CN113001782A

CN113001782A - Graphite thin film cutting equipment

Info

Publication number: CN113001782A
Application number: CN202110207058.3A
Authority: CN
Inventors: 鄢丽媛
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2021-06-22

Abstract

The invention discloses a graphite thin film cutting device, which structurally comprises a main body, a box door and a control panel, wherein the box door is arranged at the front end of the main body, the control panel is arranged at the front end of the top of the main body, the main body comprises an air inlet pipe, a cutting table, a cutting block and a scrap collecting box, the cutting table comprises an air groove, a pull rod, a guide block, a turnover device, an air injection device and a discharging pipe, the turnover device comprises a movable groove, a support plate, an upper ejector rod and an air injection groove, the movable groove comprises a groove body, an air guide block, a support frame and a support bar, the support bar comprises an air guide sheet, an air outlet hole and a filter screen, the guide block is driven by the pull rod to move forwards, the turnover device can drive a graphene film to be inclined, air flow can fully impact carbon powder on the end face of the film, the carbon powder is guided into the discharging pipe, the carbon powder can fall into the, the film can not be scratched when being stored.

Description

Graphite thin film cutting equipment

Technical Field

The invention relates to the field of graphene processing equipment, in particular to graphene film cutting equipment.

Background

Graphene is generally deposited with graphene powder by a vapor deposition method to form a graphene film, the graphene film needs to be cut in the processing process, and the graphene film needs to be cut by a film cutting machine during cutting, so that the graphene film is cut into segments with the same size, and the subsequent application of the graphene film is facilitated.

Based on the findings of the inventor, the existing graphite thin film cutting equipment mainly has the following defects, for example: when cutting the graphite alkene film, the cutter rubs the terminal surface of film and can produce a large amount of carbon dust, and the terminal surface that the film was arranged in to the carbon dust needs to be taken away through the air current, and partial carbon dust can adsorb the terminal surface at the film because the static that cutter and film friction produced for the film stacks the storage time, and the carbon dust can press from both sides and rub between the film, causes the condition of carbon dust fish tail graphite alkene film terminal surface.

Disclosure of Invention

In order to solve the problems, the invention provides a graphite thin film cutting device.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a thin membrane cutting equipment of graphite, its structure includes main part, chamber door, control panel, the front end of main part is equipped with the chamber door, control panel installs the top front end at the main part, the main part includes intake pipe, cutting bed, cutting piece, collection bits case, the intake pipe sets up the side in the main part, the top in the main part is installed to the cutting bed, the cutting piece block is in the top both ends of main part, collection bits case sets up the inside side in the main part.

Further, the cutting bed includes air duct, pull rod, guide block, turning device, air jet system, unloading pipe, the air duct sets up the inside at the cutting bed, the pull rod transversely runs through in the inside of air duct, the guide block is equipped with threely, and transverse arrangement is on the top of pull rod, turning device is equipped with threely, and transverse arrangement is in the up end of cutting bed, air jet system installs the end at the air duct, the unloading pipe sets up the bottom side at the cutting bed, the inside grooving that is equipped with the gradient of guide block, turning device and guide block activity block.

Further, turning device includes activity groove, backup pad, goes up ejector pin, jet-propelled groove, the activity groove sets up the top at the cutting bed, the side block in the activity groove of backup pad, the one end block in the bottom of backup pad of going up the ejector pin, and the other end and guide block looks block, jet-propelled groove sets up the side at the activity groove, the backup pad is the same with the length in activity groove.

Further, the jet-propelled groove includes cell body, air guide block, carriage, support bar, contained angle between the top of cell body and the horizontal plane is 30 degrees, air guide block installs in the positive centre of cell body, the carriage inlays the top at the cell body, the support bar is equipped with more than five, and transverse arrangement in the terminal surface of carriage, the carriage is the rubber material.

Further, the support bar is including leading gas piece, venthole, filter screen, it is equipped with two to lead the gas piece, and inlays respectively at the bottom both ends of support bar admittedly, the venthole is equipped with two, and is located the inside both ends of support bar respectively, the filter screen is equipped with two, and inlays respectively admittedly on the top of venthole, the width of venthole is enlarged gradually to both ends by the centre.

