CN219903730U

CN219903730U - Continuous paper guiding mechanism for dyeing embossing machine

Info

Publication number: CN219903730U
Application number: CN202320972112.8U
Authority: CN
Inventors: 林杰
Original assignee: Dongguan Jiuzhou Fangyuan Paper Co ltd
Current assignee: Dongguan Jiuzhou Fangyuan Paper Co ltd
Priority date: 2023-04-25
Filing date: 2023-04-25
Publication date: 2023-10-27
Anticipated expiration: 2033-04-25

Abstract

The utility model relates to a continuous paper guiding mechanism for a dyeing embossing machine, which comprises a front base, a rear base, a transmission assembly and a base fixing frame, wherein one sides of the front base and the rear base are respectively provided with an electric cabinet, one side of the electric cabinet, which is far away from the rear base, is provided with a control screen, the front base is provided with a first fixing frame and a first main shaft, the first fixing frame is arranged at the top of the front base, the first main shaft is connected to the first fixing frame, the first main shaft is connected with the transmission assembly through a first transmission gear, the base fixing frame is provided with a movable roller, a fixed roller, a pressing assembly and a guide roller, the pressing assembly is arranged at the top of the base fixing frame, and the top of the rear base is provided with a second fixing frame and a second main shaft.

Description

Continuous paper guiding mechanism for dyeing embossing machine

Technical Field

The utility model relates to the technical field of dyeing embossers, in particular to a continuous paper guiding mechanism for a dyeing embosser.

Background

Dyeing embossers are used to print a number of prints that require color printing and that are to be embossed with embossments, and generally operate as follows: the method comprises the steps of firstly placing base paper on a winding drum frame, then conveying the base paper to a printing roller through a conveying mechanism to print colors and patterns, then embossing the base paper through an embossing roller, then cutting the base paper to obtain a finished product, conveying the paper to be driven by the printing roller set and the embossing roller set, drying the base paper through an oven and then printing the base paper to the printing roller under normal conditions, and setting a second printing roller set behind the embossing roller on some dyeing embossing machines, wherein the second printing roller set is used for carrying out secondary printing on some printed matters after embossing, and cutting the printed matters after the secondary printing to obtain the finished product.

The existing dyeing embossing machine needs to change the coil after the raw paper is used up, the dyeing embossing machine needs to stop and reduce the speed to guide the paper during the coil changing, the production can be accelerated after the paper guiding step is completed, the working efficiency of the dyeing embossing machine can be influenced in the process, and meanwhile, the output of waste paper is increased.

Disclosure of Invention

The utility model aims to solve the defects and provide the dyeing embosser for the continuous paper guiding mechanism, which can avoid the condition that the speed is required to be reduced in the process of replacing rolls and guiding paper by the dyeing embosser and improve the working efficiency of the dyeing embosser.

The object of the utility model is achieved by:

the utility model provides a dyeing embossing machine is used for leading paper mechanism in succession, including preceding base, back base, drive assembly and base mount, preceding base and back base are connected through the base mount, and one side of preceding base and back base all is equipped with the electric cabinet, and drive assembly locates the inside of electric cabinet, and one side that the back base was kept away from to the electric cabinet is equipped with the control screen, preceding base is equipped with first mount and first main shaft, and the top of preceding base is located to first mount, and first main shaft is connected on first mount, and first main shaft is connected with drive assembly through being equipped with first drive gear, and the base mount is equipped with movable roller, fixed roller, compresses tightly subassembly and guide roller, compresses tightly the top that the subassembly locates the base mount, and movable roller and fixed roller all are connected in compressing tightly the subassembly, guide roller locates one side that the base mount is close to preceding base or/and one side that the base mount is close to the back base, and the top of back base is equipped with second mount and second main shaft, and the top of preceding base is located to the second main shaft, and the second main shaft is connected on the second main shaft, and the second main shaft is connected with drive assembly through being equipped with second drive gear, and compresses tightly the subassembly and all carries out electric connection through the control screen.

In the above description, as a preferred scheme, the transmission assembly is composed of a motor, a driving wheel, a driven wheel and a transmission belt, the motor is connected to the inner wall of the electric cabinet, the driving wheel is connected to the main shaft of the motor, the side of the front base close to the electric cabinet and the side of the rear base close to the electric cabinet are both provided with gear fixing seats, the driven wheel is mounted on the gear fixing seats, the driving wheel and the driven wheel are mounted in a matched manner through the transmission belt, the driven wheel mounted on the front base gear fixing seat is meshed with the first transmission gear, and the driven wheel mounted on the rear base gear fixing seat is meshed with the second transmission gear.

