CN108383113A - A kind of high graphene production equipment with methane recovery function of deposition efficiency - Google Patents

Abstract

The present invention relates to a kind of high graphene production equipments with methane recovery function of deposition efficiency,Including shell,Recovering mechanism,Two air inlets,Two gas outlets and two first bearing seats,Target rod and jet mechanism are equipped in shell,Recovering mechanism includes recovery room,Escape pipe,Solenoid valve,Appendix,Gas transmission room,Water storage box,Leak pipe,Baffle,Reciprocator,Water-supply-pipe and water pump,Jet mechanism includes first motor,Transmission component,Two moving assemblies and two dust removal assemblies,The high graphene production equipment with methane recovery function of the deposition efficiency,Remaining methane is recycled by recovering mechanism,Avoid the waste of methane,To improve the practicability of the graphene production equipment,Jet is synchronized to the both sides of target rod by jet mechanism,So that the deposition efficiency higher of the graphene production equipment,To improve the market competitiveness of the graphene production equipment.

Description

A kind of high graphene production equipment with methane recovery function of deposition efficiency

Technical field

The present invention relates to new material production equipment field, more particularly to a kind of deposition efficiency it is high have the function of methane recovery Graphene production equipment.

Background technology

New material refers to some newly-developed or researching and developing, having preeminent performance materials, is had more than traditional material For excellent performance.In recent years, new material is increasingly paid attention to, and country also payes attention to new material industry development.Graphene is a kind of By carbon atom with sp²Hybridized orbit forms the two-dimentional carbon nanomaterial that hexangle type is in honeycomb lattice.

Existing graphene production equipment needs to be passed through methane as carbon source, heavy when using chemical vapour deposition technique During product, by rotating the form of target rod, the carbon atom in gas is deposited in target rod, the heavy of existing graphene is caused Product efficiency reduces, and moreover, existing graphene production equipment has certain unreacted first when scavenging, in exhaust gas Alkane causes the practicability of existing graphene production equipment to substantially reduce.

Invention content

The technical problem to be solved by the present invention is to：For overcome the deficiencies in the prior art, it is high to provide a kind of deposition efficiency Graphene production equipment with methane recovery function.

The technical solution adopted by the present invention to solve the technical problems is：A kind of deposition efficiency it is high have methane recovery work( The graphene production equipment of energy, including shell, recovering mechanism, two air inlets, two gas outlets and two first bearing seats, institute State recovering mechanism setting on the shell, two air inlets are arranged at the top of shell, and two gas outlets are arranged at shell Bottom, two first bearing seats are separately positioned on the top and bottom of shell, target rod and jet mechanism, institute are equipped in the shell State that target rod is vertically arranged, two first bearing seats are respectively sleeved at the top and bottom end of target rod, and the jet mechanism setting is outside On the inner wall of shell；

The recovering mechanism includes recovery room, escape pipe, solenoid valve, appendix, gas transmission room, water storage box, leak pipe, gear Plate, reciprocator, water-supply-pipe and water pump, the recovery room are fixed on the lower section of shell, and the recovery room is by gas outlet and outside Shell is connected to, and the escape pipe is horizontally set on the bottom of recovery room, and the solenoid valve is arranged on escape pipe, and the gas transmission room is solid It is scheduled on the top of shell, one end of the appendix is connected to indoor top is recycled, the other end of the appendix and gas transmission Room is connected to, and the water storage box is arranged in the lower section of recovery room, and the leak pipe is arranged between water storage box and recovery room, described time It receives room to be connected to water storage box by leak pipe, the leak pipe is equipped with the first opening, and the baffle plate setting is in leak pipe, institute It states baffle with the first opening to match, the reciprocator is arranged in the lower section of shell, and the reciprocator connect with baffle, institute It states water storage box to be connected to indoor top is recycled by water-supply-pipe, the water pump is arranged on water-supply-pipe, sets in the recovery room There is rabbling mechanism；

The jet mechanism includes first motor, transmission component, two moving assemblies and two dust removal assemblies, and described first Motor is vertically fixed on the inside of shell, and the first motor is connect with one of moving assembly, and two moving assemblies pass through Transmission component is sequentially connected, and two dust removal assemblies are separately positioned on the both sides of target rod, and the dust removal assembly is arranged inside the shell Top；

