the materials enter the winding device after being cut by the longitudinal cutting device.

Description

Hot melting bonder for graphene floor heating material

Technical Field

The invention belongs to the technical field of compound machines, and particularly relates to a graphene floor heating material hot melting bonding machine.

Background

Along with the pursuit of people for higher and higher living quality, people hope to better live, especially, indoor heating in winter, air conditioners are installed in residents of cities in the north of Yangtze river, hot tide for installing floor heating is also promoted, in the past, a hot water pipeline is installed below a floor, water is heated by using water storage tank electricity or natural gas, heating is carried out through pipeline hot water circulation, the method is high in cost, installation requirements are high, pipeline sealing requirements are high, certain hidden danger exists in the aspect of safety, energy consumption is large, therefore, through continuous research and innovation of people, a graphene heating film is developed, direct electricity is conducted on a wood floor, heat is transferred through graphene, the material is convenient to install, energy is not reused, a large amount of water resources are saved, and a special device is required to be researched and developed.

Disclosure of Invention

In order to solve the problems, the invention discloses a graphene floor heating material hot melting bonder which is formed in one step, good in compositing quality, convenient to use and high in automation degree.

In order to achieve the purpose, the technical scheme of the invention is as follows:

graphite alkene ground heating material hot melt bonder, including frame, membrane unwinding device, copper strips unwinding device, graphite alkene material unwinding device, coiling mechanism, hot press unit, cooling device, cutting device, membrane unwinding device and copper strips unwinding device set up in the frame, and graphite alkene material unwinding device sets up in frame one side, through drawing the material frame connection frame, and the coiling mechanism sets up at the frame opposite side, the material that membrane unwinding device, copper strips unwinding device, graphite alkene material unwinding device emit is through drawing material axle to hot press unit, and the three-layer material bonds and passes through the weighing sensor again behind the cooling device through drawing the material axle after as an organic whole, gets into coiling mechanism after vertical cutting device cuts.

As an improvement of the invention, a base is arranged below the graphene material placing device, a first machine leg is arranged on the front side and the rear side of the base, a movable rack is arranged on the base and connected with the upper part through a sliding guide rail, a deviation rectifying executing mechanism is arranged below the movable rack, a first vertical left wall plate and a first vertical right wall plate are arranged on the two sides of the movable rack, a first air expansion shaft is arranged above the first left wall plate and the first right wall plate, a graphene raw material roll is arranged on the first air expansion shaft, the left side of the first air expansion shaft is meshed with a brake gear, the brake gear is connected with a first magnetic powder brake, and the first air expansion shaft is arranged on the outer side; the upper portion of the outer side plane of the first right wall plate is provided with a first transverse trimmer, the right side of the first transverse trimmer is provided with a hand wheel, the hand wheel is installed on a transversely trimmed screw rod, a square nut is installed on the screw rod, a deflector rod is installed on the upper plane of the square nut, a bearing is installed at the upper top of the deflector rod and matched with a first deflector ring, the first deflector ring is connected with the right side of a first inflatable shaft through a first fixing ring, the first fixing ring is provided with a stop bolt, a second weighing sensor is fixed on the inner sides of a left wall plate and a right wall plate of a movable rack through a support, and a tension sensing shaft is installed on the upper.

As an improvement of the invention, the hot-pressing device comprises a first integral frame formed by connecting and fixing a left wallboard II and a right wallboard II with a supporting block, a motor I is fixed at the inner side of the right wallboard II, a rectangular notch is formed on the right wallboard II, a guide bearing seat with a guide groove is installed, a connector is installed on the right end face of the guide bearing seat and is connected with the lower part of a swinging plate through a pin shaft, the swinging plate is divided into two parts and is respectively installed on platforms at the inner sides of the left wallboard II and the right wallboard II, the upper end of the swinging plate is connected with the connector on a cylinder through the pin shaft, a bracket for the cylinder is fixed on the right wallboard II, the lower end of the swinging plate is connected with the guide bearing seat installed on a heating rubber roll through the pin shaft, the guide grooves are processed on the upper plane and the lower plane of the guide bearing seat, the width of the guide grooves is the same as the thickness of the left wallboard II and the right, the two shaft ends of the heat-conducting oil mirror roller are provided with rolling bearings, flange plates are arranged on the left wall plate II and the right wall plate II, electric heating tubes are arranged in the two shaft mandrels of the heat-conducting oil mirror roller and the heating rubber roller, one shaft end is provided with a carbon brush collecting ring integrated system, the other shaft end of the heat-conducting oil mirror roller is provided with a chain wheel which is connected with a chain wheel on the motor I through a chain, and a frequency converter is connected in the left wall plate II and the right wall plate.

