CN119735015B - Laminating machine for rubber and plastic materials and using method thereof - Google Patents

Abstract

The present invention relates to the field of stacking machines, and specifically to a stacking machine for rubber and plastic materials and a method for using the same, comprising a support base, wherein the support base comprises a first bottom plate, and an adjustable top plate, wherein the adjustable top plate is arranged above the support base, and the adjustable top plate comprises a top beam, wherein two rotating plates are movably connected below the top beam; and an adjusting adsorption member. The present invention facilitates stacking of materials of different sizes by adjusting the coordination between the adsorption member and the stacking assembly, and prevents the material from curling and causing unevenness by pressing the fixing assembly, so as to solve the problem that the traditional stacking machine equipment in the prior art is bulky and complicated to operate. When stacking rubber and plastic materials, the traditional stacking machine may cause uneven placement of the plates due to inaccurate operation, thereby affecting subsequent processing and use. In addition, the rubber and plastic materials may be deformed and curled during transportation due to their soft texture, and are prone to adhesion under long-term extrusion.

Description

Laminating machine for rubber and plastic materials and using method thereof

Technical Field

The invention relates to the field of lamination machines, in particular to a lamination machine for rubber and plastic materials and a using method thereof.

Background

The technology of the lamination machine of rubber and plastic materials originates from the development requirement of the rubber and plastic industry. With the wide application of rubber and plastic products in various fields (such as building, automobile, electronics, aerospace and the like), the demand for rubber and plastic material processing equipment is increasing. As one of the important equipments in the processing of rubber and plastic materials, the plate stacking machine has undergone a development history from simple to complex, manual to automatic, and single-function to multi-function.

Plate stacking machines play an important role in the rubber and plastic material processing industry. The whole volume of traditional lamination machine equipment is huge, and the operation is complicated, and traditional lamination machine is when stacking rubber and plastic material, because the operation is accurate inadequately, probably leads to panel to put neatly, and then influences subsequent processing and use, and rubber and plastic material is because the texture is soft, can appear warping the corner in transit, appears the adhesion easily under long-term extrusion.

Therefore, it is necessary to invent a lamination machine for rubber and plastic materials and a using method thereof to solve the above problems.

Disclosure of Invention

The invention aims to provide a laminating machine for rubber and plastic materials and a using method thereof, the cooperation of an absorption part and a laminating component is adjusted, materials with different sizes are conveniently stacked, the phenomenon that the material is not orderly caused by the movement of a rolling angle can be prevented by pressing the fixing component, the problems that the whole size of traditional laminating machine equipment is huge, the operation is complex, the traditional laminating machine is not accurate enough in the process of laminating the rubber and plastic materials, the plates are possibly placed irregularly, the subsequent processing and the use are affected, the rubber and plastic materials can deform and roll the angle in transportation due to soft texture, and the adhesion is easy to occur under long-term extrusion are solved.

In order to achieve the aim, the invention provides the technical scheme that the laminating machine for the rubber and plastic materials and the using method thereof comprise a support base, wherein the support base comprises a first bottom plate and also comprises

The adjusting top plate is arranged above the supporting base and comprises a top beam, and two rotating plates are movably connected below the top beam;

the adjusting absorbing parts are provided with two groups which are respectively positioned at the bottoms of the two rotating plates;

The plate stacking assembly is positioned below the adjusting absorption part and arranged at the center of the top of the supporting base, the plate stacking assembly comprises a mounting bottom plate arranged at the top of the first bottom plate, two sides of the top of the mounting bottom plate are slidably connected with an adjusting bottom plate, the top of the adjusting bottom plate is slidably connected with a first side plate and a second side plate, and the outer sides of the first side plate and the second side plate are fixedly connected with limiting angles;

the feeding component and the film feeding component are both arranged at the top of the supporting base and are respectively positioned at the left side and the right side of the laminated board component;

the discharging assembly is arranged at the front side of the lamination assembly;

The pressing and fixing assembly comprises a first fixing piece and a second fixing piece, wherein the first fixing piece and the second fixing piece are respectively installed at the tops of the first side plate and the second side plate, the first fixing piece and the second fixing piece are respectively connected with transmission bevel gears in a rotating mode and are connected with a driving rotary knob and a driven rotary knob in a rotating mode, the left side and the right side of the transmission bevel gears are respectively connected with the driving bevel gears and the driven bevel gears in a meshed mode, the outer side of the driving bevel gears is fixedly connected with the driving rotary knob, the driven bevel gears are fixedly connected with the driven rotary knob, and a limiting block is arranged above the driving rotary knob.

