CN111605178B - Device and method for pasting film on steel wire net - Google Patents

Abstract

The invention discloses a device for pasting films on a steel wire net, which comprises a workbench (4), wherein the top surface of the workbench (4) is provided with a guide groove (5) horizontally, the top of the workbench (4) is provided with a cutting device positioned at the rear side of the guide groove (5), a carrier plate (15) is arranged in the guide groove (5) in a sliding manner, positioning columns (16) are fixedly arranged on the top surface of the carrier plate (15) and at the two ends of the carrier plate, the device also comprises a belt material, the belt material comprises a strip adhesive film (17) and a strip steel net (18), the adhesive surface of the strip adhesive film (17) is adhered to the top surface of the strip steel net (18), and a plurality of rows of rectangular grooves are formed in the strip adhesive film (17) along the length direction of the strip adhesive film; it also discloses a film sticking method. The beneficial effects of the invention are as follows: compact structure, lighten the labor intensity of workers, improve the film pasting efficiency and improve the film pasting quality.

Description

Device and method for pasting film on steel wire net

Technical Field

The invention relates to a device and a method for pasting films on a wire net.

Background

Along with the gradual development of electronic products, the sizes of the electronic products are also made smaller and smaller, as shown in fig. 1-2, which is a structural schematic diagram of the electronic products, and the electronic products comprise a base film 1, a strip steel mesh 2 and two block adhesive films 3, wherein the top of the base film 1 is provided with an adhesive surface, the strip steel mesh 2 is longitudinally arranged and adhered to the top of the base film 1, and the block adhesive films 3 are adhered to the top surface of the base film 1 and positioned at the front end and the rear end of the top surface of the base film. The conventional method for producing the electronic product in the workshop is usually completed manually, and the film pasting method is that a worker firstly installs the adhesive layer of the base film 1 on a workbench upwards, then a plurality of strip-shaped steel meshes 2 are pasted at intervals along the length direction of the base film 1, and then a block-shaped adhesive film 3 is pasted on the top of each strip-shaped steel mesh 2 and positioned at the front end and the rear end of each strip-shaped steel mesh, so that the required electronic product is obtained. However, although this film-sticking process can process a desired electronic product, the manual film sticking has the following drawbacks: I. a plurality of strip steel meshes 2 are required to be pasted on the base film, two block adhesive films 3 are required to be pasted on each strip steel mesh 2, and the manual film pasting clearly increases the labor intensity of workers and reduces the film pasting efficiency. II. The manual film sticking is difficult to ensure that the horizontal distance between two adjacent strip-shaped steel nets 2 is equal, and meanwhile, the block-shaped adhesive film 3 is difficult to ensure that the block-shaped adhesive film can completely cover the top surface of the strip-shaped steel nets 2, so that the film sticking quality is reduced, and the product quality is further reduced. Therefore, there is a need for a film laminating device that reduces labor intensity of workers, improves film laminating efficiency, and improves film laminating quality.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a device and a method for pasting a film on a wire mesh, which have compact structure, reduce the labor intensity of workers, improve the film pasting efficiency and improve the film pasting quality.

The aim of the invention is achieved by the following technical scheme: the utility model provides a device of steel wire web pad pasting, it includes the workstation, the level is offered on the top surface of workstation and is provided with the guide way, the top of workstation is provided with the cutting device that is located the guide way rear side, cutting device includes die carrier and cuts the cylinder, the bottom of die carrier sets firmly many stands, the bottom of stand sets firmly on the top surface of workstation, the cylinder that cuts sets firmly in the top of die carrier, the piston rod of cutting the cylinder runs through the die carrier downwards and sets up, and set firmly the movable seat on the extension, the bottom surface of movable seat just sets firmly a plurality of terrace dies along the horizontal direction interval, the terrace die is located directly over the guide way, interval between two adjacent terrace dies is equal, the cavity has been offered to the bottom of terrace die, be formed with the cutting edge between the outline of recess and terrace die, the channel-section steel has set firmly on the top surface of workstation, the contained angle between channel-section steel and the guide way is for the channel-section steel, the channel-section steel sets firmly in the rear side of movable seat, the push cylinder has set firmly in the push cylinder in the guide way, the push cylinder sets firmly on the left side of cutting device, the piston rod of cutting cylinder sets firmly on the action end of push pedal that is located the guide way, just set firmly on the extending the end, the strip-shaped carrier strip-shaped adhesive tape rectangular carrier strip adhesive tape rectangular groove that has two adjacent rectangular carrier rectangular pieces to be equipped with on the strip-shaped adhesive tape rectangular carrier, and the strip adhesive tape rectangular carrier rectangular surface that the strip adhesive tape that has equal quantity to the strip adhesive tape, and equal to the strip adhesive tape on two strip rectangular carrier rectangular surface that has on the strip adhesive tape, and the strip rectangular carrier rectangular surface, and the strip adhesive tape.

