CN113681974A - Graphene vacuum forming hydraulic machine - Google Patents

Abstract

The invention discloses a graphene vacuum forming hydraulic machine, which relates to the technical field of graphene forming and comprises a vacuum device base for bearing a vacuum device, a feeding device base for bearing a feeding device and a receiving device base for bearing a receiving device. The forming device of the invention adopts a vacuum and mechanical dual-purpose parallel method, has better sealing effect and can realize quantitative feeding at the same time.

Description

Graphene vacuum forming hydraulic machine

Technical Field

The invention relates to the technical field of graphene forming, in particular to a graphene vacuum forming hydraulic machine.

Background

Among the currently available sheet materials, graphene is the thinnest and has a large specific surface area. Also, it has strength, elastic modulus and thermal conductivity exceeding those of diamond. If there is no defect, even a single layer of graphene does not pass through a substance larger than helium (He) atoms. These properties may make graphene an electrode material for batteries, a heat dissipation film, a MEMS sensor, or a desirable barrier film. Graphene also possesses a number of very specific properties compared to other materials. Therefore, a relatively sophisticated apparatus is required for producing high-quality graphene.

The invention discloses a large-scale graphite powder forming hydraulic machine which can solve the problems of adjustment and adaptation to forming production of different sizes and specifications, but cannot solve the problems of sealing performance and feeding overflow in the production process.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a graphene vacuum forming hydraulic machine comprises a vacuum device base, a feeding device base and a receiving device base, wherein the feeding device base is fixedly arranged behind the vacuum device base; a raw material tank is fixedly arranged on a base of the vacuum device, a baffle bracket is fixedly arranged on the raw material tank, a discharge port is arranged at the lower end of the raw material tank, and a baffle is slidably arranged on the raw material tank; a stay cord motor is fixedly arranged on the base of the feeding device, a stay cord belt is arranged on an output shaft of the stay cord motor, the other end of the stay cord belt is connected with a cord roller, the cord roller is rotatably arranged on the base of the feeding device, and a stay cord is fixedly connected to the cord roller; the H-shaped mounting frame is fixedly mounted on the base of the feeding device, the rope winding shaft is fixedly mounted on the H-shaped mounting frame, the pressing plate is slidably mounted on the H-shaped mounting frame, the rope end connecting shaft is fixedly mounted on the pressing plate, and the pulling rope is wound on the rope winding shaft for a circle and then is fixedly connected to the rope end connecting shaft; the H-shaped mounting frame is fixedly provided with a supporting rod, the supporting rod is fixedly provided with a baffle frame, the supporting rod is rotatably provided with a brake frame, the brake frame is fixedly provided with a brake bar, the lower surface of the brake frame is in contact with the upper surface of the pressing plate, the brake frame is fixedly provided with an arch frame, the supporting rod is rotatably provided with a rear connecting rod, one end of the rear connecting rod is in sliding connection with the arch frame, and the other end of the rear connecting rod is rotatably provided with a central rotating shaft; the bracing piece is gone up to rotate and is installed preceding connecting rod, the one end and the central pivot sliding connection of preceding connecting rod, and the other end slidable mounting of preceding connecting rod has the locator punch holder, and locator punch holder fixed mounting is on the baffle.

Further, a discharge pipe orifice is arranged on the discharge port, and a material pushing groove is arranged at the lower end of the discharge pipe orifice; a pushing motor is fixedly installed on the base of the feeding device, an output shaft of the pushing motor is connected with a pushing belt, the other end of the pushing belt is connected with a disc shaft, the disc shaft is rotatably installed on the base of the feeding device, a disc is fixedly installed on the disc shaft, a disc connecting rod is rotatably connected to the disc, and a pushing groove sliding rod is fixedly installed on the disc connecting rod; the base of the feeding device is fixedly provided with a trapezoidal feeding groove, the material pushing groove sliding rod is slidably arranged on the trapezoidal feeding groove, the material pushing groove sliding rod is fixedly connected with the material pushing groove, and the material pushing groove is slidably arranged on the trapezoidal feeding groove.

