CN110815587A - Graphene plate positioning and drilling device - Google Patents

Abstract

The invention discloses a graphene plate positioning and drilling device, which belongs to the technical field of graphene material processing and comprises a workbench, a drilling platform, a positioning and clamping assembly, a drilling assembly and a waste recovery assembly, wherein the workbench is arranged on the ground, the drilling platform is arranged in the center of the top of the workbench, the positioning and clamping assembly is arranged beside the drilling platform, the drilling assembly is arranged beside the positioning and clamping assembly, the waste recovery assembly is arranged below the workbench, and one end of the waste recovery assembly extends onto the drilling assembly. The invention solves the problems that the existing electric drill is held by a worker to drill holes on a graphene plate, the drilling precision is low, and the worker is easy to suck waste dust generated by drilling and injure the body of the worker.

Description

Graphene plate positioning and drilling device

Technical Field

The invention relates to the technical field of processing of graphene materials, in particular to a positioning and drilling device for a graphene plate.

Background

Graphene is a two-dimensional material that is a single-layer sheet structure composed of carbon atoms and is only one carbon atom thick. Graphene exhibits excellent properties in many aspects, for example, graphene is almost completely transparent, absorbs only 2.3% of light, and has very good light transmittance; the thermal conductivity coefficient of the graphene is as high as 5300W/m.K, which is higher than that of the carbon nano tube and the diamond; the electron mobility of the graphene at normal temperature exceeds 15000cm 2/V.s, and is higher than that of a carbon nanotube and a silicon crystal; graphene has a resistivity of only 10-6 Ω · cm, which is lower than copper or silver, and is the lowest material in the past.

Graphene has better toughness and intensity, receives more and more trades and uses graphene, in the processing production of graphite alkene panel, often needs to fix a position the drilling to graphite alkene panel. The current handheld electric drill by the workman drills on graphite alkene panel, and this kind of mode drilling precision is low to the workman inhales the waste material dust that the drilling produced easily, causes the injury to the workman's health.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a positioning and drilling device for a graphene plate, so as to solve the technical problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a graphite alkene panel location drilling equipment, includes workstation, drilling platform, location clamping components, drilling subassembly and waste recovery subassembly, the workstation sets up subaerial, the drilling platform sets up the top central authorities department of workstation, location clamping components sets up the side of drilling platform, the drilling subassembly sets up the side of location clamping components, the waste recovery subassembly sets up the below of workstation, and the one end of waste recovery subassembly extends to on the drilling subassembly.

Furthermore, the positioning and clamping assembly comprises two guide rails and two clamping components, the two guide rails are symmetrically arranged beside the drilling platform, the two clamping components have the same structure, the two clamping components can be slidably mounted on the two guide rails, each clamping component comprises a sliding plate, a rotating shaft, a rotating rod, an electric push rod, a first lead screw sliding table and two clamping components, the sliding plate can be slidably mounted on the two guide rails, the rotating shaft can be rotatably mounted on the sliding plate, the rotating rod is fixedly connected with the top of the rotating shaft, the two clamping components are symmetrically arranged on the sliding plate, one ends of the two clamping components are respectively hinged with the rotating rod, the electric push rod is horizontally arranged on the sliding plate, and the output end of the electric push rod is fixedly connected with one of the clamping components, the first screw rod sliding table is arranged beside one of the guide rails, and the moving end of the first screw rod sliding table is fixedly connected with the side wall of the sliding plate.

Further, every the clamping piece all includes slide rail, slider, erection column, pinch-off blades and connecting rod, the slide rail is installed on the sliding plate, the slider can slidable mounting be in on the slide rail, the erection column is vertical setting and is in on the slider, the pinch-off blades is installed the top of erection column, the both ends of connecting rod respectively with the slider with the dwang is articulated, be equipped with a plurality of bump on the lateral wall of pinch-off blades.

