CN108016754A - A kind of shockproof graphene storage device with anti-oxidation function - Google Patents

Abstract

The present invention relates to a kind of shockproof graphene storage device with anti-oxidation function,Including body,Isolating door and bleeding point,Further include vacuum device and at least two dampings,The vacuum device includes drive component,Supporting rack,Second drive link,Cylinder,Piston,Pump bowl and two non-return components,The damping includes head rod,Second spring,Supporting rod,Two the second connecting rods,Two the 3rd connecting rods,Two movable blocks and two absorbent modules,In the shockproof graphene storage device with anti-oxidation function,The air inside storage device can be extracted into by vacuum device outside storage device,Reduce the oxygen content inside storage device,So as to reduce the speed that graphene is aoxidized,Extend the storage time of graphene,Influence of the external vibration to storage device can be reduced by damping,Improve the stability of storage device,Improve the storage effect of graphene.

Description

A kind of shockproof graphene storage device with anti-oxidation function

Technical field

The present invention relates to graphene storage device field, more particularly to a kind of shockproof graphene with anti-oxidation function Storage device.

Background technology

Graphene is a kind of cellular flat film formed by carbon atom, is a kind of standard of an only atomic layer level thickness Two-dimensional material, monoatomic layer graphite is done so being called, and the method for the common power production of graphene is mechanical stripping method, aoxidizes also Former method, SiC epitaxial growth methods, film production method are chemical vapour deposition technique, due to its very good intensity, it is flexible, lead Electricity, heat conduction, optical characteristics, are obtained for considerable in fields such as physics, materialogy, electronic information, computer, aerospaces Development.

When general graphene is exposed in atmosphere for a long time, easily by the dioxygen oxidation in air, so as to reduce graphite The properties of alkene, moreover, general graphene toughness are poor, are subject to easy fragmentation after intense impact, due to graphene Comparision of production is difficult, if finished product fragmentation, can bring no small loss.

The content of the invention

The technical problem to be solved in the present invention is：There is anti-oxidant work(in order to overcome the deficiencies of the prior art and provide one kind The shockproof graphene storage device of energy.

The technical solution adopted by the present invention to solve the technical problems is：A kind of shockproof graphite with anti-oxidation function Alkene storage device, including body, isolating door and bleeding point, further include vacuum device and at least two dampings, the pumping Vacuum mechanism is arranged on the side of body, and at least two dampings are arranged at the lower section of body；

The vacuum device stops including drive component, supporting rack, the second drive link, cylinder, piston, pump bowl and two Inverse component, the cylinder are horizontally disposed with, and support frame as described above is arranged on the side of cylinder, and the driving component is arranged on supporting rack On, the piston is arranged in cylinder, and second drive link is arranged on piston close to the side of drive component, the driving group Part is connected by the second drive link with piston drive, and the pump bowl is vertically provided at the opposite side of cylinder, and the cylinder is with taking out Inflator connects, and two non-return components are separately positioned on above and below pump bowl；

The damping includes head rod, second spring, supporting rod, two the second connecting rods, two the 3rd companies Extension bar, two movable blocks and two absorbent modules, the head rod are arranged on the lower section of body, and two movable blocks are set respectively Put and through hole is equipped with the both ends of supporting rod, two movable blocks, the supporting rod passes through two movable blocks, two second connections One end of bar is respectively hinged on two movable blocks, and the other end of two the second connecting rods is respectively hinged at the two of head rod End, the upper end of the second spring are arranged on head rod, and the other end of the second spring is arranged on supporting rod, and two A 3rd connecting rod is separately positioned on the both ends of supporting rod, and two absorbent modules are separately positioned on the lower section of two the 3rd connecting rods

Preferably, in order to drive piston to move left and right, the driving component includes the first motor, driving wheel and first passes Lever, first motor are arranged on supporting rack, and the driving wheel is hinged on the axis of the first motor, first motor with Driving wheel is sequentially connected, the hinged position on the drive wheel away from the driving wheel center of circle in one end of first drive link, and described the The other end of one drive link is hinged on the second drive link.