Further, it rolls over shape pole to rotate to install on the material feeding unit base, it is connected with the connecting axle to roll over to rotate on the shape pole, it is connected with long connecting rod to rotate on the connecting axle, rotate on the vacuum apparatus base and install outer free bearing, it installs pivot I to rotate on the outer free bearing, pivot I fixed mounting is on long connecting rod, it installs and stretches out the free bearing to rotate on the outer free bearing, it installs well connecting rod to stretch out to rotate on the free bearing, the one end of well connecting rod is rotated and is installed pivot II, the other end of well connecting rod is rotated and is installed pivot III, pivot II rotates with outer free bearing and is connected, it installs short connecting rod to rotate on the pivot III, it installs the side on the short connecting rod to rotate, fixed mounting has the motor connecting axle on the side connects the pole, motor connecting axle slidable mounting is on the vacuum apparatus base, fixed mounting has the transom on the vacuum apparatus base, fixed mounting has fan motor on the transom.

Furthermore, a fan shaft is fixedly installed on an output shaft of the fan motor, and a combined fan is fixedly installed on the fan shaft.

Furthermore, a vent is fixedly installed on the feeding device base, a material containing platform is fixedly installed on the feeding device base, a containing groove is fixedly installed on the feeding device base, and a tower-type pressure head is fixedly installed on the pressure plate.

Further, a sliding seat motor is fixedly installed on a base of the material receiving device, a traction rope is fixedly installed on an output shaft of the sliding seat motor, a fixing support is fixedly installed on the base of the material receiving device, a planar sliding block is slidably installed on the fixing support, and the planar sliding block is fixedly connected with the traction rope; a material suction pipe is slidably mounted on the fixed support, a piston is fixedly mounted on the material suction pipe, a rope ring motor is fixedly mounted on the fixed support, a rope winding roller is fixedly mounted on an output shaft of the rope ring motor, a rope ring is mounted on the rope winding roller, and the rope ring is connected with a sliding plug inside the piston; the material collecting device base is fixedly provided with a storage box.

Furthermore, a sliding seat is slidably mounted on the fixed support, a hinged support is fixedly mounted on the sliding seat, a pushing block is rotatably mounted on the hinged support, a connecting strip is fixedly mounted on the pushing block, a rotating block is fixedly mounted on the sliding seat, and a limiting strip is fixedly mounted on the fixed support.

Further, the material splendid attire bench fixed mounting has gear motor, and fixed mounting has the driving gear on gear motor's the output shaft, and the material splendid attire bench rotates and installs driven gear, and driven gear forms the gear cooperation with the driving gear, rotates and installs the gear wheel on the material splendid attire bench, and the gear wheel forms the gear cooperation with driven gear, and slidable mounting has the slip rack on the material splendid attire bench.

Compared with the prior art, the invention has the beneficial effects that: (1) the forming device adopts a method of parallel vacuum and mechanical dual-purpose modes, the sealing effect during forming is enhanced, and the product structure is more compact; (2) the feeding device adopts a throwing mode and quantitative feeding, and is not a traditional conveying belt conveying mode, if the machine has problems in discharging, materials exceeding the specification will overflow, and the final feeding amount is still the amount within the specification; (3) the vacuum pumping system can effectively avoid the vacuum safety problem of the existing device and avoid explosion caused by vacuum when the fan stops rotating and loses the vacuum environment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the discharge structure of the present invention.

FIG. 3 is a schematic view of the operation of the pusher of the present invention.

Fig. 4 is a schematic view of the operation of the pull cord of the present invention.

FIG. 5 is a schematic diagram illustrating the lifting control of the pressing plate according to the present invention.

FIG. 6 is a schematic diagram of a fan motor control according to the present invention.

FIG. 7 is a schematic view of a combined fan according to the present invention.