Furthermore, the drilling assembly comprises a portal frame, a driving motor, a gear, a rack, a second screw rod sliding table, a mounting plate, a lifting cylinder, a drill bit and two moving rails, wherein the two moving rails are symmetrically arranged on the workbench, the portal frame can be slidably arranged on the two moving rails, the rack is arranged at the side of one of the moving rails, the driving motor is horizontally arranged at the bottom end of the portal frame, the gear is arranged on an output shaft of the driving motor, the gear is meshed with the rack, the second screw rod sliding table is arranged at the top end of the portal frame, the mounting plate is fixedly connected with the moving end of the second screw rod sliding table, the lifting cylinder is vertically arranged on the mounting plate, and the output end of the lifting cylinder faces downwards, and the drill bit is fixedly connected with the output end of the lifting cylinder.

Further, the waste recovery component comprises an L-shaped plate, a suction hopper, a fixed sleeve, a suction fan, a hose, a conveying pipe, a recovery box, an opening and closing door and a waste screening component, the L-shaped plate is arranged on the moving end of the second screw rod sliding table, the suction hopper is arranged on the side wall of one side of the L-shaped plate, the fixed sleeve is arranged on the side wall of the other surface of the L-shaped plate, the suction fan is arranged below the workbench, one end of the hose is communicated with the input end of the suction fan, the other end of the hose penetrates through the fixed sleeve and is communicated with the suction hopper, the recovery box is arranged beside the suction fan, two ends of the conveying pipe are respectively communicated with the output end of the suction fan and the recovery box, the opening and closing door is hinged to the recycling box, and the waste screening component is arranged in the recycling box.

Furthermore, the waste screening component comprises a fixed plate, a screening box, a screening plate, two vibrating motors and four spring supporting pieces, the fixed plate is fixedly connected with the inner bottom end of the recovery box, the four spring supporting pieces are respectively arranged on the fixed plate in a rectangular shape, the screening box is fixedly connected with the tops of the four spring supporting pieces, the screening plate is arranged in the screening box, and a plurality of screening holes are arranged on the screening plate, two vibration motors are symmetrically arranged on the outer side wall of the screening box, each spring support piece comprises an upper mounting seat, a lower mounting seat and a support spring, the upper mounting seat is fixedly connected with the bottom of the screening box, the lower mounting seat is fixedly connected with the top of the fixed plate, and two ends of the supporting spring are respectively fixedly connected with the upper mounting seat and the lower mounting seat.

Furthermore, be equipped with two sliding doors rather than articulated on the lateral wall of screening case, and two the sliding door is located respectively the upper and lower both ends of screening board, two all be equipped with the slot on the sliding door, be equipped with on the screening case with the jack that the slot corresponds, it has the locating pin to peg graft in the jack.

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

firstly, the graphene board to be processed is placed on the drilling platform manually, then the positioning and clamping assembly works to position and clamp the graphene board on the drilling platform, and then the drilling assembly works to drill the graphene board.

Secondly, the sliding plate is driven to move in the two guide rails through the work of the first screw rod sliding table in the two clamping parts, the distance between the two clamping parts is adjusted, the positioning and clamping of graphene plates with different sizes are convenient, when the two clamping parts move to proper positions, the electric push rods in the two clamping parts work to drive one of the clamping parts to move, one of the clamping parts drives the rotating rod to rotate on the rotating shaft due to the fact that one end of each of the two clamping parts is hinged to the rotating rod, the rotating rod drives the other clamping part to move synchronously, and the two clamping parts move relatively to clamp the side walls of the graphene plates.

Thirdly, the gear is driven to rotate through the work of the driving motor, the gear is meshed with the gear, the gear drives the gantry to move on the two moving rails, when the gantry moves to the position above a position to be drilled on the graphene plate, the driving motor stops working, the lifting cylinder drives the drill bit to move downwards at the moment, the drill bit moves downwards to drill the graphene plate, when other positions of the graphene plate need to be drilled, the drilling can be realized only by driving the drill bit to move through the work of the second screw rod sliding table, meanwhile, the driving motor drives the gantry to move, the drill bit can conveniently drill any position of the graphene plate, the purpose of drilling the graphene plate without dead corners is achieved, compared with a mode that a worker holds an electric drill to drill the graphene plate, the drilling precision is improved, and the drilling efficiency is improved.

