CN112871544B - Graphene shielded cable processing equipment and processing method - Google Patents

Abstract

The invention discloses graphene shielded cable processing equipment and a processing method in the technical field of graphene, and the equipment comprises a fixed plate, wherein a fan and an air pipe are arranged on the left section of the fixed plate, a storage box is arranged on the right section of the fixed plate, a discharging assembly is arranged on the left side of the bottom of the storage box, a refining assembly is arranged on the left side of the discharging assembly, an adjusting assembly is connected onto the refining assembly, and a driving assembly is connected onto the adjusting assembly; the adjusting set drives the baffles to move through driving, so that the distance between the two corresponding baffles is adjusted, and the insulating tapes with different widths are adapted.

Description

Graphene shielded cable processing equipment and processing method

Technical Field

The invention relates to the technical field of graphene, in particular to graphene shielded cable processing equipment and a processing method.

Background

The graphite is a hexagonal honeycomb-shaped two-dimensional carbon nano material consisting of carbon atoms; the graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, and is considered to be a revolutionary material in the future.

The zero-gap semiconductor is mainly single-layer graphene, and the electronic structure can seriously affect the action of gas molecules on the surface of the gas molecules. The function of the single-layer graphene to enhance the surface reactivity of bulk graphite is shown by the results of the hydrogenation reaction and the oxidation reaction of graphene, which shows that the electronic structure of graphene can modulate the surface activity of graphene. In addition, the electronic structure of graphene can be correspondingly changed through the induction of gas molecule adsorption, so that the concentration of carriers can be changed, and different graphene can be doped.

The shielded cable is a cable with external electromagnetic interference resistance formed by adding a shielding layer outside a transmission cable, and generally comprises a conductor, a shielding layer, an insulating layer, a shielding layer and a sheath. The shielding layer of the cable is mostly woven into a netted metal wire or a metal film, and the cable has a plurality of different modes of single shielding and multi-shielding.

Single shield refers to a single shielding mesh or film in which one or more wires may be wrapped. The multi-shielding mode is that a plurality of shielding nets and shielding films are arranged in a cable in a shared mode. Some are used to isolate electromagnetic interference between wires, and some are double-layer shields used to enhance shielding effect. The shielding layer is grounded to isolate the induced interference voltage of the external connection to the conducting wire.

And the shielding layer material is a hot spot of attention and research in recent years. The graphene has high specific surface area, high electrical conductivity, high thermal conductivity, good mechanical property and high electromagnetic shielding property, so that the graphene can be applied to shielded cables.

In the processing process of the graphene shielding cable, a graphene shielding layer needs to be arranged on the cable; the graphene shielding layer is formed in various ways, wherein one way is to coat a prepared graphene shielding material on an insulating tape, and then wrap the cable after the shielding layer is manufactured, so that the graphene shielding layer is formed.

However, some conventional material coating apparatuses generally adopt a structure such as a coating roller, and when coating is performed, the material falls on the surface of the coating roller and rotates along with the movement of the insulating tape, so that the material on the surface of the coating roller is transferred onto the insulating tape.

Based on the above, the invention designs a graphene shielded cable processing device and a processing method, so as to solve the above problems.

Disclosure of Invention

The invention aims to provide graphene shielded cable processing equipment and a processing method, and aims to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a graphene shielded cable processing device comprises a plurality of winding wheels and unwinding wheels which are positioned on the left side and the right side, wherein the winding wheels correspond to the unwinding wheels one by one, the corresponding winding wheels and the corresponding unwinding wheels are provided with the same insulating tape and are respectively connected with a motor, a horizontal fixing plate is arranged above the insulating tape, the left end of the fixing plate extends outwards to the winding wheels and is designed into an arc shape, the circle center of the arc-shaped section is superposed with the center of the winding wheel, a fan is fixed on the top surface of the left section of the fixing plate, a plurality of air pipes are fixed on the bottom surface of the fixing plate, a plurality of air outlets are uniformly arranged at the bottom of the air pipes along the length direction, the air pipes are connected with the fan, the right section is horizontal, and the left section is correspondingly designed into an arc shape;

be fixed with the storage case on the right side section of fixed plate, the bottom of storage case is established to the bucket form, and bottom surface center department is fixed with the unloading pipe, and the left side of unloading pipe is equipped with ejection of compact subassembly, and corresponds the fixed plate bilateral symmetry between ejection of compact subassembly and the tuber pipe right side end and be fixed with vertical curb plate, and the top position that the curb plate corresponds the insulating zone is equipped with the refining subassembly.

