CN213617118U - Multifunctional asynchronous punching device - Google Patents

Abstract

The utility model belongs to the die cutting field, specifically discloses a multifunctional asynchronous punching device, which comprises a punching machine body (1), wherein the punching machine body (1) comprises a layer of bottom dragging protective film (2), a main material protective film (3), a peripheral waste material collecting platform (4) and a semi-finished product collecting platform (7), and the other side of the punching machine body (1) is provided with a waste material collecting platform (21); the utility model discloses a multi-functional asynchronous die-cut device, through the multiple die-cut die-sinking to the material, rationally collect the semi-manufactured goods and reprocess, reduced the scraped material of inner frame, effectively combined circular knife equipment multistation, multi-functional and multi-angle's practicality, use the product material maximize, reduce the cost consumption thereby enlarge economic benefits; on the other hand, the six dies involved in the product cover the production of most square frame products, the complex process of product reprocessing is reduced, the die is more suitable for industrial production of square frame products, and the industrial competitiveness is improved.

Description

Multifunctional asynchronous punching device

Technical Field

The utility model belongs to the cross cutting field specifically discloses a multi-functional asynchronous die-cut device.

Background

In the industrial die cutting industry, die cutting of square frame products is often designed, such as bonding of a PSA frame glue and sealing buffer FORM on a display screen of electronic products such as a flat panel and a mobile phone, and the traditional die cutting of the square frame products is generally completed by using a step-by-step sleeve cutting die: step one, removing waste materials of the cut inner frame; step two, cutting outer frame waste materials and removing; step three, and an increased layer structure process. The efficiency and the precision of the advanced method are both in a higher level, but because the whole width of the process material is used, the material of the inner frame is directly scrapped after being processed when the product is punched, the utilization rate is lower, the cost is improved, and the competitiveness in the industry is reduced.

For reducing material cost, need save the condemned material of inside casing, the utility model discloses use asynchronous die-cut mode to put the inside casing material empty, will cover the whole face and change four covers into die-cut into the product again, this kind of method has promoted material utilization ratio, reduces material cost, improves trade competitiveness, enlarges economic benefits, has very wide prospect in square frame class product cross cutting field.

SUMMERY OF THE UTILITY MODEL

Not enough more than, the utility model discloses a multi-functional asynchronous die-cut device uses this patent product can be simple and convenient, and is high-efficient, cheap completion cross cutting production.

The technical scheme of the utility model as follows:

the utility model provides a multi-functional asynchronous die-cut device, a serial communication port, including the die cutting machine body, the die cutting machine body includes that the one deck holds in the palm end protection film, one deck major ingredient protection film, the peripheral waste material of one deck is received the material platform, two layers of major ingredient are from the type membrane, T2 waste material is received the material platform, A1 material semi-manufactured goods, No. two hold in the palm end protection film, asynchronous back waste material is received the material platform, one deck auxiliary material is from the type membrane, A2 material semi-manufactured goods, one deck single-sided glue auxiliary material, from type membrane waste material is received the material platform, two layers of auxiliary material are from the type membrane, two layers of single-sided glue auxiliary material, draw a spool waste material and receive the material platform, useless former membrane is received the material platform, glue waste. The layer of bottom supporting protective film is connected with the die cutting machine body through two pulleys; a layer of main material protective film is arranged beside the layer of bottom supporting protective film; a layer of peripheral waste material receiving platform is arranged beside the layer of main material protective film; two layers of main material release films are arranged beside the peripheral waste material receiving platform; a T2 waste material collecting platform is arranged beside the second layer of main material release film; an A1 material semi-finished product and a two-layer bottom supporting protective film are arranged beside the T2 waste material collecting table, and the A1 material semi-finished product is vertically connected with the two-layer bottom supporting protective film; the two-layer bottom supporting protective film disc is provided with an asynchronous waste material receiving platform; a layer of auxiliary material release film and A2 material semi-finished product; a layer of single-sided adhesive auxiliary material and a release film waste material collecting platform are arranged beside the A2 material semi-finished product, and the layer of single-sided adhesive auxiliary material and the release film waste material collecting platform are vertically connected; two layers of auxiliary material release films are arranged beside the one layer of single-sided adhesive auxiliary material; a second layer of single-sided adhesive auxiliary material and a pull shaft waste material collecting platform are arranged beside the second layer of auxiliary material release film; a waste raw film collecting platform and a glue waste collecting platform are arranged beside the pull shaft waste collecting platform, and the waste raw film collecting platform and the glue waste collecting platform are vertically connected; a peripheral release film receiving platform is arranged beside the rubber waste receiving platform; the other side of the die cutting machine body is provided with a goods outlet table and a waste material supporting bottom film; the cutting die T1-T6 is respectively inserted into a shaft where the peripheral waste material collecting platform is located, a shaft where the T2 waste material collecting platform is located, a shaft where the A2 semi-finished product is located on the right side, a shaft where the single-sided adhesive auxiliary material layer is located on the left side, a shaft where the two layers of auxiliary material release films are located and a shaft where the adhesive waste material collecting platform is located.

