CN112721397A

CN112721397A - Can avoid producing processing equipment for production of graphite alkene board in clearance

Info

Publication number: CN112721397A
Application number: CN202110091596.0A
Authority: CN
Inventors: 宋传道
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-23
Filing date: 2021-01-23
Publication date: 2021-04-30

Abstract

The invention discloses processing equipment for producing a graphene plate, which can avoid generating a gap and belongs to the technical field of graphene plate processing equipment, and the processing equipment comprises a base, a rack, a pressing plate and a material spraying device, wherein the rack is fixedly arranged on the outer wall of the top of the base, the inner wall of the top of the rack is fixedly connected with the pressing plate through an electric telescopic rod, the outer wall of the right side of the top of the base is fixedly provided with a workbench, the outer wall of the top of the workbench is fixedly provided with an anti-overflow device, the device can move downwards under the pressure of a moving plate, air at the bottom of an inner cavity of a mounting groove is extruded into the inner cavity of a moving groove through a through hole and a channel, a moving block drives a square stop block to move upwards to shield the graphene plate, so that glue between the plate and the graphene plate can not overflow when the pressing plate is extruded, and the gap between the plate and the, the quality of the processed board is ensured.

Description

Can avoid producing processing equipment for production of graphite alkene board in clearance

Technical Field

The invention relates to the technical field of graphene plate processing equipment, in particular to processing equipment for producing a graphene plate, which can avoid generating gaps.

Background

When the composite board is processed by the graphene board, the graphene board is bonded with the board body for composite, glue is coated on the board body, the graphene board is placed on the board body, the graphene board and the board body are pressed by pressing equipment, so that the graphene board is connected with the board body, when the graphene board is pressed with the board body, the glue between the graphene board and the board body is extruded, the glue is fluid and extends and flows outwards after being pressed, other areas between the board body and the graphene board are filled, the extending and flowing distances of the glue to the periphery are different, when the glue is required to be uniformly distributed between the board body and the graphene board, part of the glue overflows from the space between the board body and the graphene board body and is bonded on the outer wall of the composite board, secondary processing is required for cleaning, and after the glue overflows, the glue at the periphery between the graphene board and the board body is reduced, the glue is not uniformly filled, gaps can be formed between the composite plates, and the processing quality of the composite plates is affected.

Disclosure of Invention

The invention aims to provide processing equipment for producing a graphene plate, which can avoid generating gaps, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a can avoid producing processing equipment is used in production of graphite alkene board in clearance, includes base, frame, clamp plate and spouts the material device, frame fixed mounting is on the top outer wall of base, it installs on the left side outer wall of frame to spout the material device, frame top inner wall passes through electric telescopic handle and clamp plate fixed connection, base top right side outer wall fixed mounting has the workstation, workstation top outer wall fixed mounting has anti-overflow device.

Preferably, the anti-overflow device includes the mounting panel with workstation top outer wall fixed connection, the mounting groove has been seted up to mounting panel top outer wall, the sliding plug of mounting groove inner chamber has the movable plate, fixed mounting has reset spring between movable plate and the mounting groove, the passageway has been seted up to mounting panel inner chamber bottom, passageway top inner wall passes through-hole and mounting groove intercommunication, the shifting chute has been seted up to mounting panel top outer wall, and the transversal cavity form rectangle of personally submitting of shifting chute, and shifting chute inner chamber and passageway intercommunication, and the sliding plug of shifting chute inner chamber bottom has the movable block, movable block top outer wall fixed mounting has square dog, and the cross section of movable block and square dog is cavity form rectangle.

Preferably, the inner walls of the left side and the right side of the moving block are fixedly provided with sliding blocks, the inner wall of the moving groove is provided with two sets of sliding grooves, the sliding blocks are inserted into the inner cavities of the sliding grooves in a sliding mode, springs are fixedly arranged between the sliding blocks and the sliding grooves, two sets of sliding blocks are fixedly provided with limiting blocks on the outer wall of one side close to each other, the inner cavities of the sliding grooves are provided with limiting grooves, the limiting blocks are located in the inner cavities of the limiting grooves, the limiting blocks and the vertical cross sections of the limiting grooves are arc-shaped, and the channels.

