CN214686972U - Go up asynchronous five metals mould device - Google Patents

Abstract

The utility model discloses an go up asynchronous five metals mould device, the bottom carrier film who runs through the die holder passes through the groove around having seted up in the die holder, die holder upper surface middle part is provided with presses the membrane hole, press membrane hole intercommunication die holder upper surface and bottom carrier film pass through the groove, the shape of tool bit and the shape looks adaptation that presses the membrane hole, the tool bit is located and presses the membrane hole directly over, it can press the tool bit into the bottom carrier film from the press membrane hole and pass through the groove to press the power cylinder down, when pressing the power cylinder down and pressing the tool bit into the bottom carrier film from the press membrane hole and pass through the groove, can press the material membrane of tool bit below on viscidity carrier film, the material membrane of non-tool bit below is blockked by the die holder upper surface, unable contact viscidity carrier film. The utility model discloses can solve traditional go up asynchronous five metals mould device and handle the problem of easy sizing when viscidity bottom carrier film.

Description

Go up asynchronous five metals mould device

Technical Field

The utility model relates to a hardware mould mold opening tool's technical field especially relates to an go up asynchronous hardware mould device.

Background

Go up asynchronous five metals mould and be one kind and can be used for the device that the membrane was cut, in the prior art, adopt last asynchronous five metals mould can be with material membrane pressure on bottom carrier film, thereby make the combined film that has specific laminating profile, the preparation technology is shown in figure 1, this kind goes up asynchronous five metals mould when dealing with the laminating work of most of material membranes and bottom carrier film, all the performance is fine, however, when bottom carrier film is the viscidity membrane, the tool bit pushes down material membrane in-process, the part of material membrane not below the tool bit probably touches bottom carrier film surface, lead to bottom carrier film and material membrane to glue together easily, cause to draw the material inaccurate.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem of mentioning among the background art, provide one kind and go up asynchronous five metals mould device, this kind of device can solve traditional go up the problem of easy sizing when asynchronous five metals mould device handles viscidity bottom carrier film.

In order to realize the technical purpose, the utility model discloses the technical scheme who takes does:

an upper asynchronous hardware die device comprises an upper die and a lower die, wherein an upper die base, a lower pressing power cylinder and a tool bit are arranged on the upper die, the lower pressing power cylinder is fixed on the upper die base, a cylinder shaft of the lower pressing power cylinder is connected with the tool bit, the lower die comprises a lower die base, the lower die base is positioned under the upper die base, a bottom bearing film passing groove which penetrates through the lower die base from front to back is arranged in the lower die base, a film pressing hole is formed in the middle of the upper surface of the lower die base and is communicated with the upper surface of the lower die base and the bottom bearing film passing groove, the tool bit is matched with the shape of the film pressing hole in shape and is positioned right above the film pressing hole, the lower pressing power cylinder can press the tool bit into the bottom bearing film passing groove from the film pressing hole, the upper asynchronous hardware die device further comprises a material scroll, a bottom bearing film scroll, a waste scroll and a winding shaft, the waste scroll and the winding shaft are positioned in front of the upper die and the lower die, the waste scroll and the winding shaft are positioned behind the upper die and the lower die, after a material film on the material reel extends between the upper die seat and the lower die seat, the material film is wound on the waste reel, a viscous bearing film on the bottom bearing film reel passes through the bottom bearing film passing groove and then is wound on the winding shaft, when the cutter head is pressed into the bottom bearing film passing groove from the film pressing hole by the downward pressing power cylinder, the material film below the cutter head can be pressed on the viscous bearing film, and the material film below the non-cutter head is blocked by the upper surface of the lower die seat and cannot contact the viscous bearing film.

In order to optimize the technical scheme, the specific measures adopted further comprise:

the lower surface of a material film on the material reel is adhered with a bottom film, the upper asynchronous hardware die device comprises a bottom film shaft, the bottom film shaft is positioned in front of the upper die and the lower die, and the bottom film is separated from the lower surface of the material film and wound on the bottom film shaft to be recovered before the material film reaches the lower part of the cutter head.

The front end of the upper die holder is provided with two separation wheels which are matched with each other, after a material film and a bottom film pass through the separation wheels, the material film and the bottom film are separated, the bottom film is wound on a bottom film shaft, and the material film passes through the lower part of the tool bit.

The front part and the rear part of the upper surface of the lower die base are respectively provided with a film finishing wheel, and a material film is wound on a waste reel after sequentially passing through the film finishing wheel at the front part, the lower part of the tool bit and the film finishing wheel at the rear part.

The upper die holder and the lower die holder are both stainless steel holders.

The pressing power cylinder is an electric cylinder.