Preferably, the discharging assembly comprises a piston box connected with the fixed plate, the right side of the bottom of the piston box is communicated with a fixed feeding pipe and is communicated with the bottom of the discharging pipe through the feeding pipe, the left side of the bottom of the piston box is communicated with and fixed with a discharging pipe, the left side of the discharging pipe is fixed with a main material pipe, the feeding pipe and the discharging pipe are respectively provided with a one-way valve, so that materials can only enter the piston box along the feeding pipe and are discharged along the discharging pipe, the main material pipe is uniformly fixed with a plurality of distributing pipes, and the bottom ends of the distributing pipes face downwards and are positioned above the corresponding insulating belts;

sliding connection has the piston board in the piston box, and the roof symmetry of piston board is fixed with two vertical piston rods, and the position that corresponds the piston rod on the inside wall of piston box is fixed with the boss, and two piston rods pass the boss that corresponds to be fixed with the clamp plate jointly, be equipped with the spring between the bottom surface of clamp plate and the top surface of boss, and the top surface of clamp plate is equipped with the cam, and the cam is connected with the motor, and the motor is fixed in on the lateral wall of piston box.

Preferably, the refining subassembly includes the vertical refining board that is fixed in between two curb plate bottoms, and the refining board includes a plurality of even settings and V-arrangement board of reciprocal anchorage, every V-arrangement board is located directly over the insulating tape that corresponds, and the pointed end of V-arrangement board is towards the right side, vertical baffle has been cup jointed to the symmetry on the both sides section of every V-arrangement board, and the baffle corresponds the slope section sliding connection of side along the V-arrangement board, the top of two baffles that are located on same V-arrangement board is connected with adjusting part jointly, a plurality of adjusting part's top is connected with drive assembly jointly.

Preferably, the adjusting part includes the regulation cardboard of U-shaped, the opening of regulation cardboard is down, and the top sliding connection of baffle is in adjusting the cardboard, the top of adjusting the cardboard is fixed with the spacing piece, it is equipped with the spacing groove to correspond on the fixed plate, and stopper sliding connection is in the spacing groove, the spacing groove is stretched out on the top, and fixedly connected with limiting plate, through stopper and limiting plate, make the regulation cardboard can only slide along the spacing groove direction, be fixed with the regulation rack on two corresponding regulation cardboard opposite flank respectively, the meshing has same adjusting gear between two regulation racks, adjusting gear rotates with the fixed plate to be connected, and a plurality of adjusting gear are connected with same drive assembly.

Preferably, the driving assembly comprises a driving shaft fixedly connected with the center of the adjusting gear, the adjusting gear is rotatably connected with the fixing plate through the driving shaft, the fixing plate extends out of the top end of the driving shaft and is fixed with toothed belt wheels, the toothed belt wheels are connected with the same toothed transmission belt, a first bevel gear is coaxially fixed on the top of one of the toothed belt wheels, the first bevel gear is meshed with a second bevel gear, the second bevel gear is connected with a motor, and the motor is fixed on the top of the fixing plate.

Preferably, be equipped with the supporting wheel of two parallels between the bottom of two curb plates, the both ends of supporting wheel rotate with the curb plate of both sides respectively and are connected, the top of supporting wheel and the bottom surface contact of insulating band, and the refining subassembly is located between two supporting wheels, provides the supporting role for the insulating band through the supporting wheel, makes the position of insulating band keep the level to be close to the refining board, so that follow-up refining carries out.

Preferably, be equipped with the (mixing) shaft in the middle of the inner chamber of storage case, evenly be provided with a plurality of stirring leaves along axial and radial on the (mixing) shaft, the top of (mixing) shaft rotates with the top surface of storage case to be connected, and the top stretches out the storage case to be connected with the motor.

Preferably, a plurality of feeding boxes are uniformly fixed on the top surface of the storage box along the circumferential direction, the bottoms of the feeding boxes extend into the storage box, a feeding hopper is arranged at the upper part of an inner cavity of the feeding box, a feeding port is arranged in the middle of the bottom surface of the feeding hopper, a screening component is arranged in the middle of the feeding box corresponding to the feeding port, and a sealing component is arranged at the lower part of the feeding box;

the screening subassembly rotates along the lateral wall of feeding case including the rotation section of thick bamboo that is located the feed inlet outside, rotates a section of thick bamboo, and rotates the lateral wall upper portion of a section of thick bamboo and evenly be fixed with tooth along the circumferencial direction to there is rotating gear through the tooth meshing, and rotating gear has the motor, rotates a section of thick bamboo center of thick bamboo and is fixed with a sieve section of thick bamboo, is fixed with the screen cloth in the sieve section of thick bamboo, and the bottom of feed inlet stretches into in the sieve section of thick bamboo, and with the screen cloth contact.

