CN111452386A - Adhesive film punching and mounting device - Google Patents

Abstract

The invention discloses a film punching and mounting device, which comprises an upper die and a lower die, wherein the upper die is provided with a punch, the lower die is provided with an X-axis feeding channel and a Y-axis feeding channel, the X-axis feeding channel is arranged below the Y-axis feeding channel, a supporting plate is arranged at the intersection point of the X-axis feeding channel and the Y-axis feeding channel, the supporting plate is provided with a notch matched with the punch, the die is provided with two feeding channels of a metal workpiece and a film, the film punching and mounting operation is realized in the same die, the continuous production is realized, the production efficiency is improved, the labor consumption is reduced, and the die manufacturing cost is reduced.

Description

Adhesive film punching and mounting device

Technical Field

The invention relates to the technical field of film sticking, in particular to a film punching and sticking device.

Background

The metal workpiece of the 3C product meets the requirements of structural support and size of the product, and needs to have the requirements of insulation or conductivity and the like, so that products such as die-cutting films with different functions can be conveniently pasted on the metal workpiece, the existing adhesive film pasting procedure is to paste an adhesive film in a pasting mould after punching the adhesive film in a punching mould and then transfer the adhesive film to the pasting mould for pasting, and the metal workpiece is placed in the pasting mould in a bulk mode for pasting operation, so that the production efficiency is low, multiple sets of moulds need to be prepared, the mould manufacturing cost is high, and the labor consumption is high.

Disclosure of Invention

The invention aims to provide a glue film punching and mounting device which is provided with an upper die and a lower die, is provided with two feeding channels with a metal workpiece and a glue film, realizes glue film punching and mounting operations in the same die, realizes continuous production, improves the production efficiency, reduces the labor consumption and the die manufacturing cost, and solves the problems of low production efficiency, high die manufacturing cost and more labor consumption caused by the fact that the existing glue film punching and mounting are respectively carried out in different dies.

In order to achieve the purpose, the invention adopts the following technical scheme:

the adhesive film punching and mounting device comprises an upper die and a lower die, wherein the upper die is provided with a punch;

the lower die is provided with an X-axis feeding channel and a Y-axis feeding channel, and the X-axis feeding channel is arranged below the Y-axis feeding channel;

the intersection point of the X-axis feeding channel and the Y-axis feeding channel is provided with a supporting plate, and the supporting plate is provided with a notch matched with the punch.

Therefore, the X-axis feeding channel can be used for placing metal components, the Y-axis feeding channel can be used for placing adhesive film components, the supporting plate is positioned above the X-axis feeding channel and below the Y-axis feeding channel, namely the supporting plate forms a partition plate similar structure at the intersection point of the two feeding channels, and the notch is a through hole structure and can communicate the two feeding channels; after the metal component and the adhesive film component are fed in place, the adhesive film component is located above the supporting plate, the metal component is located below the supporting plate, then the upper die moves downwards under the driving of the driving mechanism, the punch of the upper die is matched with the notch of the supporting plate to punch the adhesive film component into a preset shape, the punch continues to move downwards, the punched adhesive film is pressed and pasted on the metal component, the punching and pasting operations of the adhesive film are completed, the production efficiency is high, a certain automation level is achieved, the manpower is reduced, the die manufacturing cost is reduced, and the problems that the existing adhesive film punching and pasting are respectively carried out in different dies, the production efficiency is low, the die manufacturing cost is high, and the manpower consumption is high are solved.

In some embodiments, the first limiting blocks are arranged at two edge parts of the X-axis feeding channel along the length direction of the X-axis feeding channel;

and two edge parts of the Y-axis feeding channel along the length direction of the Y-axis feeding channel are provided with second limiting blocks.

Therefore, the first limiting block can further limit the space of the X-axis feeding channel in the vertical direction, and the feeding precision of the metal component is improved; the second limiting block can further limit the space of the Y-axis feeding channel in the vertical direction, and the feeding precision of the adhesive film component is improved.

In some embodiments, the Y-axis feed channel comprises a first station feed channel and a second workpiece feed channel;

the supporting plate comprises a first supporting plate and a second supporting plate;

the first supporting plate is arranged at the intersection point of the first station feeding channel and the X-axis feeding channel;

the second support plate is arranged at the intersection of the second station feeding channel and the X-axis feeding channel.