In the above description, as the preferred scheme, compress tightly the subassembly and constitute by roller fixing base, promotion cylinder and solenoid valve, roller fixing base and solenoid valve are all installed at the top of base mount, promote the cylinder and install in the roller fixing base one side that is close to preceding base, promote cylinder and solenoid valve and carry out electric connection, the activity roller passes through the connecting seat to be connected in roller fixing base, one side that the connecting seat is close to preceding base is connected with the push rod that promotes the cylinder, fixed roller is connected in roller fixing base.

In the above description, as the preferred scheme, the top of roller fixing base is equipped with the crossbeam, and the solenoid valve is located on the crossbeam, and the staff of being convenient for operates the solenoid valve, can be simultaneously with waiting the body paper of adhesion temporary clamping on the crossbeam, reduces dyeing embosser's downtime, promotes work efficiency.

In the above-mentioned explanation, as the preferred scheme, one side that the preceding base was kept away from to the back base is equipped with link, first tensioning roller and tensioning assembly, and tensioning assembly connects in the top of link, and carries out electric connection with the control screen, and left side or/and the right side of tensioning assembly is located to first tensioning roller, reinforcing to the tensioning force of body paper, makes the body paper smooth and tidier.

In the above description, as the preferred scheme, tensioning assembly comprises lift cylinder, mount pad and second tensioning roller, and the lift cylinder is installed at the top of link, and the mount pad is connected in the push rod of lift cylinder, and the second tensioning roller is installed in the mount pad, makes the adjustable upper and lower distance of second tensioning roller, is convenient for control the tensioning force size to the body paper.

In the above description, as a preferable scheme, the guiding roller and the first tensioning roller are both provided with more than two, so that the tensioning force on the base paper is increased, and the base paper is smoother.

The dyeing embosser provided by the utility model has the following beneficial effects when used for a continuous paper guiding mechanism:

1) The front base and the rear base are arranged, the first main shaft is arranged at the top of the front base, the second main shaft is arranged at the top of the rear base, when the raw paper of the first main shaft is about to be processed and exhausted, the raw paper of the second main shaft is adhered to the raw paper of the fixed roller, and then the connection between the raw paper of the fixed roller and the first main shaft is disconnected, so that the raw paper of the second main shaft starts to guide paper, the working process of the dyeing embossing machine is more continuous, the downtime is reduced, the condition that the dyeing embossing machine guides paper at a reduced speed is avoided, the aim of improving the working efficiency of the dyeing embossing machine is fulfilled, and meanwhile, the output of waste paper is reduced;

2) Through being equipped with the base mount, preceding base and back base are connected through the base mount, and the base mount is equipped with activity roller, fixed roller, compresses tightly subassembly and guide roller, and the body paper passes activity roller, fixed roller and guide roller in proper order, makes the body paper have the tensioning force at the in-process of guide, is convenient for follow-up processing step, and when the roll change draws the paper, activity roller accessible compresses tightly the subassembly and removes moreover, the adhesion between staff to body paper and the body paper of being convenient for.

Drawings

FIG. 1 is a schematic exploded view of a dye embosser of the present utility model for a continuous paper feed mechanism;

FIG. 2 is a schematic perspective view of a continuous paper feeding mechanism of the dyeing embosser of the present utility model;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 2;

FIG. 4 is a schematic perspective view of a transmission assembly of the dye embosser of the present utility model for use in a continuous paper feeding mechanism;

FIG. 5 is a schematic perspective view of a compacting assembly of the dye embosser of the present utility model for use in a continuous paper feeding mechanism;

FIG. 6 is a schematic perspective view of a tensioning assembly of the dye embosser of the present utility model for use in a continuous paper feeding mechanism;

FIG. 7 is a schematic view of the connection structure of the first spindle and the transmission assembly of the continuous paper feeding mechanism of the dyeing embosser of the present utility model;