As a preferable scheme of the invention, the front side of the rear side of the first bottom plate is fixedly connected with an extension plate, the rear side of the first bottom plate is fixedly connected with a vertical plate, the outer side of the vertical plate is provided with an electric push rod, and the output end of the electric push rod is fixedly connected with a pushing plate.

As a preferable scheme of the invention, a first electric sliding rail is arranged in the top beam, a first electric sliding block is connected in the first electric sliding rail in a sliding manner, two electric push rods are arranged in the first electric sliding block, a motor is arranged at the output end of each electric push rod, the output end of each motor is fixedly connected with two rotating plates, and the rotating plates are connected with the first electric sliding block in a rotating manner.

As a preferable scheme of the invention, the adjusting adsorption piece comprises two transverse electric sliding rails fixedly arranged at the bottom of the rotating plate, two transverse sliding blocks are connected inside the two transverse electric sliding rails in a sliding manner, longitudinal electric sliding rails are fixedly connected at the bottoms of the transverse sliding blocks, two longitudinal sliding blocks are connected at the bottoms of the longitudinal electric sliding rails in a sliding manner, and connecting blocks are fixedly connected at the bottoms of the longitudinal sliding blocks.

As a preferable scheme of the invention, the bottom of the connecting block is fixedly connected with the adsorption disc, the air pump is arranged in the rotating plate, the output end of the air pump is provided with the air duct, the output end of the air duct is communicated with the air guide hoses, the output ends of the air guide hoses are respectively and fixedly connected with the four connecting blocks and are communicated with the adsorption disc through the connecting blocks, the outer side of the connecting block is fixedly connected with the pressing rod, and the bottom of the air duct is fixedly provided with the laser scanning distance meter.

As a preferable scheme of the invention, the top of the mounting bottom plate is provided with the air cylinder, the output end of the air cylinder is fixedly connected with the lifting plate, the top of the lifting plate is slidably connected with the bearing plate, and the bottom of the bearing plate is fixedly connected with the guide rod matched with the lifting plate.

As a preferred scheme of the invention, the feeding component comprises a second bottom plate, wherein the second bottom plate is detachably connected with the first bottom plate, two sides of the top of the second bottom plate are fixedly connected with baffle plates, a transmission rod is arranged between the two baffle plates, an installation beam fixedly connected with the baffle plates is arranged on the side of the transmission rod, a cutter is movably connected in the installation beam, an inclined plate fixedly connected with the baffle plates is arranged on the side of the installation beam, guide blocks are fixedly connected with the two sides of the top of the inclined plate, a discharge plate is fixedly connected with the output end of the inclined plate, and a stop block is arranged on the outer side of the discharge plate.

As a preferable scheme of the invention, the discharging assembly comprises a supporting plate, two transmission shafts are arranged in the supporting plate, a transmission belt is connected between the two transmission shafts, and one transmission shaft is driven by a motor.

A laminating machine for rubber and plastic materials and a use method thereof comprise the laminating machine for rubber and plastic materials, and the specific processing steps are as follows:

firstly, winding a rubber plastic material on a transmission rod in a feeding assembly by a user, installing, pulling out the end part of the rubber plastic material, and installing an isolation plastic film in the feeding assembly in the same way;

Step two, placing a rubber and plastic material on the top of the laminated board assembly through adjusting the absorption part, then placing a film on the top of the rubber and plastic material, and placing the films in a crossed manner;

And thirdly, pushing the stacked materials to the upper part of the discharging assembly by a user through a pushing plate to discharge when the stacking quantity reaches the designated height.