From this, Y axle feedstock channel parallel arrangement has two, is first station feedstock channel and second work piece feedstock channel respectively, and the same glued membrane component can be placed to two feedstock channel, also can place different glued membrane components, satisfies different pad pasting demands to set up two and can improve production efficiency.

In some embodiments, the punch comprises a first punch and a second punch, the first support plate is provided with a first cut matching with the first punch;

the second support plate is provided with a second notch which is matched with the second punch.

From this, first drift cooperatees with first backup pad, and the second drift cooperatees with the second backup pad, and according to the pad pasting demand of different specifications, two sets of integrated configuration can set to the same, also can set to inequality.

In some embodiments, the upper mold is provided with a first positioning pin, and the edge portion of the X-axis feeding channel along the length direction thereof is provided with a first guide hole matched with the first positioning pin.

Therefore, after the metal component is fed in place, the first positioning needle penetrates through the material belt positioning hole and then is inserted into the first guide hole, and the metal component is positioned.

In some embodiments, the upper mold is provided with a second positioning pin, and the edge portion of the Y-axis feeding channel along the length direction thereof is provided with a second guide hole matched with the second positioning pin.

Therefore, after the adhesive film member is fed in place, the second positioning pin penetrates through the positioning hole of the adhesive film member and then is inserted into the second guide hole, and the adhesive film member is positioned.

In some embodiments, the X-axis feed channel and the Y-axis feed channel are perpendicular to each other.

Therefore, the X-axis feeding channel and the Y-axis feeding channel which are perpendicular to each other are convenient for die design and manufacture and convenient for feeding setting of the metal component and the rubber film component.

In some embodiments, the X-axis feeding channel can be used for placing metal components, each metal component comprises a metal workpiece and a material belt, the metal workpieces are orderly connected to the material belt, and the edge portion of the material belt is provided with a material belt positioning hole.

Therefore, the metal workpieces connected to the material belt are beneficial to continuous feeding in the die, and the production efficiency is improved.

In some embodiments, the Y-axis feeding channel can be used for placing a glue film member, the glue film member comprises a glue film and a bottom film, the glue film is disposed above the bottom film, the bottom film is provided with a position-avoiding hole, and the shape and the position of the position-avoiding hole both correspond to those of the notch.

Therefore, the bottom film can play a role in supporting the adhesive film, so that the adhesive film is not easy to deform during feeding and punching, the feeding precision is ensured, and the punching and mounting quality is ensured; when the film is fed in place, the position-avoiding hole corresponds to the position of the notch and is in accordance with the shape, so that the punched adhesive film can be smoothly separated from the adhesive film component and is attached to the metal workpiece downwards.

In some embodiments, the first station feeding channel can be used for placing a first adhesive film member, the first adhesive film member comprises a first adhesive film and a first bottom film, the first adhesive film is arranged above the first bottom film, the first bottom film is provided with a first avoiding hole, and the edge part of the first bottom film is provided with a first positioning hole;

the second station feed channel is used for placing a second adhesive film component, the second adhesive film component comprises a second adhesive film and a second bottom film, the second adhesive film is arranged above the second bottom film, a second avoiding hole is formed in the second bottom film, and a second positioning hole is formed in the edge portion of the second bottom film.

From this, according to the pad pasting demand of difference, two glued membrane components can set to the same, also can set to inequality, improve the suitability.

The invention has the beneficial effects that: the device comprises an upper die and a lower die, wherein the lower die is provided with an X-axis feeding channel and a Y-axis feeding channel which are respectively used for feeding a metal component and a glue film component;

moreover, the metal workpieces are orderly connected to the material belt in an arrangement manner, so that the connection type feeding is facilitated, and the production efficiency is improved; the lower part of the adhesive film is provided with the bottom film for supporting, so that the feeding precision of the adhesive film is high, and the punching precision and quality of the adhesive film are improved.

