CN210286081U

CN210286081U - Gold stamping die cutting assembly line equipment

Info

Publication number: CN210286081U
Application number: CN201921149467.7U
Authority: CN
Inventors: 陈少荣
Original assignee: Wenzhou Guangya Machinery Co ltd
Current assignee: Wenzhou Guangya Machinery Co ltd
Priority date: 2019-07-22
Filing date: 2019-07-22
Publication date: 2020-04-10
Anticipated expiration: 2029-07-22

Abstract

The utility model discloses a gold stamping die cutting assembly line equipment, which is characterized in that the equipment comprises an unreeling device, a paper receiving device, a prepared paper feeding device, a deviation correcting device, a gold stamping device, a paper storage device, a die cutting device and a sheet output device, wherein the prepared paper feeding device comprises a tension controller B, a fixedly arranged prepared guide roller A and a movably arranged prepared guide roller B, the prepared guide roller A and the prepared guide roller B are arranged in a vertically staggered manner, the tension controller B drives a roller frame to move up and down, the paper storage device comprises a tension controller A and a fixed guide roller A, a movable guide roller C and a fixed guide roller D which are sequentially wound by paper, the movable guide roller C is in transmission connection with the tension controller A, the guide roller C makes back and forth movement relative to the fixed guide roller A and the fixed guide roller D, the roll paper unreeling-paper storage-die cutting-sheet output-folding bag is realized, and a high-, the paper can be subjected to gold stamping and die cutting at one time, the output sheet can be folded into a paper bag, and the production efficiency is high.

Description

Gold stamping die cutting assembly line equipment

Technical Field

The utility model relates to a gilt cross cutting field, in particular to gilt cross cutting assembly line equipment.

Background

Gold stamping is a printing decoration process, which is characterized in that a metal printing plate is heated and applied with foil, gold characters or patterns are impressed on a printed matter, a die cutting machine utilizes a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) to apply certain pressure through the impressing plate, the printed matter is rolled and cut into a certain shape, and the gold stamping is important equipment for packaging, processing and forming after printing. The existing materials are usually unreeled through an unreeling device, then are gilded on a gilding press, are collected through a reeling device, and are manually conveyed to a die cutting machine for die cutting, so that the gilding and the die cutting cannot be realized on one production line, and the problems of multiple processing devices, complex process, low production efficiency and high labor cost are solved.

SUMMERY OF THE UTILITY MODEL

In view of the technical problem who exists among the background art, the utility model aims at providing a gilt cross cutting assembly line equipment.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the gold stamping and die cutting assembly line equipment is characterized by comprising an unreeling device, a prepared paper feeding device, a deviation correcting device, a gold stamping device, a paper storage device, a die cutting device and a sheet output device;

the unwinding device comprises a fixed seat, a sliding seat, a coil rack and a coil positioning detector, wherein the sliding seat moves left and right relative to the fixed seat, the coil rack is arranged on the sliding seat, the sliding seat is in transmission connection with a power source A, the coil positioning detector transmits a detected signal to the power source A, and the power source A drives the sliding seat to move left and right;

the preparation paper feeding device comprises a tension controller B, a fixedly arranged preparation guide roller A and a movably arranged preparation guide roller B, wherein the preparation guide roller B is arranged on a roller frame, the preparation guide roller A and the preparation guide roller B are arranged in a vertically staggered manner, and the tension controller B drives the roller frame to move vertically;

the deviation correcting device comprises a base body, a power source B and a deviation correcting rotating frame, wherein two parallel front rollers and two parallel rear rollers are arranged above the deviation correcting rotating frame, a sliding block is arranged below the deviation correcting rotating frame, a guide rod is arranged on the base body, the sliding block is connected with the guide rod in a sliding fit manner, and the power source B drives the deviation correcting rotating frame to swing left and right;

hold paper device and include tension controller A and paper in proper order around fixed deflector roll A, activity deflector roll C and the fixed deflector roll D of establishing, fixed deflector roll D and activity deflector roll C locate fixed deflector roll A front and back respectively, activity deflector roll C is connected with tension controller A transmission, deflector roll C makes back and forth movement for fixed deflector roll A and fixed deflector roll D.