Further, foretell multi-functional asynchronous die-cut device, its characterized in that, die-cut machine body (1) has 3 layers of structural design, and top-down is in proper order: auxiliary Liner1, auxiliary Liner2 and main material PSA.

Further, the multifunctional asynchronous punching device is characterized in that the main material double-faced adhesive tapes of the A1 material semi-finished product (7) and the A2 material semi-finished product (11) are connected with the stripped semi-finished product after the release films are attached.

Furthermore, foretell asynchronous die-cut device of multi-functional, characterized in that, one deck holds in the palm end protection film (2) and takes the upward shaping of adhesive surface.

Furthermore, foretell asynchronous die-cut device of multi-functional, characterized by, one deck major ingredient protection film (3), no sticky surface pastes in one deck support base protection film (2) support base film sticky surface, and one deck major ingredient protection film (3) have from the type membrane of taking.

Further, the multifunctional asynchronous punching device is characterized in that the cutting die (22) T2 is tightly attached to a self-contained release film of the main material protective film (3), the self-contained release film breaks the main material continuously, and the waste materials on the periphery of the self-contained release film are discharged.

Further, the multifunctional asynchronous punching device is characterized in that after the T2 waste material receiving table (6) receives materials, the A1 semi-finished product (7) is attached to the two layers of main material release films (5) in a transferring mode.

Further, the multifunctional asynchronous punching device is characterized in that the cutting die (22) T4 is located at an interface of four frame adhesives relative to a frame to be processed in the punching process.

Further, the multifunctional asynchronous punching device is characterized in that the cutter die (22) T5 is positioned at the interface of the inner frame punching device relative to the frame which is machined during punching.

Further, the multifunctional asynchronous punching device is characterized in that the cutting die (22) T6 is positioned at the interface of the outer frame punching device relative to a frame to be processed during punching until the bottom layer is broken.

Can reach from above-mentioned technical scheme, the utility model discloses following beneficial effect has: the utility model is based on the common method for removing the waste materials by multiple times at the present stage, reduces the generation of the waste materials of the inner frame through asynchronous punching, ensures the quality of the die cutting of the product, reduces the waste in the production process, greatly saves the loss of the material of the inner frame, and provides possibility for improving the utilization rate of raw materials and reducing the cost; and simultaneously, the utility model discloses effectively combined the practicality of circular knife equipment multistation, multi-functional and multi-angle, for the design of circular knife lathe provides reference, still there is the price height based on present circular knife, the short-lived problem, the efficient utilizes the circular knife also to another degree to reduce the production data cost of enterprise.

Drawings

FIG. 1 is a schematic front view of a multifunctional asynchronous blanking apparatus according to embodiments 1 and 2;

FIG. 2 is a schematic diagram of a three-layer structure of the product;

FIG. 3 is a schematic diagram of six types of templates according to the present invention;

wherein: 1. the cutting press comprises a body of a cutting press, 2, a layer of bottom supporting protective film, 3, a layer of main material protective film, 4, a layer of peripheral waste material collecting platform, 5, two layers of main material release films, 6.T2 waste material collecting platform, 7.A1 semi-finished product, 8, two layers of bottom supporting protective films, 9, an asynchronous waste material collecting platform, 10, a layer of auxiliary material release films, 11.A2 semi-finished product, 12, a layer of single-sided adhesive auxiliary material, 13, a release film waste material collecting platform, 14, two layers of auxiliary material release films, 15, two layers of single-sided adhesive auxiliary materials, 16, a pull shaft waste material collecting platform, 17, a waste original film collecting platform, 18, a glue waste material collecting platform, 19, a discharging platform, 20, a peripheral release film collecting platform, 21, a waste material bottom supporting membrane and 22, a cutting die.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

The die cutting machine body 1 shown in fig. 1 comprises a first layer of bottom supporting protective film 2, a first layer of main material protective film 3, a first layer of peripheral waste material collecting platform 4, a second layer of main material release film 5, a T2 waste material collecting platform 6, an A1 semi-finished product 7, a second layer of bottom supporting protective film 8, an asynchronous waste material collecting platform 9, a first layer of auxiliary material release film 10, an A2 semi-finished product 11, a first layer of single-sided adhesive auxiliary material 12, a release film waste material collecting platform 13, a second layer of auxiliary material release film 14, a second layer of single-sided adhesive auxiliary material 15, a pull shaft waste material collecting platform 16, a waste raw film collecting platform 17, a glue waste material collecting platform 18, a delivery platform 19, a peripheral release film collecting platform 20, a waste material bottom supporting film 21 and a cutter die 22.