The carrier plate is rectangular, and the width of the carrier plate is equal to that of the guide groove.

The pushing cylinder is horizontally arranged, and the cutting cylinder is vertically arranged.

The width of the strip is equal to the width of the channel steel groove.

The number of the male dies is five.

The rectangular groove is horizontally arranged.

The method for pasting the film on the wire mesh by the device comprises the following steps:

s1, forming through holes matched with positioning columns on a base film, respectively sleeving the base film through holes on the positioning columns correspondingly, supporting the base film on the top surface of a carrier plate, and simultaneously ensuring that the bonding surface of the base film is upward;

S2, a worker operates the pushing cylinder to enable a piston rod of the pushing cylinder to extend, the piston rod pushes the pushing plate to move rightwards, the pushing plate pushes the carrier plate loaded with the base film to move rightwards along the guide groove, after the base film is pushed for a fixed length, the base film is just under each male die, and the pushing cylinder is closed after the base film is pushed in place;

S3, placing the strip material in the groove of the channel steel from front to back by a worker, then pushing the tail end of the strip material forward by the worker so as to enable the first row of rectangular grooves to move to a blanking station, wherein each rectangular groove of the first row of rectangular grooves is respectively positioned under each male die, and the bottom surface of the strip steel net is just above the base film;

S4, a worker operates the cutting cylinder to enable a piston rod of the cutting cylinder to extend downwards, the piston rod drives the movable seat to move downwards, the movable seat drives the male die to move downwards, the cutting edge of the male die firstly cuts two long edges of the rectangular groove to obtain two block adhesive films, then the cutting edge of the male die continues to move downwards, the male die cuts the strip steel net to obtain the strip steel net, and finally the male die presses the cut strip steel net on the bonding surface of the base film, so that a required electronic product is obtained;

S5, a worker operates the cutting cylinder to retract the piston rod of the cutting cylinder, operates the pushing cylinder to move the piston rod of the pushing cylinder rightwards, and the pushing plate pushes the carrier plate carrying the finished electronic product out of the cutting station; then, the worker takes off the finished electronic product on the carrier plate from the positioning column; after the electronic product is taken down, the piston rod of the pushing cylinder is operated to reset, then the steps S1-S3 are repeated to enable the rectangular grooves of the second row to move to the blanking station, at the moment, all the rectangular grooves of the second row are respectively located under all the male dies, and finally, the step S4 is repeated to obtain the second electronic product on the carrier plate;

S6, repeating the operation, and continuously obtaining a plurality of finished electronic products.

The invention has the following advantages: the invention has compact structure, reduces labor intensity of workers, improves film pasting efficiency and improves film pasting quality.

Drawings

FIG. 1 is a schematic diagram of an electronic product;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a schematic diagram of the structure of the present invention;

FIG. 4 is a cross-sectional view B-B of FIG. 3;

FIG. 5 is an enlarged partial view of the portion I of FIG. 3;

Fig. 6 is a bottom view of the punch;

FIG. 7 is a schematic view of a carrier plate;

FIG. 8 is a top view of FIG. 7;

FIG. 9 is a schematic view of the installation of a strip in a channel;

FIG. 10 is an enlarged partial view of section II of FIG. 9;

FIG. 11 is a schematic view of mounting a base film on a carrier plate;