Preferably, there is air entrance during vacuumizing in order to prevent, the non-return component include the first blow vent, First shell, first baffle, non-return plug, the first spring, second baffle and the second blow vent, first blow vent are arranged on Above one shell, second blow vent is arranged on the lower section of the first shell, and the second baffle is arranged under the first shell End, the first baffle are equipped with two perforates, and first spring is vertically provided at the top of second baffle, the non-return plug The top of the first spring is arranged on, the first baffle is arranged on the upper end of shell, and the first baffle is equipped with non-return hole, institute Non-return hole is stated to match with non-return plug.

Preferably, in order to improve storage device placement stability, the absorbent module include second housing, cylinder and Sucker, the shape of the vertical cross-section of the second housing is the U-shaped that Open Side Down, and the sucker is arranged on the opening of second housing Place, one end of the cylinder are arranged on the upper end of second housing, and the other end of the cylinder is arranged on the top of sucker.

Preferably, there is air entrance during vacuumizing in order to prevent, the inner wall sealing of the piston and cylinder connects Connect.

Preferably, in order to reduce the volume of cylinder, the cylinder is minitype cylinder.

Preferably, in order to improve the firmness of sucker suction, the material of the sucker is rubber.

Preferably, in order to improve the driving force of the first motor, first motor is servomotor.

Preferably, there is air entrance during vacuumizing in order to prevent, in two non-return components, one of them is non-return Second blow vent of component is arranged on the lower section of pump bowl, and the first blow vent in another non-return component is arranged on pump bowl Top.

Preferably, in order to enable non-return plug to block non-return hole, first spring is in compressive state.

The invention has the advantages that should have in the shockproof graphene storage device of anti-oxidation function, it is true by taking out Air inside storage device can be extracted into outside storage device by empty mechanism, reduce the oxygen content inside storage device, So as to reduce the speed that graphene is aoxidized, the storage time of graphene, compared with traditional vacuum device, the machine are extended Structure is while equipment inner air is extracted out, moreover it is possible to and it is effective to prevent air from entering inside equipment, improve the effect vacuumized Fruit, moreover, can reduce influence of the external vibration to storage device by damping, improve the stabilization of storage device Property, the storage effect of graphene is improved, compared with conventional base mechanism, which can not only improve damping effect, moreover it is possible to Improve the stability that storage device is placed.

Brief description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is the structure diagram of the shockproof graphene storage device with anti-oxidation function of the present invention；

Fig. 2 is that the structure of the vacuum device of the shockproof graphene storage device with anti-oxidation function of the present invention is shown It is intended to；

Fig. 3 is the non-return modular construction signal of the shockproof graphene storage device with anti-oxidation function of the present invention Figure；

Fig. 4 is the structural representation of the damping of the shockproof graphene storage device with anti-oxidation function of the present invention Figure；

Fig. 5 is the structural representation of the absorbent module of the shockproof graphene storage device with anti-oxidation function of the present invention Figure；

In figure：1. body, 2. isolating doors, 3. bleeding points, 4. supporting racks, 5. first motors, 6. driving wheels, 7. first transmissions Bar, 8. cylinders, 9. second drive links, 10. pistons, 11. pump bowls, 12. first blow vents, 13. first shells, 14. non-return holes, 15. first baffle, 16. non-return plugs, 17. first springs, 18. second baffles, 19. perforates, 20. second blow vents, 21. first connect Extension bar, 22. second springs, 23. second connecting rods, 24. the 3rd connecting rods, 25. supporting rods, 26. movable blocks, 27. second housings, 28. cylinder, 29. suckers.

Embodiment

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 composition related to the present invention.

As shown in Figure 1, a kind of shockproof graphene storage device with anti-oxidation function, including body 1, isolating door 2 With bleeding point 3, vacuum device and at least two dampings are further included, the vacuum device is arranged on the side of body 1, At least two dampings are arranged at the lower section of body 1；

As shown in Fig. 2, the vacuum device includes drive component, supporting rack 4, the second drive link 9, cylinder 8, piston 10th, pump bowl 11 and two non-return components, the cylinder 8 is horizontally disposed, and support frame as described above 4 is arranged on the side of cylinder 8, described Drive component is arranged on supporting rack 4, and the piston 10 is arranged in cylinder 8, and second drive link 9 is arranged on piston 10 and leans on The side of nearly drive component, the driving component are sequentially connected by the second drive link 9 with piston 10, and the pump bowl 11 is vertical The opposite side of cylinder 8 is arranged on, the cylinder 8 is connected with pump bowl 11, and two non-return components are separately positioned on pump bowl 11 Above and below；