When the punching machine works, a product to be processed is placed on the bottom supporting protective film layer 2, and sequentially passes through the main material protective film layer 3, the peripheral waste material collecting table 4, the release film layer 5, the T2 waste material collecting table 6 and the A1 semi-finished product 7 through the conveyor belt, so that one-time processing is realized, and then punching of the product is realized through repeated and asynchronous control for many times.

Example 2

The multifunctional asynchronous punching device shown in fig. 1 comprises a punching machine body 1, wherein the punching machine body 1 comprises a first layer bottom supporting protective film 2, a first layer main material protective film 3, a first layer peripheral waste material collecting platform 4, a second layer main material release film 5, a T2 waste material collecting platform 6, an A1 material semi-finished product 7, a second layer bottom supporting protective film 8, an asynchronous waste material collecting platform 9, a first layer auxiliary material release film 10, an A2 material semi-finished product 11, a first layer single-sided adhesive auxiliary material 12, a release film waste material collecting platform 13, a second layer auxiliary material release film 14, a second layer single-sided adhesive auxiliary material 15, a pull shaft waste material collecting platform 16, a waste original film collecting platform 17, an adhesive waste material collecting platform 18, a delivery platform 19, a peripheral release film collecting platform 20, a waste material bottom supporting film 21 and a cutter die 22. The bottom supporting protective film layer 2 is connected with the die cutting machine body 1 through two pulleys; a main material protective film 3 is arranged beside the bottom supporting protective film 2; a layer of peripheral waste material receiving platform 4 is arranged beside the layer of main material protective film 3; two layers of main material release films 5 are arranged beside the peripheral waste material receiving platform 4; a T2 waste material collecting platform 6 is arranged beside the second layer of main material release film 5; an A1 semi-finished product of the material 7 and a two-layer bottom supporting protective film 8 are arranged beside the T2 waste material collecting table 6, and the A1 semi-finished product of the material 7 is vertically connected with the two-layer bottom supporting protective film 8; the two layers of bottom supporting protective films 8 are provided with asynchronous waste material receiving platforms 9; the first auxiliary material is a release film 10 and a semi-finished product 11 of A2 material; a layer of single-sided adhesive auxiliary material 12 and a release film waste collecting platform 13 are arranged beside the A2 semi-finished product 11, and the layer of single-sided adhesive auxiliary material 12 is vertically connected with the release film waste collecting platform 13; two layers of auxiliary material release films 14 are arranged beside the one layer of single-sided adhesive auxiliary material 12; two layers of single-sided adhesive auxiliary materials 15 and a pull shaft waste material collecting platform 16 are arranged beside the two layers of auxiliary material release films 14; a waste raw film collecting platform 17 and a glue waste collecting platform 18 are arranged beside the pull shaft waste collecting platform 16, and the waste raw film collecting platform 17 is vertically connected with the glue waste collecting platform 18; a peripheral release film receiving platform 20 is arranged beside the adhesive waste receiving platform 18; the other side of the die cutting machine body 1 is provided with a goods outlet platform 19 and a waste material supporting bottom film 21; the cutting die 22T1-T6 are respectively inserted into a layer of a shaft with a peripheral waste material collecting platform 4, a shaft with a T2 waste material collecting platform 6, a shaft with a right side of an A2 semi-finished product 11, a layer of a shaft with a left side of a single-sided adhesive auxiliary material 12, a layer of a double-layer auxiliary material release film 14 and a shaft with an adhesive waste material collecting platform 18.

Preferably, the die cutting machine body 1 has a 3-layer structural design, and sequentially comprises the following components from top to bottom: auxiliary Liner1, auxiliary Liner2 and main material PSA.

Preferably, the main material double faced adhesive tapes of the semi-finished products 7 and 11 of the materials A1 and A2 are connected with the strip-divided semi-finished products after the release films are attached.

Preferably, the bottom supporting protective film 2 is formed with the adhesive surface facing upwards.

Preferably, the non-adhesive surface of the layer of main material protective film 3 is attached to the adhesive surface of the layer of bottom supporting protective film 2, and the layer of main material protective film 3 is provided with a release film.