Preferably, square dog inner wall evenly is provided with four group's rubber slabs, it has the air to fill between rubber slab and the square dog, four group's gas storage chambeies have evenly been seted up to square dog inner chamber, and the gas storage chamber passes through trompil and the inside intercommunication of rubber slab, gas storage chamber inner chamber slidable mounting has the piston plate, and between left side and the two sets of piston plates of rear side and between the two sets of piston plates of right side and front side equal fixed mounting have a connection rope, the left and right sides gas storage chamber inner chamber all is provided with supporting spring, and the supporting spring both ends respectively with gas storage chamber inner wall, connection rope outer wall fixed connection, both sides around the gas storage chamber inner chamber all is provided with the shrink spring, and shrink spring both ends respectively with gas storage chamber inner wall, piston plate outer wall fixed connection, the opening has been seted.

Preferably, the gas storage cavity inner chamber slidable mounting has the piston piece, and the trompil inner wall has seted up the guide way, and the guide way inner chamber slides and pegs graft and have the guide piece, and fixed mounting has a coupling spring between guide piece and the guide way, and the guide piece extend to in the inner chamber of trompil and with carriage release lever fixed connection, fixed mounting has the stay cord between carriage release lever and the piston piece, the one end that the carriage release lever is close to the rubber slab extends to in the open-ended inner chamber and with dog outer wall connection.

Preferably, the dog includes the dog body with opening inner wall fixed connection, the one end that the carriage release lever is close to the rubber slab runs through the dog body and with movable block fixed connection, the hole has been seted up to dog body outer wall, the movable block left and right sides all articulates there is the dog that hides, and is two sets of it all articulates there is the guide bar to shelter from one side outer wall that the piece is close to each other, one side outer wall fixed mounting that the dog body is close to the movable block has the ejector pad, and the perpendicular cross-section of ejector pad is triangle-shaped, and the ejector pad outer wall laminates with two sets of guide bar outer walls mutually.

Preferably, the outer wall of one side of the rubber plate close to the square stop block and the inner wall of the square stop block are both provided with conducting strips, and the conducting strips on the outer side are electrically connected with the electric telescopic rod.

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

1. the device can move downwards when the movable plate is pressed, air at the bottom of the inner cavity of the mounting groove is extruded into the inner cavity of the movable groove through the through hole and the channel, the movable block drives the square stop block to move upwards to shield the graphene plate from the plate, so that glue between the plate and the graphene plate cannot overflow when the pressing plate is extruded, a gap between the plate and the graphene plate is prevented from being generated due to the fact that the glue in an edge area overflows due to extrusion, the quality of the processed plate is guaranteed, the glue overflowing from the outer wall does not need to be processed for the second time, and the working efficiency is improved;

2. when one side rubber slab pressurized, can make the rubber slab shrink of adjacent one side, make the space increase between board and the graphite alkene board, make the air between board and the graphite alkene board hinder the glue and reduce, make glue can continue to extend, ensure that glue can evenly distributed between board and graphite alkene board, avoid producing the clearance between board and the graphite alkene board.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional view of the anti-overflow device of the present invention;

FIG. 3 is an enlarged view of the structure at A of the present invention;

FIG. 4 is a schematic top view of the connection between the stopper and the rubber plate according to the present invention;

FIG. 5 is an enlarged view of the structure at B of the present invention.

In the figure: 1. a base; 2. a frame; 3. pressing a plate; 4. a material spraying device; 5. a work table; 6. an anti-overflow device; 61. mounting a plate; 62. mounting grooves; 63. moving the plate; 64. a return spring; 65. a channel; 66. a through hole; 67. a moving groove; 68. a moving block; 681. a slider; 682. a chute; 683. a limiting block; 684. a flow channel; 69. a square stop block; 691. a rubber plate; 6911. a conductive sheet; 692. a gas storage cavity; 693. a piston plate; 694. connecting ropes; 695. a support spring; 696. a retraction spring; 697. a piston block; 698. a travel bar; 699. a stopper; 6991. a stopper body; 6992. a stop block is shielded; 6993. a movable block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a technical scheme that: referring to fig. 1, the processing equipment for producing a graphene plate capable of avoiding generating a gap includes a base 1, a frame 2, a pressing plate 3 and a material spraying device 4;