Further, the air jet system includes rubber ball, back discharge orifice, splitter plate, dispersible tablet, the rubber ball sets up the inside front end at the air jet system, back discharge orifice is equipped with more than three, and encircles the rear end arrangement in the rubber ball, the splitter plate is equipped with threely, and arranges in the inside rear end of air jet system perpendicularly, the dispersible tablet is equipped with two, and is located two double-phase splitter plate's rear end in the middle of just, the contained angle that forms between the dispersible tablet is 30 degrees.

Further, the dispersible tablet includes dispersion, axis of rotation, recoil spring, stopper, guide way, the terminal surface of dispersion is circular-arc, the axis of rotation is equipped with two, and is located the both ends of dispersion respectively, the recoil spring nestification is in the axis of rotation, the stopper sets up the inside side at air jet system, and with dispersion activity block, the guide way is equipped with threely, and transverse arrangement is in the inside of dispersion, the recoil spring and dispersion clearance fit.

Further, the guide way includes mounting groove, magnet, holds wind piece, resilience strip, the mounting groove is equipped with two, and is located the both ends of guide way respectively, the magnet is equipped with two, and inlays respectively at the inside both ends of mounting groove, hold wind piece block in the inside of mounting groove, resilience strip is equipped with two, and inlays respectively and firmly in the inside bottom that holds the wind piece, it is the plastics material to hold the wind piece, and the end inlays and has the iron sheet.

Advantageous effects

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

1. according to the invention, the guide block is driven by the pull rod to move forwards, so that the turnover device can drive the graphene film to be inclined, and the airflow can sufficiently impact the carbon powder on the end surface of the film, so that the carbon powder is guided into the discharging pipe, and can fall to the scrap collecting box for collection, thereby preventing the carbon powder from being attached to the end surface of the film due to static electricity and preventing the film from being scratched when being stored.

2. According to the invention, the rubber ball can be expanded by impacting the air flow, the air in the rubber ball is sprayed to the backward flow hole by contraction of the rubber ball, the spraying force of the air flow is increased, the air flow is uniformly sprayed on the upper end surface of the cutting table by the dispersing sheet, carbon powder is not attached to the end surface of the film due to static electricity, and the film is prevented from being scratched when being stored.

Drawings

Fig. 1 is a schematic structural view of a graphene film cutting apparatus according to the present invention.

Fig. 2 is a schematic front view of the main body of the present invention.

FIG. 3 is a schematic view of the cutting table of the present invention in elevation.

Fig. 4 is a schematic front view of the turning device of the present invention.

FIG. 5 is a schematic diagram of the front view of the gas injection groove of the present invention.

Fig. 6 is a schematic view of a front view structure of the supporting bar of the present invention.

Fig. 7 is a front view of the air injection device of the present invention.

Figure 8 is a schematic front view of the dispersible tablet of the present invention.

Fig. 9 is a front view of the guide groove of the present invention.

In the figure: the device comprises a main body 1, a box door 2, a control panel 3, an air inlet pipe 31, a cutting table 32, a cutting block 33, a scrap collecting box 34, an air vent groove 321, a pull rod 322, a guide block 323, a turnover device 324, an air injection device 325, a blanking pipe 326, a movable groove a1, a support plate a2, an upper ejector rod a3, an air injection groove a4, a groove body a41, an air guide block a42, a support frame a43, a support bar a44, an air guide sheet b1, an air outlet hole b2, a filter screen b3, a rubber ball c1, a rear flow hole c2, a diversion sheet c3, a dispersible sheet c4, a dispersion c41, a rotating shaft c42, a rewinding spring c43, a limit block c44, a guide groove c 9, an installation groove 686d 1, a magnet d2, an air storage block d3 and a.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows: referring to fig. 1-6, the embodiments of the present invention are as follows:

its structure includes main part 1, chamber door 2, control panel 3, the front end of main part 1 is equipped with chamber door 2, control panel 3 installs the top front end at main part 1, main part 1 includes intake pipe 31, cutting bed 32, cutting block 33, collection bits case 34, intake pipe 31 sets up the side at main part 1, the top at main part 1 is installed to cutting bed 32, cutting block 33 block in the top both ends of main part 1, collection bits case 34 sets up the inside side at main part 1.