The separating wheel and the film finishing wheel are stainless steel wheels.

The utility model discloses a set up the groove of passing through that is used for through bottom carrier film in the die holder, can prevent that bottom carrier film is direct from the die holder upper surface process, when the upper die base pushes down, material membrane can't be direct and bottom carrier film contact, but need press material membrane into bottom carrier film through the groove through the tool bit, and the material membrane that is cut off by the tool bit pastes on bottom carrier film, forms the combination membrane that meets the requirements, the utility model discloses can prevent effectively that material membrane and bottom carrier film from excessively contacting, when bottom carrier film is the viscous film, can prevent that bottom carrier film from gluing with material membrane even, guarantee the eager normal clear of membrane.

Drawings

FIG. 1 is a schematic structural diagram of a conventional upper asynchronous hardware mould device;

FIG. 2 is a schematic structural diagram of an upper asynchronous hardware mould device of the present invention;

figure 3 is a top view of the lower die holder.

The label names in the figure: the device comprises an upper die 1, an upper die holder 11, a downward pressing power cylinder 12, a tool bit 13, a separating wheel 14, a lower die 2, a lower die holder 21, a bottom carrier film passing groove 22, a film pressing hole 23, a film finishing wheel 24, a material reel 3, a material film 31, a bottom film 32, a bottom carrier film reel 4, a viscous carrier film 41, a waste reel 5, a winding shaft 6 and a bottom film shaft 7.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

An upper asynchronous hardware die device comprises an upper die 1 and a lower die 2, wherein an upper die base 11, a lower pressing power cylinder 12 and a tool bit 13 are arranged on the upper die 1, the lower pressing power cylinder 12 is fixed on the upper die base 11, a cylinder shaft of the lower pressing power cylinder 12 is connected with the tool bit 13, the lower die 2 comprises a lower die base 21, the lower die base 21 is positioned under the upper die base 11, a bottom bearing film passing groove 22 which penetrates through the lower die base 21 from front to back is formed in the lower die base 21, a film pressing hole 23 is formed in the middle of the upper surface of the lower die base 21, the film pressing hole 23 is communicated with the upper surface of the lower die base 21 and the bottom bearing film passing groove 22, the shape of the tool bit 13 is matched with the shape of the film pressing hole 23, the tool bit 13 is positioned over the film pressing hole 23, the lower pressing power cylinder 12 can press the tool bit 13 into the bottom bearing film passing groove 22 from the film pressing hole 23, the upper asynchronous hardware die device further comprises a material reel 3, a bottom bearing film reel 4, a waste reel 5 and a winding shaft 6, the material reel 3 and the bottom bearing film reel 4 are positioned in front of the upper die 1 and the lower die 2, the waste reel 5 and the winding reel 6 are positioned behind the upper die 1 and the lower die 2, the material film 31 on the material reel 3 extends from the position between the upper die seat 11 and the lower die seat 21 and then winds on the waste reel 5, the adhesive bearing film 41 on the bottom bearing film reel 4 passes through the bottom bearing film passing groove 22 and then winds on the winding reel 6, when the pressing power cylinder 12 presses the cutter head 13 into the bottom bearing film passing groove 22 from the film pressing hole 23, the material film 31 below the cutter head 13 can be pressed on the adhesive bearing film 41, and the material film 31 below the non-cutter head 13 is blocked by the upper surface of the lower die seat 21 and cannot contact with the adhesive bearing film 41.

In the embodiment, the lower surface of the material film 31 on the material reel 3 is adhered with the bottom film 32, the upper asynchronous hardware die device comprises a bottom film shaft 7, the bottom film shaft 7 is positioned in front of the upper die 1 and the lower die 2, and the bottom film 32 is separated from the lower surface of the material film 31 and is wound on the bottom film shaft 7 for recovery before the material film 31 reaches the lower part of the cutter head 13.

In the embodiment, two separation wheels 14 matched with each other are installed at the front end of the upper die base 11, after a material film 31 and a bottom film 32 pass between the separation wheels 14, the material film 31 and the bottom film 32 are separated, the bottom film 32 is wound on a bottom film shaft 7, and the material film 31 passes below the tool bit 13.

In the embodiment, the film forming wheels 24 are arranged at the front part and the rear part of the upper surface of the lower die base 21, and the material film 31 passes through the film forming wheels 24 at the front part and the film forming wheels 24 at the lower part and the rear part of the cutter head 13 in sequence and then is wound on the waste reel 5.

In the embodiment, the upper die base 11 and the lower die base 21 are both stainless steel bases.

In the embodiment, the power cylinder 12 is an electric cylinder.

In the embodiment, the separation wheel 14 and the film shaping wheel 24 are stainless steel wheels.

