CN214352967U - Cover position cross cutting machine - Google Patents

Abstract

The utility model relates to a cross cutting technical field, concretely relates to cover position cross cutting machine. The sleeve position die-cutting machine comprises a die-cutting mechanism, a feeding mechanism and a driving mechanism, wherein the die-cutting mechanism is used for die-cutting on an original film to punch a through hole in a specific shape, the feeding mechanism is used for providing and conveying the original film to the die-cutting mechanism, the driving mechanism stops driving when the die-cutting mechanism performs die-cutting, the driving mechanism provides driving force for conveying the original film when the die-cutting mechanism does not perform die-cutting, and the feeding mechanism, the die-cutting mechanism and the driving mechanism are sequentially arranged on a conveying path of the original film. This cover position cross cutting machine can unreel automatically, conveying, punching press obtain required protection film, has effectively realized the automatic cross cutting production of protection film to, this cover position cross cutting machine's actuating mechanism provides drive power for the conveying of former membrane when the cross cutting mechanism is not cross cutting, stops the drive when the cross cutting mechanism cross cutting, and the cross cutting mechanism of being convenient for punches a hole according to specific shape on former membrane, guarantees cover position processingquality.

Description

Cover position cross cutting machine

Technical Field

The utility model relates to a cross cutting technical field, concretely relates to cover position cross cutting machine.

Background

The die cutting machine, called beer machine, cutting machine and digital controlled punching machine, is used to roll and cut printed matter or paper board into certain shape by means of steel knife, hardware die and steel wire and applying certain pressure via the embossing plate, and is used widely in electronic industry and other fields. The sleeve position die cutting machine performs sleeve position die cutting on an original film through a die according to a preset shape to form a protective film capable of playing a certain protection role.

In recent years, with the continuous development and progress of electronic technology, the complexity of the protective film is continuously increased, the precision requirement is higher and higher, and a general die cutting machine obviously cannot meet the requirement, so that a sleeve position die cutting machine for realizing sleeve position die cutting of the protective film is produced at the same time, however, the sleeve position die cutting machine for realizing automatic sleeve position processing of the protective film is still relatively lacked at present.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective is: the utility model provides a cover position cross cutting machine, this cover position cross cutting machine can realize the automatic cover position processing of protection film to the better cover position cross cutting demand that satisfies the protection film.

In order to realize the technical problem, the utility model provides a cover position cross cutting machine, cover position cross cutting machine include die-cutting mechanism, feed mechanism and actuating mechanism, die-cutting mechanism is used for carrying out the cross cutting on former membrane to the punching press forms the through-hole of specific shape, feed mechanism is used for providing and conveys former membrane to die-cutting mechanism, actuating mechanism is in stop drive during the cross cutting of die-cutting mechanism, just actuating mechanism is in for the conveying of former membrane provides drive power when the cross cutting is not cut to die-cutting mechanism, feed mechanism die-cutting mechanism actuating mechanism sets gradually on the transfer path of former membrane.

Optionally, the die-cutting mechanism includes a die-cutting platform, a die-cutting table and a driving member, the die-cutting platform is disposed on a conveying path of the original film, the die-cutting table is located above the die-cutting platform and can move towards or away from the die-cutting platform, and the driving member is connected with the die-cutting table;

the die cutting mechanism further comprises a cutting die, and the cutting die is installed below the die cutting table so as to cut the original film through the cutting die.

Optionally, the cutting die includes a die cutting needle, and the die cutting platform is provided with a die cutting hole corresponding to the die cutting needle.

Optionally, one of the die cutting platform and the die cutting platform comprises a positioning pin, and the other of the die cutting platform and the die cutting platform is provided with a positioning hole matched with the positioning pin.

Optionally, the driving mechanism includes two driving rollers, a channel for conveying the die-cut raw film is formed between the two driving rollers, the two driving rollers are far away from each other to stop driving when the die-cutting mechanism performs die cutting, and the two driving rollers are close to each other to press and rotate the raw film when the die-cutting mechanism does not perform die cutting.