Fig. 8 is a schematic view of the tower ram installation of the present invention.

FIG. 9 is a schematic view of the centering fixture of the present invention.

FIG. 10 is a schematic view of a feeding device of the present invention.

FIG. 11 is a schematic view of a feed regulation assembly of the present invention.

Reference numerals: 1-a raw material tank; 2-baffle plate bracket; 3-discharging port; 4-a baffle plate; 5-discharge pipe mouth; 6-material pushing groove; 7-a material pushing motor; 8-pushing belt; 9-disc shaft; 10-a disc; 11-disc linkage; 12-pushing away the sliding bar of the material trough; 13-a trapezoidal feed chute; 14-a pull cord motor; 15-pulling the cord; 16-rope rollers; 17-a pull rope; 18-rope winding shaft; 19-rope end connecting shaft; 20-pressing a plate; 21-a brake frame; 22-a baffle frame; 23-brake bar; 24-a support bar; 25-arch frame; 26-a rear connecting rod; 27-a central rotating shaft; 28-front connecting rod; 29-locator upper clamp plate; 30-a ventilation window; 31-vacuum device base; 32-a feeder base; 33-a receiving device base; 34-an H-shaped mounting bracket; 35-free bearing; 36-a connecting strip; 37-a pushing block; 38-a turning block; 39-a slide seat; 40-a limiting strip; 41-fold rod; 42-a connecting shaft; 43-long connecting rod; 44-rotating shaft I; 45-external hinged support; 46-rotating shaft II; 47-middle link; 48-extending the hinged support; 49-shaft III; 50-short connecting rod; 51-side extension bar; 52-motor connecting shaft; 53-fan motor; 54-a combined fan; 55-fan shaft; 56-a vent; 57-a material holding table; 58-containing groove; 59-tower ram; 60-a slide motor; 61-a hauling rope; 62-a planar slider; 63-a piston; 64-a loop; 65-a loop motor; 66-rope winding roller; 67-fixed support; 68-a storage tank; 69-a material suction pipe; 70-a geared motor; 71-a drive gear; 72-a driven gear; 73-bull gear; 74-sliding rack.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, the graphene vacuum forming hydraulic machine comprises a vacuum device base 31, a feeding device base 32 is fixedly installed behind the vacuum device base 31, and a receiving device base 33 is fixedly installed behind the feeding device base 32.

As shown in fig. 2, a raw material tank 1 is fixedly mounted on a base 31 of the vacuum device, a baffle bracket 2 is fixedly mounted on the raw material tank 1, a discharge port 3 is mounted at the lower end of the raw material tank 1, and a baffle 4 is slidably mounted on the raw material tank 1; the raw materials in the head tank 1 flow out through the discharge port 3, the baffle 4 is used for sheltering from the discharge port 3, and the raw materials in the head tank 1 can not flow out from the discharge port 3 after sheltering from the discharge port 3.

As shown in fig. 3, a discharge pipe opening 5 is installed on the discharge port 3, and a material pushing groove 6 is arranged at the lower end of the discharge pipe opening 5; a pushing motor 7 is fixedly installed on the feeding device base 32, an output shaft of the pushing motor 7 is connected with a pushing belt 8, the other end of the pushing belt 8 is connected with a disc shaft 9, the disc shaft 9 is rotatably installed on the feeding device base 32, a disc 10 is fixedly installed on the disc shaft 9, a disc connecting rod 11 is rotatably connected on the disc 10, and a pushing chute sliding rod 12 is fixedly installed on the disc connecting rod 11; a trapezoidal feed chute 13 is fixedly arranged on the feeding device base 32, a pushing chute sliding rod 12 is slidably arranged on the trapezoidal feed chute 13, the pushing chute sliding rod 12 is fixedly connected with a pushing chute 6, and the pushing chute 6 is slidably arranged on the trapezoidal feed chute 13; the material in the discharge port 3 flows into the discharge pipe opening 5 and then flows onto the material pushing groove 6, the material pushing motor 7 is started, the disc shaft 9 is driven to rotate through the material pushing belt 8, the disc shaft 9 rotates to drive the disc 10 to rotate, the disc 10 rotates to drive the material pushing groove slide rod 12 to slide in the trapezoid feeding groove 13 through the disc connecting rod 11, the material pushing groove slide rod 12 slides to drive the material pushing groove 6 to slide on the trapezoid feeding groove 13, and the material pushing groove 6 pushes the material.