The fixed seat is connected with the sliding seat in a sliding mode through a guide rail, the power source A drives the sliding seat to slide left and right along the guide rail, and the coil positioning detector is arranged on the paper conveying path.

The guide roller C is driven by the tension controller A to have backward paper-pulling thrust, and the transmission force of the guide roller D is greater than the backward thrust of the guide roller C driven by the tension controller A.

The color code positioning device is arranged on the paper conveying path and is connected with a power supply of the whole machine.

And the tension controller A and the tension controller B adopt air cylinders.

The paper preparing and feeding device is provided with a first paper preparing and feeding device and a second paper preparing and feeding device which are identical in structure, the deviation correcting devices are provided with a first deviation correcting device and a second deviation correcting device which are identical in structure, and the assembly line equipment is provided with an unreeling device, the first paper preparing and feeding device, the first deviation correcting device, a gold stamping device, the second paper preparing and feeding device, the second deviation correcting device, a paper storage device, a die cutting device and a sheet output device in sequence.

Also includes an edge trimmer cutter disposed on the sheet transport path.

Set up the paper collecting device between unwinding device and the first preparation adsorption paper feeding device, the paper collecting device is including the paper collecting platform, the paper collecting bench is equipped with cuts paper measuring tape and two and is parallel to each other and the pressure paper piece that sets up around, be the paper passageway between paper collecting platform and the pressure paper piece, the pressure paper piece can reciprocate.

The utility model has the advantages that: the gold stamping and die cutting assembly line equipment realizes the roll paper unreeling, gold stamping, paper storage, die cutting, sheet material output and folding bag forming, and forms a high-speed automatic flow production line, so that the paper can be subjected to gold stamping and die cutting at one time in the conveying process, the output sheet material can be directly folded into a paper bag, the production efficiency is high, and the gold stamping and die cutting assembly line equipment is suitable for mass production.

Drawings

FIG. 1 is a schematic structural view of the front half of the present invention;

FIG. 2 is a schematic structural view of the latter half of the present invention;

FIG. 3 is a schematic structural view of an unwinding device;

FIG. 4 is a schematic structural view of a paper splicing apparatus;

FIG. 5 is a schematic view of a deviation correcting device;

FIG. 6 is a schematic view of a paper feeding apparatus;

FIG. 7 is a schematic view of a paper storage device.

Detailed Description

As shown in the figures 1 and 2, the gold stamping and die cutting assembly line equipment comprises an unreeling device 1, a paper receiving device 2, a deviation correcting device 3, a prepared paper feeding device 4, a paper storing device 5, a gold stamping device 6, a die cutting device 7 and a sheet output device 8, wherein the prepared paper feeding device 4 is provided with a first prepared paper feeding device 4a and a second prepared paper feeding device 4b, the first prepared paper feeding device 4a and the second prepared paper feeding device 4b are identical in structure, the deviation correcting device 3 is provided with a first deviation correcting device 3a and a second deviation correcting device 3b, the first deviation correcting device 3a and the second deviation correcting device 3b are identical in structure, and the assembly line layout sequence is that the unreeling device 1, the paper receiving device 2, the first prepared paper feeding device 4a, the first deviation correcting device 3a, the gold stamping device 6, the second prepared paper feeding device 4b, the second deviation correcting device 3b and the paper storing device, The process comprises the steps of unwinding, paper receiving, paper feeding preparation, primary deviation correction, gold stamping, paper feeding preparation, secondary deviation correction, paper storage, die cutting and sheet output. Since the gold stamping device, the die cutting device and the sheet material output device are all of the existing structure, they will not be described in detail.

As shown in fig. 3, the unwinding device 1 includes a fixed seat 11, a sliding seat 12, a coil holder 13, a coil positioning detector and an ultrasonic coil diameter detector, the sliding seat 12 moves left and right relative to the fixed seat 11, the coil holder 13 is disposed on the sliding seat 12, the sliding seat 12 is in transmission connection with a power source a, the coil positioning detector transmits a detected signal to the power source a, and the power source a drives the sliding seat to move left and right. The sliding seat 12 and the fixed seat 11 are connected in a sliding manner through a guide rail 14, and the power source a drives the sliding seat to slide left and right along the guide rail. The coil rack 13 is rotatably connected with the sliding seat 12 through a fulcrum 15, the coil rack 13 is in transmission connection with a power source B16, and the power source B16 drives the coil rack 13 to ascend and descend up and down so as to facilitate material changing. The coil stock positioning detector is arranged on the paper conveying path. When the coil stock positioning detector detects that the paper is conveyed to deviate, the power source A drives the sliding seat to move left and right to correct the deviation. The ultrasonic roll diameter detector can detect the size of a roll diameter, so that the braking force of the material rolling roller is adjusted.