Fourthly, the suction fan sucks waste dust generated by drilling of the drill bit, the waste dust enters the recovery box through the hose and the conveying pipe, then the waste screening component screens the waste dust according to the size of the waste dust, the waste dust is conveniently and reasonably recycled in later period, the waste dust is prevented from being sucked into the body by workers, the bodies of the workers cannot be injured, and the hose cannot be damaged due to movement of the portal frame.

Fifthly, when the waste dust enters the screening box, the screening box is driven to vibrate through the work of the two vibrating motors, the waste dust is screened by the screening holes in the screening plate, the waste dust with the size smaller than that of the screening holes falls below the screening plate through the screening holes, the waste dust with the size larger than that of the screening holes is accumulated on the screening plate, and the four spring supporting pieces can avoid driving the fixed plate and the recovery box to vibrate synchronously when the screening box vibrates.

Drawings

FIG. 1 is a first perspective view of the present invention;

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

FIG. 3 is a first perspective view of the positioning and clamping assembly of the present invention;

FIG. 4 is a schematic perspective view of a positioning and clamping assembly according to the present invention;

FIG. 5 is a perspective view of the drilling assembly of the present invention;

FIG. 6 is a schematic view of a partial perspective view of the waste recovery assembly of the present invention;

FIG. 7 is a first perspective view of a waste screen assembly of the present invention;

FIG. 8 is a second perspective view of the waste screen assembly of the present invention;

FIG. 9 is a schematic perspective view of the sliding door of the present invention;

fig. 10 is a schematic perspective view of the screening box of the present invention.

The reference numbers in the figures are: 1-a workbench; 2-drilling a hole; 3-positioning the clamping assembly; 31-a guide rail; 32-a clamping member; 321-a sliding plate; 322-a rotating shaft; 323-rotating rod; 324-an electric push rod; 325-a first screw rod sliding table; 326-a clamping member; 3261-slide rail; 3262-sliding block; 3263-mounting the column; 3264-clamping plate; 3265-connecting rod; 3266-bump; 4-a drilling assembly; 41-a portal frame; 42-a drive motor; 43-gear; 44-a rack; 45-a second screw rod sliding table; 46-a mounting plate; 47-lifting cylinder; 48-a drill bit; 49-moving rail; 5-a waste recovery assembly; a 51-L template; 52-a suction hopper; 53-fixing the sleeve; 54-a suction fan; 55-a hose; 56-conveying pipe; 57-a recovery tank; 58-opening and closing the door; 59-waste screening means; 591-fixing the plate; 592-screening box; 5921-sliding doors; 5922-slot; 5923-a receptacle; 5924-locating pins; 593-screening plate; 594-a vibration motor; 595 — a spring support; 5951-upper mounting seat; 5952-lower mount; 5953-support springs; 596-screening wells.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 10, the present invention provides a positioning and drilling device for graphene plates, which includes a workbench 1, a drilling table 2, a positioning and clamping assembly 3, a drilling assembly 4 and a waste recovery assembly 5, wherein the workbench 1 is disposed on the ground, the drilling table 2 is disposed at the center of the top of the workbench 1, the positioning and clamping assembly 3 is disposed beside the drilling table 2, the drilling assembly 4 is disposed beside the positioning and clamping assembly 3, the waste recovery assembly 5 is disposed below the workbench 1, one end of the waste recovery assembly 5 extends onto the drilling assembly 4, a graphene plate to be processed is manually placed on the drilling table 2, then the positioning and clamping assembly 3 operates to position and clamp the graphene plate on the drilling table 2, then the drilling assembly 4 operates to drill the graphene plate, compared with the mode of drilling on graphite alkene panel by adopting the handheld electric drill of workman, improved the drilling precision to improved drilling efficiency, waste material recovery subassembly 5 synchronous working retrieves the waste material dust that drilling produced when drilling subassembly 4 works, avoids the waste material dust to be inhaled internally by the workman, can not cause the injury to the workman health.