The moving assembly includes lead screw, movable block, nozzle, second bearing seat and pilot unit, and the lead screw is vertically set It sets, the first motor is connect with the screw rod transmission in moving assembly one of in two moving assemblies, the movable block It is set on lead screw, the movable block is equipped with the screw thread to match with lead screw with the junction of lead screw, and the nozzle is fixed on The side of the close target rod of movable block, the second bearing seat fix bottom inside the shell, and the second bearing seat is set in On the bottom end of lead screw, the pilot unit is arranged on the inner wall of shell, and the pilot unit is connect with movable block；

The dust removal assembly includes lifting unit and filter screen, and the top of the lifting unit setting inside the shell is described Filter screen is vertically provided at the lower section of lifting unit.

Preferably, in order to more stably drive baffle, the reciprocator include the second motor, rotating wheel, drive rod, Follower lever, limited block and two montants, second motor are fixedly connected by one of montant with shell, the limited block It is fixedly connected with water storage box by another montant, second motor is sequentially connected with rotating wheel, one end of the drive rod Hinged with the separate circle centre position of rotating wheel, the other end of the drive rod and one end of follower lever are hinged, the follower lever it is another One end is fixedly connected with baffle, and the limited block is set on follower lever.

Preferably, in order to improve organic efficiency, the rabbling mechanism includes that third motor, rotation axis and at least two are stirred Plate is mixed, the third motor is horizontally fixed in recovery room, and the third motor is coaxially disposed with rotation axis, the third motor It is sequentially connected with rotation axis, each agitating plate is circumferentially evenly distributed on the periphery of rotation axis, sets that there are three the on the agitating plate One through-hole.

Preferably, in order to more stably be driven, the transmission component includes transmission belt and two driving wheels, the transmission Wheel is corresponded with lead screw, and the driving wheel tube is located on lead screw, and the driving wheel is fixedly connected with lead screw, and two driving wheels are logical Cross transmission belt drive connection.

Preferably, in order to improve the stability of movable block, the pilot unit includes connecting rod, Slave Block and guide rod, The guide rod is vertically arranged, and the both ends of the guide rod are fixedly connected with the top and bottom in shell respectively, described driven Block is arranged on the guide bar, and the Slave Block is fixedly connected by connecting rod with movable block.

Preferably, in order to more stably drive filter screen, the lifting unit include cross bar, driving unit, expansion bracket, Connecting plate, drive block, two sliding blocks and two limiting plates, the cross bar is horizontally disposed, and two limiting plates are separately fixed at cross bar Both ends, the limiting plate is fixedly connected with the top in shell, and two sliding blocks are set on cross bar, and the driving unit is set It sets between two sliding blocks, the connecting plate is horizontally disposed, and the connecting plate is equipped with strip-shaped hole, and the drive block is arranged in item In shape hole, the drive block matches with strip-shaped hole, and the drive block is slidably connected with strip-shaped hole, and the expansion bracket is vertically set Set, the both sides on the top of the expansion bracket are hinged with two sliding blocks respectively, the both sides of the bottom end of the expansion bracket respectively with connect Plate and drive block are hinged, and the filter screen is vertically fixed on the lower section of connecting plate.

Preferably, in order to more accurately drive two sliding blocks, the driving unit to include the 4th motor, gear and two Driven unit, the 4th motor are fixed on cross bar, and the 4th motor is connect with gear drive, two driven unit difference It is arranged above and below gear, the driven unit includes rack and limiting slot, and the limiting slot is horizontally disposed, the limit Position slot is fixedly connected with the top in shell, and the rack is arranged in limiting slot, and the rack is slidably connected with limiting slot, institute Wheel and rack engagement is stated, one end of the rack is fixedly connected with a slide block.

Preferably, in order to improve the driving precision of first motor, the first motor is servo motor.

Preferably, in order to mitigate the noise of water pump, the water pump is centrifugal pump.

Preferably, in order to extend the service life of lead screw, the making material of the lead screw is stainless steel.

The invention has the advantages that the graphene production equipment with methane recovery function that the deposition efficiency is high, leads to It crosses recovering mechanism and recycles remaining methane, avoid the waste of methane, to improve the practicability of the graphene production equipment, Compared with existing recovering mechanism, which is first discharged exhaust gas, recycles methane afterwards so that the recovering mechanism recycled Methane is purer, synchronizes jet to the both sides of target rod by jet mechanism so that the deposition efficiency of the graphene production equipment is more Height, to improve the market competitiveness of the graphene production equipment, compared with existing jet mechanism, the two of the jet mechanism A moving assembly synchronous operation so that the operational efficiency higher of the jet mechanism.