Optionally, the die-cutting table is connected with one of the driving rollers, and the driving roller connected with the die-cutting table is taken up when the die-cutting table moves downwards;

when the die cutting table moves upwards, the driving roller connected with the die cutting table is close to the other driving roller so as to press and rotate the original film.

Optionally, the set die cutting machine further comprises a connecting assembly, and the die cutting table is connected with one of the driving rollers through the connecting assembly.

Optionally, the connecting assembly is a lever structure.

Optionally, the nesting die-cutting machine further comprises a receiving box, and the receiving box is used for collecting the protective film.

Optionally, the nesting die-cutting machine further comprises a frame, and the feeding mechanism, the die-cutting mechanism and the driving mechanism are mounted on the frame;

the nesting die-cutting machine further comprises a control host.

The utility model has the advantages that: according to the sleeve position die-cutting machine, during die cutting, the driving mechanism provides driving force, so that the original film provided by the feeding mechanism is conveyed along a set path, when the original film is conveyed to the die-cutting mechanism, the driving mechanism stops driving, the die-cutting mechanism performs die cutting on the original film to punch and form a through hole in a specific shape, and after the punching is completed, the driving mechanism continues conveying the original film, so that a protective film is formed, and the die-cutting production of the protective film is completed. This cover position cross cutting machine is through setting up feeding mechanism, cross cutting mechanism and actuating mechanism, can unreel automatically, the conveying, and can obtain required protection film in the punching press on former membrane automatically in the data send process of former membrane, the automatic cross cutting production of protection film has effectively been realized, and, this cover position cross cutting machine's actuating mechanism provides drive power for the conveying of former membrane when cross cutting is not had in cross cutting mechanism, stop driving when cross cutting mechanism cross cutting, the cross cutting mechanism of being convenient for punches a hole according to specific shape on former membrane, guarantee cover position processingquality.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of the sleeve die cutting machine of the present invention.

Wherein, the corresponding relation between the reference numbers and the part names in fig. 1 is as follows:

10. a die-cutting mechanism; 11. die cutting platform; 12. a die cutting table; 13. cutting the die;

20. a feeding mechanism; 21. a supply shaft; 22. a film laminating roller;

30. a drive mechanism; 31. a drive roller;

40. a connecting assembly;

50. a material receiving box;

60. a frame;

70. a control host;

80. a lower limit sensor.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the communication may be direct, indirect via an intermediate medium, or internal to both elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

An embodiment of the utility model provides a can realize the automatic cover position processing of protection film to the cover position cross cutting machine of the cover position cross cutting demand of better satisfying the protection film. As shown in fig. 1, the nesting die-cutting machine includes a die-cutting mechanism 10, a feeding mechanism 20 and a driving mechanism 30, wherein the die-cutting mechanism 10 is used for performing die-cutting on a raw film to form a through hole with a specific shape by punching, the feeding mechanism 20 is used for providing and conveying the raw film to the die-cutting mechanism 10, the driving mechanism 30 stops driving when the die-cutting mechanism 10 performs die-cutting, the driving mechanism 30 provides driving force for conveying the raw film when the die-cutting mechanism 10 does not perform die-cutting, and the feeding mechanism 20, the die-cutting mechanism 10 and the driving mechanism 30 are sequentially arranged on a conveying path of the raw film.

In the sleeve position die-cutting machine, when the die-cutting is performed, the driving mechanism 30 provides a driving force to enable the original film provided by the feeding mechanism 20 to be transmitted along a given path, when the original film is transmitted to the die-cutting mechanism 10, the driving mechanism 30 stops driving, the die-cutting mechanism 10 performs die-cutting on the original film to form a through hole with a specific shape by punching, and after the punching is completed, the driving mechanism 30 continues to transmit the original film to form a protective film, so that the die-cutting production of the protective film is completed. This cover position cross cutting machine is through setting up feeding mechanism 20, die-cutting mechanism 10 and actuating mechanism 30, can unreel automatically, the conveying, and can obtain required protection film in the data send process of former membrane on the punching press automatically, the automatic cross cutting production of protection film has effectively been realized, and, this cover position cross cutting machine's actuating mechanism 30 provides drive power for the conveying of former membrane when die-cutting mechanism 10 does not cross the cutting, stop driving when die-cutting mechanism 10 cross cutting, be convenient for die-cutting mechanism 10 punches a hole according to specific shape on former membrane, guarantee cover position processingquality.