in the figure, the front base is 1-first fixing frame, the first main shaft is 102-103-first transmission gear, the rear base is 2-201-second fixing frame, the second main shaft is 202-203-second transmission gear, the 3-transmission component is 301-motor, the 302-driving wheel, the 303-gear fixing seat, the 304-driven wheel, the 305-transmission belt, the 4-base fixing frame, the 401-guiding roller, the 5-electric cabinet, the 501-control screen, the 6-compacting component, the 601-movable roller, the 602-fixed roller, the 603-roller fixing seat, the 604-pushing cylinder, the 605-electromagnetic valve, the 606-connecting seat, the 607-beam, the 7-connecting frame, the 701-first tensioning roller, the 8-tensioning component, the 801-lifting cylinder, the 802-installing seat, the 803-second tensioning roller and the 9-base paper.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1-7, a specific embodiment of a dyeing embossing machine is used for a continuous paper guiding mechanism, and comprises a front base 1, a rear base 2, a transmission assembly 3 and a base fixing frame 4, wherein the front base 1 and the rear base 2 are connected through the base fixing frame 4, one sides of the front base 1 and the rear base 2 are respectively provided with an electric control box 5, the transmission assembly 3 is arranged in the electric control box 5, one side of the electric control box 5 far away from the rear base 2 is provided with a control screen 501, the front base 1 is provided with a first fixing frame 101 and a first main shaft 102, the first fixing frame 101 is arranged at the top of the front base 1, the first main shaft 102 is connected to the first fixing frame 101, the first main shaft 102 is connected with the transmission assembly 3 through a first transmission gear 103, the transmission assembly 3 is composed of a motor 301, a driving wheel 302, a driven wheel 304 and a transmission belt 305, the motor 301 is connected to the inner wall of the electric control box 5, one side of the front base 1 near the electric control box 5 and one side of the rear base 2 are respectively provided with a gear fixing seat 303, the driven wheel 304 is mounted on the gear fixing seat 304, the driven wheel 304 is mounted on the driven wheel 103, the driven wheel 304 is matched with the driven wheel 103, and is mounted on the first base 2 through the transmission seat 203, and meshed with the driven wheel seat 303.

The base mount 4 is equipped with movable roller 601, fixed roller 602, compress tightly subassembly 6 and guide roller 401, compress tightly the top that subassembly 6 located base mount 4, movable roller 601 and fixed roller 602 all are connected in compressing tightly subassembly 6, compress tightly subassembly 6 and constitute by roller fixing base 603, promote cylinder 604 and solenoid valve 605, roller fixing base 603 and solenoid valve 605 are all installed at the top of base mount 4, promote cylinder 604 and install in roller fixing base 603 one side that is close to preceding base 1, promote cylinder 604 and solenoid valve 605 and carry out electric connection, movable roller 601 is connected in roller fixing base 603 through connecting seat 606, one side that connecting seat 606 is close to preceding base 1 is connected with the push rod that promotes cylinder 604, fixed roller 602 is connected in roller fixing base 603, the top of roller fixing base 603 is equipped with crossbeam 607, solenoid valve 605 is located on crossbeam 607, the staff's operation solenoid valve 605 of being convenient for can be with the body 9 temporary centre gripping of waiting the adhesion on crossbeam 607 simultaneously, reduce dyeing embosser down time, promote work efficiency.

The guide roller 401 is arranged on one side of the base fixing frame 4, which is close to the front base 1, or/and one side of the base fixing frame 4, which is close to the rear base 2, the top of the rear base 2 is provided with a second fixing frame 201 and a second main shaft 202, the second fixing frame 201 is arranged on the top of the front base 1, the second main shaft 202 is connected to the second fixing frame 201, the second main shaft 202 is connected with the transmission assembly 3 through a second transmission gear 203, and the transmission assembly 3 and the compression assembly 6 are electrically connected through the control screen 501.

The back base 2 is kept away from one side of preceding base 1 and is equipped with link 7, first tensioning roller 701 and tensioning module 8, and tensioning module 8 connects in the top of link 7, and carries out electric connection with control panel 501, and the left side or/and the right side of tensioning module 8 is located to first tensioning roller 701, strengthens the tensioning force to body paper 9, makes body paper 9 smooth more, tensioning module comprises lift cylinder 801, mount pad 802 and second tensioning roller 803, and lift cylinder 801 installs in the top of link 7, and mount pad 802 is connected in the push rod of lift cylinder 801, and second tensioning roller 803 is installed in mount pad 802, makes second tensioning roller 803 adjustable upper and lower distance, is convenient for control the tensioning force size to body paper 9, guide roller 401 and first tensioning roller 701 all are equipped with more than two, increase the tensioning force to body paper 9, make body paper 9 smooth more.