referring to fig. 1, a frame 2 is fixedly installed on the outer wall of the top of a base 1, a material spraying device 4 is installed on the outer wall of the left side of the frame 2, the material spraying device 4 comprises a material storage tank, an electric push rod and a spray head, glue is filled in the material storage tank and is conveyed to the spray head by a pump in the material storage tank, the electric push rod moves the spray head to the upper part of a workbench 5, glue is dripped on the plate through the spray head, the graphene plate is placed on the plate, the electric telescopic rod drives the pressing plate 3 to move downwards, pressing the graphene plate and the graphene plate to enable glue to be uniformly distributed between the graphene plate and the graphene plate, adhering the graphene to a glue coating position on the graphene plate, fixedly connecting the inner wall of the top of the rack 2 with a pressing plate 3 through an electric telescopic rod, fixedly installing a workbench 5 on the outer wall of the right side of the top of the base 1, fixedly installing an anti-overflow device 6 on the outer wall of the top of the workbench 5, and electrically connecting electric equipment related to the anti-overflow device with an external power switch through a lead;

referring to fig. 1 and 2, the spill-proof device 6 includes a mounting plate 61 fixedly connected to the outer wall of the top of the workbench 5, the outer wall of the top of the mounting plate 61 is provided with an installation groove 62, an inner cavity of the installation groove 62 is slidably inserted with a moving plate 63, a return spring 64 is fixedly installed between the moving plate 63 and the installation groove 62, the bottom of the inner cavity of the mounting plate 61 is provided with a channel 65, the inner wall of the top of the channel 65 is communicated with the installation groove 62 through a through hole 66, the outer wall of the top of the mounting plate 61 is provided with a moving groove 67, the cross section of the moving groove 67 is a hollow rectangle, the inner cavity of the moving groove 67 is communicated with the channel 65, the bottom of the inner cavity of the moving groove 67 is slidably inserted with a moving block 68, the outer wall of the top of the moving block 68 is fixedly, the plate is fixed, when the pressing plate 3 presses the graphene plate and the plate to be processed, the moving plate 63 moves downwards when being pressed, air at the bottom of the inner cavity of the mounting groove 62 is squeezed into the inner cavity of the moving groove 67 through the through hole 66 and the channel 65, the moving block 68 drives the square stop block 69 to move upwards to shield the graphene plate and the plate, so that glue between the plate and the graphene plate cannot overflow when the pressing plate 3 is pressed to be processed, the phenomenon that a gap is generated between the plate and the graphene plate due to extrusion overflow of glue in an edge area, the quality of the processed plate is influenced, and the overflowed glue does not need to be processed secondarily;

referring to fig. 2 and 3, the inner walls of the left and right sides of the moving block 68 are fixedly provided with sliders 681, the inner wall of the moving groove 67 is provided with two sets of sliding grooves 682, the sliders 681 are slidably inserted into the inner cavities of the sliding grooves 682, springs are fixedly provided between the sliders 681 and the sliding grooves 682, the outer walls of the two sets of sliders 681 close to each other are fixedly provided with stoppers 683, the stoppers 683 are made of rubber, the inner cavities of the sliding grooves 682 are provided with stopper grooves, the stoppers 683 are located in the inner cavities of the stopper grooves, the stopper 683 and the stopper grooves have arc vertical cross sections, the channel 65 is communicated with the stopper groove through the flow channel 684, when air in the mounting groove 62 is extruded into the inner cavity of the channel 65, the air also enters the inner cavities of the stopper grooves through the flow channel 684 to extrude the stoppers 683 to deform the stoppers 683, so that the stoppers 683 are moved out of the inner cavities, the sliding block 681 is pushed upwards to provide an upward force for the moving block 68 and the square stop block 69, so that the square stop block 69 cannot automatically move, and the use effect of the square stop block 69 is ensured;