In the technical scheme, compared with the prior art, the invention has the following technical effects and advantages:

1. The first electric sliding rail is started to drive the first electric sliding block to slide left and right in the top beam, the rotary plate positioned on the right side is moved to the upper side of the feeding assembly, then the electric push rod is started, the electric push rod drives the adjusting adsorption piece to be in contact with the rubber plastic material and adsorb the rubber plastic material, then the first electric sliding rail is started again through reset of the electric push rod, the adjusting adsorption piece moves the rubber plastic material to the upper side of the laminated plate assembly, the rubber plastic material is placed on the top of the laminated plate assembly, at the moment, the left adjusting adsorption piece slides to the upper side of the film feeding assembly, the left adjusting adsorption piece adsorbs the plastic film in the film feeding assembly and moves to the upper side of the laminated plate assembly to cover the rubber plastic material, at the moment, the right adjusting adsorption piece moves to the upper side of the feeding assembly again to adsorb and take the rubber plastic material, and the like, so that the rubber plastic material and the plastic film can be placed at intervals, and the rubber plastic material can be conveniently separated, the rubber plastic material is prevented from being stacked together for a long time, and the phenomenon of adhesion is easy to occur;

2. When the adsorption plate is used for placing the rubber and plastic materials, the pressing rod is contacted with the driving rotary button and pushes the driving rotary button to rotate downwards by 90 degrees, at the moment, the rotation direction of the driven rotary button and the rotation direction of the driving rotary button are opposite, the driven rotary button rotates upwards by 90 degrees, at the moment, the driven rotary button is far away from the bearing plate, the placement of the rubber and plastic materials is not influenced, when the rubber and plastic materials are placed in the bearing plate, the adsorption piece is adjusted to retract, the adsorption plate is released to adsorb the rubber and plastic materials, at the moment, gas is sprayed out through the adsorption plate, the sprayed gas flow can temporarily fix the rubber and plastic materials, at the same time, the pressing rod is far away from the driving rotary button, under the action of the torsion spring, the driving rotary button automatically resets to drive the driven rotary button to reset and contact with the rubber and plastic materials, thereby the top of the rubber and plastic materials is pressed, the phenomenon of shifting or rolling angles is prevented, when the driven rotary button contacts with the rubber and plastic materials, the air pump is not operated any more, the cost can be reduced by fixing the material through the clearance between the release material and the pressing material, the utilization rate is improved, and each layer of rubber and plastic material is convenient to use.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of a first view angle structure of the present invention;

FIG. 2 is a schematic diagram of an overall second view structure according to the present invention;

FIG. 3 is a schematic cross-sectional view of the header of the present invention;

FIG. 4 is a schematic view of the connection structure of the adjusting top plate and the adjusting absorbing member of the present invention;

FIG. 5 is a schematic diagram showing the detailed structure of the adjusting adsorbing member of the present invention;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5A according to the present invention;

FIG. 7 is a detailed schematic view of the stacked plate assembly of the present invention;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7B according to the present invention

FIG. 9 is a schematic view of a connection structure between a receiving plate and a lifting plate according to the present invention;

FIG. 10 is a schematic view of the internal structure of the feed assembly of the present invention;

FIG. 11 is a schematic view of the connection structure of the support base and the discharge assembly of the present invention;

FIG. 12 is a schematic view of the whole structure of the pressing and fixing assembly of the present invention;

fig. 13 is a schematic view showing an internal structure of the pressing and fixing assembly of the present invention.

Reference numerals illustrate:

001. The device comprises a supporting base, 002, an adjusting top plate, 003, an adjusting absorption part, 004, a lamination assembly, 005, a feeding assembly, 006, a film feeding assembly, 007, a discharging assembly, 008 and a pressing fixing assembly;

101. the device comprises a first bottom plate, 102, an extension plate, 103, a vertical plate, 104 and a pushing plate;

201. A top beam; 202, a first electric slide rail, 203, a first electric slide block, 204, a rotating plate;

301. a transverse electric slide rail, 302, a transverse slide block, 303, a longitudinal electric slide rail, 304, a longitudinal slide block, 305, a connecting block, 306, an adsorption disk, 307, an air pump, 308, an air duct, 309, an air guide hose, 310, a laser scanning range finder, 311 and a pressing rod;

401. Mounting base plate, 402, adjusting base plate, 403, first side plate, 404, second side plate, 405, limiting angle, 406, cylinder, 407, lifting plate, 408, bearing plate, 409 and guide rod;

501. The second bottom plate 502, a baffle plate 503, a transmission rod 504, an inclined plate 505, a mounting beam 506, a cutter 507, a guide block 508, a discharge plate 509 and a stop block;