The cutting table 32 comprises an air groove 321, a pull rod 322, guide blocks 323, a turnover device 324, an air injection device 325 and a discharging pipe 326, wherein the air groove 321 is arranged inside the cutting table 32, the pull rod 322 transversely penetrates through the air groove 321, the guide blocks 323 are three and transversely arranged at the top end of the pull rod 322, the turnover device 324 is three and transversely arranged on the upper end surface of the cutting table 32, the air injection device 325 is arranged at the tail end of the air groove 321, the discharging pipe 326 is arranged at the bottom side end of the cutting table 32, a cutting groove inclined by 30 degrees is arranged inside the guide blocks 323, the turnover device 324 is movably clamped with the guide blocks 323, so that the guide blocks 323 can be driven to move forwards by pulling the pull rod 322, the turnover device 324 upwards pushes through the cutting groove inclined by 30 degrees in the guide blocks 323, and the turnover device 324 can drive the graphene film to be inclined, the air flow is allowed to sufficiently impact the carbon powder on the end face of the film, thereby guiding the carbon powder into the discharge pipe 326.

The turnover device 324 comprises a movable groove a1, a support plate a2, an upper ejector rod a3 and an air injection groove a4, wherein the movable groove a1 is arranged at the top end of the cutting table 32, the side end of the support plate a2 is clamped with the movable groove a1, one end of the upper ejector rod a3 is clamped with the bottom of the support plate a2, the other end of the upper ejector rod a3 is clamped with the guide block 323, the air injection groove a4 is arranged at the side end of the movable groove a1, the length of the support plate a2 is the same as that of the movable groove a1, and the movable groove a1 can be laid flat when the support plate a2 is not lifted.

Jet-propelled groove a4 includes cell body a41, air guide block a42, carriage a43, support bar a44, the contained angle between cell body a 41's top and the horizontal plane is 30 degrees, air guide block a42 installs in the centre of cell body a41, carriage a43 inlays the top at cell body a41, support bar a44 is equipped with more than five, and transverse arrangement in support frame a 43's terminal surface, carriage a43 is the rubber material, has certain elasticity, can play certain cushioning effect to the graphene film, can also increase the frictional force between graphene film and the cutting bed 32.

Support bar a44 includes air guide piece b1, venthole b2, filter screen b3, air guide piece b1 is equipped with two, and inlays respectively at the bottom both ends of support bar a44, venthole b2 is equipped with two, and is located the inside both ends of support bar a44 respectively, filter screen b3 is equipped with two, and inlays respectively and gu at the top of venthole b2, venthole b 2's width is enlarged gradually to both ends by the centre, is favorable to concentrating a large amount of air currents in cell body a41 and leads in venthole b2 for the air current is followed venthole b2 blowout, can contact with the carbon powder of graphite alkene film terminal surface.

Based on the above embodiment, the specific working principle is as follows: when the graphene film is placed on the cutting table 32 for cutting, the cutter and the film generate static electricity through friction, so that carbon powder is attached to the end face of the film, air flow generated by rotation of a fan can be utilized to eject from the air ejecting device 325 to impact the carbon powder on the end face of the film, the carbon powder is guided into the discharging pipe 326, the guide block 323 is driven by the pulling pull rod 322 to move forwards, the turnover device 324 is enabled to push upwards through a cutting groove inclined by 30 degrees in the guide block 323, the turnover device 324 can drive the graphene film to be inclined, the air flow can fully impact the carbon powder on the end face of the film, the carbon powder is guided into the discharging pipe 326, the carbon powder can fall into the chip collecting box 34 for collection, then the movable groove a1 is paved through a supporting plate 2 when the carbon powder is not lifted, the graphene film is cut conveniently, and the supporting frame a43 is set to be made of rubber material, can play certain cushioning effect to the graphite alkene film, can also increase the frictional force between graphite alkene film and the cutting bed 32, avoid the graphite alkene film the condition of skew to appear in the cutting, utilize venthole b2 to concentrate the air current at last, make the air current from venthole b2 blowout, can contact with the carbon powder of graphite alkene film terminal surface, thereby it moves down discharge tube 326 to drive graphite alkene powder, avoid the carbon powder because static attaches at the terminal surface of film, can not let the film the condition of fish tail appear when carrying out the storage.