As shown in fig. 4, the paper receiving device 2 includes a paper receiving table 21, a paper cutting measuring scale 22 and two paper pressing blocks 23 which are parallel to each other and arranged in front and back are arranged on the paper receiving table 21, a paper passage is formed between the paper receiving table and the paper pressing blocks, and the paper pressing blocks 23 can move up and down. The paper passes through between the paper pressing block and the paper receiving table, when the paper is nearly used up, the paper pressing block is pressed downwards to press the paper, the paper between the two paper pressing blocks is cut along the paper cutting measuring ruler, and then the paper receiving is carried out.

As shown in fig. 5, the deviation correcting device 3 includes a seat body 31, a power source B32 and a deviation correcting rotating frame 33, two parallel front rollers 34 and rear rollers 35 are disposed above the deviation correcting rotating frame 33, a sliding block 36 is disposed below the deviation correcting rotating frame 33, a guide rod 37 is disposed on the seat body 31, the sliding block 36 is connected with the guide rod 37 in a sliding fit manner, and the power source B32 drives the deviation correcting rotating frame 33 to swing left and right. In this embodiment, the paper needs to be corrected before entering the gold stamping device and the die cutting device, so that the paper is prevented from being shifted to cause unqualified products during gold stamping and die cutting.

As shown in fig. 6, the preparation paper feeding device 4 includes a tension controller B41, a fixedly arranged preparation guide roller a42 and a movably arranged preparation guide roller B43, the preparation guide roller B43 is arranged on the roller frame 44, the preparation guide rollers a42 and the preparation guide rollers B43 are arranged in a vertically staggered manner, and the tension controller B41 drives the roller frame 44 to move up and down. The tension controller B41 may be an air cylinder, the power of which is adjusted according to the thickness of the paper. The preparation paper feeding device can not only reserve enough paper for subsequent gold stamping and die cutting while providing tension for the paper, but also prevent the paper from deforming and breaking in the high-speed paper feeding process, so that the tension, the speed and the length in paper feeding are stably controlled.

As shown in fig. 7, the paper storage device 5 includes a tension controller a51, and a fixed guide roller a52, a movable guide roller C53, and a fixed guide roller D54, in which the paper is sequentially wound, the fixed guide roller a52 is provided with a fixed guide roller B55, and the fixed guide roller a52 and the fixed guide roller B55 cooperate with each other to feed paper. Fixed guide roller D54 and activity guide roller C53 are located fixed guide roller A52 front and back respectively, activity guide roller C53 is connected with tension controller A51 transmission, guide roller C53 makes back and forth motion for fixed guide roller A52 and fixed guide roller D54. Because continuous paper feeding is carried out before die cutting, and the die cutting needs to be stopped, the movable guide roller C moves back and forth to store and feed paper, the gold stamping and the die cutting are better connected, and the paper storage device is ensured to store enough paper for subsequent die cutting.

A paper feeding channel for feeding paper backwards is arranged between the fixed guide roller A52 and the fixed guide roller B55, the movable guide roller C53 is used for guiding the paper to be conveyed forwards, the fixed guide roller D54 is used for feeding the paper forwards, and the paper conveying path is as follows: the paper firstly passes between the fixed guide roller A and the fixed guide roller B from the upper side of the fixed guide roller A around the fixed guide roller A, is clamped by the fixed guide roller A and the fixed guide roller B to be conveyed backwards, then the paper comes out of a paper conveying channel between the fixed guide roller A and the fixed guide roller B, turns the conveying direction of the paper to be conveyed forwards around the movable guide roller C, and finally is conveyed forwards with the paper carried by the fixed guide roller D.

