CN112756142B

CN112756142B - Gluing device for film composite processing

Info

Publication number: CN112756142B
Application number: CN202011563091.1A
Authority: CN
Inventors: 曹玉
Original assignee: Chongqing Ruiting Plastic Co Ltd
Current assignee: Chongqing Ruiting Plastic Co Ltd
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-11-09
Anticipated expiration: 2040-12-25
Also published as: CN112756142A

Abstract

The invention belongs to the technical field of packaging material processing, and particularly relates to a gluing device for film composite processing, which comprises a rack, a glue storage pool, a communicating cylinder and a smearing mechanism, wherein a moving mechanism and a power mechanism are arranged in the glue storage pool, and the moving mechanism comprises a connecting column; one side of the communicating cylinder is connected with a push column in a sliding way, and the other side of the communicating cylinder is connected with a piston in a sliding way; one end of the communicating cylinder is connected with a discharge pipe, and a one-way discharge valve is arranged on the discharge pipe; the discharge pipe is connected with a jet block, and a cavity and a jet orifice are formed in the jet block; a liquid inlet pipe is connected between the glue storage tank and the communicating cylinder, and a one-way liquid inlet valve is arranged on the liquid inlet pipe; the piston is provided with a water baffle and an air baffle, the water baffle is provided with a water through strip-shaped hole, and the air baffle is provided with a air through strip-shaped hole; when the water baffle blocks the liquid inlet pipe, the ventilating strip-shaped hole is opposite to the one-way air inlet valve; when the air baffle blocks the one-way air inlet valve, the water through strip-shaped hole is opposite to the liquid inlet pipe. The problem that glue spreading roller gluing is uneven due to inconsistent glue solution discharge amount can be effectively solved.

Description

Gluing device for film composite processing

Technical Field

The invention belongs to the technical field of packaging material processing, and particularly relates to a gluing device for film composite processing.

Background

The plastic packaging bag is prepared by using films made of polyvinyl chloride, polyethylene, polypropylene, polystyrene and other resins and performing the working procedures of printing, compounding, curing, heat sealing, bag making and the like, wherein the compounding belongs to a processing step of film post-printing processing, and materials with comprehensive properties of all single materials can be obtained through compounding.

The compounding of the membrane material is generally carried out on a compounding machine, and glue solution is required to be coated on the membrane material before the membrane material is compounded. The gluing structure of the existing compound machine is generally as follows: the liquid reserve tank sets up in the glue spreader top, and the opening below the liquid reserve tank utilizes the action of gravity to shift the glue solution to the glue spreader, and motor drive glue spreader constantly rotates for the glue solution can distribute on each surface of glue spreader, scribbles the glue solution on the coating material with the glue solution on the glue spreader at last. The above gluing structure has the following defects: 1) when the glue solution in the liquid storage tank is more, the discharge speed of the glue solution is higher, the glue solution adhered to the glue spreader is more, the discharge speed of the glue solution is slower along with the reduction of the glue solution in the glue solution tank, and the glue solution adhered to the glue spreader is less. Because the glue solution adhered to the glue spreader is in an indefinite amount, when the glue spreader spreads the film material, the problem that too much glue solution is easily spread sometimes and the problem that too little glue solution is easily spread sometimes occur. 2) The glue solution in the liquid storage tank is easy to precipitate to cause layering, and the quality of the glue solution transferred to the glue spreader cannot be guaranteed.

Disclosure of Invention

The invention aims to provide a gluing device for film composite processing, which aims to solve the problem of uneven gluing of a gluing roller caused by inconsistent glue solution discharge amount.

In order to achieve the purpose, the scheme of the invention is as follows: the gluing device for film composite processing comprises a frame, a glue storage pool, a communicating cylinder fixed on the frame and a smearing mechanism for smearing glue solution on the surface of a film material uniformly, wherein a moving mechanism for enabling the glue solution to flow up and down and a power mechanism for driving the moving mechanism to move up and down are arranged in the glue storage pool; the moving mechanism comprises a connecting column and a moving plate arranged on the connecting column; a push column with one end fixed on the moving plate is connected in one side of the communicating cylinder in a sliding manner, a piston is connected in the other side of the communicating cylinder in a sliding manner, and transmission liquid between the push column and the piston is filled in the communicating cylinder; one end of the communicating cylinder close to the piston is connected with a discharge pipe, and a one-way discharge valve is arranged on the discharge pipe; the discharge pipe is connected with a jet block, and a cavity communicated with the discharge pipe and a plurality of jet holes communicated with the cavity are formed in the jet block; a liquid inlet pipe is connected between the glue storage tank and the communicating cylinder, a one-way liquid inlet valve is arranged on the liquid inlet pipe, and the connecting part of the liquid inlet pipe and the communicating cylinder is positioned between the piston and the discharge pipe; a one-way air inlet valve is arranged on the side wall of the communicating cylinder between the piston and the discharge pipe; the piston is provided with a water baffle for plugging the liquid inlet pipe and an air baffle for plugging the one-way air inlet valve, the water baffle is provided with a water strip-shaped hole which can be opposite to the liquid inlet pipe, and the air baffle is provided with a ventilating strip-shaped hole which can be opposite to the one-way air inlet valve; when the water baffle blocks the liquid inlet pipe, the ventilating strip-shaped hole is opposite to the one-way air inlet valve; when the air baffle blocks the one-way air inlet valve, the water through strip-shaped hole is opposite to the liquid inlet pipe.