referring to fig. 4, four groups of rubber plates 691 are uniformly disposed on the inner wall of the square block 69, air is filled between the rubber plates 691 and the square block 69, four groups of air storage chambers 692 are uniformly disposed on the inner chamber of the square block 69, the air storage chambers 692 are communicated with the inner portion of the rubber plates 691 through holes, piston plates 693 are slidably disposed on the inner chambers of the air storage chambers 692, connecting ropes 694 are fixedly disposed between the two groups of piston plates 693 on the left side and the rear side and between the two groups of piston plates 693 on the right side and the front side, supporting springs 695 are disposed on the inner chambers of the air storage chambers 692 on the left side and the right side, two ends of the supporting springs 695 are fixedly connected with the inner wall of the air storage chamber 692 and the outer wall of the connecting ropes 694 respectively, contraction springs 696 are disposed on the inner chambers of the air storage chambers 692 on the front and the rear sides, two ends of the contraction springs 696, when the pressing plate 3 is pressed down to make the glue between the graphene plates extend outwards under stress, and when the glue is not uniformly distributed between the graphene plates, the glue contacts with the rubber plate 691 on one side and extrudes the rubber plate 691, air inside the rubber plate 691 is extruded into the inner cavity of the air storage cavity 692, so that air pressure inside the air storage cavity 692 at the position is increased, the piston plate 693 at the position is moved, the connecting rope 694 is loosened, the contraction spring 696 on the adjacent side is contracted, the air pressure inside the air storage cavity 692 at the position is reduced, the air inside the rubber plate 691 is guided into the air storage cavity 692, the rubber plate 691 is contracted, the space between the plates and the graphene plates is increased (a closed space is formed between the graphene plates due to shielding of the square block 69), the air between the plates and the graphene plates hinders the glue, and the glue is reduced, and the glue can continue to extend, glue can be uniformly distributed between the plate and the graphene plate, so that a gap between the plate and the graphene plate is avoided, and the processing quality is ensured;

referring to fig. 4 and 5, a piston block 697 is slidably mounted in an inner cavity of the air storage chamber 692, a guide slot is formed in an inner wall of the opening, a guide block is slidably inserted into the inner cavity of the guide slot, a connecting spring is fixedly mounted between the guide block and the guide slot, the guide block extends into the inner cavity of the opening and is fixedly connected with the moving rod 698, a pull rope is fixedly mounted between the moving rod 698 and the piston block 697, one end of the moving rod 698, which is close to the rubber plate 691, extends into the inner cavity of the opening and is connected with an outer wall of the stop 699, when the air pressure in the air storage chamber 692 on one side increases to reduce the air pressure in the air storage chamber 692 on the adjacent side, the piston block 697 in the air storage chamber 692 with reduced air pressure moves towards the piston plate 693 to loosen the pull rope, the guide block drives the moving rod 698 to move inwards by the connecting spring, the moving rod 698 drives the stop 699 to move, air between the plate and the graphene plate can enter an inner cavity of the air storage cavity 692, so that the air existing between the plate and the graphene plate is further reduced, glue can be uniformly distributed between the plate and the graphene plate, no gap is generated between the plate and the graphene plate, the use performance of the anti-overflow device 6 is increased, the movable rod 698 is a telescopic rod, the length of the movable rod 698 can be changed in a telescopic mode, and the rubber plate 691 is not influenced to be drawn close to the inner wall of the square stop block 69;

referring to fig. 5, the stopper 699 includes a stopper body 6991 fixedly connected to an inner wall of the opening, one end of the movable rod 698 near the rubber plate 691 penetrates through the stopper body 6991 and is fixedly connected to the movable block 6993, a hole is formed in an outer wall of the stopper body 6991, shielding blocks 6992 are hinged to left and right sides of the movable block 6993, guide rods are hinged to outer walls of two groups of shielding blocks 6992 near one side, a push block is fixedly mounted on an outer wall of the stopper body 6991 near the movable block 6993, a vertical cross section of the push block is triangular, outer walls of the push block are attached to outer walls of the two groups of guide rods, when the movable rod 698 drives the stopper 699 to move, the movable block 6993 is pushed out of the opening, the shielding block 6992 is unfolded, and glue is prevented from entering the inside of the rubber plate 691 through the;

referring to fig. 4 and 5, the outer wall of one side of the rubber plate 691 close to the square block 69 and the inner wall of the square block 69 are provided with four sets of conducting strips 6911, the outer conducting strip 6911 is electrically connected with the electric telescopic rod, the inner conducting strip 6911 is electrically connected with the external power supply, when the four sets of conducting strips 6911 are mutually attached, the electric telescopic rod starts to reset and move upwards, after glue is uniformly distributed, the pressing plate 3 can move upwards in time, and the working efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a can avoid producing processing equipment is used in production of graphite alkene board in clearance, includes base (1), frame (2), clamp plate (3) and spouts material device (4), its characterized in that: frame (2) fixed mounting is on the top outer wall of base (1), spout material device (4) and install on the left side outer wall of frame (2), frame (2) top inner wall passes through electric telescopic handle and clamp plate (3) fixed connection, base (1) top right side outer wall fixed mounting has workstation (5), workstation (5) top outer wall fixed mounting has anti-overflow device (6).