Preferably, the cutting die 22T2 is tightly attached to a self-carrying release film of the main material protective film 3, and the self-carrying release film breaks the main material continuously and discharges the waste materials from the periphery of the self-carrying release film.

Preferably, after the T2 waste material receiving table 6 receives the material, the A1 semi-finished product 7 is pasted on the two layers of main material release films 5.

Preferably, the cutting die 22T4 is located at the interface of four frame adhesives relative to the frame to be processed during the punching process.

Preferably, the cutting die 22T5 is located at the interface of the inner frame blanking apparatus relative to the tooling frame during the blanking process.

Preferably, the cutting die 22T6 is positioned at the interface of the outer frame punching device relative to the frame to be processed during the punching process, up to the bottom layer.

When the film laminating machine works, a layer of bottom supporting protective film 2 transfers a substitute processing product to a layer of main material protective film 3, the non-adhesive surface is attached to the adhesive surface of the bottom supporting film of the layer of bottom supporting protective film 2, and the layer of main material protective film is provided with a self-carried release film. The cutting die 22T1 cuts a layer of self-carrying release film of the main material protective film 3 material, the self-carrying release film cuts off the main material continuously, and the waste material is discharged from the periphery of the self-carrying release film; a layer of peripheral waste material receiving platform 4 receives a layer of peripheral waste materials with release films; the non-release surface of the two layers of main material release films 5 is attached to the rubber surface of the Liner 1; the protective film and the rubber surface for collecting the bottom of the T2 waste material collecting platform 6 are fed upwards; a1 semi-finished product 7 is attached to the glue surface of a T2 waste material collecting table 6; the cutting die 22T2 frame-trimming glue 4-edge interface and T1 cross marks; a T2 waste material receiving table 6 receives the waste material punched by the T2, and an A1 material is attached to the two-layer release film; the asynchronous waste material receiving platform 9 receives the auxiliary material release film, and the release film feeds materials upwards; a2 semi-finished product of the auxiliary material is collected by a layer of auxiliary material release film 10 and is attached to the asynchronous waste material collecting platform release surface; the cutting die 22T3 cuts asynchronous punching glue, and sets the asynchronous punching width as the width required by the glue edge; the two layers of bottom supporting protective films 8 receive asynchronous release film waste materials; the cutting die 22T4 repairs the interface of the four frame glue to ensure that the glue is not overlapped; a2 semi-finished product 11 is a single-sided adhesive auxiliary material and is stuck on a release film of an asynchronous adhesive; a layer of single-sided adhesive auxiliary material 12 is used for collecting waste materials, and release film waste materials of two sides and asynchronous adhesive are used; the release film waste material receiving platform 13 receives the auxiliary material release film, pastes the auxiliary material release film on the frame rubber surface and covers the whole auxiliary material release film; the cutting die 22T5 punches the size of the inner frame, and the inner frame is glued until the inner frame is broken; the two layers of auxiliary material release films 14 receive the single-sided adhesive auxiliary material and are attached to the auxiliary material release films of the waste release film receiving table 13; pulling the release film waste collecting platform 13 and the two layers of auxiliary material release film 14 waste materials by the shaft of the two layers of single-sided adhesive auxiliary materials 15; a shaft drawing waste material receiving platform 16 discharges waste original films and sticks the waste original films on the inner frame waste materials; the waste original film receiving platform 17 receives waste materials, the inner frame rubber discharges waste materials and the rubber surface release film waste materials; the shaft of the adhesive waste material collecting platform 18 is provided with a release film and a release surface which are adhered with adhesive; the cutting die 22T6 punches the size of the outer frame to be cut to the bottom supporting film; the peripheral release film receiving platform 20 receives the peripheral release film waste of the product, and only the bottom layer carrier film is left; waste carrier film 21 receives waste and bottom carrier film.

The product through layer processing can also pass through the utility model provides a mould: cutting a layer of glue-free shielding area on the first die; the second mold cuts the upper and lower frame glue; the third die asynchronously cuts left and right adhesive tapes, the asynchronous method sets the distance of the cutter shaft needing asynchronous punching for a single material belt, and the asynchronous adhesive tapes are pasted on the main material belt in a transferring way to form a square shape; the fourth mold cuts the frame glue connecting point; cutting the inner frame of the product by a fifth die; and cutting the outer frame of the product by a sixth mold and molding.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention can not be limited thereby, and the simple equivalent changes and modifications made according to the claims and the utility model also belong to the protection scope of the present invention.