Description of the drawings

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural representation of the high graphene production equipment with methane recovery function of deposition efficiency of the present invention Figure；

Fig. 2 be the present invention the high graphene production equipment with methane recovery function of deposition efficiency moving assembly and The attachment structure schematic diagram of transmission component；

Fig. 3 is the reciprocator of the high graphene production equipment with methane recovery function of deposition efficiency of the present invention Structural schematic diagram；

Fig. 4 is the rabbling mechanism of the high graphene production equipment with methane recovery function of deposition efficiency of the present invention Structural schematic diagram；

Fig. 5 be the present invention the high graphene production equipment with methane recovery function of deposition efficiency lifting unit and The attachment structure schematic diagram of filter screen；

In figure：1. shell, 2. air inlets, 3. gas outlets, 4. first bearing seats, 5. target rods, 6. recovery rooms, 7. escape pipes, 8. solenoid valve, 9. appendixs, 10. gas transmission rooms, 11. water storage boxes, 12. leak pipes, 13. baffles, 14. water-supply-pipes, 15. water pumps, 16. First motor, 17. lead screws, 18. movable blocks, 19. nozzles, 20. filter screens, 21. second motors, 22. rotating wheels, 23. drive rods, 24. follower lever, 25. limited blocks, 26. third motors, 27. rotation axis, 28. agitating plates, 29. transmission belts, 30. driving wheels, 31. from Motion block, 32. guide rods, 33. cross bars, 34. expansion brackets, 35. connecting plates, 36. drive blocks, 37. sliding blocks, 38. limiting plates, 39. Four motors, 40. gears, 41. racks, 42. limiting slots.

Specific implementation mode

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, the graphene production equipment with methane recovery function that a kind of deposition efficiency is high, including shell 1, Recovering mechanism, two air inlets, 2, two gas outlets 3 and two first bearing seats 4, the recovering mechanism are arranged on shell 1, Two air inlets 2 are arranged at the top of shell 1, and two gas outlets 3 are arranged at the bottom of shell 1, two first bearing seats 4 The top and bottom of shell 1 are separately positioned on, target rod 5 and jet mechanism are equipped in the shell 1, the target rod 5 is vertically arranged, Two first bearing seats 4 are respectively sleeved at the top and bottom end of target rod 5, and the jet mechanism is arranged on the inner wall of shell 1；

Remaining methane is recycled by recovering mechanism, avoids the waste of methane, is set to improve graphene production Standby practicability, compared with existing recovering mechanism, which is first discharged exhaust gas, recycles methane afterwards so that the recycling machine The methane that structure recycles is purer, synchronizes jet to the both sides of target rod 5 by jet mechanism so that the graphene production equipment Deposition efficiency higher, to improve the market competitiveness of the graphene production equipment, compared with existing jet mechanism, should Two moving assemblies of jet mechanism are run simultaneously so that the operational efficiency higher of the jet mechanism.

As shown in Figs. 1-2, the recovering mechanism include recovery room 6, escape pipe 7, solenoid valve 8, appendix 9, gas transmission room 10, Water storage box 11, leak pipe 12, baffle 13, reciprocator, water-supply-pipe 14 and water pump 15, the recovery room 6 are fixed under shell 1 Side, the recovery room 6 are connected to by gas outlet 3 with shell 1, and the escape pipe 7 is horizontally set on the bottom of recovery room 6, described Solenoid valve 8 is arranged on escape pipe 7, and the gas transmission room 10 is fixed on the top of shell 1, one end of the appendix 9 and recycling Top connection in room 6, the other end of the appendix 9 are connected to gas transmission room 10, and the water storage box 11 is arranged in recovery room 6 Lower section, the leak pipe 12 are arranged between water storage box 11 and recovery room 6, and the recovery room 6 passes through leak pipe 12 and water storage box 11 connections, the leak pipe 12 are equipped with the first opening, and the baffle 13 is arranged in leak pipe 12, the baffle 13 and first Opening matches, and the reciprocator is arranged in the lower section of shell 1, and the reciprocator connect with baffle 13, the water storage box 11 are connected to by water-supply-pipe 14 with the top in recovery room 6, and the water pump 15 is arranged on water-supply-pipe 14, in the recovery room 6 Equipped with rabbling mechanism；

