CN220011628U - Accurate asynchronous location cutting device - Google Patents

Abstract

The utility model discloses a precise asynchronous positioning cutting device, which comprises a cutting platform; the cutting mechanism cuts the raw materials on the cutting platform; the asynchronous positioning mechanism comprises a raw material roller, a waste material roller, a film roller and a receiving roller, wherein the raw material roller conveys raw materials to the upper part of the cutting platform, the waste material roller is used for collecting a first film carrying the raw materials, the film roller provides a second film for the cut raw materials, and the receiving roller is used for collecting the second film and the raw materials on the second film; wherein, the waste material cylinder is connected with the raw materials cylinder through first film, and the film cylinder is connected with the receipts material cylinder through the second film, and waste material cylinder and receipts material cylinder are controlled by different motors. According to the utility model, the upper cutter capable of moving up and down is used for cutting the raw materials, and then the two motors with different rotating speeds are used for respectively controlling the waste material roller and the material receiving roller, so that the raw materials are uniformly adhered to the film by matching with the upper cutter, and the production efficiency is improved.

Description

Accurate asynchronous location cutting device

Technical Field

The utility model belongs to the field of film production, and particularly relates to an accurate asynchronous positioning and cutting device.

Background

When film products such as mobile phone protective films and computer protective films are processed, the products are required to be processed into specific shapes, and the processed products are manually adhered to the upper surface of the material belt, so that the working strength is high, and the quality of the products is influenced.

At present, a plurality of cutting devices are available on the market, for example, application number CN201520358818.0 discloses a continuous and asynchronous transfer die cutting device, which adopts a cutting roller set to die cut a product, then the die-cut product is placed on a new film through an adsorption roller set, the adsorption roller set comprises a hollow roller body, and adsorption holes are uniformly distributed around the periphery of the hollow roller body; the hollow roller body is provided with a hole blocking sector block and is connected with negative pressure air suction equipment. The hollow roller body is complex in structure, high in manufacturing cost and high in energy waste, and is connected with negative pressure air suction equipment. There is therefore a need for a device that is simple in construction and energy-saving.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the accurate asynchronous positioning cutting device, which adopts the upper cutter capable of moving up and down to cut raw materials, then respectively controls the waste roller and the material receiving roller through two motors with different rotating speeds, and uniformly adheres the raw materials to a film by matching with the upper cutter, thereby improving the production efficiency.

Specifically, the utility model discloses an accurate asynchronous positioning cutting device, which comprises a cutting platform; the cutting mechanism cuts the raw materials on the cutting platform; the asynchronous positioning mechanism comprises a raw material roller, a waste material roller, a film roller and a receiving roller, wherein the raw material roller is used for conveying raw materials to the upper part of the cutting platform, the waste material roller is used for collecting a first film bearing the raw materials, the film roller is used for providing a second film for the cut raw materials, and the receiving roller is used for collecting the second film and the raw materials on the second film; the waste material roller is connected with the raw material roller through a first film, the film roller is connected with the material receiving roller through a second film, and the waste material roller and the material receiving roller are controlled by different motors; the frame is used for installing the cutting platform, the cutting mechanism and the asynchronous positioning mechanism.

Through adopting above-mentioned scheme, the waste material cylinder drives the raw materials cylinder and rotates, cuts the mechanism and cuts the raw materials on the raw materials cylinder, and the raw materials of cutting down is pasted on the second film that film cylinder provided, and the receipts material cylinder drives the second film motion, has realized the accurate cutting of raw materials.

Still further, the cutting mechanism comprises an upper cutter and a lower cutter, wherein the upper cutter is connected with the cutting platform through a lifting platform, and the lower cutter is detachably arranged on the cutting platform.

Through adopting above-mentioned scheme, liftable upward cutter cooperates with lower cutter, cuts the raw materials in succession.

Furthermore, a gap for the second film to pass through is arranged at the bottom of the lower cutter, and the width of the gap is consistent with that of the second film.

Through adopting above-mentioned scheme, the clearance has avoided the second film to appear deviating the condition in the transportation, makes the laminating of raw materials more accurate on the second film.

Still further, raw materials cylinder, waste material cylinder, film cylinder are connected with the frame through first mounting panel, receive the material cylinder and be connected with the frame through the second mounting panel.

Through adopting above-mentioned scheme, first mounting panel has realized the fixed of each cylinder with the second mounting panel, simple structure, and it is convenient to maintain.

Still further, be equipped with the locating piece between raw materials cylinder and the cutting platform, the locating piece is installed on the cutting platform.

By adopting the scheme, the positioning block improves the positioning precision of the raw material and the second film.