Preferably, the sealing assembly comprises a blanking table fixed at the lower part of the feeding box, a blanking port is arranged at the center of the top surface of the blanking table, the top surface of the blanking table inclines towards the blanking port, the two sides of the bottom surface of the blanking table symmetrically incline, the middle part of the blanking table is higher than the two sides of the blanking table, a V-shaped sealing plate is correspondingly arranged below the blanking table, and the inclination angles of the two sides of the sealing plate are the same as the inclination angles of the two sides of the bottom surface of the blanking table;

be fixed with fixed chamber in the middle of the bottom of feeding case, the top surface both sides correspondence in fixed chamber is established to the inclined plane, the bottom surface bilateral symmetry that seals the board is fixed with vertical spring beam, the bottom of spring beam stretches into in the fixed chamber, and be fixed with the spring board jointly, be equipped with the spring between the top surface both sides of spring board and the top surface in fixed chamber, and be fixed with first electro-magnet in the middle of the top surface of spring board, the correspondence is fixed with the second electro-magnet in the middle of the inner chamber in fixed chamber, first electro-magnet and second electro-magnet electricity are connected with switch.

A processing method based on graphene shielded cable processing equipment comprises the following steps:

s1, placing graphene materials into the material storage box, starting the discharging assembly, discharging the materials from the discharging pipe, and enabling the materials to fall onto the corresponding insulating belt;

s2, starting motors of the unwinding wheel and the winding wheel to enable the insulating tape to move uniformly, so that the material falls onto the insulating tape uniformly and is coated on the top surface of the insulating tape uniformly through the material homogenizing assembly;

s3, starting a fan, supplying air to the outside through an air pipe and an air outlet, and continuously moving the insulating tape coated with the graphene material to the left side along with the rotation of a winding wheel and an unwinding wheel and moving the insulating tape to the air pipe, so that the graphene material on the insulating tape is dried through the air pipe, and the curing of the material is accelerated;

and S4, finishing coating of the insulating tape, and winding the insulating tape on a winding wheel, thereby finishing preparation of the graphene shielding layer of the shielded cable.

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

1. according to the invention, the motor of the discharging assembly is started, so that the cam is matched with the spring to drive the piston plate to reciprocate up and down, materials enter the piston box from the discharging pipe and then are discharged into the material distributing pipe, and graphene materials are intermittently discharged through the material distributing pipe and uniformly fall onto the corresponding insulating belt;

2. according to the invention, the material is uniformly paved on the top surface of the insulating tape through the bottom of the material homogenizing plate, the problems of material waste and the like caused by the material falling to the outside of the insulating tape are avoided through the baffles on the two sides, and in the movement process of the insulating tape, the redundant material is pushed to the two sides through the tip end part of the material homogenizing plate, so that the material is uniformly distributed;

3. according to the invention, the plurality of adjusting gears are driven to rotate by the driving drive, and the corresponding adjusting clamping plates drive the baffles to move by the adjusting racks, so that the distance between the two corresponding baffles is adjusted to adapt to the insulating tapes with different widths, and the graphene material can be coated on the plurality of insulating tapes at the same time by the shape of the homogenizing plate and the arrangement of the plurality of material distributing pipes, so that the processing efficiency is improved.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the piston case of the present invention;

FIG. 3 is a schematic view of the locations of the screed plate and side plates of the present invention;

FIG. 4 is a schematic structural view of an adjusting clamp of the present invention;

FIG. 5 is a schematic view of the positions of the spreader plate and baffle of the present invention;

FIG. 6 is a schematic structural view of a spreader plate of the present invention;

FIG. 7 is a schematic view of the storage bin of the present invention;

FIG. 8 is a schematic view of the structure of the feed box of the present invention;

FIG. 9 is a schematic view of the construction of the rotary cylinder of the present invention;

fig. 10 is a schematic structural view of a fixing chamber of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-unwinding wheel, 101-winding wheel and 102-insulating tape;

2-a fixing plate, 201-a fan, 202-an air pipe, 203-a side plate, 204-a supporting wheel and 205-a limiting groove;

3-piston box, 301-cam, 302-feeding pipe, 303-discharging pipe, 304-main pipe, 305-branch pipe, 306-piston plate, 307-piston rod, 308-pressing plate;

4-a material storage box, 401-a discharging pipe, 402-a stirring shaft and 403-stirring blades;

5-a homogenizing plate, 501-a baffle, 502-an adjusting clamping plate, 503-a limiting block, 504-a limiting plate, 505-an adjusting rack, 506-an adjusting gear and 507-a first bevel gear;