As an improvement of the invention, the hot-pressing device is communicated with the film unwinding device, the copper strip unwinding device, the graphene material unwinding device and the cooling device through a feeding shaft, and a weighing sensor is arranged between the hot-pressing device and the cooling device.

As an improvement of the invention, the winding device comprises a left wall plate III, a right wall plate III and an integral frame II formed by fixing square tubes, a machine foot II is arranged below the left wall plate III and the right wall plate III, a motor II is arranged below the frame II, the motor II is connected with a cycloidal pin gear reducer, a magnetic powder clutch is arranged above the cycloidal pin gear reducer, the cycloidal pin gear reducer is connected with the magnetic powder clutch through a chain, an air expansion shaft II is arranged above the left wall plate III and the right wall plate III, a gear is arranged at the left shaft outlet end of the magnetic powder clutch, an idler wheel is arranged at the upper part of the right wall plate III, the lower part of the idler wheel is meshed with the gear of the magnetic powder clutch, the upper part of the idler wheel is meshed with a long gear on the air expansion shaft II, fixing rings II are arranged at two ends of the air expansion shaft II, grooves on the fixing rings are embedded on the wall plate III with the same, the periphery of the rolling bearing is matched with an inner hole of the second fixed ring, the inner ring hole is in sliding fit with a shaft head of the second inflatable shaft, a second stirring ring is arranged on the left side of the second inflatable shaft outside the second fixed ring, and a groove in the middle of the second stirring ring is matched with an outer ring of the rolling bearing at the top of a stirring rod of the second transverse fine adjuster.

As an improvement of the invention, the copper strip unwinding device comprises an Jiong-shaped press plate and a left wall plate and a right wall plate which are connected in four ways to form an integral frame, 2 linear guide rails are arranged on the upper plane of the Jiong-shaped connecting plate, a sliding unit is arranged on the linear guide rails and fixed on the lower plane of the movable base, a locking bolt is arranged on the outer side of the movable base, four sets of copper strip fixing disks are separately arranged on the upper plane of the movable base, a tension controller is arranged at the front end of the movable base, the tension controller controls and adjusts the magnetic powder brake II, the supporting shaft of the adjusting mechanism is fixed above the left wall plate and the right wall plate, a supporting plate is arranged on a supporting shaft of the adjusting mechanism, a screw rod is arranged on the supporting plate in a horizontal position, the left end of the screw rod is provided with a copper strip guide wheel, the right side of the screw rod is provided with a locking nut, the right side of the locking nut is provided with an adjusting hand wheel, a sliding guide sleeve is arranged on an adjusting shaft, and the adjusting shaft is fixed on a left wallboard and a right wallboard by a support.

As an improvement of the invention, the cooling device comprises a third integral frame formed by fastening a left wall plate and a right wall plate by square pipe supporting bars, a bracket for a cycloidal pin wheel matching motor is fixedly arranged below the inner side of the right wall plate, an upper cooling roller and a lower cooling roller are arranged above the cycloidal pin wheel motor in a staggered way and are not arranged on the same vertical central line, one end of each cooling roller is provided with a rotary joint, the right side of the lower cooling roller is provided with an expansion wheel, the left side of the lower cooling roller is provided with a sensing shaft, the sensing shaft is arranged on a weighing sensor, and the weighing sensor is fixed on the left wall plate and the right wall plate by the bracket.

As an improvement of the invention, the cutting device comprises an art designing blade, a cutter frame shaft, a cutter shaft and a counter, wherein the art designing blade is arranged on the cutter frame, the cutter frame is fixedly arranged on the cutter frame shaft, the two cutter frame shaft and the two cutter shaft are provided with rolling bearings and are fixed on a plane vertical to the inner sides of the left wall plate five and the right wall plate five through flange plates, the counter is fixed on the inner side of the left wall plate five through a support, and a roller on the counter is in contact with an outer ring of the cutter shaft.

The invention has the beneficial effects that:

the graphene floor heating material hot-melt adhesive machine disclosed by the invention is formed in one step, good in composite quality, convenient to use and high in automation degree.