Furthermore, the positioning block is provided with a raw material positioning block and a second film positioning block, the width of the raw material positioning block is consistent with that of the raw material, and the width of the second film positioning block is consistent with that of the second film.

By adopting the scheme, the raw material positioning block improves the in-place precision of the raw material, avoids the left-right swing of the raw material, and the second film positioning block avoids the left-right swing of the second film.

Furthermore, a triangular block is arranged on one side of the raw material positioning block, and the triangular block is arranged at the outlet of the raw material positioning block.

By adopting the scheme, the triangle blocks enable the raw materials to be better separated from the first film carrying the raw materials.

Further, the width of the gap is consistent with the width of the second film positioning block.

By adopting the scheme, the gap is matched with the second film positioning block, so that the stability and accuracy of the movement of the second film are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is an isometric view of a precision asynchronous positioning cutting device;

FIG. 2 is a cross-sectional view of a precision asynchronous positioning cutoff device;

fig. 3 is a cross-sectional view of the positioning block.

Wherein reference numerals are as follows: the device comprises a frame 1, a first mounting plate 11, a second mounting plate 12, a cutting platform 2, a cutting mechanism 3, an upper cutter 31, a lower cutter 32, a lifting platform 33, an asynchronous positioning mechanism 4, a raw material roller 41, a waste material roller 42, a film roller 43, a material receiving roller 44, raw materials 45, a first film 46, a second film 47, a positioning block 5, a raw material positioning block 51, a second film positioning block 52, a triangular block 53 and a gap a.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

As shown in fig. 1-3, the utility model discloses an accurate asynchronous positioning cutting device, which comprises a cutting platform 2, wherein the cutting platform 2 is arranged above a frame 1; the cutting mechanism 3 cuts the raw material 45 on the cutting platform 2 by the cutting mechanism 3; the asynchronous positioning mechanism 4 comprises a raw material roller 41, a waste material roller 42, a film roller 43 and a receiving roller 44, wherein raw materials 45 are coiled on the raw material roller 41, the raw material roller 41 is used for conveying the raw materials 45 to the upper part of the cutting platform 2, the waste material roller 42 is used for collecting a first film 46 for bearing the raw materials 45, the film roller 43 is used for providing a second film 47 for the cut raw materials 45, and the receiving roller 44 is used for collecting the second film 47 and the raw materials 45 on the second film 47; wherein the waste drum 42 is connected with the raw material drum 41 through a first film 46, the film drum 43 is connected with the receiving drum 44 through a second film 47, and the waste drum 42 and the receiving drum 44 are controlled by different motors; the frame 1 is used for installing a cutting platform 2, a cutting mechanism 3 and an asynchronous positioning mechanism 4.

The utility model has the advantages that the cutter moving up and down is adopted to cut the raw material 45, then the motor with different rotation speeds is used to control the material receiving roller 44 and the waste material roller 42, and the raw material 45 is uniformly stuck on the film through the rotation speed difference, so that the production efficiency is improved.

In some embodiments of the present utility model, the cutting mechanism 3 includes an upper cutter 31 and a lower cutter 32, the upper cutter 31 is connected to the cutting platform 2 through a lifting table 33, the lifting table 33 is controlled by a hydraulic cylinder, and the lower cutter 32 is detachably mounted on the cutting platform 2.

The embodiment has the beneficial effects that the liftable upper cutter 31 is matched with the lower cutter 32 to continuously cut the raw material 45, and the cut raw material 45 is adhered to the second film 47.

In some embodiments of the present utility model, a gap a is provided at the bottom of the lower cutter 32 through which the second film 47 passes, and the width of the gap a corresponds to the width of the second film 47.

The beneficial effects of this embodiment are that second film 47 rolls into receiving cylinder 44 through clearance a, and clearance a has avoided second film 47 to appear the skew condition in the transportation, makes the laminating of raw materials 45 more accurate on second film 47.

In some embodiments of the utility model, the raw material roller 41, the waste material roller 42 and the film roller 43 are connected with the frame 1 through a first mounting plate 11, and the material receiving roller 44 is connected with the frame 1 through a second mounting plate 12, wherein the first mounting plate 11 is mounted at one end of the frame 1, and the second mounting plate 12 is mounted at the other end of the frame 1.

The beneficial effects of this embodiment lie in that, first mounting panel 11 has realized the fixed of each cylinder with second mounting panel 12, simple structure, and it is convenient to maintain.

In some embodiments of the present utility model, a positioning block 5 is provided between the raw material drum 41 and the cutting deck 2, and the positioning block 5 is mounted on the cutting deck 2.