Drawings

Fig. 1 is a top view of an adhesive film die-cutting and mounting device according to an embodiment of the present invention;

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

FIG. 3 is a top view of a metal member and a film member of the film stamping and mounting apparatus of an embodiment of the invention;

fig. 4 is a side view of the adhesive film die-cutting mounting device according to an embodiment of the present invention;

FIG. 5 is a partial enlarged view of FIG. 4 at B;

fig. 6 is a front view of the adhesive film die-cutting and mounting device in the Y-axis direction according to an embodiment of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6 at C;

fig. 8 is an arrangement and a structure of a metal workpiece of the adhesive film die-cutting and mounting device according to an embodiment of the present invention;

fig. 9 is a structural view of a metal member of the adhesive film die-cutting and mounting device according to an embodiment of the present invention;

fig. 10 is a structural view of a first adhesive film member of the adhesive film die-cutting and mounting device according to an embodiment of the present invention;

fig. 11 is a side view of a first adhesive film member of the adhesive film die-cutting mounting device according to an embodiment of the present invention;

fig. 12 is a view showing a structure of a metal member and a film member of the film die-cutting and mounting device according to an embodiment of the present invention;

wherein: 1, mounting a mold; 11 a-a first punch; 11 b-a second punch; 12-a first locator pin; 13-a second locator pin;

2-lower mould; 210-X axis feed channel; a 220-Y axis feed channel; 221-a first station feed channel; 222-a second station feed channel; 21 a-a first support plate; 211 a-first cut; 21 b-a second support plate; 211 b-second cut; 22-a first stopper; 23-a second stopper; 24 a-a first guide hole; 24 b-a second guide hole;

3-a metal member; 31-a metal workpiece; 32-a material belt; 321-material belt positioning holes;

4-a first adhesive film member; 41-a first adhesive film; 42-a first base film; 421-first avoiding hole; 422-first positioning hole;

5-a second adhesive film member; 51-a second adhesive film; 52-second base film; 521-a second clearance hole; 522-a second positioning hole;

61-a first film pasting area; 62-second film area.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 12, the adhesive film punching and mounting device includes an upper die 1 and a lower die 2, wherein the upper die 1 is provided with a punch;

the lower die 2 is provided with an X-axis feeding channel 210 and a Y-axis feeding channel 220, and the X-axis feeding channel 210 is arranged below the Y-axis feeding channel 220;

the intersection point of the X-axis feeding channel 210 and the Y-axis feeding channel 220 is provided with a supporting plate, and the supporting plate is provided with a notch matched with the punch.

Further, the intersection point is the intersection point of the X-axis feed channel 210 and the Y-axis feed channel 220 in the top view of the device.

Further illustrating, the supporting plate is located above the X-axis feeding channel 210 and below the Y-axis feeding channel 220, and the cut-out is a through hole structure.

Further, the first limiting blocks 22 are arranged at two edge portions of the X-axis feeding channel 210 along the length direction thereof;

the Y-axis feeding path 220 is provided with second stoppers 23 along both edge portions in the length direction thereof.

Further illustrating, the Y-axis feeding path 220 includes a first station feeding path 221 and a second workpiece feeding path;

the support plates include a first support plate 21a and a second support plate 21 b;

the first supporting plate 21a is arranged at the intersection of the first station feeding channel 221 and the X-axis feeding channel 210;

a second support plate 21b is provided at the intersection of the second station feed channel 222 and the X-axis feed channel 210.

Further, the punch includes a first punch 11a and a second punch 11b, the first support plate 21a is provided with a first notch 211a matching with the first punch 11 a;

the second support plate 21b is provided with a second cutout 211b that mates with the second punch 11 b.

Further, the upper mold 1 is provided with a first positioning pin 12, and the edge portion of the X-axis feed channel 210 along the length direction thereof is provided with a first guide hole 24a to be fitted with the first positioning pin 12.

Further, the upper mold 1 is provided with the second pilot pins 13, and the edge portion of the Y-axis feed passage 220 in the length direction thereof is provided with the second guide holes 24b to be fitted with the second pilot pins 13.

Further illustrating that the X-axis feed channel 210 is perpendicular to the Y-axis feed channel 220.

Further, the X-axis feeding channel 210 can place the metal member 3, the metal member 3 includes a metal workpiece 31 and a material tape 32, the metal workpiece 31 is orderly connected to the material tape 32, and a material tape positioning hole 321 is formed in an edge portion of the material tape 32.