Drawings

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

Fig. 2 is a schematic view of a graphene material unwinding device according to the present invention.

FIG. 3 is a schematic view of a hot press apparatus according to the present invention.

Fig. 4 is a schematic view of a winding device according to the present invention.

Fig. 5 is a schematic view of a copper strip unwinding device according to the present invention.

Fig. 6 is a schematic view of a cooling device and a cutting device according to the present invention.

List of reference numerals:

1. a frame, 2, a film unreeling device, 3, a copper strip unreeling device, 4, a graphene material unreeling device, 5, a reeling device, 6, a hot pressing device, 7, a cooling device, 8, a cutting device, 9, a material guiding frame, 10, a material guiding shaft, 11 and a weighing sensor,

20. the device comprises a machine foot I, a base, a machine foot I, a movable machine frame I, a sliding guide rail I, a machine foot II,

40. the device comprises a left wall plate II, a right wall plate II, 41, motors I and 42, a heating rubber roll 43, a guide bearing seat 44, a swing plate 45, a connector 46, a cylinder 47, a supporting block 48, a heat-conducting oil mirror surface roll 49, a cloth guiding shaft 51, a film 52 and a copper strip;

55. a left wall plate III, a right wall plate III, a 56, a square tube 57, a right wall plate III, a 58, a chain, a 59, a chain wheel 60, a magnetic powder clutch 61, an idler wheel 62, a long gear 63, a stop bolt 64, a fixed ring II, a fixed ring 65, an air expansion shaft II, an air expansion shaft 66, a transverse fine adjuster II, a transverse fine adjuster 67, a toggle ring II, a toggle ring 68, a motor II, a motor 69 and a cycloidal pin gear reducer,

70. a movable base 71, a tension controller 72, a locking bolt 73, a linear guide rail 74, a left wall plate IV, a right wall plate IV, a regulating mechanism supporting shaft 75, a regulating handwheel 76, a regulating handwheel 77, a supporting plate 78, a locking nut 79, a copper strip guide wheel 80, a sliding guide sleeve 81, a copper strip fixing plate 82, a magnetic powder brake II, a magnetic powder brake 83, a Hall photoelectric switch 84 and a regulating shaft,

85. the cycloidal pin wheel matched motor 86, a tension chain wheel 87, a cooling roller 88, a sensing shaft 89, an adjusting hand wheel 90, a cutter frame shaft 91, a cutter blade 92, a cutter frame 93, a cutter shaft 96, a square tube supporting block 97, a left wall plate five, a right wall plate five, a counter 98, a counter 99 and a finished product.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the invention and not as limiting the scope of the invention. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1, the hot melt bonding machine for graphene floor heating materials comprises a frame 1, a film unwinding device 2, a copper strip unwinding device 3, a graphene material unwinding device 4, a winding device 5, a hot pressing device 6, a cooling device 7 and a cutting device 8, wherein the film unwinding device 2 and the copper strip unwinding device 3 are arranged on the frame 1, the graphene material unwinding device 4 is arranged on one side of the frame 1 and connected with the frame through a material guiding frame 9, the winding device is arranged on the other side of the frame, materials discharged from the film unwinding device 2, the copper strip unwinding device 3 and the graphene material unwinding device 4 pass through a material guiding shaft 10 to the hot pressing device 6, the three materials are bonded into a whole and then pass through a material guiding shaft 10 to the cooling device 7 and then a weighing sensor 11, and the three materials are cut by the longitudinal cutting device 8 and then enter the winding device 5.

The method specifically comprises the steps of enabling an air expansion shaft to penetrate through a central paper tube of a graphene material, inflating and expanding tightly, placing the air expansion shaft in bearing sockets on left and right wallboards of a graphene material unwinding device 4, using a plum handle bolt to fasten the air expansion shaft, manually pulling the material out of a material guiding shaft, enabling a weighing sensor 11 to wait at a position of a hot pressing device 9 through the material guiding shaft to reach membrane tensioning rollers and 5 material guiding shafts 10, enabling a copper strip on the copper strip unwinding device 3 and a membrane on the membrane unwinding device 2 to sequentially pass through a membrane 51 of the material guiding shaft weighing sensor 5, bypass an outer ring of a heating rubber roller in the hot pressing device 9, combine the copper strip 52 and the graphene material 30 into a three-in-one body, carrying out hot pressing on the three layers after the three layers are mutually bonded into a whole body, then passing through the material guiding shaft to a cooling device 7, weighing the material sensor 11, enabling the three layers to reach a longitudinal cutting device 8.