Example two: referring to fig. 7-9, the embodiment of the present invention is as follows:

the air injection device 325 comprises a rubber ball c1, a rear flow hole c2, more than three flow dividing plates c3 and a dispersing plate c4, wherein the rubber ball c1 is arranged at the front end of the interior of the air injection device 325, the rear flow hole c2 is provided with more than three flow dividing plates, the three flow dividing plates c3 are arranged around the rear end of the rubber ball c1, the three flow dividing plates c3 are vertically arranged at the rear end of the interior of the air injection device 325, the two dispersing plates c4 are arranged in the middle of the rear ends of every two flow dividing plates c3, an included angle formed between the dispersing plates c4 is 30 degrees, the rubber ball c1 is favorably expanded by air flow impact, air in the interior is sprayed out to the rear flow hole c2 by contraction of the rubber ball c1, and the spraying force of the air flow is increased.

The dispersible tablet c4 comprises a dispersion c41, a rotating shaft c42, two rewinding springs c43, a limiting block c44 and a guide groove c45, the end face of the dispersion c41 is arc-shaped, the rotating shaft c42 is provided with two limiting blocks c44 and is respectively located at two ends of the dispersion c41, the rewinding springs c43 are nested in the rotating shaft c42, the limiting blocks c44 are arranged at the inner side end of the air injection device 325 and are movably clamped with the dispersion c41, the three guide grooves c45 are arranged transversely inside the dispersion c41, and the rewinding springs c43 are movably matched with the dispersion c41, so that the rewinding springs c43 are reset to drive the dispersion c41 to swing downwards, air flow is intensively injected, and impact force of the air flow on carbon powder is increased.

Guide way c45 includes mounting groove d1, magnet d2, holds wind piece d3, resilience strip d4, mounting groove d1 is equipped with two, and is located the both ends of guide way c45 respectively, magnet d2 is equipped with two, and inlays respectively at the inside both ends of mounting groove d1, hold wind piece d3 block in the inside of mounting groove d1, resilience strip d4 is equipped with two, and inlays respectively at the inside bottom of holding wind piece d3, hold wind piece d3 and be the plastics material, and the end is inlayed and is had the iron sheet, is favorable to restoring to driving through resilience strip d4 and holds wind piece d3 and outwards push up, reduces the width that the air current flows to increase the speed that the air current flows.

Based on the above embodiment, the specific working principle is as follows: the included angle formed between the dispersing tablets c4 in the air injection device 325 is set to be 30 degrees, so that the air flow impacts the rubber ball c1 to expand the rubber ball c1, the rubber ball c1 is contracted to spray air inside the rubber ball to the backward flow hole c2, the injection force of the air flow is increased, the air flow is uniformly sprayed on the upper end surface of the cutting table 32 through the dispersing tablets c4, so that the carbon powder arranged on the graphene film can be blown away, then the rewinding spring c43 resets to drive the dispersing tablets c41 to swing downwards, the air flow is intensively injected, the impact force of the air flow on the carbon powder is increased, the condition that the carbon powder is attached to the end surface of the graphene film is avoided, finally the rebounding strip d4 resets to drive the air storage block d3 to push outwards, the flowing width of the air flow is reduced, the flowing speed of the air flow is increased, the air flow can impact the carbon powder arranged on the end surface of the graphene film with higher force, and the iron sheet at the tail end of the air storage block d 73, can let great air current impact accumulate piece d3 for accumulate piece d3 can be along magnet d 2's terminal surface to the shrink inwards, can not let the carbon powder because the terminal surface of static attached at the film, avoid the condition that the fish tail appears in the film when carrying out the storage.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a thin membrane cutting equipment of graphite, its structure includes main part (1), chamber door (2), control panel (3), the front end of main part (1) is equipped with chamber door (2), the top front end at main part (1) is installed in control panel (3), its characterized in that:

the main part (1) comprises an air inlet pipe (31), a cutting table (32), a cutting block (33) and a chip collecting box (34), wherein the air inlet pipe (31) is arranged at the side end of the main part (1), the cutting table (32) is arranged at the top end of the main part (1), the cutting block (33) is clamped at the two ends of the top of the main part (1), and the chip collecting box (34) is arranged at the inner side end of the main part (1).