When the raw paper 9 of the first main shaft 102 is about to be processed and exhausted and needs to be rolled up, a worker temporarily clamps the raw paper 9 on the second main shaft 202 on the cross beam 607, the dyeing embossing machine is stopped to work, the pushing cylinder 604 is controlled by the electromagnetic valve 605 to drive the movable roller 601 to move along the direction of the roller fixing seat 603, the movable roller 601 is far away from the fixed roller 602, then the worker adheres the raw paper 9 of the second main shaft 202 clamped on the cross beam 607 to the surface of the raw paper 9 on the fixed roller 602, the connection between the raw paper 9 of the fixed roller 602 and the first main shaft 102 is disconnected, the worker starts the electromagnetic valve 605 again, pushes the cylinder 604 to push the movable roller 601 to move along the direction of the roller fixing seat 603, the movable roller 601 is close to the fixed roller 602, the dyeing embossing machine is started to work normally, the working process of the dyeing embossing machine is more continuous, the downtime is reduced, the condition that the dyeing embossing machine is led down is avoided, the aim of improving the working efficiency of the dyeing embossing machine is achieved, and meanwhile, the output of waste paper is reduced.

The foregoing is a further detailed description of the utility model in connection with specific preferred embodiments, and is not intended to limit the practice of the utility model to such description. It will be apparent to those skilled in the art that several simple deductions or substitutions can be made without departing from the spirit of the utility model, and the scope of the utility model is to be considered as the scope of the utility model.

Claims

1. The utility model provides a dyeing embosser is used for leading paper mechanism in succession, including preceding base, back base, drive assembly and base mount, preceding base and back base are connected through the base mount, and one side of preceding base and back base all is equipped with the electric cabinet, and drive assembly locates the inside of electric cabinet, and one side that the back base was kept away from to the electric cabinet is equipped with the control panel, its characterized in that: the front base is provided with a first fixing frame and a first main shaft, the first fixing frame is arranged at the top of the front base, the first main shaft is connected to the first fixing frame, the first main shaft is connected with a transmission assembly through a first transmission gear, the base fixing frame is provided with a movable roller, a fixed roller, a pressing assembly and a guide roller, the pressing assembly is arranged at the top of the base fixing frame, the movable roller and the fixed roller are connected to the pressing assembly, the guide roller is arranged at one side of the base fixing frame, which is close to the front base, or/and one side of the base fixing frame, which is close to the rear base, the top of the rear base is provided with a second fixing frame and a second main shaft, the second main shaft is connected to the second fixing frame through a second transmission gear, and the transmission assembly and the pressing assembly are electrically connected through a control screen.

2. The dye embosser of claim 1 for a continuous paper feed mechanism comprising: the transmission assembly consists of a motor, a driving wheel, a driven wheel and a transmission belt, wherein the motor is connected to the inner wall of the electric cabinet, the driving wheel is connected to a main shaft of the motor, a gear fixing seat is arranged on one side of the front base close to the electric cabinet and one side of the rear base close to the electric cabinet, the driven wheel is arranged on the gear fixing seat, the driving wheel and the driven wheel are arranged in a matched mode through the transmission belt, the driven wheel arranged on the front base gear fixing seat is meshed with a first transmission gear, and the driven wheel arranged on the rear base gear fixing seat is meshed with a second transmission gear.

3. The dye embosser of claim 1 for a continuous paper feed mechanism comprising: the pressing assembly consists of a roller fixing seat, a pushing air cylinder and an electromagnetic valve, wherein the roller fixing seat and the electromagnetic valve are all arranged at the top of a base fixing frame, the pushing air cylinder is arranged on one side of the roller fixing seat, which is close to the front base, and the pushing air cylinder is electrically connected with the electromagnetic valve.

4. The dye embosser of claim 3 for a continuous paper feed mechanism comprising: the top of roller fixing base is equipped with the crossbeam, and the solenoid valve is located on the crossbeam.

5. A dyeing embosser for a continuous paper feeding mechanism according to any one of claims 1 to 3, wherein: one side of the rear base, which is far away from the front base, is provided with a connecting frame, a first tensioning roller and a tensioning assembly, the tensioning assembly is connected to the top of the connecting frame and is electrically connected with the control screen, and the first tensioning roller is arranged on the left side or/and the right side of the tensioning assembly.

6. The dye embosser of claim 5 for a continuous paper feed mechanism comprising: the tensioning assembly consists of a lifting cylinder, a mounting seat and a second tensioning roller, wherein the lifting cylinder is mounted at the top of the connecting frame, the mounting seat is connected to a push rod of the lifting cylinder, and the second tensioning roller is mounted on the mounting seat.

7. The dye embosser of claim 6 for a continuous paper feed mechanism comprising: the guide roller and the first tensioning roller are both provided with more than two.