The working principle and the beneficial effects of the scheme are as follows:

when the gluing device works, the power mechanism and the smearing mechanism are started, the smearing mechanism pushes and smears glue on the surface of the membrane material evenly, and the power mechanism drives the moving mechanism to move up and down. The power mechanism drives the connecting column and the movable plate on the connecting column to do continuous up-and-down reciprocating motion, and in the process, the movable plate drives glue liquid in the glue storage pool to continuously flow, so that the glue liquid in the liquid storage tank can be effectively prevented from being layered due to long-time rest. In the process of up-and-down reciprocating motion of the moving plate, the push column moves along with the moving plate, and when the push column moves along the communicating cylinder, the piston also moves along the inner wall of the communicating cylinder, so that the pressure intensity between the push column and the piston in the communicating cylinder is ensured to be unchanged. When the push column moves downwards along with the moving plate, the piston moves to one side far away from the discharge pipe of the communication cylinder, the pressure intensity in one side of the communication cylinder close to the discharge pipe is reduced, the one-way air inlet valve or the one-way liquid inlet valve is opened at the moment, the one-way air inlet valve is firstly opened, and the outside air is supplemented into one side of the communication cylinder close to the discharge pipe. After the piston moves a certain distance in the direction, the one-way air inlet valve is blocked by the air baffle, the water strip-shaped hole on the water baffle is opposite to the liquid inlet pipe, the one-way liquid inlet valve on the liquid inlet pipe is opened, and the glue solution in the glue storage tank enters one side of the communicating cylinder close to the discharge pipe through the liquid inlet pipe. When the push column moves upwards along with the moving plate, the piston changes the moving direction along with the moving plate, the piston extrudes the gas and the glue solution in the side of the communicating cylinder close to the discharge pipe, the one-way discharge valve on the discharge pipe is opened, and the gas and the glue solution in the communicating cylinder enter the jet block through the discharge pipe and are finally jetted out through the jet hole. Because the stroke of the piston reciprocating motion every time is consistent, the gas and the glue solution in one side of the communicating cylinder close to the discharge pipe are quantitative, the glue spraying amount of the spraying block every time can be consistent, and the condition that the glue is too much or too little is avoided. And because the glue solution sprays together with the mixed gas when spraying, the sprayed glue solution is in a fog shape, the fog-shaped glue solution can be uniformly distributed on a large area of the membrane material, and the smearing mechanism pushes the glue solution on the surface of the membrane material to be flat, so that the glue solution can be uniformly smeared on the membrane material, and the gluing quality is ensured.

Optionally, the power mechanism includes a cam and a motor for driving the cam to rotate, a circumferential side wall of the cam is provided with a cam groove forming a closed loop, and an upper end of the connecting column is provided with a ball which is clamped in the cam groove and can slide along the cam groove. When the movable plate needs to move up and down to enhance the flow of glue in the glue storage pool and avoid the glue precipitation and layering, the motor is started to drive the cam to rotate, and the connecting column and the movable plate on the connecting column are driven to reciprocate up and down in the rotating process of the cam to drive the glue in the glue storage pool to flow.

Optionally, the movable plate is provided with a plurality of movable plates which are uniformly distributed along the height direction of the connecting column; one end of the push column is fixed on the highest moving plate; the movable plate is provided with a diversion trench for allowing the glue solution to pass through. The arrangement of the diversion trench can reduce the stress of the movable plate to a certain extent, so that the movable plate can better reciprocate up and down.

Optionally, splash plates for preventing the glue solution from splashing are arranged on two opposite sides of the injection block. The arrangement of the splash guard can effectively avoid splashing of glue solution sprayed by the spraying block.