As shown in fig. 4, a pulling rope motor 14 is fixedly mounted on the feeding device base 32, a pulling rope belt 15 is mounted on an output shaft of the pulling rope motor 14, the other end of the pulling rope belt 15 is connected with a rope roller 16, the rope roller 16 is rotatably mounted on the feeding device base 32, and a pulling rope 17 is fixedly connected to the rope roller 16; the pull rope motor 14 is started to drive the pull rope belt 15 to transmit, the pull rope belt 15 transmits to drive the rope roller 16 to rotate, and the rope roller 16 rotates to pull the pull rope 17.

As shown in fig. 1, fig. 2 and fig. 5, an H-shaped mounting frame 34 is fixedly mounted on the feeding device base 32, a rope winding shaft 18 is fixedly mounted on the H-shaped mounting frame 34, a pressing plate 20 is slidably mounted on the H-shaped mounting frame 34, a rope end connecting shaft 19 is fixedly mounted on the pressing plate 20, and the pulling rope 17 is fixedly connected to the rope end connecting shaft 19 after being wound around the rope winding shaft 18 for one circle; a support rod 24 is fixedly installed on the H-shaped installation frame 34, a baffle frame 22 is fixedly installed on the support rod 24, a brake frame 21 is rotatably installed on the support rod 24, a brake bar 23 is fixedly installed on the brake frame 21, the lower surface of the brake frame 21 is in contact with the upper surface of the pressure plate 20, an arch frame 25 is fixedly installed on the brake frame 21, a rear connecting rod 26 is rotatably installed on the support rod 24, one end of the rear connecting rod 26 is slidably connected with the arch frame 25, and a central rotating shaft 27 is rotatably installed at the other end of the rear connecting rod 26; the support rod 24 is rotatably provided with a front connecting rod 28, one end of the front connecting rod 28 is connected with the central rotating shaft 27 in a sliding manner, the other end of the front connecting rod 28 is provided with a positioner upper clamping plate 29 in a sliding manner, and the positioner upper clamping plate 29 is fixedly arranged on the baffle 4. Stay cord 17 is by the pulling back, reciprocate through around rope shaft 18 pulling rope end connecting axle 19, thereby drive clamp plate 20 and reciprocate, after clamp plate 20 descends, braking frame 21 descends along with clamp plate 20 together, through the effect of bracing piece 24, drive braking strip 23 rebound, thereby no longer block and push away silo 6, push away silo 6 can remove and carry out the pay-off, baffle frame 22 supports braking frame 21, make braking frame 21 can not descend along with clamp plate 20 always, when braking frame 21 descends and touches baffle frame 22, braking frame 21 stops descending. The braking frame 21 continues to descend to drive the arch frame 25 to descend, the arch frame 25 descends to drive the central rotating shaft 27 to ascend through the swinging of the rear connecting rod 26, the central rotating shaft 27 ascends to drive the right end of the front connecting rod 28 to ascend, the right end of the front connecting rod 28 ascends to drive the left end of the front connecting rod 28 to descend, the front connecting rod 28 descends to drive the positioner upper clamping plate 29 to descend, the positioner upper clamping plate 29 descends to drive the baffle plate 4 to descend, the discharge port 3 is shielded, and feeding is stopped.