In this embodiment, the die-cutting mechanism 10 includes a die-cutting platform 11, a die-cutting table 12 and a driving member, the die-cutting platform 11 is disposed on a conveying path of the original film, the die-cutting table 12 is located above the die-cutting platform 11 and can move towards or away from the die-cutting platform 11, the driving member is connected to the die-cutting table 12, the die-cutting mechanism 10 further includes a cutting die 13, and the cutting die 13 is installed below the die-cutting table 12 to cut on the original film through the cutting die 13. During die cutting, the driving mechanism 30 provides driving force to enable the original film to be conveyed to the die cutting platform 11 from the feeding mechanism 20, the driving piece drives the die cutting platform 12 above the die cutting platform 11 to drive the cutting die 13 to move towards the die cutting platform 11, so that a through hole with a specific shape is formed on the original film through the cutting die 13 in a stamping mode, and at the moment, the driving mechanism 30 stops driving; after the punching is finished, the driving member drives the die cutting table 12 to drive the cutting die 13 to move away from the die cutting platform 11, and at the moment, the driving mechanism 30 continues to provide driving force for the transmission of the original film. Because the cutting die 13 of the nesting die-cutting machine has a certain punching height, the original film is stopped to be conveyed when the die-cutting operation is carried out, and the original film is conveyed when the die-cutting operation is not carried out, so that the nesting die-cutting effect of the protective film can be ensured. The nesting die-cutting machine is simple in structure, simple and convenient to operate and high in die-cutting efficiency.

Further, in the present embodiment, the cutting die 13 includes a die cutting needle, and the die cutting platform 11 is provided with a die cutting hole corresponding to the die cutting needle. During the cross cutting, driving piece drive cross cutting platform 12 drives cutting die 13 and moves towards cross cutting platform 11, and penetrate the cross cutting hole of cross cutting platform 11 through the die cutting needle on cutting die 13, in order to accomplish the stamping process of former membrane, and, to the waste material after the cross cutting, can directly be ejecting by the cross cutting hole through the die cutting needle, because the cutting die 13 of cover position cross cutting machine has certain height that punches a hole, adopt the mode of die cutting needle and cross cutting hole punching press, so that accurate alignment former membrane punches, thereby be convenient for accomplish cover position cross cutting process smoothly on former membrane according to specific shape.

In this embodiment, the die cutting platform 12 includes a positioning pin, and the die cutting platform 11 has a positioning hole matched with the positioning pin. The die cutting platform is provided with the positioning pins and the positioning holes, so that the die cutting platform 11 and the die cutting platform 12 can be accurately positioned, and the die cutting needles and the die cutting holes are conveniently and accurately positioned when die cutting is performed, so that accurate punching is performed on an original film, waste materials are ejected out of the die cutting holes, and the die cutting quality and the die cutting efficiency are improved.

In the present embodiment, the driving mechanism 30 includes two driving rollers 31, a passage for the transfer of the die-cut original film is formed between the two driving rollers 31, the two driving rollers 31 are spaced apart from each other to stop driving when the die-cutting mechanism 10 is die-cut, and the two driving rollers 31 are close to each other to press and rotationally transfer the original film when the die-cutting mechanism 10 is not die-cut. During die cutting, the original film is conveyed to the die cutting platform 11 from the feeding mechanism 20, the driving piece drives the die cutting platform 12 to drive the cutting die 13 to move towards the die cutting platform 11 so as to perform die cutting on the original film through the cutting die 13, and meanwhile, the two driving rollers 31 are far away from each other, so that the driving and conveying of the original film are stopped; after the punching press is accomplished, driving piece drive cutting platform 12 drives cutting die 13 and keeps away from the removal of cross cutting platform 11, and two drive rollers 31 are close to each other simultaneously to compress tightly former membrane and convey former membrane through the normal running fit of two drive rollers 31, the conveying of the former membrane when not cross cutting of being convenient for.