The positioning and clamping assembly 3 comprises two guide rails 31 and two clamping components 32, wherein the two guide rails 31 are symmetrically arranged at the side of the drilling platform 2, the two clamping components 32 have the same structure, and the two clamping components 32 can be slidably mounted on the two guide rails 31, each clamping component 32 comprises a sliding plate 321, a rotating shaft 322, a rotating rod 323, an electric push rod 324, a first screw rod sliding table 325 and two clamping components 326, the sliding plate 321 can be slidably mounted on the two guide rails 31, the rotating shaft 322 can be rotatably mounted on the sliding plate 321, the rotating rod 323 is fixedly connected with the top of the rotating shaft 322, the two clamping components 326 are symmetrically arranged on the sliding plate 321, one ends of the two clamping components 326 are respectively hinged with the rotating rod 323, and the electric push rod 324 is horizontally arranged on the sliding plate 321, and the output end of the electric push rod 324 is fixedly connected with one of the clamping members 326, the first screw rod sliding table 325 is installed beside one of the guide rails 31, and the moving end of the first screw rod sliding table 325 is fixedly connected with the side wall of the sliding plate 321, the sliding plate 321 is driven to move in the two guide rails 31 by the operation of the first screw rod sliding table 325 in the two clamping members 32, the distance between the two clamping members 32 is adjusted, so as to position and clamp graphene plates with different sizes conveniently, when the two clamping members 32 move to proper positions, the electric push rod 324 in the two clamping members 32 drives one of the clamping members 326 to move, because one end of the two clamping members 326 is hinged with the rotating rod 323, one of the clamping members 326 drives the rotating rod 323 to rotate on the rotating shaft 322, and the rotating rod 323 drives the other clamping member 326 to move synchronously, the two clamping members 326 move relatively to clamp the side walls of the graphene plate.

Each clamping member 326 comprises a sliding rail 3261, a sliding block 3262, a mounting column 3263, clamping plates 3264 and a connecting rod 3265, the sliding rail 3261 is mounted on the sliding plate 321, the sliding block 3262 can be slidably mounted on the sliding rail 3261, the mounting column 3263 is vertically arranged on the sliding block 3262, the clamping plates 3264 are mounted on the top of the mounting column 3263, two ends of the connecting rod 3265 are respectively hinged to the sliding block 3262 and the rotating rod 323, a plurality of salient points 3266 are arranged on the side wall of the clamping plate 3264, one of the connecting rods 3265 is driven to move by the operation of an electric push rod 324, the connecting rod 3265 drives the rotating rod 323 to rotate on the rotating shaft 322, the rotating rod 323 drives the other connecting rod 3265 to move synchronously, the two connecting rods 3265 drive the two sliding blocks 3262 to move relatively on the sliding rail 3261, the two sliding blocks 3262 drive the two clamping plates 3264 to move relatively, and the two clamping plates 3264 move relatively to clamp the side wall, the plurality of salient points 3266 increase the friction force between the clamping plate 3264 and the graphene plate, so that the clamping effect is better.

Drilling assembly 4 includes portal frame 41, driving motor 42, gear 43, rack 44, second lead screw slip table 45, mounting panel 46, lift cylinder 47, drill bit 48 and two removal rails 49, two removal rails 49 are the symmetry and set up on workstation 1, portal frame 41 can slidable mounting two on removal rails 49, rack 44 sets up one of them removal rails 49's side, driving motor 42 is the level setting and is in portal frame 41's bottom, gear 43 installs on driving motor 42's the output shaft, and gear 43 with the rack 44 meshing, second lead screw slip table 45 installs the top of portal frame 41, mounting panel 46 with the removal end fixed connection of second lead screw slip table 45, lift cylinder 47 is vertical setting on mounting panel 46, and lift cylinder 47's output is down, the drill bit 48 is fixedly connected with the output end of the lifting cylinder 47, the gear 43 is driven to rotate by the work of the driving motor 42, the gear 43 is meshed with the gear 43, so that the gear 43 drives the portal frame 41 to move on the two moving rails 49, when the portal frame 41 moves to a position above a position to be drilled on the graphene plate, the driving motor 42 stops working, the lifting cylinder 47 drives the drill bit 48 to move downwards, the drill bit 48 moves downwards to drill the graphene plate, when other positions of the graphene plate need to be drilled, the drilling can be realized only by driving the drill bit 48 to move by the work of the second lead screw sliding table 45, meanwhile, the driving motor 42 drives the portal frame 41 to move, so that the drill bit 48 can conveniently drill any position of the graphene plate, the purpose of drilling the graphene plate without dead angle is achieved, compared with a mode of drilling the graphene plate by a worker holding an electric drill, the drilling precision is improved, and the drilling efficiency is improved.