As shown in fig. 1 and fig. 6, a folding rod 41 is rotatably mounted on the feeding device base 32, a connecting shaft 42 is rotatably connected to the folding rod 41, a long connecting rod 43 is rotatably connected to the connecting shaft 42, an outer hinged support 45 is rotatably mounted on the vacuum device base 31, a rotating shaft i 44 is rotatably mounted on the outer hinged support 45, the rotating shaft i 44 is fixedly mounted on the long connecting rod 43, an extending hinged support 48 is rotatably mounted on the outer hinged support 45, a middle connecting rod 47 is rotatably mounted on the extending hinged support 48, a rotating shaft ii 46 is rotatably mounted at one end of the middle connecting rod 47, a rotating shaft iii 49 is rotatably mounted at the other end of the middle connecting rod 47, the rotating shaft ii 46 is rotatably connected with the outer hinged support 45, a short connecting rod 50 is rotatably mounted on the rotating shaft iii 49, a side connecting rod 51 is rotatably mounted on the short connecting rod 50, a side connecting rod 51 is fixedly mounted on the side connecting rod 52, the motor connecting shaft 52 is slidably mounted on the vacuum device base 31, a ventilation window 30 is fixedly mounted on the vacuum device base 31, the ventilation window 30 is fixedly provided with a fan motor 53. The pressing plate 20 descends to press the folding rod 41, the folding rod 41 swings to drive the connecting shaft 42 to swing, the connecting shaft 42 swings to drive the long connecting rod 43 to swing, the long connecting rod 43 swings to drive the middle connecting rod 47 to swing through the outer hinged support 45, the middle connecting rod 47 swings to drive the short connecting rod 50 to swing through the extending hinged support 48, the short connecting rod 50 swings to drive the motor connecting shaft 52 to slide through the side connecting rod 51, and the motor connecting shaft 52 slides to touch a switch on the fan motor 53 to control the fan motor 53 to start.

As shown in fig. 7, a fan shaft 55 is fixedly mounted on an output shaft of the fan motor 53, and a joint fan 54 is fixedly mounted on the fan shaft 55. The fan motor 53 is started to drive the fan shaft 55 to rotate, and the fan shaft 55 rotates to drive the joint fan 54 to rotate, so that the internal air is pumped out, and the vacuum effect is achieved.

As shown in fig. 1, 8 and 9, a vent 56 is fixedly installed on the feeding device base 32, a material containing platform 57 is fixedly installed on the feeding device base 32, a containing groove 58 is fixedly installed on the feeding device base 32, and a tower-type pressure head 59 is fixedly installed on the pressure plate 20; the containing groove 58 can be tightly matched with the tower-type pressure head 59, so that a vacuum environment is ensured.

As shown in fig. 1, 9 and 10, a sliding seat motor 60 is fixedly installed on the material receiving device base 33, a traction rope 61 is fixedly installed on an output shaft of the sliding seat motor 60, a fixing bracket 67 is fixedly installed on the material receiving device base 33, a plane sliding block 62 is slidably installed on the fixing bracket 67, and the plane sliding block 62 is fixedly connected with the traction rope 61; a suction pipe 69 is slidably mounted on the fixed support 67, a piston 63 is fixedly mounted on the suction pipe 69, a rope ring motor 65 is fixedly mounted on the fixed support 67, a rope winding roller 66 is fixedly mounted on an output shaft of the rope ring motor 65, a rope ring 64 is mounted on the rope winding roller 66, and the rope ring 64 is connected with a sliding plug inside the piston 63; the material receiving device base 33 is fixedly provided with a storage box 68; the slide motor 60 is started to pull the traction rope 61, so that the plane sliding block 62 is pulled to slide, the plane sliding block 62 slides to drive the material suction pipe 69 to slide on the fixed support 67, and the material suction pipe 69 slides to drive the piston 63 to move; the rope ring motor 65 is started to drive the rope winding roller 66 to rotate, the rope winding roller 66 rotates the traction rope 61, the rope ring 64 is pulled to drive the sliding plug inside the piston 63 to move, so that the air inside the suction pipe 69 is controlled to flow, at the moment, the air suction port of the suction pipe 69 is aligned to the position above the material containing table 57 to suck up the product, then the suction pipe 69 returns to the position, and the product falls into the storage box 68 when the product is above the storage box 68.