701. support plate 702, transmission belt 703, transmission shaft;

801. The device comprises a first fixing piece 802, a second fixing piece 803, a limiting block 804, a driving rotary knob 805, driving conical teeth 806, driving conical teeth 807, driven conical teeth 808, driven rotary knob 809, a first sliding rod 810 and a second sliding rod.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

The invention provides a laminating machine for rubber and plastic materials and a using method thereof as shown in figures 1-13, wherein the laminating machine comprises a supporting base 001, the supporting base 001 comprises a first bottom plate 101 and also comprises an adjusting top plate 002, the adjusting top plate 002 is arranged above the supporting base 001, the adjusting top plate 002 comprises a top beam 201, and two rotating plates 204 are movably connected below the top beam 201;

the adjusting absorbing parts 003 are provided with two groups which are respectively positioned at the bottoms of the two rotating plates 204;

a lamination assembly 004 positioned below the adjustment absorbing member 003 and arranged at the top center of the support base 001;

The feeding component 005 and the film feeding component 006 have the same structure, are both arranged at the top of the supporting base 001 and are respectively positioned at the left side and the right side of the laminated board component 004;

An outfeed assembly 007 disposed on the front side of the stack assembly 004, wherein the top of the outfeed assembly 007 is located below the sides of the receiving plate 408;

The pressing and fixing assemblies 008 are provided with two sides and are respectively positioned on two sides of the laminated board assembly 004, and each group of pressing and fixing assemblies 008 comprises a first fixing piece 801 and a second fixing piece 802;

When in use, a user can wind the rubber and plastic materials on the transmission rod 503 in the feeding component 005 to install and pull out the end parts of the rubber and plastic materials, and the isolation plastic film is installed in the membrane feeding component 006 and pulled out from the outlet, which is not described in detail in the prior art, the user can lay the binding belt for binding the materials above the bearing plate 408 before stacking, then place the rubber and plastic materials on the top of the stacking component 004 through the adjusting absorbing component 003, then place the films on the top of the rubber and plastic materials and place the films alternately, when the stacking quantity reaches the designated height, the user can simply bind the rubber and plastic materials through the binding belt to prevent scattering, and the user pushes the stacked materials to the upper part of the discharging component 007 through the pushing plate 104 to discharge.

The inside of the top beam 201 is provided with a first electric sliding rail 202, the inside of the first electric sliding rail 202 is slidingly connected with a first electric sliding block 203, the inside of the first electric sliding block 203 is provided with two electric pushing rods, the output end of each electric pushing rod is provided with a motor, the output end of each motor is fixedly connected with two rotating plates 204, each rotating plate 204 is rotatably connected with the corresponding first electric sliding block 203, and each electric pushing rod, each motor and each first electric sliding rail 202 are connected with a PLC;

When the electric sliding device is used, a user can drive the first electric sliding block 203 to slide left and right in the top beam 201 by starting the first electric sliding rail 202, move the rotating plate 204 positioned on the right side to the upper side of the feeding assembly 005, and then start the electric push rod, and the electric push rod drives the adjusting absorbing piece 003 to be in contact with the rubber plastic material and absorb the rubber plastic material. Then, the first electric sliding rail 202 is started again through the reset of the electric push rod to drive, the adjusting absorbing part 003 moves the rubber and plastic material to the upper side of the laminated board assembly 004, the rubber and plastic material is placed on the top of the laminated board assembly 004, and at the moment, the adjusting absorbing part 003 on the left side slides to the upper side of the film feeding assembly 006. The same reason makes the inside plastic film of membrane module 006 will advance to be adsorbed to the adjustment that is located left adsorption piece 003 to remove to the top of lamination subassembly 004 and cover the rubber and plastic material, the adjustment that is located right at this moment adsorption piece 003 removes to the top of feeding subassembly 005 again, adsorbs the rubber and plastic material and takes, and so on, thereby can place rubber and plastic material and plastic film interval, thereby be convenient for separate the rubber and plastic material, prevent that rubber and plastic material from piling up together for a long time, the phenomenon of adhesion appears easily.