6-feeding box, 601-feeding hopper, 602-feeding port, 603-screen, 604-blanking table, 605-blanking port, 606-screen cylinder, 607-rotating cylinder, 608-rotating gear;

7-sealing plate, 701-fixing cavity, 702-spring rod, 703-spring plate, 704-first electromagnet and 705-second electromagnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

Example one

Referring to the drawings, the present invention provides a technical solution: a graphene shielded cable processing device comprises a plurality of winding wheels 101 and unwinding wheels 1 which are positioned on the left side and the right side, wherein the winding wheels 101 correspond to the unwinding wheels 1 one by one, the same insulating tape 102 is arranged on the corresponding winding wheels 101 and the corresponding unwinding wheels 1 and is respectively connected with a motor, a horizontal fixing plate 2 is arranged above the insulating tape 102, the left end of the fixing plate 2 extends outwards to the winding wheels 101 and is set to be arc-shaped, the circle center of the arc-shaped section coincides with the center of the winding wheels 101, a fan 201 is fixed on the top surface of the left section of the fixing plate 2, a plurality of air pipes 202 are fixed on the bottom surface of the fixing plate, a plurality of air outlets are uniformly arranged at the bottom of each air pipe 202 along the length direction, each air pipe 202 is connected with the fan 201, the right section is horizontal, and the left section is correspondingly set to be arc-shaped;

be fixed with storage case 4 on the right side section of fixed plate 2, the bottom of storage case 4 is established to the bucket form, and bottom surface center department is fixed with unloading pipe 401, and the left side of unloading pipe 401 is equipped with ejection of compact subassembly, and corresponds fixed plate 2 bilateral symmetry between ejection of compact subassembly and the tuber pipe 202 right side end and be fixed with vertical curb plate 203, and the top position that curb plate 203 corresponds insulating tape 102 is equipped with the refining subassembly.

A processing method based on graphene shielded cable processing equipment comprises the following steps:

s1, putting graphene materials into the material storage box 4, starting the discharging assembly, discharging the materials from the discharging pipe 401, and enabling the materials to fall onto the corresponding insulating tape 102;

s2, starting motors of the unwinding wheel 1 and the winding wheel 101 to enable the insulating tape 102 to move uniformly, so that the material falls onto the insulating tape 102 uniformly and is coated on the top surface of the insulating tape 102 uniformly through the material homogenizing assembly;

s3, starting the fan 201, supplying air to the outside through the air pipe 202 and the air outlet, and moving the insulating tape 102 coated with the graphene material to the left side along with the rotation of the winding wheel 101 and the unwinding wheel 1 and moving to the air pipe 202, so that the graphene material on the insulating tape 102 is air-dried through the air pipe 202, and the material curing is accelerated;

and S4, finishing coating of the insulating tape 102, and winding the insulating tape on a winding wheel 101, so that the preparation of the graphene shielding layer of the shielded cable is finished, and the subsequent winding processing of the shielding layer is facilitated.

Example two

The structure of the embodiment is basically the same as that of the first embodiment, except that the discharging assembly comprises a piston box 3 connected with a fixed plate 2, the right side of the bottom of the piston box 3 is communicated with a fixed feeding pipe 302 and is communicated with the bottom of a discharging pipe 401 through the feeding pipe 302, the left side of the bottom of the piston box 3 is communicated with and fixed with a discharging pipe 303, the left side of the discharging pipe 303 is fixed with a main pipe 304, and the feeding pipe 302 and the discharging pipe 303 are both provided with a one-way valve, so that materials can only enter the piston box 3 along the feeding pipe 302 and can be discharged along the discharging pipe 303, the main pipe 304 is uniformly fixed with a plurality of distributing pipes 305, and the bottom ends of the distributing pipes 305 face downwards and are positioned above corresponding insulating belts 102;

sliding connection has piston plate 306 in piston box 3, the roof symmetry of piston plate 306 is fixed with two vertical piston rods 307, the position that corresponds piston rod 307 on the inside wall of piston box 3 is fixed with the boss, two piston rods 307 pass the boss that corresponds, and be fixed with clamp plate 308 jointly, be equipped with the spring between the bottom surface of clamp plate 308 and the top surface of boss, and the top surface of clamp plate 308 is equipped with cam 301, cam 301 is connected with the motor, the motor is fixed in on the lateral wall of piston box 3.