As shown in fig. 10-11, a sliding seat 39 is slidably mounted on the fixed bracket 67, a hinged seat 35 is fixedly mounted on the sliding seat 39, a pushing block 37 is rotatably mounted on the hinged seat 35, a connecting strip 36 is fixedly mounted on the pushing block 37, a rotating block 38 is fixedly mounted on the sliding seat 39, and a limiting strip 40 is fixedly mounted on the fixed bracket 67; when the sliding seat 39 moves, the rotating block 38 contacts the limiting strip 40, and continues to move, and the limiting strip 40 pushes the rotating block 38, so that the pushing block 37 rotates around the shaft on the hinge base 35 by a certain angle, and the rotating block 38 can move until the sliding seat 39 reaches the bottom of the limiting strip 40 and cannot move.

As shown in fig. 9, a gear motor 70 is fixedly mounted on the material containing table 57, a driving gear 71 is fixedly mounted on an output shaft of the gear motor 70, a driven gear 72 is rotatably mounted on the material containing table 57, the driven gear 72 forms a gear fit with the driving gear 71, a large gear 73 is rotatably mounted on the material containing table 57, the large gear 73 forms a gear fit with the driven gear 72, and a sliding rack 74 is slidably mounted on the material containing table 57. The gear motor 70 starts to drive the driving gear 71 to rotate, the driving gear 71 rotates to drive the driven gear 72 to rotate, the driven gear 72 rotates to drive the large gear 73 to rotate, the large gear 73 rotates to drive other driven gears 72 to rotate, the driven gear 72 rotates to drive the sliding rack 74 to slide, and the sliding rack 74 slides to fix the raw material in the middle of the inside in the middle, so that the suction device can suck the raw material more conveniently.

Claims (8)

1. The utility model provides a graphite alkene vacuum forming hydraulic press, includes vacuum apparatus base, material feeding unit base, material collecting device base, its characterized in that:

the feeding device base is fixedly arranged behind the vacuum device base, and the receiving device base is fixedly arranged behind the feeding device base;

a raw material tank is fixedly arranged on the base of the vacuum device, a baffle bracket is fixedly arranged on the raw material tank, a discharge hole is arranged at the lower end of the raw material tank, and a baffle is slidably arranged on the raw material tank;

a stay cord motor is fixedly installed on the feeding device base, a stay cord belt is installed on an output shaft of the stay cord motor, the other end of the stay cord belt is connected with a cord roller, the cord roller is rotatably installed on the feeding device base, and a stay cord is fixedly connected to the cord roller;

the feeding device comprises a feeding device base, a rope winding shaft, a rope end connecting shaft, a rope and a rope winding shaft, wherein the feeding device base is fixedly provided with an H-shaped mounting frame; the H-shaped mounting frame is fixedly provided with a supporting rod, the supporting rod is fixedly provided with a baffle frame, the supporting rod is rotatably provided with a brake frame, the brake frame is fixedly provided with a brake bar, the lower surface of the brake frame is in contact with the upper surface of the pressing plate, the brake frame is fixedly provided with an arch frame, the supporting rod is rotatably provided with a rear connecting rod, one end of the rear connecting rod is in sliding connection with the arch frame, and the other end of the rear connecting rod is rotatably provided with a central rotating shaft; the bracing piece is gone up to rotate and is installed preceding connecting rod, the one end and the central pivot sliding connection of preceding connecting rod, and the other end slidable mounting of preceding connecting rod has the locator punch holder, and locator punch holder fixed mounting is on the baffle.