FIG. 12 is a top view of FIG. 11;

FIG. 13 is a cross-sectional view of C-C of FIG. 9;

FIG. 14 is an enlarged partial view of the portion III of FIG. 13;

FIG. 15 is a schematic view of the structure of a steel web;

FIG. 16 is a schematic view of the structure of a tape-shaped adhesive film;

in the figure, 1-base film, 2-strip steel mesh, 3-block adhesive film, 4-workbench, 5-guide groove, 6-die carrier, 7-cutting cylinder, 8-upright post, 9-movable seat, 10-male die, 11-concave cavity, 12-channel steel, 13-pushing cylinder, 14-push plate, 15-carrier plate, 16-positioning column, 17-strip adhesive film, 18-strip steel mesh and 19-rectangular groove.

Detailed Description

The invention is further described below with reference to the accompanying drawings, the scope of the invention not being limited to the following:

As shown in fig. 3-8, a device for pasting films on a wire mesh comprises a workbench 4, the top surface of the workbench 4 is provided with a guide groove 5 horizontally, the top of the workbench 4 is provided with a cutting device positioned at the rear side of the guide groove 5, the cutting device comprises a die frame 6 and a cutting cylinder 7, the bottom of the die frame 6 is fixedly provided with a plurality of stand columns 8, the bottom of the stand columns 8 is fixedly arranged on the top surface of the workbench 4, the cutting cylinder 7 is fixedly arranged at the top of the die frame 6, the cutting cylinder 7 is vertically arranged, a piston rod of the cutting cylinder 7 downwards penetrates through the die frame 6, the extending end is fixedly provided with a movable seat 9, the bottom surface of the movable seat 9 is fixedly provided with a plurality of convex dies 10 in a horizontal direction interval, in this embodiment, the convex dies 10 are positioned right above the guide groove 5, the distance between two adjacent convex dies 10 is equal, the bottom of the convex dies 10 is provided with a concave cavity 11, a groove steel cutting edge is formed between the concave cavity 11 and the profile of the convex dies 10, the top surface of the workbench 4 is fixedly provided with a groove steel 12, and the groove steel 12 is fixedly arranged on the top surface of the workbench 4, and the extending end is fixedly provided with a groove steel channel steel 12, and the groove steel is arranged at the side of the movable seat is 45 degrees.

The push cylinder 13 has been set firmly in the guide way 5, push cylinder 13 level sets up, and push cylinder 13 sets firmly the push pedal 14 that is located the guide way 5 on the action end of push cylinder 13 piston rod in cutting device, sliding fit has carrier plate 15 in the guide way 5, and carrier plate 15 is rectangular, and carrier plate 15's width equals with the width of guide way 5, and carrier plate 15's top surface just is located its both ends and has all set firmly reference column 16.

The device also comprises a strip material, the width of the strip material is equal to the width of the groove of the channel steel 12, the strip material comprises a strip adhesive film 17 and a strip steel net 18, the adhesive surface of the strip adhesive film 17 is adhered to the top surface of the strip steel net 18 as shown in figures 13, 15 and 16, a plurality of rows of rectangular grooves are formed in the strip adhesive film 17 along the length direction of the strip adhesive film, the horizontal distance between two adjacent rectangular grooves 19 in each row of rectangular grooves is equal to the horizontal distance between two adjacent male dies 10, the rectangular grooves 19 are horizontally arranged, and the number of the rectangular grooves 19 is equal to the number of the male dies 10.

The method for pasting the film on the wire mesh by the device comprises the following steps:

S1, forming through holes matched with positioning columns 16 on a base film 1, respectively and correspondingly sleeving the through holes of the base film 1 on the positioning columns 16, supporting the base film 1 on the top surface of a carrier plate 15, and simultaneously ensuring that the bonding surface of the base film 1 faces upwards as shown in figures 11-12;

s2, a worker operates the pushing cylinder 13 to enable a piston rod of the pushing cylinder to extend, the piston rod pushes the push plate 14 to move rightwards, the push plate 14 pushes the carrier plate 15 loaded with the base film 1 to move rightwards along the guide groove 5, after pushing for a fixed length, the base film 1 is just under each male die 10, and the pushing cylinder 13 is closed after the base film is pushed in place;