Wherein, after the graphene produced is placed into the inside of body 1, drive component is driven by the second drive link and lived Plug 10 moves left and right inside cylinder 8, and when piston 10 is moved to the left, the non-return component of 11 lower end of pump bowl is opened, and is taken out The non-return component closure of 11 upper end of inflator, so that the air in body 1 is pumped into inside cylinder 8, moves right when piston 10 When, the non-return component closure of 11 lower end of pump bowl, the non-return component of 11 upper end of pump bowl is opened, so that by inside cylinder 8 Air is discharged, so that the air in body 1 endlessly be extracted out, the content of 1 inner air of body is reduced, so as to reduce Speed of the graphene by dioxygen oxidation in air, improves the storage effect of graphene；

As shown in figure 4, the damping includes 25, two second head rod 21, second spring 22, supporting rod companies Extension bar 23, two the 3rd connecting rods, 24, two movable blocks 26 and two absorbent modules, the head rod 21 are arranged on body 1 lower section, two movable blocks 26 are separately positioned on the both ends of supporting rod 25, through hole, the branch are equipped with two movable blocks 26 Strut 25 passes through two movable blocks 26, and one end of two the second connecting rods 23 is respectively hinged on two movable blocks 26, two The other end of two connecting rods 23 is respectively hinged at the both ends of head rod 21, and the upper end of the second spring 22 is arranged on first In connecting rod 21, the other end of the second spring 22 is arranged on supporting rod 25, and two the 3rd connecting rods 24 are separately positioned on The both ends of supporting rod 25, two absorbent modules are separately positioned on the lower section of two the 3rd connecting rods 24；

Wherein, by two absorbent modules, storage device is firmly adsorbed on supporter surface, improve storage The stability of equipment, when two movable blocks 26 move towards, can make the first connection by two the second connecting rods 23 Bar 21 rises, and when two movable blocks 26 are moved away from, can make head rod 21 by two the second connecting rods 23 Decline, so as to play supporting role to body 1, improve the stability of body 1, pass through first connection of the support of second spring 22 Bar 21, supports body 1 by head rod 21 afterwards, so as to reduce influence of the external vibration to body 1, improves storage The shockproof effect of equipment.

As shown in Fig. 2, the driving component includes the first motor 5,6 and first drive link 7 of driving wheel, first motor 5 are arranged on supporting rack 4, and the driving wheel 6 is hinged on the axis of the first motor 5, and first motor 5 is driven with driving wheel 6 Connection, one end of first drive link 7 are hinged on the position away from 6 center of circle of driving wheel, first drive link on driving wheel 6 7 other end is hinged on the second drive link 9；

Wherein, driving wheel 6 is driven to rotate by the first motor 5, one end of the first drive link 7 is hinged on driving wheel 6 far From the position in 6 center of circle of driving wheel, during driving wheel 6 rotates, the second connecting rod 9 or so is driven by head rod 7 It is mobile, so as to drive piston 10 to move left and right, by moving left and right for piston 10, the air in body 1 is endlessly taken out Go out, reduce the content of 1 inner air of body, so as to reduce graphene by the speed of dioxygen oxidation in air, improve stone The storage effect of black alkene.

As shown in figure 3, the non-return component includes the first blow vent 12, the first shell 13, first baffle 15, non-return plug 16th, the first spring 17,18 and second blow vent 20 of second baffle, first blow vent 12 are arranged on the top of the first shell 13, Second blow vent 20 is arranged on the lower section of the first shell 13, and the second baffle 18 is arranged on the lower end of the first shell 13, The first baffle 15 is equipped with two perforates 19, and first spring 17 is vertically provided at the top of second baffle 18, described Non-return plug 16 is arranged on the top of the first spring 17, and the first baffle 15 is arranged on the upper end of shell, the first baffle 15 Non-return hole 14 is equipped with, the non-return hole 14 is matched with non-return plug 16；

Wherein, when air enters the first 13 inside of shell from the first blow vent 12, the gas of the top of first baffle 15 Pressure more than lower section air pressure, when air pressure be more than the first spring 17 to it is non-return plug 16 thrust when, it is non-return plug 16 by from The inside of non-return hole 14 is released, so that after air is by non-return hole 14 and perforate 19, is discharged from the second blow vent 20, when air from When second blow vent 20 enters the first 13 inside of shell, air reaches the lower section of first baffle 15 by perforate 19, so that Air pressure promotes non-return plug 16 in non-return hole 14, since non-return 14 upper end diameter of hole is less than lower end diameter, so that non-return Plug 16 is stuck in non-return hole 14 so that air can not by non-return hole 14, cause air can only at the first venthole 12 to Up at the second venthole 20, and it can not be reached at the second venthole 20 at first venthole 12, it is achieved thereby that the list of air To circulation, the effect that storage device vacuumizes is improved.