Optionally, the injection block is provided with a dovetail groove, and the splash plate is provided with a protrusion slidably connected in the dovetail groove. The splash guard is connected to the injection block through a protrusion in a sliding mode, and the position of the splash guard can be adjusted. Through adjusting the positions of the splash plates on the two sides of the injection block, the membrane materials with different specifications can penetrate between the two splash plates, and the splash plates can work normally.

Optionally, the smearing mechanism comprises an installation frame, a glue spreading roller rotatably connected to the installation frame, and a driving member for driving the installation frame to rotate. The glue homogenizing roller on the mounting rack can rotate by operating the driving piece, and glue on the surface of the film material can be uniformly smeared in the rotating process of the glue homogenizing roller.

Optionally, the driving member is a driving motor, and an output shaft of the driving motor is connected to the mounting frame. When the glue homogenizing roller is required to be used for uniformly smearing the glue solution on the surface of the film material, the driving motor is started, the driving motor drives the mounting frame to rotate, the homogenizing roller on the mounting frame moves along with the driving motor, the homogenizing roller is in contact with the surface of the film material, and the glue solution on the surface of the film material is uniformly pushed. When the glue homogenizing roller moves along with the mounting rack, the glue homogenizing roller can also rotate, the glue solution on the surface of the film material is adhered to the circumferential surface of the glue homogenizing roller, and the glue solution can be better smeared on the film material when the glue homogenizing roller is in contact with the film material.

Drawings

FIG. 1 is a front sectional view of a glue spreading device for composite processing of a thin film according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a cross-sectional view of the splash plate;

FIG. 4 is a cross-sectional view of an air baffle;

fig. 5 is a cross-sectional view of the application mechanism.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the glue mixing device comprises a glue storage pool 10, a motor 20, a cam 21, a cam groove 211, a connecting column 30, a moving plate 31, a ball 32, a connecting cylinder 40, a push column 41, a piston 42, a one-way air inlet valve 43, a liquid inlet pipe 44, a one-way liquid inlet valve 441, a water baffle 45, a water strip hole 451, an air baffle 46, a ventilation strip hole 461, a discharge pipe 47, a one-way discharge valve 471, a film material 50, a spraying block 60, a cavity 61, a spray hole 62, a splash baffle 65, a dovetail groove 63, a bulge 64, a mounting frame 70, a glue homogenizing roller 71 and a driving motor 80.

The embodiment is basically as shown in fig. 1 and fig. 2: the gluing device for film composite processing comprises a frame, a glue storage tank 10, a smearing mechanism and a communicating cylinder 40 fixedly arranged on the frame. Referring to fig. 5, the coating mechanism is used for coating the glue solution on the surface of the coating material 50, and the coating mechanism includes an installation frame 70, a glue homogenizing roller 71 rotatably connected to the installation frame 70, and a driving member for driving the installation frame 70 to rotate, in this embodiment, the driving member is a driving motor 80 fixedly installed on the rack, and an output shaft of the driving motor 80 is connected to the installation frame 70.

A moving mechanism for enabling the glue solution to flow up and down and a power mechanism for driving the moving mechanism to move up and down are arranged in the glue storage tank 10. The moving mechanism comprises a connecting column 30 and a plurality of moving plates 31 which are vertically arranged and are uniformly distributed along the height direction of the connecting column 30, and the connecting column 30 and the moving plates 31 are both positioned in the glue storage tank 10; in this embodiment, the moving plate 31 has 3 blocks, and the moving plate 31 is provided with a guiding groove for allowing the glue solution to pass through. The power mechanism comprises a cam 21 and a motor 20 fixedly arranged on the frame, an output shaft of the motor 20 is connected to the cam 21, and the motor 20 drives the cam 21 to rotate; the circumferential side wall of the cam 21 is provided with a cam groove 211 forming a closed loop, the upper end of the connecting column 30 is welded with a connecting shaft, and the connecting shaft is rotatably connected with a ball 32 which is clamped in the cam groove 211 and can slide along the cam groove 211.