Methane in gas transmission room 10 enters through air inlet 2 in shell 1, and the carbon atom in methane deposits in target rod 5, then Exhaust gas is entered by gas outlet 3 in recovery room 6, and after a period of time, methane will swim in the top in recovery room 6, other Exhaust gas is deposited on the bottom in recovery room 6, at this point, solenoid valve 8 is opened, other exhaust gas are discharged through escape pipe 7, then, solenoid valve 8 It closes, water pump 15 flows into the water in water storage box 11 in recovery room 6 through water-supply-pipe 14, and methane is under the extruding of water through appendix 9 It is back in gas transmission room 10, to realize the recycling of methane.

As shown in Figure 1, Figure 2 and Fig. 5 shown in, the jet mechanism include first motor 16, transmission component, two moving assemblies and Two dust removal assemblies, the first motor 16 are vertically fixed on the inside of shell 1, the first motor 16 and one of movement Component connects, and two moving assemblies are sequentially connected by transmission component, and two dust removal assemblies are separately positioned on the both sides of target rod 5, The top in shell 1 is arranged in the dust removal assembly；

The moving assembly includes lead screw 17, movable block 18, nozzle 19, second bearing seat and pilot unit, the lead screw 17 is vertically arranged, and the transmission of lead screw 17 one of in the first motor 16 and two moving assemblies in moving assembly connects Connect, the movable block 18 is set on lead screw 17, the movable block 18 be equipped with the junction of lead screw 17 and 17 phase of lead screw The screw thread matched, the nozzle 19 are fixed on the side of the close target rod 5 of movable block 18, and the second bearing seat is fixed on shell 1 Interior bottom, the second bearing seat are set on the bottom end of lead screw 17, and the pilot unit is arranged on the inner wall of shell 1, The pilot unit is connect with movable block 18；

The dust removal assembly includes lifting unit and filter screen 20, and the top in shell 1, institute is arranged in the lifting unit State the lower section that filter screen 20 is vertically provided at lifting unit；

First motor 16 drives one of lead screw 17 to rotate so that and movable block 18 is moved up and down along lead screw 17, to Drive nozzle 19 move up and down, methane is injected in target rod 5, by second bearing seat the rotation for not influencing lead screw 17 feelings It plays a supporting role to lead screw 17 under condition, so as to improve the stability of lead screw 17.

As shown in figure 3, the reciprocator includes the second motor 21, rotating wheel 22, drive rod 23, follower lever 24, limit Block 25 and two montants, second motor 21 are fixedly connected by one of montant with shell 1, and the limited block 25 passes through Another montant is fixedly connected with water storage box 11, and second motor 21 is sequentially connected with rotating wheel 22, the drive rod 23 One end and the separate circle centre position of rotating wheel 22 are hinged, and the other end of the drive rod 23 is hinged with one end of follower lever 24, described The other end of follower lever 24 is fixedly connected with baffle 13, and the limited block 25 is set on follower lever 24, the driving of the second motor 21 Rotating wheel 22 rotates, and drives follower lever 24 to be moved back and forth along limited block 25 by drive rod 23, to drive baffle 13 or so It is mobile, limited support is played the role of to follower lever 24 by limited block 25, so as to more stably drive baffle 13.

As shown in figure 4, the rabbling mechanism includes third motor 26, rotation axis 27 and at least two agitating plates 28, it is described Third motor 26 is horizontally fixed in recovery room 6, and the third motor 26 is coaxially disposed with rotation axis 27, the third motor 26 It is sequentially connected with rotation axis 27, each agitating plate 28 is circumferential to be evenly distributed on the periphery of rotation axis 27, is set on the agitating plate 28 There are three first through hole, third motor 26 drives rotation axis 27, and each agitating plate 28 is driven to rotate, and some flows are logical by first Hole, some flows are stirred the blocking of plate 28, so that two parts flow direction passes through on the contrary, after water enters in recovery room 6 Gas in water is accelerated to float by stirring, so as to improve organic efficiency.