The adjusting absorbing part 003 comprises two transverse electric sliding rails 301 fixedly arranged at the bottom of the rotating plate 204, two transverse sliding blocks 302 are slidably connected in the two transverse electric sliding rails 301, longitudinal electric sliding rails 303 are fixedly connected to the bottoms of the transverse sliding blocks 302, two longitudinal sliding blocks 304 are slidably connected to the bottoms of the longitudinal electric sliding rails 303, a connecting block 305 is fixedly connected to the bottoms of the longitudinal sliding blocks 304, an absorbing disc 306 is fixedly connected to the bottoms of the connecting blocks 305, an air pump 307 is arranged in the rotating plate 204, an air duct 308 is arranged at the output end of the air pump 307, an air duct 309 is communicated with the output end of the air duct 308, the output ends of the air duct 309 are fixedly connected with four connecting blocks 305 respectively and are communicated with the absorbing disc 306 through the connecting blocks 305, a pressing rod 311 is fixedly connected to the outer sides of the connecting blocks 305, a laser scanning distance meter 310 is fixedly arranged at the bottoms of the air duct 308, and the transverse electric sliding rails 301, the longitudinal electric sliding rails 303, the air pump 307 and the laser scanning distance meter 310 are all connected with a PLC;

the laser scanning range finder 310 can detect the size of the rubber and plastic material below and detect the position of the rubber and plastic material, when the rubber and plastic material changes in size, a user can drive the transverse sliding block 302 to slide in the transverse electric sliding rail 301 by starting the transverse electric sliding rail 301, so that the transverse sliding block 302 drives the longitudinal electric sliding rail 303 to move. Simultaneously, the longitudinal electric slide rail 303 is started to drive the longitudinal slide block 304 to slide in the longitudinal electric slide rail 303, so that the connecting block 305 moves below the longitudinal electric slide rail 303, the position of the connecting block 305 is adjusted, a user can freely adjust according to the size of the rubber and plastic material, and the position of the connecting block can be finely adjusted according to the position of the material;

The output end of the electric push rod is provided with a motor, and the output end of the motor is fixedly connected with the rotating plate 204, so that when the laser scanning range finder 310 detects the position of the rubber and plastic material, a user can drive the adjusting absorbing piece 003 to integrally rotate through starting the motor, so that four absorbing discs 306 at the bottom of the adjusting absorbing piece 003 are positioned at four corners of the rubber and plastic material and absorb the rubber and plastic material, and automatic adjustment is facilitated;

When the adsorption disc 306 moves to four corners of the rubber and plastic material, a user enables the adsorption disc 306 to be in contact with the rubber and plastic material by starting the electric push rod, then starts the air pump 307 to suck the air in the adsorption disc 306 and the rubber and plastic material, so that the adsorption disc 306 and the rubber and plastic material are tightly adsorbed together, the adsorption disc is fixedly adsorbed on the rubber and plastic material, then starts the electric push rod and the motor again, and moves the rubber and plastic material to the position right above the laminated board assembly 004 through the first electric slide rail 202, and the rubber and plastic material is placed;

When the rubber and plastic material is placed to the top of the bearing plate 408, a user blows the internal air to the adsorption disc 306 through the air guide pipe 308 and the air guide hose 309 by starting the air pump 307, so that the adsorption of the rubber and plastic material is released, and the air pump 307 enables the wind power blown out by the adsorption disc 306 to perform powerful blowing on four corners of the rubber and plastic material, so that the phenomenon of corner rolling is prevented.

The laminated board assembly 004 comprises a mounting bottom board 401 arranged at the top of the first bottom board 101, electric sliding rails I are arranged on two sides of the top of the mounting bottom board 401, an adjusting bottom board 402 is connected in a sliding manner in the electric sliding rails I, a first side board 403 and a second side board 404 are connected to the top of the adjusting bottom board 402 in a sliding manner, limiting angles 405 are fixedly connected to the outer sides of the first side board 403 and the second side board 404, an air cylinder 406 is arranged on the top of the mounting bottom board 401, a lifting board 407 is fixedly connected to the output end of the air cylinder 406, a bearing board 408 is connected to the top of the lifting board 407 in a sliding manner, and a guide rod 409 matched with the lifting board 407 is fixedly connected to the bottom of the bearing board 408;

The top of adjusting bottom plate 402 is provided with electric slide rail two, and first curb plate 403 and second curb plate 404 all slide in electric slide rail two's inside, and the user can adjust the distance between two adjusting bottom plates 402 through starting electric slide rail one, can adjust the distance between first curb plate 403 and the second curb plate 404 through starting electric slide rail two to can adjust the size of lamination subassembly 004 according to the size of rubber and plastic material, wherein accept the board 408 and can change according to the size of rubber and plastic material, and be close to the shape of the spacing angle 405 of riser 103 one side and be L shape, wherein, electric slide rail one, cylinder 406 and electric slide rail two all are connected with the PLC controller.