In fig. 2, the graphene material unwinding device 4 includes four legs one 20 respectively welded to the front and rear sides of the base 21 for leveling and fixing, four sliding guide rails 23 are respectively installed at four corners below the upper plane of the base 21 and the movable frame 22 to facilitate left and right movement of the movable frame 22, the movable frame 22 is formed into a whole by welding left and right wall plates one 36 and 37, the left and right movement of the movable frame 22 is performed by a deviation-correcting actuator 34, the deviation-correcting actuator 34 is installed on an iron plate of the upper plane of the base 21, and is installed on a plane perpendicular to the inner side of the left wall plate one 37 of the movable frame 22 with a connecting seat for a shaft end, the movement of the deviation-correcting actuator is automatically controlled by a photoelectric switch, a brake gear 31 is installed at an output shaft end of the magnetic powder brake one 32, and is installed on the plane of the outer side of the left wall plate one 37 of the. A first horizontal trimmer 25 is installed above the outer side plane of a first right wall plate 36 of the movable rack 22, a hand wheel is installed on the right side of the first horizontal trimmer 25, the hand wheel is installed on a lead screw of the first horizontal trimmer 25, the lead screw is provided with a square nut, a shifting lever is installed on the upper plane of the nut, a bearing is installed at the upper top of the shifting lever and matched with a first shifting ring 26, and when fine adjustment is needed, the fine adjustment effect can be achieved by rotating the hand wheel for horizontal fine adjustment without stopping. The first air expansion shaft 29 is provided with a gear with a long and wide surface and a first fixing ring 27 at the left shaft end in the figure, the right side is provided with the first fixing ring 27 and a first toggle ring 26, the inner hole of the first fixing ring 27 is provided with a bearing which is tightly matched with the outer ring of the bearing, and the inner hole of the bearing is arranged above the wallboard in a sliding fit manner and is locked and fixed by a stop bolt 28. The long gear on the left side of the air expansion shaft I29 is meshed with the brake gear 31, the magnetic powder brake I32 is installed above the outer side of the left wall plate I37 through the fixing support 33, and the magnetic powder brake I32 is adjusted to be reasonably meshed with the long gear on the left end of the gear air expansion shaft of the shaft. The 2 weighing sensors 24 are respectively fixed on the inner sides of the left wall plate and the right wall plate of the movable rack 22 through brackets, a tension sensing shaft 35 is arranged on the upper parts of the 2 weighing sensors, when the graphene raw material passes through the tension sensing shaft 35, data are transmitted to the control box, the control box transmits the data to the magnetic powder brake 32, and the tension is timely adjusted to form a closed-loop control system.

In fig. 3, the hot-press device 6 comprises a left wall plate 40 and a right wall plate 40 which are connected and fixed by a supporting block 47 to form an integral frame, and a motor 41 is fixed on the inner side of the right wall plate by a bracket. A rectangular notch is formed in the right height center of the left wall plate II and the right wall plate II in an offset mode and used as a guide rail, a guide bearing seat 43 with a guide groove is convenient to install, a connector is arranged on the right end face of the guide bearing seat 43 and connected with the lower portion of a swing plate 44 through a pin shaft, the swing plate 44 is divided into two parts and installed on platforms on the inner sides of the left wall plate II and the right wall plate II in a clearance fit mode through core shafts respectively, the upper end of the swing plate 44 is connected with a connector 45 on an air cylinder 46 through the pin shaft, and the air cylinder 46 is fixed. The lower end of the swing plate 44 is connected with a guide bearing seat 43 arranged on the heating rubber roll 42 by a pin shaft, guide grooves are processed on the upper plane and the lower plane of the guide bearing seat 43, the width of the guide grooves is the same as the thickness of the material of the left wallboard II 40 and the right wallboard II 40, the guide grooves are arranged in T-shaped cylinder openings on the left wallboard II 40 and the right wallboard II 40 in a clearance fit mode, and when the relative distance between the heating rubber rolls needs to be adjusted, the guide grooves can.