Refining subassembly includes vertical refining plate 5 that is fixed in between two curb plate 203 bottoms, and refining plate 5 includes a plurality of even settings and V-arrangement board of reciprocal anchorage, every V-arrangement board is located directly over the insulating tape 102 that corresponds, and the pointed end of V-arrangement board is towards the right side, vertical baffle 501 has been cup jointed to the symmetry on the both sides section of every V-arrangement board, and baffle 501 corresponds the slope section sliding connection of side along the V-arrangement board, the top of two baffles 501 that are located on same V-arrangement board is connected with the adjusting part jointly, a plurality of adjusting part's top is connected with drive assembly jointly.

The adjusting assembly comprises a U-shaped adjusting clamping plate 502, the opening of the adjusting clamping plate 502 faces downwards, the top of the baffle 501 is slidably connected into the adjusting clamping plate 502, a limiting block 503 is fixed at the top of the adjusting clamping plate 502, a limiting groove 205 is correspondingly arranged on the fixing plate 2, the limiting block 503 is slidably connected to the limiting groove 205, the top end of the limiting groove 205 extends out, a limiting plate 504 is fixedly connected, the adjusting clamping plate 502 can only slide along the direction of the limiting groove 205 through the limiting block 503 and the limiting plate 504, adjusting racks 505 are respectively fixed on the opposite side faces of the two corresponding adjusting clamping plates 502, the same adjusting gear 506 is meshed between the two adjusting racks 505, the adjusting gear 506 is rotatably connected with the fixing plate 2, and the adjusting gears 506 are connected with the same driving assembly.

The driving assembly comprises a driving shaft fixedly connected with the center of the adjusting gear 506, the adjusting gear 506 is rotatably connected with the fixing plate 2 through the driving shaft, the top end of the driving shaft extends out of the fixing plate 2 and is fixed with a toothed belt wheel, the toothed belt wheels are jointly connected with the same toothed transmission belt, a first bevel gear 507 is coaxially fixed on the top of one of the toothed belt wheels, the first bevel gear 507 is meshed with a second bevel gear, the second bevel gear is connected with a motor, and the motor is fixed on the top of the fixing plate 2.

When the discharging assembly works, a motor of the discharging assembly is started, the cam 301 rotates and is matched with the spring, the pressing plate 308 drives the piston rod 307 and the piston plate 306 to reciprocate up and down, materials enter the piston box 3 from the discharging pipe 401 and the feeding pipe 302 and move to the material distribution pipe 305 through the discharging pipe 303 and the main material pipe 304, and graphene materials are intermittently discharged through the material distribution pipe 305 and uniformly fall onto the corresponding insulating strips 102;

when the insulating belt 102 moves to the material homogenizing assembly, the material is evenly paved on the top surface of the insulating belt 102 through the bottom of the material homogenizing plate 5, the material is prevented from falling to the outside of the insulating belt 102 through the baffle plates 501 on the two sides, so that the material is wasted, and in the moving process of the insulating belt 102, the redundant material is pushed away towards the two sides through the tip end part of the material homogenizing plate 5, so that the material is evenly distributed;

when the distance between two baffles 501 of width adjustment according to the insulating tape of needs, start drive assembly's motor, and make first bevel gear 507 rotate through second bevel gear, then through the transmission of a plurality of toothed belt wheels and profile of tooth drive belt, make a plurality of adjusting gear 506 rotate, thereby make two adjusting rack 505 that correspond drive adjust cardboard 502 simultaneously inwards or move outward simultaneously, and drive baffle 501 and remove, thereby adjust the distance between two baffles 501 that correspond, so that adapt to the insulating tape of different width, and this application can carry out the coating processing of graphite alkene material to a plurality of insulating tapes simultaneously, and the machining efficiency is improved.

EXAMPLE III

The structure of this embodiment is substantially the same as that of the second embodiment, except that a stirring shaft 402 is disposed in the middle of the inner cavity of the storage box 4, a plurality of stirring blades 403 are uniformly disposed on the stirring shaft 402 along the axial direction and the radial direction, the top of the stirring shaft 402 is rotatably connected with the top surface of the storage box 4, and the top end of the stirring shaft extends out of the storage box 4 and is connected with a motor.

Put into graphite alkene powder in storage case 4, the adhesive, water and other additive materials etc, start the motor of (mixing) shaft 402, make (mixing) shaft 402 drive stirring leaf 403 and rotate, carry out intensive mixing to the material, so that prepare graphite alkene material, be convenient for follow-up coating processing who carries out insulating tape 102, can be equipped with the electric heating layer in storage case 4's lateral wall, and the electric heating layer electricity is connected with power and switch, and heat the material through the electric heating layer, make the material fuse, wherein, set up the zone of heating in the container wall, be the technical means commonly used in the field, this application is no longer repeated its.