Claims (10)

1.A multifunctional asynchronous punching device is characterized by comprising a punching machine body (1), the die cutting machine body (1) comprises a first layer of bottom supporting protective film (2), a first layer of main material protective film (3), a first layer of peripheral waste material collecting platform (4), a second layer of main material release film (5), a T2 waste material collecting platform (6), an A1 material semi-finished product (7), a second layer of bottom supporting protective film (8), an asynchronous waste material collecting platform (9), a first layer of auxiliary material release film (10), an A2 material semi-finished product (11), a first layer of single-sided adhesive auxiliary material (12), a release film waste material collecting platform (13), a second layer of auxiliary material release film (14), a second layer of single-sided adhesive auxiliary material (15), a pull shaft waste material collecting platform (16), a waste raw film collecting platform (17), a rubber waste material collecting platform (18), a goods discharging platform (19), a peripheral film collecting platform (20), a waste material base film (21) and a cutter die (22); the layer of bottom supporting protective film (2) is connected with the die cutting machine body (1) through two pulleys; a layer of main material protective film (3) is arranged beside the layer of bottom supporting protective film (2); a layer of peripheral waste material collecting platform (4) is arranged beside the layer of main material protective film (3); two layers of main material release films (5) are arranged beside the peripheral waste material collecting platform (4); a T2 waste material collecting platform (6) is arranged beside the two layers of main material release films (5); an A1 material semi-finished product (7) and a two-layer bottom supporting protective film (8) are arranged beside the T2 waste material collecting platform (6), and the A1 material semi-finished product (7) is vertically connected with the two-layer bottom supporting protective film (8); the two layers of bottom supporting protective films (8) are provided with an asynchronous waste material collecting platform (9), a layer of auxiliary material release film (10) and an A2 material semi-finished product (11); a layer of single-sided adhesive auxiliary material (12) and a release film waste material collecting platform (13) are arranged beside the A2 semi-finished product (11), and the layer of single-sided adhesive auxiliary material (12) is coaxially and vertically connected with the release film waste material collecting platform (13); two layers of auxiliary material release films (14) are arranged beside the one layer of single-sided adhesive auxiliary material (12); two layers of single-sided adhesive auxiliary materials (15) and a pull shaft waste material collecting platform (16) are arranged beside the two layers of auxiliary material release films (14); a waste original film collecting platform (17) and a glue waste collecting platform (18) are arranged beside the pull shaft waste collecting platform (16), and the waste original film collecting platform (17) is coaxially and vertically connected with the glue waste collecting platform (18); a peripheral release film receiving platform (20) is arranged beside the adhesive waste receiving platform (18); the other side of the die cutting machine body (1) is provided with a goods outlet table (19) and a waste material supporting bottom film (21); the cutting die (22) T1-T6 are respectively inserted into a shaft where the peripheral waste material collecting platform (4) is located, a shaft where the T2 waste material collecting platform (6) is located, a shaft where the A2 semi-finished product (11) is located, a shaft where the single-sided adhesive auxiliary material layer (12) is located, a shaft where the two auxiliary material release films (14) are located and a shaft where the adhesive waste material collecting platform (18) is located.

2. The asynchronous punching device of multi-functional according to claim 1, characterized in that die-cutting machine body (1) has a 3-layer structural design, from top to bottom in order: auxiliary Liner1, auxiliary Liner2 and main material PSA.

3. The asynchronous punching device of claim 1, characterized in that the double-sided adhesive tapes of the main materials of the semi-finished products (7) of A1 and (11) of A2 are connected with the strips of the semi-finished products after the release film is attached.

4. A multifunctional asynchronous punching device according to claim 1, characterised in that said one layer of backing protection film (2) is shaped with adhesive side up.

5. The multifunctional asynchronous punching device as claimed in claim 1, wherein the adhesive-free surface of the layer of main material protective film (3) is attached to the adhesive surface of the layer of bottom supporting protective film (2), and the layer of main material protective film (3) is provided with a release film.

6. The asynchronous die-cutting device of claim 1, characterized in that the cutting die (22) T2 is tightly attached to a self-contained release film of the main material protection film (3).

7. The multifunctional asynchronous punching device as claimed in claim 1, characterized in that after the T2 waste material receiving platform (6) receives the material, the A1 semi-finished product (7) is transferred to the two layers of main material release film (5).

8. The multifunctional asynchronous punching device according to claim 1, characterized in that the cutting die (22) T4 is located at the interface of four frame adhesives relative to the frame to be processed during punching.

9. A multi-functional asynchronous punching device according to claim 1, characterized in that the cutting die (22) T5 is located at the interface of the inner frame punching device with respect to the tooling frame during punching.

10. A multifunctional asynchronous punching device according to claim 1, characterized in that the cutting die (22) T6 is located at the interface of the outer frame punching device relative to the frame to be worked during punching, until the bottom layer is broken.

Images