Waste recycling subassembly 5 includes L template 51, inhales hopper 52, fixed cover 53, suction fan 54, hose 55, conveyer pipe 56, collection box 57, opening and shutting door 58 and waste material screening component 59, L template 51 is installed on the removal end of second lead screw slip table 45, it installs to inhale hopper 52 on L template 51's a lateral wall, fixed cover 53 is installed on L template 51's another side lateral wall, suction fan 54 is installed the below of workstation 1, the one end of hose 55 with suction fan 54's input is linked together, the other end of hose 55 pass behind the fixed cover 53 with it is linked together to inhale hopper 52, collection box 57 sets up the side of suction fan 54, the both ends of conveyer pipe 56 respectively with suction fan 54's output with collection box 57 is linked together, opening and shutting door 58 with collection box 57 is articulated, waste screening component 59 sets up in the collection box 57, absorb the waste material dust that drill bit 48 drilling produced through suction fan 54 work and get into to the collection box 57 in hose 55 and conveyer pipe 56, then waste screening component 59 work screens the waste material dust according to the size of volume, make things convenient for the manual work in later stage to carry out reasonable recycle to the waste material dust, it is internal to avoid the waste material dust to be inhaled by the workman, can not cause the injury to the workman health, adopt hose 55 can not cause hose 55's damage because portal frame 41 removes.

The waste screening member 59 includes a fixing plate 591, a screening box 592, a screening plate 593, two vibration motors 594 and four spring supports 595, the fixing plate 591 is fixedly connected with the inner bottom end of the recycling box 57, the four spring supports 595 are rectangular and are respectively disposed on the fixing plate 591, the screening box 592 is fixedly connected with the tops of the four spring supports 595, the screening plate 593 is disposed in the screening box 592, and a plurality of screening holes 596 are disposed on the screening plate 593, the two vibration motors 594 are symmetrically disposed on the outer sidewall of the screening box 592, each spring support 595 includes an upper mount 5951, a lower mount 5952 and a support spring 5953, the upper mount 5951 is fixedly connected with the bottom of the screening box 592, the lower mount 5952 is fixedly connected with the top of the fixing plate 591, the two ends of the support spring 5953 are respectively fixedly connected with the upper mount 5951 and the lower mount 5952, when the waste material dust enters into in the screening case 592, drive screening case 592 vibration through two vibrating motor 594 works, a plurality of screening hole 596 on the screening board 593 screens the waste material dust, the waste material dust that the volume is less than screening hole 596 falls to screening board 593 below through screening hole 596, the waste material dust that the volume is greater than screening hole 596 is piled up on screening board 593, four spring support 595 can avoid driving fixed plate 591 and collection box 57 synchronous oscillation when screening case 592 vibrates.

Be equipped with two on the lateral wall of screening case 592 rather than articulated sliding door 5921, and two sliding door 5921 is located respectively the upper and lower both ends of screening board 593, two all be equipped with slot 5922 on the sliding door 5921, be equipped with on the screening case 592 with the jack 5923 that slot 5922 corresponds, it has locating pin 5924 to peg graft in the jack 5923, conveniently artifically clear up the waste material dust after screening in the screening case 592 through two sliding doors 5921, and locating pin 5924 is pegged graft in jack 5923, and when screening case 592 vibrates, locating pin 5924 is fixed a position two sliding doors 5921, prevents that sliding door 5921 from opening along with screening case 592 vibration.