Example four

The structure of the embodiment is basically the same as that of the third embodiment, except that a plurality of feeding boxes 6 are uniformly fixed on the top surface of the storage box 4 along the circumferential direction, the bottoms of the feeding boxes 6 extend into the storage box 4, a feeding hopper 601 is arranged at the upper part of the inner cavity of each feeding box 6, a feeding port 602 is arranged in the middle of the bottom surface of each feeding hopper 601, a screening component is arranged at the middle part of each feeding box 6 corresponding to the feeding port 602, and a sealing component is arranged at the lower part of each feeding box;

the screening subassembly is including being located the rotation section of thick bamboo 607 of feed inlet 602 outside, and rotation section of thick bamboo 607 rotates along the lateral wall of feed box 6, and the lateral wall upper portion of rotating section of thick bamboo 607 evenly is fixed with the tooth along the circumferencial direction to there is rotating gear 608 through the tooth meshing, and rotating gear 608 is connected with the motor, eccentrically fixed with sieve section of thick bamboo 606 in the rotation section of thick bamboo 607, is fixed with screen cloth 603 in the sieve section of thick bamboo 606, and the bottom of feed inlet 602 stretches into in the sieve section of thick bamboo 606, and contacts with screen cloth 603.

The sealing assembly comprises a blanking table 604 fixed at the lower part of the feeding box 6, a blanking port 605 is arranged at the center of the top surface of the blanking table 604, the top surface of the blanking table 604 inclines towards the blanking port 605, the two sides of the bottom surface of the blanking table 604 symmetrically incline, the middle part of the bottom surface of the blanking table 604 is higher than the two sides of the bottom surface of the blanking table, a V-shaped sealing plate 7 is correspondingly arranged below the blanking table 604, and the inclination angles of the two sides of the sealing plate 7 are the same as the inclination angles of the two sides of the bottom surface of the blanking table 604;

a fixed cavity 701 is fixed in the middle of the bottom of the feeding box 6, two sides of the top surface of the fixed cavity 701 are correspondingly arranged to be inclined planes, vertical spring rods 702 are symmetrically fixed on two sides of the bottom surface of the sealing plate 7, the bottom end of each spring rod 702 extends into the corresponding fixed cavity 701 and is jointly fixed with a spring plate 703, springs are arranged between two sides of the top surface of each spring plate 703 and the top surface of the corresponding fixed cavity 701, a first electromagnet 704 is fixed in the middle of the top surface of each spring plate 703, a second electromagnet 705 is correspondingly fixed in the middle of the inner cavity of the corresponding fixed cavity 701, and the first electromagnet 704 and the second electromagnet 705 are electrically connected with a power switch.

When graphene powder or other granular materials are added through the feeding box 6, the materials fall onto the screen 603 through the feeding hopper 601 and the feeding port 602, the materials are filtered through the screen 603, impurities and the like are removed, the rotating gear 608 is rotated through the motor, the rotating cylinder 607 is rotated through the teeth, so that the rotating cylinder 607 drives the screen cylinder 606 and the screen 603 to rotate, the screen cylinder 606 and the screen 603 are eccentrically arranged relative to the rotating cylinder 607 and the feeding port 605, the screen 603 moves relative to the materials, and the filtering effect of the materials is accelerated;

the filtered materials enter the feed opening 605 along the top surface of the feed table 604 and fall onto the sealing plate 7, fall along the inclined planes on two sides of the sealing plate 7 and enter the storage box 4 for subsequent mixing, after the materials are screened, the first electromagnet 704 and the second electromagnet 705 in the fixed cavity 701 are electrified and attracted, the spring plate 703 compresses the spring, the spring rod 702 and the sealing plate 7 are driven to move upwards, the top surface of the sealing plate 7 is contacted with the bottom surface of the feed table 604, the feed opening 605 is sealed, the feeding is stopped, in addition, when the materials are heated, the sealing can also avoid the outward diffusion of heat during subsequent heating from the feed opening 605, and the heat waste is reduced.