The feeding assembly 005 comprises a second bottom plate 501, wherein the second bottom plate 501 is detachably connected with the first bottom plate 101, two sides of the top of the second bottom plate 501 are fixedly connected with baffle plates 502, a transmission rod 503 is installed between the two baffle plates 502, the side of the transmission rod 503 is provided with a mounting beam 505 fixedly connected with the baffle plates 502, the inside of the mounting beam 505 is movably connected with a cutter 506, the cutter 506 is controlled by a cylinder, the cylinder is connected with a PLC (programmable logic controller), the side of the mounting beam 505 is provided with an inclined plate 504 fixedly connected with the baffle plates 502, two sides of the top of the inclined plate 504 are fixedly connected with guide blocks 507, the output end of the inclined plate 504 is fixedly connected with a discharge plate 508, and the outer side of the discharge plate 508 is provided with a stop 509;

The user can push the rubber and plastic material to the top of hang plate 504 through transfer line 503 to cut rubber and plastic material through cutter 506, the material after the cutting falls into the flitch 508 inside naturally, and flitch 508 sets up to the conveyer belt subassembly by motor control, and transports to the position that offsets with dog 509 through flitch 508, and flitch 508's inside is provided with a plurality of air vents, is convenient for take rubber and plastic material.

The discharging assembly 007 comprises a supporting plate 701, two transmission shafts 703 are arranged in the supporting plate 701, a transmission belt 702 is connected between the two transmission shafts 703, one transmission shaft 703 is driven by a motor, and the motor is connected with a PLC controller;

When rubber and plastic material stacks appointed quantity or high, the user can be through the cylinder of starting 406 will accept the board 408 decline, make the height of accepting the board 408 and the cooperation of ejection of compact subassembly 007, and make the material keep away from pressing fixed subassembly 008, prevent to press fixed subassembly 008 to the material scratch, lead to scattering, and drive through the electric putter of starting riser 103 avris and push away the flitch 104 and accept the board 408 and promote rubber and plastic material, make rubber and plastic material and the board 408 of accepting of bottom promote to the top of conveyer belt 702, and drive the rubber and plastic material through the rotation of transmission shaft 703 and go out the ejection of compact.

In order to further improve the stacking accuracy and prevent the occurrence of corner rolling and irregular phenomena, the first fixing piece 801 and the second fixing piece 802 are respectively installed at the top of the first side plate 403 and the second side plate 404, the inside of the first fixing piece 801 and the inside of the second fixing piece 802 are respectively connected with driving bevel gears 806 in a rotating way, driving rotary buttons 804 and driven rotary buttons 808 in a rotating way, the left side and the right side of the driving bevel gears 806 are respectively connected with driving bevel gears 805 and driven bevel gears 807 in a meshed way, the outer sides of the driving bevel gears 805 are fixedly connected with the driving rotary buttons 804, the driven bevel gears 807 are fixedly connected with the driven rotary buttons 808, and limiting blocks 803 are arranged above the driving rotary buttons 804;