As shown in figure 5, the absorbent module includes second housing 27, cylinder 28 and sucker 29, the second housing 27 The shape of vertical cross-section is the U-shaped that Open Side Down, and the sucker 29 is arranged on the opening of second housing 27, the cylinder 28 One end is arranged on the upper end of second housing 27, and the other end of the cylinder 28 is arranged on the top of sucker 29；

Wherein, when the lower surface of sucker 29 is fitted on supporter surface, sucker 29 is pulled by cylinder 28 Intermediate ends rise, and under the action of atmospheric pressure, sucker 29 is adsorbed on a support, are promoted by cylinder 28 in sucker 29 Between hold and decline, so as to reduce effect of the atmospheric pressure to sucker 29, so that the adsorption capacity of sucker 29 disappears, improve storage The stability that equipment is placed.

Preferably, there is air entrance during vacuumizing in order to prevent, the inner wall of the piston 10 and cylinder 28 is close Envelope connection, when being tightly connected between 28 inner wall of piston 10 and cylinder, air can not be from piston 10 and the inner wall of cylinder 28 Between gap enter pump bowl 11 inside, so as to reduce the influence to 11 air pressure inside of pump bowl, improve storage device The effect vacuumized.

Preferably, in order to reduce the volume of cylinder 28, the cylinder 28 is minitype cylinder.

Preferably, in order to improve the firmness of the absorption of sucker 29, the material of the sucker 29 is rubber, due to rubber material Matter is more soft, make to be bonded between sucker 29 and supporter it is even closer, so as to improve the adsorption effect of sucker 29.

Preferably, in order to improve the driving force of the first motor 5, first motor 5 is servomotor.

Preferably, there is air entrance during vacuumizing in order to prevent, in two non-return components, one of them is non-return Second blow vent 20 of component is arranged on the lower section of pump bowl 11, and the first blow vent 12 in another non-return component is arranged on pumping The top of inflator 11, since air can only enter from the first blow vent 12, is discharged, when the second blow vent 20 from the second blow vent 20 When being arranged on the lower section of pump bowl 11, air is set to enter from the lower ending opening of pump bowl 11, when the first blow vent 12 is set At the top of pump bowl 11, air is set to be discharged from the upper end opening of pump bowl 11, so that air can only be out of body 1 Portion discharges, and cannot be introduced into inside body 1, further increases the vacuumizing effect of storage device.

Preferably, in order to enable non-return plug 16 to block non-return hole 14, first spring 17 is in compressive state, When the first spring 17 is in compressive state, the first spring 17 can produce a thrust to non-return plug 16, so that non-return plug 16 All the time it is in the non-return inside of hole 14 and fits closely, so that non-return plug 16 can blocks non-return hole 14.

After the graphene produced is placed into the inside of body 1, drive component drives piston 10 by the second drive link Moved left and right inside cylinder 8, so that the air in body 1 endlessly be extracted out, reduce containing for 1 inner air of body Amount, so as to reduce graphene by the speed of dioxygen oxidation in air, improves the storage effect of graphene, passes through two absorption Component allows storage device firmly to adsorb the stability on supporter surface, improving storage device.

Compared with prior art, evacuator should be passed through with the shockproof graphene storage device of anti-oxidation function Air inside storage device can be extracted into outside storage device by structure, reduce the oxygen content inside storage device, so that The speed that graphene is aoxidized is reduced, extends the storage time of graphene, compared with traditional vacuum device, which exists While equipment inner air is extracted out, moreover it is possible to it is effective to prevent air from entering inside equipment, the effect vacuumized is improved, no Only in this way, influence of the external vibration to storage device can be reduced by damping, the stability of storage device is improved, is carried The high storage effect of graphene, compared with conventional base mechanism, which can not only improve damping effect, moreover it is possible to which raising is deposited Store up the stability that equipment is placed.