2. The processing equipment capable of avoiding generating the gap for producing the graphene plate according to claim 1, wherein: the anti-overflow device (6) comprises a mounting plate (61) fixedly connected with the outer wall of the top of the workbench (5), the outer wall of the top of the mounting plate (61) is provided with a mounting groove (62), the inner cavity of the mounting groove (62) is inserted with a moving plate (63) in a sliding manner, a reset spring (64) is fixedly mounted between the moving plate (63) and the mounting groove (62), the bottom of the inner cavity of the mounting plate (61) is provided with a channel (65), the inner wall of the top of the channel (65) is communicated with the mounting groove (62) through a through hole (66), the outer wall of the top of the mounting plate (61) is provided with a moving groove (67), the cross section of the moving groove (67) is a hollow rectangle, the inner cavity of the moving groove (67) is communicated with the channel (65), the bottom end of the inner cavity of the moving groove (67, the cross sections of the moving block (68) and the square stop block (69) are both hollow rectangles.

3. The processing equipment capable of avoiding generating the gap for producing the graphene plate according to claim 2, wherein: the equal fixed mounting of movable block (68) left and right sides inner wall has slider (681), two sets of spout (682) have been seted up to shifting chute (67) inner wall, and slider (681) slide and insert in the inner chamber of spout (682), and fixed mounting has the spring between slider (681) and spout (682), and is two sets of the equal fixed mounting of one side outer wall that slider (681) are close to each other has stopper (683), the spacing groove has been seted up to spout (682) inner chamber, and stopper (683) are located the inner chamber of spacing groove, and stopper (683) all are the arc with the perpendicular cross-section of spacing groove, passageway (65) are through flow channel (684) and spacing groove intercommunication.

4. The processing equipment capable of avoiding generating the gap for producing the graphene plate according to claim 2, wherein: square dog (69) inner wall evenly is provided with four group's rubber slab (691), it has the air to fill between rubber slab (691) and the square dog (69), four group's gas storage chamber (692) have evenly been seted up to square dog (69) inner chamber, and gas storage chamber (692) through trompil and rubber slab (691) inside intercommunication, gas storage chamber (692) inner chamber slidable mounting has piston plate (693), and between the two sets of piston plate (693) of left side and rear side and the two sets of piston plate (693) of right side and front side between equal fixed mounting be connected rope (694), the left and right sides gas storage chamber (692) inner chamber all is provided with supporting spring (695), and supporting spring (695) both ends respectively with gas storage chamber (692) inner wall, be connected rope (694) outer wall fixed connection, both sides around the gas storage chamber (692) inner chamber all is provided with shrink spring (696), and shrink spring (696) both ends respectively with gas storage chamber (692) inner wall, piston board (693) outer wall fixed connection, the opening has been seted up to rubber slab (691) outer wall, and opening inner chamber movable mounting has dog (699).

5. The processing equipment for producing the graphene plate capable of avoiding the generation of the gap according to claim 4, wherein: gas storage chamber (692) inner chamber slidable mounting has piston piece (697), and the trompil inner wall has seted up the guide way, and the guide way inner chamber slides and pegs graft and have the guide block, and fixed mounting has a coupling spring between guide block and the guide way, and the guide block extend to the inner chamber of trompil in and with carriage release lever (698) fixed connection, fixed mounting has the stay cord between carriage release lever (698) and piston piece (697), one end that carriage release lever (698) is close to rubber slab (691) extends to in the open-ended inner chamber and with dog (699) outer wall connection.

6. The processing equipment for producing the graphene plate capable of avoiding the generation of the gap according to claim 5, wherein: dog (699) include with opening inner wall fixed connection's dog body (6991), the one end that carriage release lever (698) is close to rubber slab (691) runs through dog body (6991) and with movable block (6993) fixed connection, the hole has been seted up to dog body (6991) outer wall, the movable block (6993) left and right sides all articulates there is and hides dog (6992), two sets of it all articulates to hide one side outer wall that dog (6992) is close to each other has a guide bar, one side outer wall fixed mounting that dog body (6991) is close to movable block (6993) has the ejector pad, and the perpendicular cross-section of ejector pad is triangle-shaped, and the ejector pad outer wall laminates with two sets of guide bar outer walls mutually.

7. The processing equipment for producing the graphene plate capable of avoiding the generation of the gap according to claim 6, wherein: rubber slab (691) is close to one side outer wall and square dog (69) inner wall of square dog (69) and all is provided with conducting strip (6911), and outside conducting strip (6911) and electric telescopic handle electric connection.