A push column 41 is slidably and hermetically connected to one side of the communication cylinder 40, and the lower end of the push column 41 is fixed to the uppermost moving plate 31; the other side of the communication cylinder 40 slides in and is connected with a piston 42 in a sealing manner, and the communication cylinder 40 is filled with a transmission fluid located between the push column 41 and the piston 42, in this embodiment, the transmission fluid is hydraulic oil. When the push rod 41 moves along the inner wall of the communication cylinder 40, the piston 42 also moves along the inner wall of the communication cylinder 40, so that the pressure between the push rod 41 and the piston 42 in the communication cylinder 40 is ensured to be constant. An outlet pipe 47 is connected to one end of the communication cylinder 40 near the piston 42, and a one-way outlet valve 471 is installed on the outlet pipe 47, and the one-way outlet valve 471 is automatically opened when the pressure in the side of the communication cylinder 40 communicated with the outlet pipe 47 increases. The discharge pipe 47 is connected to an injection block 60, and the injection block 60 has a cavity 61 communicating with the discharge pipe 47 and a plurality of injection holes 62 communicating with the cavity 61. The left side and the right side of the injection block 60 are slidably connected with splash shields 65 for preventing glue solution from splashing, specifically, the left side and the right side of the injection block 60 are both provided with dovetail grooves 63, the splash shields 65 are welded with bulges 64 slidably connected in the dovetail grooves 63, and the splash shields 65 are slidably connected on the injection block 60 through the bulges 64.

A liquid inlet pipe 44 is connected between the communicating cylinder 40 and the lower part of the glue storage tank 10, a one-way liquid inlet valve 441 is installed on the liquid inlet pipe 44, and the joint of the liquid inlet pipe 44 and the communicating cylinder 40 is positioned between the piston 42 and the discharge pipe 47. A one-way intake valve 43 is mounted on a side wall of the communication cylinder 40, and the one-way intake valve 43 is located between the piston 42 and the discharge pipe 47. The piston 42 is welded with a water baffle 45 and an air baffle 46, the water baffle 45 can block the liquid inlet pipe 44, and the air baffle 46 can block the one-way air inlet valve 43. The water baffle 45 is provided with a water strip hole 451 which can be opposite to the liquid inlet pipe 44, when the water strip hole 451 is opposite to the liquid inlet pipe 44 and the one-way liquid inlet valve 441 is opened, the glue solution in the glue storage tank 10 can enter the communicating cylinder 40 through the liquid inlet pipe 44. The air baffle plate 46 is provided with a ventilation strip hole 461 which can be opposite to the one-way air inlet valve 43, when the ventilation strip hole 461 is opposite to the one-way air inlet valve 43 and the one-way air inlet valve 43 is opened, the outside air can enter the communicating cylinder 40 through the one-way air inlet valve 43. In the scheme, the installation positions of the liquid inlet pipe 44 and the one-way air inlet valve 43 are limited, and the opening positions of the water passing strip-shaped holes 451 and the air passing strip-shaped holes 461 are limited, so that the air passing strip-shaped holes 461 are opposite to the one-way air inlet valve 43 when the water baffle plate 45 blocks the liquid inlet pipe 44; when the air baffle plate 46 blocks the one-way air inlet valve 43, the water passing strip-shaped hole 451 is opposite to the liquid inlet pipe 44. In this embodiment, the joints of the one-way air intake valve 43, the liquid intake pipe 44 and the communication cylinder 40 are located on the left and right sides of the communication cylinder 40 at the same height, the water guard plate 45 and the air guard plate 46 fix the left and right sides of the lower side wall of the piston 42, respectively, as shown in fig. 3 and 4, the water passing strip hole 451 is formed in the lower portion of the water guard plate 45, the air passing strip hole 461 is formed in the upper portion of the air guard plate 46, and the height of the upper end of the water passing strip hole 451 and the height of the lower end of the air passing strip hole 461 are located on the same horizontal plane.

When the gluing device works, the motor 20 and the driving motor 80 are started, the driving motor 80 drives the mounting rack 70 to rotate, the glue homogenizing roller 71 on the mounting rack 70 moves along with the rotation, the glue homogenizing roller 71 is in contact with the surface of the film material 50, and the surface glue solution of the film material 50 is pushed uniformly. When the glue homogenizing roller 71 moves along with the mounting rack 70, the glue homogenizing roller 71 can also rotate, the glue solution on the surface of the film material 50 is adhered to the circumferential surface of the glue homogenizing roller 71, and the glue solution can be better coated on the film material 50 when the glue homogenizing roller 71 is in contact with the film material 50.