EXAMPLE five

The structure of this embodiment is substantially the same as that of the second embodiment, except that two parallel supporting wheels 204 are arranged between the bottoms of the two side plates 203, two ends of each supporting wheel 204 are respectively rotatably connected with the side plates 203 on two sides, the top of each supporting wheel 204 is in contact with the bottom surface of the insulating tape 102, the material homogenizing assembly is positioned between the two supporting wheels 204, and the supporting wheels 204 provide a supporting function for the insulating tape 102, so that the position of the insulating tape 102 is kept horizontal and close to the material homogenizing plate 5 for subsequent material homogenizing.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The utility model provides a graphite alkene shielded cable processing equipment, includes a plurality of wind-up wheels (101) and unreel wheel (1) that are located the left and right sides, wind-up wheel (101) and unreel wheel (1) one-to-one, and be equipped with same insulated tape (102) on wind-up wheel (101) and the unreel wheel (1) that correspond, and be connected with the motor respectively, its characterized in that, the top of insulated tape (102) is equipped with horizontal fixed plate (2), and the left end of fixed plate (2) outwards extends to wind-up wheel (101) department, and establishes to be the arc, the left side section top surface of fixed plate (2) is fixed with fan (201), and the bottom surface is fixed with a plurality of tuber pipes (202), and the bottom of tuber pipe (202) evenly is equipped with a plurality of air outlets along length direction, wind pipe (202) are connected with fan (201), and the right side section is horizontal, and the left side section corresponds and establishes to be the arc;

a storage box (4) is fixed on the right side section of the fixing plate (2), the bottom of the storage box (4) is in a bucket shape, a discharging pipe (401) is fixed in the center of the bottom surface, a discharging assembly is arranged on the left side of the discharging pipe (401), vertical side plates (203) are symmetrically fixed on two sides of the fixing plate (2) corresponding to the position between the discharging assembly and the right side end of the air pipe (202), and a material homogenizing assembly is arranged on the side plates (203) corresponding to the position above the insulating belt (102);

the material homogenizing assembly comprises a material homogenizing plate (5) vertically fixed between the bottoms of two side plates (203), the material homogenizing plate (5) comprises a plurality of V-shaped plates which are uniformly arranged and fixed with each other, each V-shaped plate is positioned right above a corresponding insulating strip (102), the pointed end of each V-shaped plate faces to the right, vertical baffles (501) are symmetrically sleeved on two side sections of each V-shaped plate, the baffles (501) are connected in a sliding mode along inclined sections on the corresponding sides of the V-shaped plates, the tops of the two baffles (501) on the same V-shaped plate are connected with adjusting assemblies together, and the tops of the adjusting assemblies are connected with a driving assembly together;

the adjusting assembly comprises a U-shaped adjusting clamping plate (502), the opening of the adjusting clamping plate (502) faces downwards, the top of a baffle (501) is connected into the adjusting clamping plate (502) in a sliding manner, a limiting block (503) is fixed to the top of the adjusting clamping plate (502), a limiting groove (205) is correspondingly formed in the fixing plate (2), the limiting block (503) is connected to the limiting groove (205) in a sliding manner, the top end of the limiting block extends out of the limiting groove (205), the limiting plate (504) is fixedly connected, adjusting racks (505) are respectively fixed to opposite side faces of two corresponding adjusting clamping plates (502), one adjusting gear (506) is meshed between the two adjusting racks (505), the adjusting gears (506) are rotatably connected with the fixing plate (2), and the adjusting gears (506) are connected with one driving assembly;

the driving assembly comprises a driving shaft fixedly connected with the center of the adjusting gear (506), the adjusting gear (506) is rotatably connected with the fixing plate (2) through the driving shaft, the top end of the driving shaft extends out of the fixing plate (2) and is fixedly provided with a toothed belt wheel, the toothed belt wheels are jointly connected with the same toothed transmission belt, a first bevel gear (507) is coaxially fixed at the top of one toothed belt wheel, the first bevel gear (507) is meshed with a second bevel gear, and the second bevel gear is connected with a motor.

2. The graphene shielded cable processing equipment according to claim 1, wherein the discharging assembly comprises a piston box (3) connected with the fixing plate (2), the right side of the bottom of the piston box (3) is communicated with a fixed feeding pipe (302) and is communicated with the bottom of a discharging pipe (401) through the feeding pipe (302), a discharging pipe (303) is communicated and fixed to the left side of the bottom of the piston box (3), a main pipe (304) is fixed to the left side of the discharging pipe (303), a plurality of distributing pipes (305) are uniformly fixed to the main pipe (304), and the bottom ends of the distributing pipes (305) face downwards and are located above corresponding insulating strips (102);

sliding connection has piston board (306) in piston box (3), and the roof symmetry of piston board (306) is fixed with two vertical piston rods (307), the fixed position that corresponds piston rod (307) on the inside wall of piston box (3) has the boss, and two piston rods (307) pass the boss that corresponds to be fixed with clamp plate (308) jointly, be equipped with the spring between the bottom surface of clamp plate (308) and the top surface of boss, and the top surface of clamp plate (308) is equipped with cam (301), and cam (301) are connected with the motor.