It is complete by above-mentioned description, relevant staff using the above-mentioned desirable embodiment according to the present invention as enlightenment 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 scope is not limited to the content on specification, it is necessary to determines its technical scope according to right.

Claims (10)

1. a kind of shockproof graphene storage device with anti-oxidation function, including body (1), isolating door (2) and bleeding point (3), it is characterised in that further include vacuum device and at least two dampings, the vacuum device is arranged on body (1) Side, at least two dampings are arranged at the lower section of body (1)；

The vacuum device includes drive component, supporting rack (4), the second drive link (9), cylinder (8), piston (10), pumping Cylinder (11) and two non-return components, the cylinder (8) is horizontally disposed, and support frame as described above (4) is arranged on the side of cylinder (8), institute State drive component to be arranged on supporting rack (4), the piston (10) is arranged in cylinder (8), and second drive link (9) is set It is sequentially connected in piston (10) close to the side of drive component, the driving component by the second drive link (9) and piston (10), The pump bowl (11) is vertically provided at the opposite side of cylinder (8), and the cylinder (8) connects with pump bowl (11), and two non-return Component is separately positioned on above and below pump bowl (11)；

The damping includes head rod (21), second spring (22), supporting rod (25), two the second connecting rods (23), two the 3rd connecting rods (24), two movable blocks (26) and two absorbent modules, the head rod (21) are arranged on The lower section of body (1), two movable blocks (26) are separately positioned on the both ends of supporting rod (25), are equipped with two movable blocks (26) Through hole, the supporting rod (25) pass through two movable blocks (26), and one end of two the second connecting rods (23) is respectively hinged at two On movable block (26), the other ends of two the second connecting rods (23) is respectively hinged at the both ends of head rod (21), and described The upper end of two springs (22) is arranged on head rod (21), and the other end of the second spring (22) is arranged on supporting rod (25) on, two the 3rd connecting rods (24) are separately positioned on the both ends of supporting rod (25), and two absorbent modules are separately positioned on two The lower section of a 3rd connecting rod (24).

2. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that the drive Dynamic component includes the first motor (5), driving wheel (6) and the first drive link (7), and first motor (5) is arranged on supporting rack (4) On, the driving wheel (6) is hinged on the axis of the first motor (5), and first motor (5) is sequentially connected with driving wheel (6), One end of first drive link (7) is hinged on the position away from driving wheel (6) center of circle on driving wheel (6), first transmission The other end of bar (7) is hinged on the second drive link (9).

3. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that described to stop Inverse component includes the first blow vent (12), the first shell (13), first baffle (15), non-return plug (16), the first spring (17), the Two baffles (18) and the second blow vent (20), first blow vent (12) are arranged on above the first shell (13), and described second Blow vent (20) is arranged on the lower section of the first shell (13), and the second baffle (18) is arranged on the lower end of the first shell (13), The first baffle (15) is equipped with two perforates (19), and first spring (17) is vertically provided at the upper of second baffle (18) Side, the non-return plug (16) are arranged on the top of the first spring (17), and the first baffle (15) is arranged on the upper end of shell, institute State first baffle (15) and be equipped with non-return hole (14), the non-return hole (14) matches with non-return plug (16).

4. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that the suction Attached component includes second housing (27), cylinder (28) and sucker (29), and the shape of the vertical cross-section of the second housing (27) is The U-shaped that Open Side Down, the sucker (29) are arranged on the opening of second housing (27), and one end of the cylinder (28) is arranged on The upper end of second housing (27), the other end of the cylinder (28) are arranged on the top of sucker (29).

5. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that the work Plug (10) is connected with the inner wall sealing of cylinder (28).

6. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 4, it is characterised in that the gas Cylinder (28) is minitype cylinder.

7. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that the suction The material of disk (29) is rubber.

8. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 2, it is characterised in that described the One motor (5) is servomotor.

9. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 1, it is characterised in that two only In inverse component, the second blow vent (20) of one of them non-return component is arranged on the lower section of pump bowl (11), another non-return group The first blow vent (12) in part is arranged on the top of pump bowl (11).

10. there is the shockproof graphene storage device of anti-oxidation function as claimed in claim 3, it is characterised in that described First spring (17) is in compressive state.