Preferably, in order to more stably be driven, the transmission component includes transmission belt 29 and two driving wheels 30, described Driving wheel 30 is corresponded with lead screw 17, and the driving wheel 30 is set on lead screw 17, and the driving wheel 30 is fixed with lead screw 17 Connection, two driving wheels 30 are sequentially connected by transmission belt 29, and one of lead screw 17 is rotated by first motor 16, Pass through transmission belt 29 and drive the rotation of another driving wheel 30 so that two lead screws 17 rotate synchronously, due to V belt translation compare and its His kind of drive is more stable, so as to more stably transmit the rotation of lead screw 17.

Preferably, in order to improve the stability of movable block 18, the pilot unit includes connecting rod, Slave Block 31 and is oriented to Bar 32, the guide rod 32 is vertically arranged, and the both ends of the guide rod 32 are fixed with the top and bottom in shell 1 respectively to be connected It connects, the Slave Block 31 is set on guide rod 32, and the Slave Block 31 is fixedly connected by connecting rod with movable block 18, guide rod 32 limit the rotation of Slave Block 31, and Slave Block 31 limits the rotation of movable block 18 by connecting rod, so as to improve movement The stability of block 18.

As shown in figure 5, the lifting unit include cross bar 33, driving unit, expansion bracket 34, connecting plate 35, drive block 36, Two sliding blocks 37 and two limiting plates 38, the cross bar 33 is horizontally disposed, and two limiting plates 38 are separately fixed at the two of cross bar 33 End, the limiting plate 38 are fixedly connected with the top in shell 1, and two sliding blocks 37 are set on cross bar 33, and the driving is single Member is arranged between two sliding blocks 37, and the connecting plate 35 is horizontally disposed, and the connecting plate 35 is equipped with strip-shaped hole, the transmission Block 36 is arranged in strip-shaped hole, and the drive block 36 matches with strip-shaped hole, and the drive block 36 is slidably connected with strip-shaped hole, institute State that expansion bracket 34 is vertically arranged, the both sides on the top of the expansion bracket 34 are hinged with two sliding blocks 37 respectively, the expansion bracket 34 Bottom end both sides it is hinged with connecting plate 35 and drive block 36 respectively, the filter screen 20 is vertically fixed under connecting plate 35 Side, driving unit drive two sliding blocks 37 close to each other or are located remotely from each other, to drive expansion bracket 34 to extend by drive block 36 Or it shrinking so that filter screen 20 moves up and down, when jet mechanism just starts, the easy to carry a large amount of ashes of gas of the ejection of nozzle 19 Dirt can filter these dusts by filter screen 20, since two sliding blocks 37 are when moving by the position-limiting action of limiting plate 38 Without departing from cross bar 33, so as to more stably drive filter screen 20.

As shown in figure 5, the driving unit includes the 4th motor 39, gear 40 and two driven units, the 4th electricity Machine 39 is fixed on cross bar 33, and the 4th motor 39 is sequentially connected with gear 40, and two driven units are separately positioned on gear Above and below in the of 40, the driven unit includes rack 41 and limiting slot 42, and the limiting slot 42 is horizontally disposed, the limit Slot 42 is fixedly connected with the top in shell 1, and the rack 41 is arranged in limiting slot 42, and the rack 41 is slided with limiting slot 42 Dynamic connection, the gear 40 are engaged with rack 41, and one end of the rack 41 is fixedly connected with sliding block 37, the driving of the 4th motor 39 Gear 40 rotates, and two racks 41 is driven to be moved backward along limiting slot 42, and rack 41 is moved with movable slider 37, by controlling tooth The rotational angle of wheel 40 can be accurately controlled the displacement of rack 41, so as to more accurately drive two sliding blocks 37.

Preferably, in order to improve the driving precision of first motor 16, the first motor 16 is servo motor.

Preferably, in order to mitigate the noise of water pump 15, the water pump 15 is centrifugal pump.

Preferably, in order to extend the service life of lead screw 17, the making material of the lead screw 17 is stainless steel, stainless steel With good corrosion resistance, it can effectively slow down the rate that is corroded of lead screw 17, so as to extend the use of lead screw 17 Service life.