The movable guide roller C53 moves backwards to realize paper accumulation, and the forward movement is the die cutting paper supply. The tension controller A51 can drive the movable guide roller C53 to move back and forth, or only drive the movable guide roller C53 to move back, the tension controller A51 can provide the movable guide roller C53 with the pushing force for pulling paper back, the tension controller A51 adopts an air cylinder, and the movable guide roller C is connected with the air cylinder shaft of the air cylinder. That is to say, what the activity deflector roll C moved backward is the power of cylinder for activity deflector roll C is in the state of keeping away from deflector roll B all the time and holds the paper, and what the activity deflector roll C moved forward is that fixed deflector roll D takes the paper pulling force that activity deflector roll C moved forward when carrying forward, makes activity deflector roll C be close to fixed deflector roll B and send out the paper that holds, consequently, the transmission power that fixed deflector roll D conveyed the paper must be greater than the backward thrust of cylinder drive activity deflector roll C, pulls activity deflector roll C when guaranteeing that fixed deflector roll D rotates and takes the paper to carry forward, makes activity deflector roll C move forward and be close to fixed deflector roll B.

The tension controller A51 can adopt an air cylinder, and can also adopt other power modes.

The displacement of the back-and-forth movement of the movable guide roller C is larger than or equal to the length of the paper fed by the fixed guide roller D at one time, so that the accumulated paper can be guaranteed to be enough for the required amount of die cutting.

The gold stamping and die cutting assembly line equipment further comprises a color code positioner, the color code positioner is arranged on the paper conveying path, in the embodiment, the color code positioner is arranged before the paper enters the gold stamping device, the color code positioner is arranged before the paper enters the die cutting device, and the color code positioner is connected with the power supply of the whole machine. When the color mark positioner detects that the paper deviates, the paper feeding device is immediately stopped, namely, the paper feeding is suspended, so that more unqualified products are prevented from being produced, and larger loss is avoided.

The gold stamping and die cutting assembly line equipment further comprises trimming cutters arranged on the paper conveying path, in the embodiment, the paper is trimmed after coming out of the gold stamping device, the trimming cutters are arranged on the cross rod, and the number and the positions of the trimming cutters are adjusted according to requirements of customers.

Claims

1. The gold stamping and die cutting assembly line equipment is characterized by comprising an unreeling device, a paper preparation and feeding device, a deviation correcting device, a gold stamping device, a paper storage device, a die cutting device and a sheet material output device,

2. The gold stamping and die cutting production line equipment as claimed in claim 1, wherein the fixed seat and the sliding seat are slidably connected through a guide rail, the power source A drives the sliding seat to slide left and right along the guide rail, and the coil positioning detector is arranged on the paper conveying path.

3. The gold stamping and die cutting assembly line equipment as claimed in claim 1, wherein the guide roller C is driven by the tension controller A to have a pushing force for pulling paper backwards, and the transmission force of the guide roller D is greater than the pushing force of the tension controller A for driving the guide roller C backwards.

4. The gold stamping and die cutting assembly line equipment as recited in claim 1, further comprising a color code locator arranged on the paper conveying path, wherein the color code locator is connected with a power supply of the whole machine.

5. The gold stamping and die cutting production line equipment as claimed in claim 1, wherein the tension controller A and the tension controller B adopt air cylinders.

6. The gold stamping and die cutting assembly line equipment as claimed in claim 1, wherein the preparation paper feeding device is provided with a first preparation paper feeding device and a second preparation paper feeding device which are identical in structure, the deviation correcting device is provided with a first deviation correcting device and a second deviation correcting device which are identical in structure, and the assembly line equipment is sequentially arranged by an unwinding device, the first preparation paper feeding device, the first deviation correcting device, the gold stamping device, the second preparation paper feeding device, the second deviation correcting device, a paper storage device, a die cutting device and a sheet material output device.

7. The gold stamping and die cutting line apparatus of claim 6, further comprising an edging knife disposed on the sheet transport path.

8. The gold stamping and die cutting assembly line equipment as claimed in claim 6, wherein a paper receiving device is arranged between the unwinding device and the first prepared paper feeding device, the paper receiving device comprises a paper receiving table, a paper cutting measuring ruler and two paper pressing blocks which are parallel to each other and arranged in front and back are arranged on the paper receiving table, a paper channel is arranged between the paper receiving table and the paper pressing blocks, and the paper pressing blocks can move up and down.