S3, placing the strip material in the groove of the channel steel 12 from front to back by a worker, then pushing the tail end of the strip material forward by the worker so as to enable the first row of rectangular grooves to move to a blanking station, wherein at the moment, each rectangular groove 19 of the first row of rectangular grooves is respectively positioned right below each male die 10, and the bottom surface of the strip steel mesh 18 is just positioned right above the base film 1 as shown in figures 9-10;

s4, a worker operates the cutting cylinder 7 to enable a piston rod of the cutting cylinder to extend downwards, the piston rod drives the movable seat 9 to move downwards, the movable seat 9 drives the male die 10 to move downwards, the cutting edge of the male die 10 firstly cuts two long edges of the rectangular groove 19 to obtain two block adhesive films 3 as shown in figures 13-14, then the cutting edge of the male die 10 continues to move downwards, the male die 10 cuts the strip steel net 18 to obtain the strip steel net 2, and finally the male die 10 presses the cut strip steel net 2 on the bonding surface of the base film 1, so that a required electronic product is obtained; therefore, a plurality of strip-shaped steel meshes 2 can be obtained on the base film 1 through blanking, and two block-shaped adhesive films 3 are adhered to each strip-shaped steel mesh 2, so that compared with the traditional manual film adhering, the manual film adhering is not needed, the labor intensity of workers is greatly reduced, and the film adhering efficiency is also greatly improved; in addition, as the horizontal distance between the two adjacent rectangular grooves 19 is equal to the horizontal distance between the two adjacent male dies 10, the distance between every two adjacent strip-shaped steel meshes 2 punched on the base film 1 is ensured to be equal, and compared with manual film pasting, the film pasting precision is greatly improved, and the quality of electronic products is further improved.

S5, a worker operates the cutting cylinder 7 to retract a piston rod of the cutting cylinder, operates the pushing cylinder 13 to move the piston rod of the cutting cylinder rightwards, and the pushing plate 14 pushes the carrier plate 15 carrying the finished electronic product out of the cutting station; then the worker removes the finished electronic product on the carrier plate 15 from the positioning column 16; after the electronic product is taken down, the piston rod of the pushing cylinder 13 is operated to reset, then the steps S1-S3 are repeated to enable the rectangular grooves of the second row to move to the blanking station, at the moment, all the rectangular grooves 19 of the rectangular grooves of the second row are respectively positioned right below all the male dies 10, and finally, the step S4 is repeated to obtain a second electronic product on the carrier plate 15;

S6, repeating the operation, and continuously obtaining a plurality of finished electronic products.

The foregoing is merely a preferred embodiment of the invention, and it is to be understood that the invention is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (5)

1. The utility model provides a device of film on steel wire net which characterized in that: the automatic cutting device comprises a workbench (4), wherein a guide groove (5) is horizontally arranged on the top surface of the workbench (4), a cutting device positioned at the rear side of the guide groove (5) is arranged at the top of the workbench (4), the cutting device comprises a die frame (6) and a cutting cylinder (7), a plurality of stand columns (8) are fixedly arranged at the bottom of the die frame (6), the bottom of each stand column (8) is fixedly arranged on the top surface of the workbench (4), the cutting cylinder (7) is fixedly arranged at the top of the die frame (6), a piston rod of the cutting cylinder (7) downwards penetrates through the die frame (6) and is fixedly provided with a movable seat (9) at the extending end, a plurality of convex dies (10) are fixedly arranged on the bottom surface of the movable seat (9) and are arranged right above the guide groove (5) along the horizontal direction at intervals, the distance between every two adjacent convex dies (10) is equal, a concave cavity (11) is formed in the bottom of each convex die (10), a cutting edge is formed between the concave cavity (11) and the concave die (10), a groove (12) is fixedly arranged on the top surface of the workbench (4) and is fixedly provided with a guide groove (13) on the left side of the guide groove (5), an included angle is fixedly arranged between the guide groove (13) and the guide seat (13) on the left side of the push cylinder (5), the device comprises a pushing plate (14) positioned in a guide groove (5) is fixedly arranged at the acting end of a piston rod of a pushing cylinder (13), a carrier plate (15) is slidably arranged in the guide groove (5), positioning columns (16) are fixedly arranged on the top surface of the carrier plate (15) and at the two ends of the carrier plate, the device further comprises a belt material, the belt material comprises a belt-shaped adhesive film (17) and a belt-shaped steel net (18), the adhesive surface of the belt-shaped adhesive film (17) is adhered to the top surface of the belt-shaped steel net (18), a plurality of rows of rectangular grooves are formed in the belt-shaped adhesive film (17) along the length direction of the belt-shaped adhesive film, the horizontal distance between two adjacent rectangular grooves (19) in each row of rectangular grooves is equal to the horizontal distance between two adjacent convex molds (10), and the number of the rectangular grooves (19) is equal to the number of the convex molds (10); the carrier plate (15) is rectangular, and the width of the carrier plate (15) is equal to the width of the guide groove (5); the pushing cylinder (13) is horizontally arranged, and the cutting cylinder (7) is vertically arranged.