Further, the Y-axis feeding channel 220 can be used for placing a glue film member, the glue film member comprises a glue film and a bottom film, the glue film is arranged above the bottom film, the bottom film is provided with a position-avoiding hole, and the shape and the position of the position-avoiding hole correspond to those of the notch.

Further, the first station feeding channel 221 can be used for placing a first adhesive film member 4, the first adhesive film member 4 includes a first adhesive film 41 and a first bottom film 42, the first adhesive film 41 is disposed above the first bottom film 42, the first bottom film 42 is provided with a first avoiding hole 421, and the edge of the first bottom film 42 is provided with a first positioning hole 422;

the second station feeding channel 222 is used for placing a second adhesive film member 5, the second adhesive film member 5 includes a second adhesive film 51 and a second bottom film 52, the second adhesive film 51 is disposed above the second bottom film 52, the second bottom film 52 is provided with a second avoiding hole 521, and the edge of the second bottom film 52 is provided with a second positioning hole 522.

Further, the first adhesive film 41 is a thin film, and the first adhesive film 41 is attached to the first film attaching region 61 of the metal workpiece 31; the second adhesive film 51 is a foam film, and the second adhesive film 51 is attached to the second film attaching area 62 of the metal workpiece 31; the material or type of the adhesive film is not particularly limited, and the adhesive film can be attached according to different requirements.

The working principle is as follows:

the adhesive film punching and mounting device comprises an upper die 1 and a lower die 2, wherein the upper die 1 can realize die assembly and die opening actions through driving mechanisms such as an air cylinder or a hydraulic cylinder.

The lower die 2 is provided with an X-axis feeding channel 210 in the X-axis direction, a Y-axis feeding channel 220 in the Y-axis direction, a metal member 3 is fed in the X-axis feeding channel 210, an adhesive film member is fed in the Y-axis feeding channel 220, a supporting plate is arranged at the intersection point of the X-axis feeding channel 210 and the Y-axis feeding channel 220, and the supporting plate is provided with a notch matched with the punch.

Metal component 3 and glued membrane component can realize feeding through drawing the material mechanism, draw the material mechanism including drawing the material motor and drawing the material wheelset, draw the material motor drive to draw the material wheelset to rotate, draw the material wheelset to press from both sides tightly and drive metal component 3 and glued membrane component feed motion.

After the metal member 3 and the adhesive film member are fed in place, the upper die 1 moves to be matched, the first positioning needle 12 and the second positioning needle 13 position and correct the two members, the punch and the notch are matched to punch the adhesive film above the base film into a preset shape, then the punch continues to move downwards, the punched adhesive film moves downwards along with the punch and sequentially passes through the avoiding hole of the base film and the notch of the supporting plate, and finally the punch abuts against the metal workpiece 31 and attaches the required adhesive film to the metal workpiece 31.

In order to further improve the production efficiency and meet different film-sticking requirements, the Y-axis feeding channel 220 is provided with two feeding channels which are parallel to each other, namely a first station feeding channel 221 and a second station feeding channel 222, and a plurality of feeding channels can be arranged according to requirements, the first supporting plate 21a and the second supporting plate 21b can be arranged to be the same or different, that is, the combined structure of the first notch 211a, the first punch 11a and the first avoiding hole 421 and the second notch 211b, and the combined structure of the second punch 11b and the second avoiding hole 521 can be arranged to be the same or different.

The first adhesive film 41 of the first adhesive film member 4 and the second adhesive film 51 of the second adhesive film member 5 may be made of the same material or different materials, and the adhesive films may be made of insulating material, foam cushioning material, conductive material, or other materials.

Further, the metal workpiece 31 has two areas to be filmed, which are a first film-sticking area 61 and a second film-sticking area 62, respectively, the first film-sticking area 61 needs to be filmed, and the second film-sticking area 62 needs to be filmed, therefore, according to the above-mentioned film-sticking requirements, the first film 41 of the first film member 4 is set as a thin film, and fed in the first station feeding channel 221, the second film 51 of the second film member 5 is set as a foam film, and fed in the second station feeding channel 222, the first punch 11a punches and sticks the first film 41 to the first film-sticking area 61, the second punch 11b punches and sticks the second film 51 to the second film-sticking area 62, thereby completing the film-sticking operation of the metal workpiece 31, the whole punching operation is performed continuously, and has a certain automation level, which can effectively improve the production efficiency, the production and manufacturing cost is reduced.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept herein, and it is intended to cover all such modifications and variations as fall within the scope of the invention.