Rolling bearings are arranged at two shaft ends of the heat-conducting oil mirror roller 48, flange plates are arranged on the left wall plate II and the right wall plate II 40, electric heating tubes are arranged inside two shaft mandrels of the heat-conducting oil mirror roller 48 and the heating rubber roller 42 for heating, and a carbon brush collecting ring integrated system is arranged at one shaft end. The heat-searching oil mirror surface roller 48 is a driving roller, the chain wheel used for the chain wheel is arranged at the other shaft end of the driving roller and is connected with the chain wheel used for the chain wheel on the motor I41, the rotating speed is adjusted in the left wall plate II and the right wall plate II by a frequency converter, and 8 chromium guide shafts 49 and weighing sensors are further arranged according to the process requirements.

Three materials: the film 51, the copper strip 52 and the graphene material 30 are converged above the heating rubber roller 42, and pass through a fine gap between the heating rubber roller 42 and the heat-conducting oil mirror roller 48 for hot pressing, and the swinging plate 44 can drive the heating rubber roller 42 to move under the action of the air cylinder 46, so that the size of the fine gap is controlled, namely the pressure of the three materials during compounding can be controlled.

In fig. 5, the copper strip unwinding device 3 is formed by connecting an Jiong-shaped connecting plate with a left wall plate and a right wall plate 74 in advance, fastening the connecting plate by bolts to form an integral frame, 2 linear guide rails 73 are arranged on the upper plane of the Jiong-shaped connecting plate, a sliding unit is arranged on the linear guide rails 73 and fixed on the lower plane of the movable base 70, so that the axial movement is convenient to adjust, four sets of copper strip fixing disks 81 are separately arranged on the upper plane of the movable base 70, the copper strip fixing disks 81 are divided into two parts, one part is that the fixing disks are connected by a mandrel and a magnetic powder brake II 82 and are fixed on the upper plane of the movable base 70 by a right-angle bracket, the peripheral edge of the outer plane of the fixed disc is provided with a Hall photoelectric switch 83 for controlling tension, the other part is a movable disc, the disassembly is convenient, the copper strip 52 is assembled, the movable disc is locked by bolts, the tension controller 71 is used for controlling and adjusting the magnetic powder brake II 82, and the supporting shaft 75 of the adjusting mechanism is fixed on the left wall plate and the right wall plate IV 74 by fulcrums. A supporting plate 77 is arranged on a supporting shaft 75 of the adjusting mechanism, a screw rod is arranged on the supporting plate 77 in a horizontal position, a copper strip guide wheel 79 is arranged at the left end of the screw rod, a locking nut 78 is arranged on the right side of the screw rod, and an adjusting hand wheel 76 is arranged on the right side of the locking nut 78 to facilitate position adjustment.

The sliding guide sleeve 80 is mounted on the adjusting shaft 84, and the adjusting shaft 84 is fixed on the left and right wall plates 74 by a bracket.

In fig. 6, the cooling device 7 and the cutting device 8 are fastened by the square pipe spacer 96 to form an integral frame by the left and right wall plates five 97, and the machine legs are welded below the left and right wall plates five 9, so that the leveling and fixing are convenient. The cycloid pin wheel matching motor 85 is fixedly arranged below the inner side of the right wall plate five 9 through a bracket, 2 cooling rollers 87 are arranged above the cycloid pin wheel matching motor 85 in a staggered mode and not on the same vertical center line, and a rotary joint is arranged at one end of each cooling roller 87 to facilitate cooling water circulation. In order to ensure that the chain wheels on the two cooling rollers and the chain have enough wrap angles and contact tooth numbers, the right side of the lower cooling roller is provided with an expansion chain wheel 86, the left side of the lower cooling roller is provided with a sensing shaft 88, the sensing shaft 88 is arranged on a weighing sensor 11, and the weighing sensor 11 is fixed on a left wall plate and a right wall plate 9 by a bracket, so that the control is convenient, and the tension of the passing material is adjusted in time.

In the cutting device 8, the art designing blade 91 is arranged on a cutter rest 92, the cutter rest 92 is arranged on a fixed cutter rest shaft 90, the distance can be adjusted by moving left and right, and the cutter can be fastened by a bolt with a plum blossom hand wheel after being adjusted. The two shafts of the cutter shaft 93 are provided with rolling bearings and are fixed on the vertical plane at the inner side of the left and right wallboard cutting devices 8 by flange plates. The counter 98 is fixed on the inner side of the left wallboard cutting device 8 by a bracket, the roller on the counter 98 is contacted with the outer ring of the cutter shaft 93, and the roller on the counter is manually placed on a cut material during cutting so as to display the actual passing length and specific data.