The beneficial effect of this embodiment is that locating piece 5 has improved the accuracy of putting into position of raw materials 45 and second film 47.

In some embodiments of the present utility model, the positioning block 5 is provided with a raw material positioning block 51 and a second film positioning block 52, the raw material positioning block 51 and the second film positioning block 52 are detachably mounted on the positioning block 5, the width of the raw material positioning block 51 is consistent with the width of the raw material 45, the width of the second film positioning block 52 is consistent with the width of the second film 47, and the cross sections of the raw material positioning block 51 and the second film positioning block 52 are in an inverted U shape.

The beneficial effects of this embodiment are that the raw material positioning block 51 improves the positioning accuracy of the raw material 45, avoids the raw material 45 from swinging left and right, and the second film positioning block 52 avoids the second film 47 from swinging left and right.

In some embodiments of the present utility model, a triangular block 53 is provided on one side of the raw material positioning block 51, the triangular block 53 is installed at the outlet of the raw material positioning block 51, and the long right-angle side of the triangular block 53 is flush with the top surface of the positioning block 5.

The advantage of this embodiment is that the triangular block 53 allows a better separation of the raw material 45 from the first film 46 carrying the raw material 45.

In some embodiments of the present utility model, the width of the gap a corresponds to the width of the second film positioning block 52.

The beneficial effects of this embodiment are that clearance a is consistent with the width of second film locating piece 52, and the stability and the accuracy of second film 47 motion have been improved to the cooperation between them.

The working mode of the utility model is as follows: the material receiving motor controls the material receiving roller 44 to rotate, the material receiving roller 44 drives the second film 47 on the film roller 43 to move forwards for a set distance, the waste motor controls the waste roller 42 to rotate, the raw material 45 on the raw material roller 41 is driven to move forwards for a set distance, at the moment, the lifting table 33 moves downwards to cut the raw material 45, and the cut raw material 45 cut by the upper cutter 31 is adhered to the second film 47, so that one working cycle is completed.

It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (8)

1. Accurate asynchronous location cutting device, its characterized in that includes:

a cutting platform (2);

the cutting mechanism (3) is used for cutting the raw materials (45) on the cutting platform (2);

the asynchronous positioning mechanism (4) comprises a raw material roller (41), a waste material roller (42), a film roller (43) and a material receiving roller (44), wherein the raw material roller (41) is used for conveying raw materials (45) to the upper part of the cutting platform (2), the waste material roller (42) is used for collecting first films (46) carrying the raw materials (45), the film roller (43) is used for providing second films (47) for the cut raw materials (45), and the material receiving roller (44) is used for collecting the second films (47) and the raw materials (45) on the second films (47);

wherein the waste drum (42) is connected with the raw material drum (41) through a first film (46), the film drum (43) is connected with the material receiving drum (44) through a second film (47), and the waste drum (42) and the material receiving drum (44) are controlled by different motors;

the frame (1) is used for installing a cutting platform (2), a cutting mechanism (3) and an asynchronous positioning mechanism (4).

2. The accurate and asynchronous positioning cutting device according to claim 1, wherein the cutting mechanism (3) comprises an upper cutter (31) and a lower cutter (32), the upper cutter (31) is connected with the cutting platform (2) through a lifting table (33), and the lower cutter (32) is detachably mounted on the cutting platform (2).

3. The accurate and asynchronous positioning cutting device according to claim 2, wherein a gap (a) for the second film (47) to pass through is provided at the bottom of the lower cutter (32), and the width of the gap (a) is consistent with the width of the second film (47).

4. A precision asynchronous positioning cutting device according to claim 3, characterized in that the raw material roller (41), the waste material roller (42) and the film roller (43) are connected with the frame (1) through a first mounting plate (11), and the material receiving roller (44) is connected with the frame (1) through a second mounting plate (12).

5. The accurate and asynchronous positioning and cutting device according to claim 4, wherein a positioning block (5) is arranged between the raw material roller (41) and the cutting platform (2), and the positioning block (5) is installed on the cutting platform (2).

6. The accurate and asynchronous positioning and cutting device according to claim 5, wherein the positioning block (5) is provided with a raw material positioning block (51) and a second film positioning block (52), the width of the raw material positioning block (51) is consistent with the width of the raw material (45), and the width of the second film positioning block (52) is consistent with the width of the second film (47).

7. The accurate and asynchronous positioning and cutting device according to claim 6, wherein a triangular block (53) is arranged on one side of the raw material positioning block (51), and the triangular block (53) is installed at the outlet of the raw material positioning block (51).

8. The precision asynchronous positioning and trimming device according to claim 7, wherein the width of the gap (a) is identical to the width of the second film positioning block (52).