Further, in the present embodiment, the die-cutting table 12 is connected to one of the driving rollers 31, the driving roller 31 connected to the die-cutting table 12 is brought up when the die-cutting table 12 moves downward, and the driving roller 31 connected to the die-cutting table 12 approaches the other driving roller 31 when the die-cutting table 12 moves upward to press and convey the original film. During the cross cutting, former membrane conveys to cross cutting platform 11 from feed mechanism 20, driving piece drive cross cutting platform 12 moves towards cross cutting platform 11, take the drive roller 31 above simultaneously, former membrane lacks the unable conveying of drive power this moment, the cutting die 13 through cross cutting platform 11 below carries out the cross cutting on former membrane, after the punching press is accomplished, driving piece drive cross cutting platform 12 is kept away from cross cutting platform 11 and is removed, make the drive roller 31 of above be close to the drive roller 31 below and compress tightly former membrane simultaneously, accessible two drive rollers 31 mutual rotation cooperations provide drive power for the conveying of former membrane this moment.

In this embodiment, the nest die cutter also includes a connecting assembly 40, and the die cutting station 12 is connected to one of the drive rollers 31 by the connecting assembly 40. The connecting assembly 40 is arranged so as to connect the die-cutting table 12 and the driving roller 31, and therefore the die-cutting mechanism 10 and the driving mechanism 30 are linked, when the die-cutting table 12 moves downwards for punching, the driving roller 31 on the die-cutting table is taken up through the connecting assembly 40, the driving force of the driving roller 31 on the original film is not transmitted, and when the die-cutting table 12 moves upwards, the driving roller 31 on the die-cutting table and the driving roller 31 on the lower die are pressed by the connecting assembly 40 and are mutually matched in a rotating mode, so that the driving force is provided for the transmission of the original film.

Specifically, in the present embodiment, the connecting assembly 40 is a lever structure, and the die-cutting table 12 and the driving roller 31 are respectively disposed at two ends of the connecting assembly 40. Thus, when the die cutting table 12 moves downwards for punching, the die cutting table 12 presses one end of the connecting assembly 40 downwards, the other end of the connecting assembly 40 is upwards, so that the driving roller 31 connected with the other end of the connecting assembly 40 is taken up, at the moment, the original film is not capable of being transmitted due to the lack of the driving force of the driving roller 31, when the die cutting table 12 moves upwards, the die cutting table 12 lifts one end of the connecting assembly 40 upwards, the other end of the connecting assembly 40 is downwards, so that the driving roller 31 connected with the other end of the connecting assembly 40 is matched with the other driving roller 31, the original film in the die cutting table is pressed, and the driving force is provided for the transmission of the original film.

In addition, in this embodiment, the driving mechanism 30 further includes a driving motor, which is connected to the lower driving roller 31 and can drive the lower driving roller 31 to rotate, so that when the two driving rollers 31 press the original film, the lower driving roller 31 is driven to rotate, and the upper driving roller 31 is driven to synchronously rotate and convey the original film.

In this embodiment, the feeding mechanism 20 includes a plurality of feeding shafts 21 and two film coating rollers 22 disposed opposite to each other, the feeding shafts 21 are respectively used for covering each raw material, the two film coating rollers 22 are used for adhering each raw material together to form a raw film, and then the raw film is conveyed to the die cutting mechanism 10 for die cutting.

In this embodiment, the nesting die-cutting machine further comprises a material collecting box 50, and the material collecting box 50 is used for collecting the protective film. By arranging the material receiving box 50 at the position after die cutting, the protective film formed by die cutting can automatically fall into the material receiving box 50, so that the protective film can be conveniently collected and taken.