In fig. 4, the rolling device 5 is formed by welding a left wall plate 55 and a right wall plate 57 by a square tube 56 to form an integral frame, four machine legs are welded below the wall plates 55, 57 to facilitate adjustment and fixation, a motor 68 is assembled with a cycloidal pin gear speed reducer 69 and fixed below the right wall plate 57 by a bracket, a chain wheel is arranged on an output shaft of the cycloidal pin gear speed reducer 69 and connected with a chain wheel 5 of a magnetic powder clutch 60 fixed on the wall plate by the bracket by a chain 4, a gear is arranged at the left output shaft end of the magnetic powder clutch 60, an idler wheel 61 is arranged at the upper part of the right wall plate and meshed with the gear of the magnetic powder clutch 60, the upper part of the idler wheel is meshed with a long gear 62 on an air expansion shaft 65, two fixing rings 64 are arranged at two ends of the air expansion shaft 65, grooves are arranged on the fixing rings 64 and are embedded on the wall plates with the same thickness as the left and right wall, the periphery of the bearing is tightly matched with an inner hole of the second fixing ring 64, an inner ring hole is in sliding fit with the second shaft head of the inflatable shaft, a second toggle ring 67 is arranged on the left side of the second inflatable shaft 65 outside the second fixing ring 64, a groove in the middle of the second toggle ring 67 is matched with the outer ring of the rolling bearing at the top of the toggle rod of the second transverse trimmer 66, and when a hand wheel on the second transverse trimmer 66 is rotated, the fine adjustment effect is achieved under the condition of no shutdown.

The technical means disclosed in the invention scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features.

Claims (8)

1. Graphite alkene ground heating material hot melt bonder, its characterized in that: including frame, membrane unwinding device, copper strips unwinding device, graphite alkene material unwinding device, coiling mechanism, hot press unit, cooling device, cutting device, membrane unwinding device and copper strips unwinding device set up in the frame, and graphite alkene material unwinding device sets up in frame one side, through drawing the material frame connection frame, and the coiling mechanism sets up at the frame opposite side, material that membrane unwinding device, copper strips unwinding device, graphite alkene material unwinding device emit is through drawing material axle to hot press unit, and the three-layer material bonds and gets into coiling mechanism after cutting through drawing material axle to cooling device again after as an organic whole.

2. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the device comprises a graphene material placing device, a base, a first air expansion shaft, a first brake gear, a first magnetic powder brake and a fixing support, wherein the base is arranged below the graphene material placing device, a first machine foot is arranged on the front side and the rear side of the base, a sliding guide rail is arranged on the base and connected with a movable rack above the base, a deviation rectifying executing mechanism is arranged below the movable rack, a first vertical left wall plate and a first vertical right wall plate are arranged on the two sides of the movable rack, the first air expansion shaft is arranged above the first left wall plate and the first right wall plate, the first air expansion shaft is provided with a graphene raw material roll, the left side of the first; the upper portion of the outer side plane of the first right wall plate is provided with a first transverse trimmer, the right side of the first transverse trimmer is provided with a hand wheel, the hand wheel is installed on a transversely trimmed screw rod, a square nut is installed on the screw rod, a deflector rod is installed on the upper plane of the square nut, a bearing is installed at the upper top of the deflector rod and matched with a first deflector ring, the first deflector ring is connected with the right side of a first inflatable shaft through a first fixing ring, the first fixing ring is provided with a stop bolt, a second weighing sensor is fixed on the inner sides of a left wall plate and a right wall plate of a movable rack through a support, and a tension sensing shaft is installed on the upper.

3. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the hot-pressing device comprises a first integral frame formed by connecting and fixing a left wallboard II and a right wallboard II with a supporting block, a first motor is fixed on the inner side of the right wallboard II, a rectangular notch is formed on the right wallboard II, a guide bearing seat with a guide groove is installed, a connector is installed on the right end face of the guide bearing seat and is connected with the lower part of a swing plate through a pin shaft, the swing plate is divided into two parts and is respectively installed on platforms on the inner sides of the left wallboard II and the right wallboard II, the upper end of the swing plate is connected with the connector on the cylinder through the pin shaft, the cylinder is fixed on the right wallboard II through a bracket, the lower end of the swing plate is connected with the guide bearing seat installed on a heating rubber roller through the pin shaft, the guide groove is processed on the upper plane and the lower plane of the guide bearing seat, the width of the guide groove is the same as the thickness of the left wallboard II and the, the two shaft ends of the heat-conducting oil mirror roller are provided with rolling bearings, flange plates are arranged on the left wall plate II and the right wall plate II, electric heating tubes are arranged in the two shaft mandrels of the heat-conducting oil mirror roller and the heating rubber roller, one shaft end is provided with a carbon brush collecting ring integrated system, the other shaft end of the heat-conducting oil mirror roller is provided with a chain wheel which is connected with a chain wheel on the motor I through a chain, and a frequency converter is connected in the left wall plate II and the right wall plate.