2. The hydraulic machine for vacuum forming of graphene according to claim 1, wherein: a discharge pipe orifice is arranged on the discharge port, and a material pushing groove is arranged at the lower end of the discharge pipe orifice; a pushing motor is fixedly installed on the base of the feeding device, an output shaft of the pushing motor is connected with a pushing belt, the other end of the pushing belt is connected with a disc shaft, the disc shaft is rotatably installed on the base of the feeding device, a disc is fixedly installed on the disc shaft, a disc connecting rod is rotatably connected to the disc, and a pushing groove sliding rod is fixedly installed on the disc connecting rod; the base of the feeding device is fixedly provided with a trapezoidal feeding groove, the material pushing groove sliding rod is slidably arranged on the trapezoidal feeding groove, the material pushing groove sliding rod is fixedly connected with the material pushing groove, and the material pushing groove is slidably arranged on the trapezoidal feeding groove.

3. The hydraulic machine for vacuum forming of graphene according to claim 1, wherein: rotate on the material feeding unit base and install a book shape pole, it is connected with the connecting axle to rotate on the shape pole to roll over, it is connected with long connecting rod to rotate on the connecting axle, rotate on the vacuum apparatus base and install outer free bearing, it installs pivot I to rotate on the outer free bearing, pivot I fixed mounting is on long connecting rod, it installs and stretches out the free bearing to rotate on the outer free bearing, it installs well connecting rod to stretch out to rotate on the free bearing, the one end of well connecting rod is rotated and is installed pivot II, the other end of well connecting rod is rotated and is installed pivot III, pivot II rotates with outer free bearing and is connected, it installs short connecting rod to rotate on the pivot III, it installs the side on the short connecting rod and connects the pole, fixed mounting has the motor connecting axle on the pole to connect the side, motor connecting axle slidable mounting is on the vacuum apparatus base, fixed mounting has the transom on the transom, fixed mounting has fan motor on the transom.

4. The hydraulic machine for vacuum forming of graphene according to claim 3, wherein: a fan shaft is fixedly installed on an output shaft of the fan motor, and a combined fan is fixedly installed on the fan shaft.

5. The hydraulic machine for vacuum forming of graphene according to claim 1, wherein: the feeding device base is fixedly provided with a vent, the feeding device base is fixedly provided with a material containing platform, the feeding device base is fixedly provided with a containing groove, and the pressing plate is fixedly provided with a tower-type pressing head.

6. The hydraulic machine for vacuum forming of graphene according to claim 1, wherein: a sliding seat motor is fixedly arranged on the base of the material receiving device, a traction rope is fixedly arranged on an output shaft of the sliding seat motor, a fixed support is fixedly arranged on the base of the material receiving device, a planar sliding block is slidably arranged on the fixed support, and the planar sliding block is fixedly connected with the traction rope; a material suction pipe is slidably mounted on the fixed support, a piston is fixedly mounted on the material suction pipe, a rope ring motor is fixedly mounted on the fixed support, a rope winding roller is fixedly mounted on an output shaft of the rope ring motor, a rope ring is mounted on the rope winding roller, and the rope ring is connected with a sliding plug inside the piston; the material collecting device base is fixedly provided with a storage box.

7. The hydraulic machine for vacuum forming of graphene according to claim 6, wherein: the sliding seat is slidably mounted on the fixed support, the hinged support is fixedly mounted on the sliding seat, the pushing block is rotatably mounted on the hinged support, the connecting strip is fixedly mounted on the pushing block, the rotating block is fixedly mounted on the sliding seat, and the limiting strip is fixedly mounted on the fixed support.

8. The hydraulic machine for vacuum forming of graphene according to claim 5, wherein: the material splendid attire bench fixed mounting has gear motor, and fixed mounting has the driving gear on gear motor's the output shaft, and the material splendid attire bench rotates and installs driven gear, and driven gear forms the gear cooperation with the driving gear, and the material splendid attire bench rotates and installs the gear wheel, and the gear wheel forms the gear cooperation with driven gear, and the material splendid attire bench slidable mounting has the slip rack.

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