The motor 20 drives the cam 21 to rotate, the cam 21 drives the connecting column 30 and the moving plate 31 on the connecting column 30 to reciprocate up and down in the rotating process, and the pushing column 41 moves along with the connecting column in the process; when the plunger 41 moves along the communicating cylinder 40, the piston 42 also moves along the inner wall of the communicating cylinder 40, so as to ensure that the pressure between the plunger 41 and the piston 42 in the communicating cylinder 40 is constant. When the plunger 41 moves downward along with the moving plate 31, the piston 42 moves upward, the pressure in the side of the communication cylinder 40 close to the discharge pipe 47 decreases, the one-way intake valve 43 opens, and the outside air is supplied to the lower side of the communication cylinder 40. When the piston 42 moves a certain distance in this direction, the air baffle 46 blocks the one-way air inlet valve 43, and at this time, the water strip hole 451 on the water baffle 45 is opposite to the liquid inlet pipe 44, the one-way liquid inlet valve 441 on the liquid inlet pipe 44 is opened, and the glue solution in the glue storage tank 10 enters the lower side of the communicating cylinder 40 through the liquid inlet pipe 44. When the pushing column 41 moves upwards along with the moving plate 31, the piston 42 moves downwards, the piston 42 presses the gas and the glue solution in the communicating cylinder 40, the one-way discharge valve 471 on the discharge pipe 47 is opened, the gas and the glue solution in the communicating cylinder 40 enter the spraying block 60 through the discharge pipe 47, and finally the gas and the glue solution are sprayed out through the spraying holes 62. The glue solution is sprayed by the mixed gas together when sprayed, the sprayed glue solution is in a fog shape, the fog glue solution can be uniformly distributed on a large area of the membrane material 50, and the glue homogenizing roller 71 pushes the glue solution on the surface of the membrane material 50 to be flat, so that the glue solution can be uniformly coated on the membrane material 50, and the gluing quality is ensured.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the present invention.

Claims

1. Rubber coating device for film combined machining, its characterized in that: the glue storage tank is internally provided with a moving mechanism for enabling glue solution to flow up and down and a power mechanism for driving the moving mechanism to move up and down; the moving mechanism comprises a connecting column and a moving plate arranged on the connecting column; a push column with one end fixed on the moving plate is connected in one side of the communicating cylinder in a sliding manner, a piston is connected in the other side of the communicating cylinder in a sliding manner, and transmission liquid between the push column and the piston is filled in the communicating cylinder; one end of the communicating cylinder close to the piston is connected with a discharge pipe, and a one-way discharge valve is arranged on the discharge pipe; the discharge pipe is connected with a jet block, and a cavity communicated with the discharge pipe and a plurality of jet holes communicated with the cavity are formed in the jet block; a liquid inlet pipe is connected between the glue storage tank and the communicating cylinder, a one-way liquid inlet valve is arranged on the liquid inlet pipe, and the connecting part of the liquid inlet pipe and the communicating cylinder is positioned between the piston and the discharge pipe; a one-way air inlet valve is arranged on the side wall of the communicating cylinder between the piston and the discharge pipe; the piston is provided with a water baffle for plugging the liquid inlet pipe and an air baffle for plugging the one-way air inlet valve, the water baffle is provided with a water strip-shaped hole which can be opposite to the liquid inlet pipe, and the air baffle is provided with a ventilating strip-shaped hole which can be opposite to the one-way air inlet valve; when the water baffle blocks the liquid inlet pipe, the ventilating strip-shaped hole is opposite to the one-way air inlet valve; when the air baffle blocks the one-way air inlet valve, the water through strip-shaped hole is opposite to the liquid inlet pipe; the power mechanism comprises a cam and a motor used for driving the cam to rotate, a cam groove forming a closed loop is formed in the circumferential side wall of the cam, and a ball clamped in the cam groove and capable of sliding along the cam groove is arranged at the upper end of the connecting column.

2. The gluing device for thin film composite processing according to claim 1, wherein: the movable plates are provided with a plurality of blocks which are uniformly distributed along the height direction of the connecting column; one end of the push column is fixed on the highest moving plate; the movable plate is provided with a diversion trench for allowing the glue solution to pass through.

3. The gluing device for thin film composite processing according to claim 2, wherein: and splash baffles for preventing the glue solution from splashing are arranged on the two opposite sides of the injection block.

4. The gluing device for thin film composite processing according to claim 3, wherein: the spraying block is provided with a dovetail groove, and the splash plate is provided with a bulge which is connected in the dovetail groove in a sliding way.

5. The glue spreading device for thin film composite processing according to any one of claims 1 to 4, wherein: the smearing mechanism comprises an installation frame, a glue homogenizing roller rotatably connected to the installation frame and a driving piece for driving the installation frame to rotate.

6. The gluing device for thin film composite processing according to claim 5, wherein: the driving piece is a driving motor, and an output shaft of the driving motor is connected to the mounting frame.