The working principle of the invention is as follows: when the graphene plate drilling machine is used, a graphene plate to be processed is manually placed on the drilling table 2, then the first screw rod sliding table 325 in the two clamping parts 32 works to drive the sliding plate 321 to move in the two guide rails 31, the distance between the two clamping parts 32 is adjusted, and the graphene plate with different sizes is conveniently positioned and clamped, when the two clamping parts 32 move to proper positions, the electric push rods 324 in the two clamping parts 32 work to drive one of the connecting rods 3265 to move, the connecting rod 3265 drives the rotating rod 323 to rotate on the rotating shaft 322, the rotating rod 323 drives the other connecting rod 3265 to synchronously move, the two connecting rods 3265 drive the two sliding blocks 3262 to relatively move on the sliding rails 3261, the two sliding blocks 3262 drive the two clamping plates 3264 to relatively move, the two clamping plates 3264 relatively move to clamp the side wall of the graphene plate, and the plurality of salient points 3266 increase the friction force between the clamping plates 3264 and the graphene plate, the clamping effect is better, then the driving motor 42 works to drive the gear 43 to rotate, because the gear 43 is meshed with the gear 43, the gear 43 drives the portal frame 41 to move on the two moving rails 49, when the portal frame 41 moves to the position above the position of the graphene plate to be drilled, the driving motor 42 stops working, at the moment, the lifting cylinder 47 drives the drill bit 48 to move downwards, the drill bit 48 moves downwards to drill the graphene plate, when other positions of the graphene plate need to be drilled, the drilling can be realized only by the working of the second screw rod sliding table 45 to drive the drill bit 48 to move, meanwhile, the driving motor 42 works to drive the portal frame 41 to move, the drill bit 48 conveniently drills any position of the graphene plate, the purpose of drilling the graphene plate without dead angle is achieved, compared with the mode of drilling the graphene plate by a worker holding an electric drill by hand, the drilling precision is improved, and the drilling efficiency is improved, 48 when drilling bit to graphite alkene panel drilling, the waste material dust that 48 drilling of drill bit produced is absorb in the work of suction fan 54 enters into to collection box 57 through hose 55 and conveyer pipe 56, two vibrating motor 594 work drive screening box 592 vibrations, a plurality of screening hole 596 on the screening board 593 screens the waste material dust, the waste material dust that is less than screening hole 596 falls to screening board 593 below through screening hole 596, the waste material dust that is bulky in screening hole 596 is piled up on screening board 593, make things convenient for the manual reasonable recycle to the waste material dust in later stage, avoid the waste material dust to be inhaled internally by the workman, can not cause the injury to the workman health.

Claims (7)

1. The utility model provides a graphite alkene panel location drilling equipment which characterized in that: including workstation (1), drilling platform (2), location clamping components (3), drilling components (4) and waste recovery subassembly (5), workstation (1) sets up subaerial, drilling platform (2) set up the top central authorities department of workstation (1), location clamping components (3) set up the side of drilling platform (2), drilling components (4) set up the side of location clamping components (3), waste recovery subassembly (5) set up the below of workstation (1), and the one end of waste recovery subassembly (5) extends to on drilling components (4).

2. The graphene plate positioning and drilling device according to claim 1, wherein: the positioning and clamping assembly (3) comprises two guide rails (31) and two clamping parts (32), wherein the two guide rails (31) are symmetrically arranged at the side of the drilling platform (2), the two clamping parts (32) have the same structure, the two clamping parts (32) can be slidably arranged on the two guide rails (31), each clamping part (32) comprises a sliding plate (321), a rotating shaft (322), a rotating rod (323), an electric push rod (324), a first lead screw sliding table (325) and two clamping parts (326), the sliding plate (321) can be slidably arranged on the two guide rails (31), the rotating shaft (322) can be rotatably arranged on the sliding plate (321), the rotating rod (323) is fixedly connected with the top of the rotating shaft (322), and the two clamping parts (326) are symmetrically arranged on the sliding plate (321), one end of each of the two clamping pieces (326) is hinged to the rotating rod (323), the electric push rod (324) is horizontally arranged on the sliding plate (321), the output end of the electric push rod (324) is fixedly connected with one of the clamping pieces (326), the first screw rod sliding table (325) is installed beside one of the guide rails (31), and the moving end of the first screw rod sliding table (325) is fixedly connected with the side wall of the sliding plate (321).