The utility model discloses an entire membrane flow does:

as shown in figure 2 of the drawings, in which,

the material film 31 on the material reel 3 extends from between the upper die base 11 and the lower die base 21 and then is wound on the scrap reel 5, the adhesive carrier film 41 on the bottom carrier film reel 4 passes through the bottom carrier film passing groove 22 and then is wound on the winding shaft 6,

when materials are laminated, the motor drives the waste reel 5, the winding shaft 6 and the basement membrane shaft 7 to synchronously rotate, so that the material film 31, the basement membrane 32 and the adhesive bearing membrane 41 synchronously move, the downward pressing power cylinder 12 presses downward at a fixed frequency, the material film 31 is cut through the film pressing hole 23 and laminated on the adhesive bearing membrane 41 through the cutter head 13, the used material film 31 is wound through the waste reel 5, the laminated adhesive bearing membrane 41 is wound through the winding shaft 6, and the basement membrane 32 is wound through the basement membrane shaft 7.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, a plurality of modifications and decorations without departing from the principle of the present invention should be considered as the protection scope of the present invention.

Claims (7)

1. The utility model provides an go up asynchronous hardware mould device, includes mould (1) and lower mould (2), last mould (1) on be provided with upper die base (11), push down power cylinder (12) and tool bit (13), push down power cylinder (12) fix on upper die base (11), the jar axle and tool bit (13) of push down power cylinder (12) be connected, lower mould (2) include die holder (21), die holder (21) be located upper die base (11) under, characterized by: the bottom that runs through die holder (21) around having seted up in die holder (21) bears the membrane and passes through groove (22), die holder (21) upper surface middle part be provided with and press membrane hole (23), press membrane hole (23) intercommunication die holder (21) upper surface and bottom to bear the membrane and pass through groove (22), the shape of tool bit (13) and the shape looks adaptation that presses membrane hole (23), tool bit (13) be located and press membrane hole (23) directly over, lower pressure power cylinder (12) can be impressed tool bit (13) bottom from pressing membrane hole (23) and bear the membrane and pass through groove (22), go up asynchronous five metals mould device and still include material spool (3), bottom and bear membrane spool (4), waste material spool (5) and wind-up axle (6), material spool (3) and bottom bear membrane spool (4) and be located the place ahead of last mould (1) and lower mould (2), waste reel (5) and rolling axle (6) are located the rear of last mould (1) and lower mould (2), material membrane (31) on material reel (3) stretch from going up between die holder (11) and die holder (21) after, wind on waste reel (5), bottom bear weight of membrane spool (4) on viscidity bear the membrane (41) from bottom bear the membrane through groove (22) after through, wind on rolling axle (6), push down power cylinder (12) when impressing tool bit (13) into bottom from press mold hole (23) and bear the membrane through groove (22), can press material membrane (31) below tool bit (13) on viscidity bear membrane (41), material membrane (31) below non-tool bit (13) are blockked by the die holder (21) upper surface, can't contact viscidity bear weight of membrane (41).

2. The hardware mould device for mounting asynchronization of claim 1, which is characterized in that: material spool (3) on material membrane (31) lower surface paste basement membrane (32), go up asynchronous five metals mould device including basement membrane axle (7), basement membrane axle (7) be located the place ahead of going up mould (1) and lower mould (2), before material membrane (31) reachs tool bit (13) below, basement membrane (32) are from material membrane (31) lower surface separation, are retrieved around on basement membrane axle (7).

3. The hardware mould device for mounting asynchronization of claim 2, which is characterized in that: two separation wheels (14) that cooperate each other are installed to the front end of upper die base (11), material membrane (31) and basement membrane (32) pass between separation wheel (14) after, material membrane (31) and basement membrane (32) separate, basement membrane (32) are around on basement membrane axle (7), material membrane (31) from tool bit (13) below pass through.

4. The hardware mould device for mounting asynchronization of claim 3, which is characterized in that: the film forming machine is characterized in that film forming wheels (24) are arranged on the front portion and the rear portion of the upper surface of the lower die seat (21), and a material film (31) sequentially passes through the film forming wheels (24) on the front portion, the lower portion of the tool bit (13) and the film forming wheels (24) on the rear portion and then is wound on a waste reel (5).

5. The hardware mould device for mounting asynchronization of claim 4, which is characterized in that: the upper die holder (11) and the lower die holder (21) are both stainless steel holders.

6. The hardware mould device for mounting asynchronization of claim 5, which is characterized in that: the downward-pressing power cylinder (12) is an electric cylinder.

7. The hardware mould device for mounting asynchronization of claim 6, which is characterized in that: the separating wheel (14) and the film shaping wheel (24) are stainless steel wheels.

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