2. The device for pasting films on a wire mesh according to claim 1, wherein: the width of the strip is equal to the width of the groove of the channel steel (12).

3. The device for pasting films on a wire mesh according to claim 1, wherein: the number of the male dies (10) is five.

4. The device for pasting films on a wire mesh according to claim 1, wherein: the rectangular groove (19) is horizontally arranged.

5. The method for pasting a film on a wire mesh by the device according to any one of claims 1 to 4, which is characterized in that: it comprises the following steps:

S1, forming through holes matched with positioning columns (16) on a base film (1), respectively sleeving the through holes of the base film (1) on the positioning columns (16) correspondingly, supporting the base film (1) on the top surface of a carrier plate (15) and simultaneously ensuring that the bonding surface of the base film (1) faces upwards;

S2, a worker operates the pushing cylinder (13) to enable a piston rod of the pushing cylinder to extend, the piston rod pushes the push plate (14) to move rightwards, the push plate (14) pushes the carrier plate (15) loaded with the base film (1) to move rightwards along the guide groove (5), and after the base film (1) is pushed for a fixed length, the base film is just under each male die (10), and the pushing cylinder (13) is closed after the base film is pushed in place;

S3, placing the strip material in the groove of the channel steel (12) from front to back by a worker, then pushing the tail end of the strip material forward by the worker so as to enable the first row of rectangular grooves to move to a blanking station, wherein all the rectangular grooves (19) of the first row of rectangular grooves are respectively positioned under all the male dies (10) at the moment, and the bottom surface of the strip steel mesh (18) is just positioned above the base film (1);

S4, a worker operates the cutting cylinder (7) to enable a piston rod of the cutting cylinder to extend downwards, the piston rod drives the movable seat (9) to move downwards, the movable seat (9) drives the male die (10) to move downwards, the cutting edge of the male die (10) firstly cuts two long edges of the rectangular groove (19) to obtain two block adhesive films (3), then the cutting edge of the male die (10) continues to move downwards, the male die (10) cuts the strip steel net (18) to obtain the strip steel net (2), and finally the male die (10) presses the cut strip steel net (2) on the bonding surface of the base film (1), so that a required electronic product is obtained;

S5, a worker operates the cutting cylinder (7) to retract a piston rod of the cutting cylinder, operates the pushing cylinder (13) to move the piston rod of the cutting cylinder rightwards, and the pushing plate (14) pushes the carrier plate (15) carrying the finished electronic product out of the cutting station; then, the worker removes the finished electronic product on the carrier plate (15) from the positioning column (16); after the electronic product is taken down, the piston rod of the pushing cylinder (13) is operated to reset, then the steps S1-S3 are repeated to enable the rectangular grooves of the second row to move to the blanking station, at the moment, all the rectangular grooves (19) of the rectangular grooves of the second row are respectively positioned under all the male dies (10), and finally, the step S4 is repeated to obtain the second electronic product on the carrier plate (15);

S6, repeating the operation, and continuously obtaining a plurality of finished electronic products.