3. The graphene plate positioning and drilling device according to claim 1, wherein: each clamping piece (326) comprises a sliding rail (3261), a sliding block (3262), a mounting column (3263), a clamping plate (3264) and a connecting rod (3265), the sliding rail (3261) is mounted on the sliding plate (321), the sliding block (3262) can be slidably mounted on the sliding rail (3261), the mounting column (3263) is vertically arranged on the sliding block (3262), the clamping plate (3264) is mounted at the top of the mounting column (3263), two ends of the connecting rod (3265) are respectively hinged to the sliding block (3262) and the rotating rod (323), and a plurality of salient points (3266) are arranged on the side wall of the clamping plate (3264).

4. The graphene plate positioning and drilling device according to claim 1, wherein: drilling subassembly (4) includes portal frame (41), driving motor (42), gear (43), rack (44), second lead screw slip table (45), mounting panel (46), lift cylinder (47), drill bit (48) and two removal rails (49), two removal rail (49) are the symmetry and set up on workstation (1), portal frame (41) can slidable mounting be two on removal rail (49), rack (44) set up one of them the side of removal rail (49), driving motor (42) are the level setting and are in the bottom of portal frame (41), gear (43) are installed on driving motor's (42) output shaft, and gear (43) with rack (44) meshing, second lead screw slip table (45) are installed the top of portal frame (41), mounting panel (46) with the removal end fixed connection of second lead screw (45), the lifting cylinder (47) is vertically arranged on the mounting plate (46), the output end of the lifting cylinder (47) faces downwards, and the drill bit (48) is fixedly connected with the output end of the lifting cylinder (47).

5. The graphene plate positioning and drilling device according to claim 4, wherein: waste recycling subassembly (5) include L template (51), inhale hopper (52), fixed cover (53), suction fan (54), hose (55), conveyer pipe (56), collection box (57), opening and shutting door (58) and waste screening part (59), L template (51) are installed on the removal end of second lead screw slip table (45), it installs to inhale hopper (52) on the one side lateral wall of L template (51), fixed cover (53) are installed on the another side lateral wall of L template (51), suction fan (54) are installed the below of workstation (1), the one end of hose (55) with the input of suction fan (54) is linked together, the other end of hose (55) passes behind fixed cover (53) with inhale hopper (52) and be linked together, collection box (57) set up the side of suction fan (54), the two ends of the conveying pipe (56) are respectively communicated with the output end of the suction fan (54) and the recovery box (57), the opening and closing door (58) is hinged with the recovery box (57), and the waste screening component (59) is arranged in the recovery box (57).

6. The graphene plate positioning and drilling device according to claim 5, wherein: the waste screening component (59) comprises a fixing plate (591), a screening box (592), a screening plate (593), two vibrating motors (594) and four spring supports (595), the fixing plate (591) is fixedly connected with the inner bottom end of the recovery box (57), the four spring supports (595) are respectively arranged on the fixing plate (591) in a rectangular shape, the screening box (592) is fixedly connected with the tops of the four spring supports (595), the screening plate (593) is arranged in the screening box (592), a plurality of screening holes (596) are formed in the screening plate (593), the two vibrating motors (594) are symmetrically arranged on the outer side wall of the screening box (592), each spring support (595) comprises an upper mounting seat (5951), a lower mounting seat (5952) and a supporting spring (5953), the upper mounting seat (5951) is fixedly connected with the bottom of the screening box (592), the lower mounting seat (5952) is fixedly connected with the top of the fixing plate (591), and two ends of the supporting spring (5953) are respectively and fixedly connected with the upper mounting seat (5951) and the lower mounting seat (5952).

7. The graphene plate positioning and drilling device according to claim 6, wherein: be equipped with two sliding door (5921) rather than articulated on the lateral wall of screening case (592), and two sliding door (5921) are located respectively the upper and lower both ends of screening board (593), two all be equipped with slot (5922) on sliding door (5921), be equipped with on screening case (592) with jack (5923) that slot (5922) correspond, peg graft in jack (5923) has locating pin (5924).

Images