Claims (10)

1. The adhesive film punching and mounting device is characterized by comprising an upper die (1) and a lower die (2), wherein the upper die (1) is provided with a punch;

the lower die (2) is provided with an X-axis feeding channel (210) and a Y-axis feeding channel (220), and the X-axis feeding channel (210) is arranged below the Y-axis feeding channel (220);

the intersection point of the X-axis feeding channel (210) and the Y-axis feeding channel (220) is provided with a supporting plate, and the supporting plate is provided with a notch matched with the punch.

2. The film punching and mounting device as claimed in claim 1, wherein the X-axis feeding channel (210) has first stoppers (22) at both edges along the length direction thereof;

and second limiting blocks (23) are arranged at two edge parts of the Y-axis feeding channel (220) along the length direction of the Y-axis feeding channel.

3. The adhesive film die-cutting and mounting device according to claim 2, wherein the Y-axis feeding channel (220) comprises a first station feeding channel (221) and a second workpiece feeding channel;

the support plates comprise a first support plate (21a) and a second support plate (21 b);

the first supporting plate (21a) is arranged at the intersection point of the first station feeding channel (221) and the X-axis feeding channel (210);

the second support plate (21b) is arranged at the intersection of the second station feeding channel (222) and the X-axis feeding channel (210).

4. The film punching and mounting device according to claim 3, wherein the punch comprises a first punch (11a) and a second punch (11b), the first support plate (21a) is provided with a first notch (211a) which is matched with the first punch (11 a);

the second support plate (21b) is provided with a second cutout (211b) that mates with the second punch (11 b).

5. The adhesive film die-cutting and mounting device according to any one of claims 1 to 4, wherein the upper die (1) is provided with a first positioning pin (12), and the edge of the X-axis feeding channel (210) along the length direction thereof is provided with a first guide hole (24a) which is matched with the first positioning pin (12).

6. The adhesive film die-cutting and mounting device according to any one of claims 1 to 4, wherein the upper mold (1) is provided with a second positioning pin (13), and the edge of the Y-axis feeding channel (220) along the length direction thereof is provided with a second guide hole (24b) which is matched with the second positioning pin (13).

7. The adhesive film die-cutting and mounting device as claimed in claim 1, wherein the X-axis feeding channel (210) and the Y-axis feeding channel (220) are perpendicular to each other.

8. The adhesive film die-cutting and mounting device as claimed in claim 1, wherein the X-axis feeding channel (210) is capable of placing a metal member (3), the metal member (3) comprises a metal workpiece (31) and a material tape (32), the metal workpiece (31) is orderly connected to the material tape (32), and a material tape positioning hole (321) is formed in an edge portion of the material tape (32).

9. The adhesive film die-cutting and mounting device as claimed in claim 3, wherein the Y-axis feeding channel (220) is capable of placing an adhesive film member, the adhesive film member comprises an adhesive film and a bottom film, the adhesive film is arranged above the bottom film, the bottom film is provided with a position-avoiding hole, and the shape and the position of the position-avoiding hole correspond to those of the notch.

10. The adhesive film die-cutting and mounting device according to claim 9, wherein a first adhesive film member (4) can be placed on the first station feeding channel (221), the first adhesive film member (4) comprises a first adhesive film (41) and a first base film (42), the first adhesive film (41) is arranged above the first base film (42), the first base film (42) is provided with a first avoiding hole (421), and the edge of the first base film (42) is provided with a first positioning hole (422);

the second station feeding channel (222) is used for placing a second adhesive film component (5), the second adhesive film component (5) comprises a second adhesive film (51) and a second bottom film (52), the second adhesive film (51) is arranged above the second bottom film (52), the second bottom film (52) is provided with a second avoiding hole (521), and the edge portion of the second bottom film (52) is provided with a second positioning hole (522).

Images