Remaining methane is recycled by recovering mechanism, avoids the waste of methane, organic efficiency is improved by rabbling mechanism, Baffle 13 is driven to move back and forth by reciprocator, to control the switch of leak pipe 12, to improve graphene production The practicability of equipment, compared with existing recovering mechanism, which is first discharged exhaust gas, recycles methane afterwards so that the recycling The methane that mechanism recycles is purer, and first motor 16 drives one of moving assembly that nozzle 19 is driven to move up and down, and leads to Crossing transmission component drives another moving assembly that nozzle 19 is driven to move up and down, and synchronizes jet to the both sides of target rod 5 so that the stone The deposition efficiency higher of black alkene production equipment, the stability of movable block 18 is improved by pilot unit, to improve the stone The market competitiveness of black alkene production equipment, compared with existing jet mechanism, two moving assemblies of the jet mechanism synchronize fortune Row so that the operational efficiency higher of the jet mechanism.

Compared with prior art, the high graphene production equipment with methane recovery function of the deposition efficiency, by returning It receives mechanism and recycles remaining methane, avoid the waste of methane, it is and existing to improve the practicability of the graphene production equipment Some recovering mechanisms are compared, which is first discharged exhaust gas, recycles methane afterwards so that the methane that the recovering mechanism recycles It is purer, jet is synchronized to the both sides of target rod 5 by jet mechanism so that the deposition efficiency higher of the graphene production equipment, To improve the market competitiveness of the graphene production equipment, compared with existing jet mechanism, two of the jet mechanism Moving assembly is run simultaneously so that the operational efficiency higher of the jet mechanism.

It is enlightenment with above-mentioned desirable embodiment according to the present invention, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to determine its technical scope according to right.

Claims (10)

1. a kind of high graphene production equipment with methane recovery function of deposition efficiency, which is characterized in that including shell (1), recovering mechanism, two air inlets (2), two gas outlets (3) and two first bearing seats (4), the recovering mechanism setting On shell (1), two air inlets (2) are arranged at the top of shell (1), and two gas outlets (3) are arranged at shell (1) Bottom, two first bearing seats (4) are separately positioned on the top and bottom of shell (1), target rod (5) are equipped in the shell (1) With jet mechanism, the target rod (5) is vertically arranged, and two first bearing seats (4) are respectively sleeved at the top and bottom of target rod (5) End, the jet mechanism are arranged on the inner wall of shell (1)；

The recovering mechanism includes recovery room (6), escape pipe (7), solenoid valve (8), appendix (9), gas transmission room (10), water storage box (11), leak pipe (12), baffle (13), reciprocator, water-supply-pipe (14) and water pump (15), the recovery room (6) are fixed on outer The lower section of shell (1), the recovery room (6) are connected to by gas outlet (3) with shell (1), and the escape pipe (7) is horizontally set on back The bottom of room (6) is received, the solenoid valve (8) is arranged on escape pipe (7), and the gas transmission room (10) is fixed on the upper of shell (1) Side, one end of the appendix (9) are connected to the top in recovery room (6), the other end and the gas transmission room of the appendix (9) (10) be connected to, the water storage box (11) setting in the lower section of recovery room (6), leak pipe (12) setting in water storage box (11) and Between recovery room (6), the recovery room (6) is connected to by leak pipe (12) with water storage box (11), is set on the leak pipe (12) There is the first opening, in leak pipe (12), the baffle (13) matches with the first opening, described past for baffle (13) setting Structure of answering a pager's call is arranged in the lower section of shell (1), and the reciprocator connect with baffle (13), and the water storage box (11) passes through water-supply-pipe (14) it is connected to the top in recovery room (6), the water pump (15) is arranged on water-supply-pipe (14), is set in the recovery room (6) There is rabbling mechanism；

The jet mechanism includes first motor (16), transmission component, two moving assemblies and two dust removal assemblies, and described first Motor (16) is vertically fixed on the inside of shell (1), and the first motor (16) connect with one of moving assembly, two shiftings Dynamic component is sequentially connected by transmission component, and two dust removal assemblies are separately positioned on the both sides of target rod (5), and the dust removal assembly is set Set the top in shell (1)；

The moving assembly includes lead screw (17), movable block (18), nozzle (19), second bearing seat and pilot unit, the silk Bar (17) is vertically arranged, the first motor (16) and the lead screw (17) in moving assembly one of in two moving assemblies It is sequentially connected, the movable block (18) is set on lead screw (17), and the movable block (18) sets with the junction of lead screw (17) There is the screw thread to match with lead screw (17), the nozzle (19) is fixed on the side of the close target rod (5) of movable block (18), described Second bearing seat is fixed on the bottom in shell (1), and the second bearing seat is set on the bottom end of lead screw (17), the guiding Unit is arranged on the inner wall of shell (1), and the pilot unit is connect with movable block (18)；

The dust removal assembly includes lifting unit and filter screen (20), the top that the lifting unit is arranged in shell (1), institute State the lower section that filter screen (20) is vertically provided at lifting unit.

2. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In, the reciprocator include the second motor (21), rotating wheel (22), drive rod (23), follower lever (24), limited block (25) and Two montants, second motor (21) are fixedly connected by one of montant with shell (1), and the limited block (25) passes through Another montant is fixedly connected with water storage box (11), and second motor (21) is sequentially connected with rotating wheel (22), the driving One end of bar (23) is hinged with the separate circle centre position of rotating wheel (22), the other end and the follower lever (24) of the drive rod (23) One end is hinged, and the other end of the follower lever (24) is fixedly connected with baffle (13), and the limited block (25) is set in follower lever (24) on.

3. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the rabbling mechanism includes third motor (26), rotation axis (27) and at least two agitating plates (28), the third motor (26) it is horizontally fixed in recovery room (6), the third motor (26) is coaxially disposed with rotation axis (27), the third motor (26) it is sequentially connected with rotation axis (27), each agitating plate (28) is circumferentially evenly distributed on the periphery of rotation axis (27), described to stir Mix first through hole there are three being set on plate (28).

4. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the transmission component includes transmission belt (29) and two driving wheels (30), and the driving wheel (30) is a pair of with lead screw (17) one It answers, the driving wheel (30) is set on lead screw (17), and the driving wheel (30) is fixedly connected with lead screw (17), two driving wheels (30) it is sequentially connected by transmission belt (29).

5. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the pilot unit includes connecting rod, Slave Block (31) and guide rod (32), and the guide rod (32) is vertically arranged, described to lead It is fixedly connected respectively with the top and bottom in shell (1) to the both ends of bar (32), the Slave Block (31) is set in guide rod (32) on, the Slave Block (31) is fixedly connected by connecting rod with movable block (18).

6. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the lifting unit includes cross bar (33), driving unit, expansion bracket (34), connecting plate (35), drive block (36), two cunnings Block (37) and two limiting plates (38), the cross bar (33) is horizontally disposed, and two limiting plates (38) are separately fixed at cross bar (33) Both ends, the limiting plate (38) is fixedly connected with the top in shell (1), and two sliding blocks (37) are set in cross bar (33) On, the driving unit is arranged between two sliding blocks (37), and the connecting plate (35) is horizontally disposed, on the connecting plate (35) Equipped with strip-shaped hole, the drive block (36) is arranged in strip-shaped hole, and the drive block (36) matches with strip-shaped hole, the transmission Block (36) is slidably connected with strip-shaped hole, and the expansion bracket (34) is vertically arranged, the both sides difference on the top of the expansion bracket (34) Hinged with two sliding blocks (37), the both sides of the bottom end of the expansion bracket (34) are cut with scissors with connecting plate (35) and drive block (36) respectively It connects, the filter screen (20) is vertically fixed on the lower section of connecting plate (35).

7. the high graphene production equipment with methane recovery function of deposition efficiency as claimed in claim 6, feature exist In the driving unit includes the 4th motor (39), gear (40) and two driven units, and the 4th motor (39) is fixed on On cross bar (33), the 4th motor (39) is sequentially connected with gear (40), and two driven units are separately positioned on gear (40) Above and below, the driven unit includes rack (41) and limiting slot (42), and the limiting slot (42) is horizontally disposed, described Limiting slot (42) is fixedly connected with the top in shell (1), and rack (41) setting is in limiting slot (42), the rack (41) it is slidably connected with limiting slot (42), the gear (40) is engaged with rack (41), one end of the rack (41) and sliding block (37) it is fixedly connected.

8. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the first motor (16) is servo motor.

9. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the water pump (15) is centrifugal pump.

10. the high graphene production equipment with methane recovery function of deposition efficiency as described in claim 1, feature exist In the making material of the lead screw (17) is stainless steel.