4. The hot melt adhesive machine for graphene floor heating materials according to claim 3, characterized in that: the hot pressing device is communicated with the film unwinding device, the copper strip unwinding device, the graphene material unwinding device and the cooling device through a feeding shaft, and a weighing sensor is arranged between the hot pressing device and the cooling device.

5. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the winding device comprises a left wall plate III, a right wall plate III and an integral frame II formed by fixing square tubes, a machine foot II is arranged below the left wall plate III and the right wall plate III, a motor II is arranged below the frame II, the motor II is connected with a cycloidal pin gear speed reducer, a magnetic powder clutch is arranged above the cycloidal pin gear speed reducer, the cycloidal pin gear speed reducer is connected with the magnetic powder clutch through a chain, an air expansion shaft II is arranged above the left wall plate III and the right wall plate III, a gear is arranged at the left shaft outlet end of the magnetic powder clutch, an idler wheel is arranged at the upper part of the right wall plate III, the lower part of the idler wheel is meshed with the gear of the magnetic powder clutch, the upper part of the idler wheel is meshed with a long gear on the air expansion shaft II, fixing rings II are arranged at two ends of the air expansion shaft II, grooves on the fixing rings II are embedded on the wall plates III with the same thickness as that, the inner ring hole is in sliding fit with the shaft head of the second pneumatic expansion shaft, the second poking ring is arranged on the left side of the second pneumatic expansion shaft and outside the second fixing ring, and a groove in the middle of the second poking ring is matched with the outer ring of the rolling bearing at the top of the poking rod of the second transverse fine adjuster.

6. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the copper strip unwinding device comprises an Jiong-shaped linkage plate, a left wallboard and a right wallboard which are connected in a four-way mode to form an integral frame, 2 linear guide rails are arranged on the upper plane of the Jiong-shaped linkage plate, sliding units are arranged on the linear guide rails and fixed on the lower plane of the movable base, locking bolts are arranged on the outer side of the movable base, four copper strip fixing disks are separately arranged on the upper plane of the movable base, a tension controller is arranged at the front end of the movable base and controls the adjustment of a magnetic powder brake II, an adjusting mechanism supporting shaft is fixed above the left wallboard and the right wallboard, a supporting plate is arranged on the adjusting mechanism supporting shaft, a lead screw is horizontally arranged on the supporting plate, a copper strip guide wheel is arranged at the left end of the lead screw, a locking nut is arranged on the right side of the locking nut, an adjusting hand wheel is arranged on the right side of.

7. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the cooling device comprises a left wall plate, a right wall plate, a five-purpose square tube supporting block, a third integral frame, a support for a cycloidal pin wheel motor is fixedly installed below the inner side of the right wall plate, an upper cooling roller and a lower cooling roller are staggered above the cycloidal pin wheel motor and are not installed on the same vertical central line, a rotary joint is installed at one end of each cooling roller, an expansion wheel is installed on the right of each cooling roller, a sensing shaft is installed on the left side of each cooling roller, the sensing shaft is installed on a weighing sensor, and the support for the weighing sensor is fixed on the left wall plate and the right wall plate.

8. The hot melt adhesive machine for graphene floor heating materials according to claim 1, characterized in that: the cutting device comprises an art designing blade, a cutter rest shaft, a cutter shaft and a counter, the art designing blade is installed on the cutter rest, the cutter rest is installed on the cutter rest shaft, the cutter rest shaft and the cutter shaft are provided with rolling bearings, the rolling bearings are fixed on the plane vertical to the inner sides of the left wall plate and the right wall plate, the counter is fixed on the inner side of the left wall plate, and the roller on the counter is in contact with the outer ring of the cutter shaft.

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