In this embodiment, the machine further includes a frame 60, and the feeding mechanism 20, the die cutting mechanism 10 and the driving mechanism 30 are mounted on the frame 60. Specifically, in the present embodiment, a frame 60 is disposed corresponding to the feeding mechanism 20, and a frame 60 is disposed corresponding to the die cutting mechanism 10 and the driving mechanism 30, so as to facilitate installation of the feeding mechanism 20, the die cutting mechanism 10 and the driving mechanism 30, respectively, and further facilitate combination of the mechanisms to form the protective film die cutting machine. Moreover, the original film provided by the feeding mechanism 20 is conveyed forward to the die cutting mechanism 10 for die cutting, and then the protective film is formed, so that the overall spatial layout is more reasonable. In addition, in this embodiment, a lower limit sensor 80 is disposed between the frame 60 of the feeding mechanism 20 and the frame 60 of the die cutting mechanism 10, and when the original film receives a small pulling force and reaches the position of the lower limit sensor 80, the lower limit sensor 80 gives an alarm to prompt that the whole protective film die cutting machine needs to be stopped for inspection.

In addition, in this embodiment, cover position cross cutting machine still includes control host computer 70, and control host computer 70 is equipped with a plurality ofly to control the working process of each mechanism respectively, thereby control the working process of whole cover position cross cutting machine, during the cross cutting, the smooth of the automatic cross cutting production of assurance protection film is controlled to a plurality of control host computers 70 of accessible.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a set cross cutting machine which characterized in that includes:

the die cutting mechanism is used for carrying out die cutting on the original film so as to punch and form a through hole with a specific shape;

the feeding mechanism is used for providing and conveying the original film to the die-cutting mechanism; and

the driving mechanism stops driving when the die cutting mechanism performs die cutting, and provides driving force for conveying the original film when the die cutting mechanism does not perform die cutting;

the feeding mechanism, the die cutting mechanism and the driving mechanism are sequentially arranged on a conveying path of the original film.

2. The nesting die cutting machine according to claim 1, wherein: the die cutting mechanism comprises a die cutting platform, a die cutting table and a driving piece, the die cutting platform is arranged on a conveying path of an original film, the die cutting table is positioned above the die cutting platform and can move towards or away from the die cutting platform, and the driving piece is connected with the die cutting table;

the die cutting mechanism further comprises a cutting die, and the cutting die is installed below the die cutting table so as to cut the original film through the cutting die.

3. The nesting die cutting machine according to claim 2, wherein: the cutting die comprises a die cutting needle, and the die cutting platform is provided with a die cutting hole corresponding to the die cutting needle.

4. The nesting die cutting machine according to claim 2, wherein: one of the die cutting platform and the die cutting platform comprises a positioning pin, and the other one of the die cutting platform and the die cutting platform is provided with a positioning hole matched with the positioning pin.

5. The nest die cutting machine according to any one of claims 2 to 4, characterized in that: the actuating mechanism includes two drive rollers, two be formed with the passageway that supplies the former membrane conveying after the cross cutting between the drive roller, two the drive roller is in the cross cutting of die-cutting mechanism is kept away from each other in order to stop the drive when cross cutting, and two the drive roller is in the die-cutting mechanism is close to each other when cross cutting in order to compress tightly and rotate the conveying former membrane.

6. The nesting die cutting machine according to claim 5, wherein: the die cutting table is connected with one of the driving rollers, and the driving roller connected with the die cutting table is taken up when the die cutting table moves downwards;

when the die cutting table moves upwards, the driving roller connected with the die cutting table is close to the other driving roller so as to press and rotate the original film.

7. The nesting die cutting machine according to claim 6, wherein: the sleeve position die-cutting machine further comprises a connecting assembly, and the die-cutting table is connected with one of the driving rollers through the connecting assembly.

8. The nesting die cutting machine according to claim 7, wherein: the connecting component is of a lever structure.

9. The nesting die cutting machine according to claim 1, wherein: the sleeve position die-cutting machine further comprises a material receiving box, and the material receiving box is used for collecting the protective film.

10. The nesting die cutting machine according to claim 1, wherein: the sleeve position die-cutting machine further comprises a rack, and the feeding mechanism, the die-cutting mechanism and the driving mechanism are arranged on the rack;

the nesting die-cutting machine further comprises a control host.

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