2. The graphite thin film cutting apparatus as claimed in claim 1, wherein: the cutting table (32) comprises vent grooves (321), pull rods (322), guide blocks (323), a turnover device (324), an air injection device (325) and a blanking pipe (326), wherein the vent grooves (321) are arranged inside the cutting table (32), the pull rods (322) transversely penetrate through the vent grooves (321), the guide blocks (323) are three and transversely arranged at the top ends of the pull rods (322), the turnover device (324) is three and transversely arranged on the upper end face of the cutting table (32), the air injection device (325) is arranged at the tail ends of the vent grooves (321), and the blanking pipe (326) is arranged at the bottom side end of the cutting table (32).

3. The graphite thin film cutting apparatus as claimed in claim 2, wherein: turning device (324) are including activity groove (a1), backup pad (a2), go up ejector pin (a3), jet-propelled groove (a4), activity groove (a1) set up the top at cutting bed (32), the side block of backup pad (a2) is in activity groove (a1), the one end block of going up ejector pin (a3) is in the bottom of backup pad (a2), and the other end and guide block (323) looks block, jet-propelled groove (a4) sets up the side in activity groove (a 1).

4. The graphite thin film cutting apparatus as claimed in claim 3, wherein: jet-propelled groove (a4) includes cell body (a41), air guide block (a42), carriage (a43), support bar (a44), the contained angle between the top of cell body (a41) and the horizontal plane is 30 degrees, air guide block (a42) is installed in the middle of the centre of cell body (a41), the top at cell body (a41) is inlayed and is fixed in support frame (a43), support bar (a44) is equipped with more than five, and transverse arrangement in the terminal surface of support frame (a 43).

5. The graphite thin film cutting apparatus as claimed in claim 4, wherein: support bar (a44) is including air guide piece (b1), venthole (b2), filter screen (b3), air guide piece (b1) is equipped with two, and inlays respectively at the bottom both ends of support bar (a44), venthole (b2) are equipped with two, and are located the inside both ends of support bar (a44) respectively, filter screen (b3) are equipped with two, and inlay respectively admittedly on the top of venthole (b 2).

6. The graphite thin film cutting apparatus as claimed in claim 2, wherein: the air injection device (325) comprises a rubber ball (c1), a rear flow hole (c2), a splitter plate (c3) and a dispersing plate (c4), wherein the rubber ball (c1) is arranged at the front end of the interior of the air injection device (325), the rear flow hole (c2) is more than three, the rear flow hole surrounds the rear end of the rubber ball (c1) and is arranged, the splitter plate (c3) is three and is vertically arranged at the rear end of the interior of the air injection device (325), and the dispersing plate (c4) is provided with two splitter plates (c3) and is located right in the middle of the rear ends of the two splitter plates.

7. The graphite thin film cutting apparatus as claimed in claim 6, wherein: the dispersible tablet (c4) comprises a dispersion body (c41), a rotating shaft (c42), two rewinding springs (c43), a limiting block (c44) and guide grooves (c45), wherein the end face of the dispersion body (c41) is arc-shaped, the rotating shaft (c42) is provided with two rewinding springs which are respectively positioned at two ends of the dispersion body (c41), the rewinding springs (c43) are nested in the rotating shaft (c42), the limiting block (c44) is arranged at the inner side end of the air injection device (325) and movably clamped with the dispersion body (c41), and the number of the guide grooves (c45) is three and is transversely arranged in the dispersion body (c 41).

8. The graphite thin film cutting apparatus as claimed in claim 7, wherein: guide way (c45) include mounting groove (d1), magnet (d2), accumulate piece (d3), resilience strip (d4), mounting groove (d1) is equipped with two, and is located the both ends of guide way (c45) respectively, magnet (d2) are equipped with two, and inlay the inside both ends at mounting groove (d1) respectively, accumulate piece (d3) block in the inside of mounting groove (d1), resilience strip (d4) are equipped with two, and inlay the inside bottom at accumulating piece (d3) respectively.