When the adsorption disc 306 is used for placing rubber and plastic materials, as the pressing rod 311 is positioned at the side of the adsorption disc 306, the bottom position of the pressing rod 311 is lower than the bottom of the adsorption disc 306, so that the pressing rod 311 is firstly contacted with the driving knob 804 and pushes the driving knob 804 to rotate downwards by 90 degrees, the driving knob 804 drives the driving cone 805 to rotate in the first fixing piece 801, the driving cone 805 drives the driving cone 806 to rotate, the driving cone 806 drives the driven cone 807 to rotate, at the moment, the rotation directions of the driving cone 805 and the driven cone 807 are opposite, the driven cone 807 drives the driven knob 808 to rotate, at the moment, the rotation directions of the driven knob 808 and the driving knob 804 are opposite, when the pressing rod 311 drives the driving knob 804 to rotate downwards by 90 degrees, the driven knob 808 rotates upwards by 90 degrees, at the moment, the driven knob 808 is far away from the bearing plate 408, so that the placement of the rubber and plastic materials does not influence the arrangement of the rubber and plastic materials when the rubber and plastic materials are placed in the bearing plate 408, the absorption piece 003 is adjusted, at the moment, the adsorption disc 306 is released to absorb the rubber and plastic materials, the gas is sprayed out through the adsorption disc 306, the rubber and plastic materials or plastic films can be fixed temporarily, the driving cone 808 and the plastic materials are reset automatically, the driven knob 808 is reset, and the driving knob 808 is prevented from contacting the top of the rubber and plastic materials, the driving knob 808 is reset, and the driving knob is prevented from contacting with the rubber and plastic materials, and the driving knob 808 is reset, or the driving knob is reset, and the vibration is prevented from contacting with the driving knob and the vibration knob, and the vibration material;

The gap between the release material and the pressing material can be fixed by utilizing the adsorption gas, so that the cost can be reduced, the utilization rate can be improved, the use is convenient, and each layer of rubber plastic material is placed, the cylinder 406 drives the bearing plate 408 to descend a little, and the material is convenient to bear;

the inner sides of the two driven rotary buttons 808 are fixedly connected with a first sliding rod 809 and a second sliding rod 810 respectively, and the first sliding rod 809 and the second sliding rod 810 are in sliding connection.

The internal electric parts are connected with the central processing unit and controlled by the central processing unit.

A laminating machine for rubber and plastic materials and a use method thereof comprise the laminating machine for rubber and plastic materials, and the specific processing steps are as follows:

Firstly, a user winds a rubber plastic material on a transmission rod 503 in a feeding assembly 005 for installation, pulls out the end part of the rubber plastic material, and installs an isolation plastic film in the membrane feeding assembly 006 in the same way;

step two, placing a rubber and plastic material on the top of the laminated board assembly 004 through adjusting the adsorption piece 003, then placing a film on the top of the rubber and plastic material, and alternately placing the films;

And thirdly, when the stacking quantity reaches the designated height, the user pushes the stacked materials to the upper part of the discharging assembly 007 through the pushing plate 104 for discharging.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (9)

1. A laminating machine for rubber and plastic materials comprises a supporting base (001), wherein the supporting base (001) comprises a first bottom plate (101), and is characterized by further comprising

The adjusting top plate (002), the adjusting top plate (002) is arranged above the supporting base (001), the adjusting top plate (002) comprises a top beam (201), and two rotating plates (204) are movably connected below the top beam (201);

the adjusting absorbing parts (003) are provided with two groups and are respectively positioned at the bottoms of the two rotating plates (204);

The laminated plate assembly (004) is positioned below the adjusting adsorption piece (003), is arranged at the center of the top of the supporting base (001), the laminated plate assembly (004) comprises a mounting bottom plate (401) arranged at the top of the first bottom plate (101), two sides of the top of the mounting bottom plate (401) are slidably connected with an adjusting bottom plate (402), the top of the adjusting bottom plate (402) is slidably connected with a first side plate (403) and a second side plate (404), and limiting angles (405) are fixedly connected to the outer sides of the first side plate (403) and the second side plate (404);

the feeding component (005) and the film feeding component (006) are both arranged at the top of the supporting base (001) and are respectively positioned at the left side and the right side of the laminated board component (004);

a discharge assembly (007) disposed on a front side of the stack assembly (004);

Pressing fixed subassembly (008), including first mounting (801) and second mounting (802), first mounting (801) and second mounting (802) are installed respectively the top of first curb plate (403) and second curb plate (404), the inside of first mounting (801) and second mounting (802) all rotates and is connected with transmission awl tooth (806) and rotates and be connected with initiative button (804) and driven button (808), the left and right sides of transmission awl tooth (806) is meshed respectively and is connected with initiative awl tooth (805) and driven awl tooth (807), the outside and initiative button (804) fixed connection of initiative awl tooth (805), driven awl tooth (807) and driven button (808) fixed connection, the top of initiative button (804) is provided with stopper (803).