3. The graphene shielded cable processing equipment according to claim 1, wherein two parallel supporting wheels (204) are arranged between the bottoms of the two side plates (203), two ends of each supporting wheel (204) are respectively and rotatably connected with the side plates (203) on two sides, the tops of the supporting wheels (204) are in contact with the bottom surface of the insulating tape (102), and the material blending assembly is located between the two supporting wheels (204).

4. The graphene shielded cable processing apparatus according to claim 1, wherein a stirring shaft (402) is disposed in the middle of the inner cavity of the storage box (4), a plurality of stirring blades (403) are uniformly disposed on the stirring shaft (402) along the axial direction and the radial direction, the top of the stirring shaft (402) is rotatably connected with the top surface of the storage box (4), and the top end of the stirring shaft extends out of the storage box (4) and is connected with a motor.

5. The graphene shielded cable processing equipment according to claim 4, wherein a plurality of feeding boxes (6) are uniformly fixed on the top surface of the storage box (4) along the circumferential direction, the bottoms of the feeding boxes (6) extend into the storage box (4), a feeding hopper (601) is arranged at the upper part of the inner cavity of the feeding box (6), a feeding port (602) is arranged in the middle of the bottom surface of the feeding hopper (601), a screening component is arranged at the middle part of the feeding box (6) corresponding to the feeding port (602), and a sealing component is arranged at the lower part of the feeding box (6);

the screening subassembly is including being located a rotation section of thick bamboo (607) in feed inlet (602) outside, and a rotation section of thick bamboo (607) rotates along the lateral wall of feeding case (6), and the lateral wall upper portion of a rotation section of thick bamboo (607) is evenly fixed with tooth along the circumferencial direction to there are rotating gear (608) through the tooth meshing, and rotating gear (608) are connected with the motor, a rotation section of thick bamboo (607) center of eccentricity is fixed with a sieve section of thick bamboo (606), is fixed with screen cloth (603) in the sieve section of thick bamboo (606), the bottom of feed inlet (602) stretches into in the sieve section of thick bamboo (606), and contacts with screen cloth (603).

6. The graphene shielded cable processing equipment according to claim 5, wherein the sealing assembly comprises a blanking table (604) fixed to the lower portion of the feeding box (6), a blanking port (605) is arranged at the center of the top surface of the blanking table (604), the top surface of the blanking table (604) inclines towards the blanking port (605), the two sides of the bottom surface of the blanking table (604) symmetrically incline, the middle portion of the bottom surface of the blanking table is higher than the two sides of the blanking table, a V-shaped sealing plate (7) is correspondingly arranged below the blanking table (604), and the inclination angles of the two sides of the sealing plate (7) are the same as the inclination angles of the two sides of the bottom surface of the blanking table (604);

fixed chamber (701) are fixed in the middle of the bottom of feed box (6), and the top surface both sides of fixed chamber (701) correspond and establish to the inclined plane, the bottom surface bilateral symmetry of sealing board (7) is fixed with vertical spring beam (702), and the bottom of spring beam (702) stretches into in fixed chamber (701) to be fixed with spring plate (703) jointly, be equipped with the spring between the top surface both sides of spring plate (703) and the top surface of fixed chamber (701), and be fixed with first electro-magnet (704) in the middle of the top surface of spring plate (703), correspond in the middle of the inner chamber of fixed chamber (701) and be fixed with second electro-magnet (705), first electro-magnet (704) and second electro-magnet (705) electricity are connected with switch.

7. The processing method of the graphene shielded cable processing equipment based on claim 1 is characterized by comprising the following steps:

s1, putting graphene materials into the material storage box (4), starting the discharging assembly, discharging the materials from the discharging pipe (401), and enabling the materials to fall onto the corresponding insulating tape (102);

s2, starting motors of the unwinding wheel (1) and the winding wheel (101) to enable the insulating tape (102) to move uniformly, so that the materials fall onto the insulating tape (102) uniformly and are coated on the top surface of the insulating tape (102) uniformly through the material homogenizing assembly;

s3, starting a fan (201), supplying air to the outside through an air pipe (202) and an air outlet, and continuously moving the insulating tape (102) coated with the graphene material to the left side along with the rotation of the winding wheel (101) and the unwinding wheel (1) and moving the insulating tape to the air pipe (202), so that the graphene material on the insulating tape (102) is dried through the air pipe (202), and the curing of the material is accelerated;

s4, coating the insulating tape (102), and winding the insulating tape on a winding wheel (101), thereby completing the preparation of the graphene shielding layer of the shielded cable.

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