2. The machine for laminating rubber and plastic materials according to claim 1, wherein the extending plate (102) is fixedly connected to the front side of the rear side of the first bottom plate (101), the vertical plate (103) is fixedly connected to the rear side of the first bottom plate (101), the electric push rod is mounted on the outer side of the vertical plate (103), and the pushing plate (104) is fixedly connected to the output end of the electric push rod.

3. The machine for laminating rubber and plastic materials according to claim 1, wherein a first electric sliding rail (202) is arranged in the top beam (201), a first electric sliding block (203) is connected to the first electric sliding rail (202) in a sliding mode, two electric push rods are mounted in the first electric sliding block (203), a motor is mounted at the output end of each electric push rod, the output end of each motor is fixedly connected with two rotating plates (204), and the rotating plates (204) are connected with the first electric sliding block (203) in a rotating mode.

4. The machine for laminating rubber and plastic materials according to claim 1, wherein the adjusting absorbing member (003) comprises two transverse electric sliding rails (301) fixedly arranged at the bottom of the rotating plate (204), two transverse sliding blocks (302) are slidably connected to the inner parts of the two transverse electric sliding rails (301), longitudinal electric sliding rails (303) are fixedly connected to the bottoms of the transverse sliding blocks (302), two longitudinal sliding blocks (304) are slidably connected to the bottoms of the longitudinal electric sliding rails (303), and connecting blocks (305) are fixedly connected to the bottoms of the longitudinal sliding blocks (304).

5. The machine for laminating rubber and plastic materials according to claim 4, wherein an adsorption disc (306) is fixedly connected to the bottom of the connecting block (305), an air pump (307) is installed in the rotating plate (204), an air duct (308) is arranged at the output end of the air pump (307), air guide hoses (309) are communicated with the output end of the air duct (308), the output ends of the air guide hoses (309) are fixedly connected with the four connecting blocks (305) respectively and are communicated with the adsorption disc (306) through the connecting blocks (305), a pressing rod (311) is fixedly connected to the outer side of the connecting block (305), and a laser scanning range finder (310) is fixedly installed at the bottom of the air duct (308).

6. A plate stacking machine for rubber and plastic materials according to claim 1, wherein an air cylinder (406) is mounted on the top of the mounting base plate (401), the output end of the air cylinder (406) is fixedly connected with a lifting plate (407), the top of the lifting plate (407) is slidably connected with a bearing plate (408), and the bottom of the bearing plate (408) is fixedly connected with a guide rod (409) matched with the lifting plate (407).

7. The machine for producing plastic and rubber materials according to claim 1, wherein the feeding assembly (005) comprises a second bottom plate (501), the second bottom plate (501) is detachably connected with the first bottom plate (101), two baffle plates (502) are fixedly connected to two sides of the top of the second bottom plate (501), a transmission rod (503) is installed between the two baffle plates (502), an installation beam (505) fixedly connected with the baffle plates (502) is arranged on the side of the transmission rod (503), a cutter (506) is movably connected to the installation beam (505), an inclined plate (504) fixedly connected with the baffle plates (502) is arranged on the side of the installation beam (505), guide blocks (507) are fixedly connected to two sides of the top of the inclined plate (504), a discharging plate (508) is fixedly connected to the output end of the inclined plate (504), and a stop block (509) is arranged on the outer side of the discharging plate (508).

8. A machine for palletizing rubber and plastic materials according to claim 1, characterized in that said outfeed assembly (007) comprises a support plate (701), two transmission shafts (703) are arranged inside said support plate (701), a transmission belt (702) is connected between two transmission shafts (703), and one of said transmission shafts (703) is driven by a motor.

9. A method for using a plate stacking machine for rubber and plastic materials, comprising the plate stacking machine for rubber and plastic materials according to any one of claims 1 to 8, and is characterized by comprising the following specific processing steps:

Firstly, a user winds a rubber plastic material on a transmission rod (503) in a feeding assembly (005) for installation, pulls out the end part of the rubber plastic material, and installs an isolation plastic film in the film feeding assembly (006) in the same way;

step two, placing a rubber and plastic material on the top of the laminated board assembly (004) through adjusting the adsorption piece (003), then placing a film on the top of the rubber and plastic material, and placing the films in a crossed manner;

And thirdly, when the stacking quantity reaches the designated height, pushing the stacked materials to the upper part of the discharging assembly (007) by a user through the pushing plate (104) for discharging.