CN210851673U - Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization - Google Patents

Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization Download PDF

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Publication number
CN210851673U
CN210851673U CN201921351224.1U CN201921351224U CN210851673U CN 210851673 U CN210851673 U CN 210851673U CN 201921351224 U CN201921351224 U CN 201921351224U CN 210851673 U CN210851673 U CN 210851673U
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motor
hot stamping
clean
semi
hot
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CN201921351224.1U
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朱学锋
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Shaoxing Chaofeng Stationery Manufacturing Co ltd
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Shaoxing Chaofeng Stationery Manufacturing Co ltd
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Abstract

The utility model provides a novel inboard decorative pattern thermoprinting machine of semi-automatization for fibre file relates to file apparatus for producing field, and this novel inboard decorative pattern thermoprinting machine of semi-automatization for fibre file, including workstation, transfer roller, frame, push rod, hot stamping board and four clean dishes, the transfer roller is established at the workstation both ends, and the frame is located the workstation, and the push rod is established under the frame, and the push rod lower extreme is connected with the hot stamping board, and four clean dishes and hot stamping board four corners one-to-one, clean dish and hot stamping board sliding fit. This novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file utilizes motor and rope to cooperate for the motor is close to the hot stamping plate to the middle part, and it is rotatory to reunite the motor and drive whole storage compartment, makes the brush on the storage compartment rotatory, thereby will adhere to the burnt piece of hot stamping plate below and scrape down, collects through the storage compartment focusing piece, thereby reaches clear effect. Avoid the coke block to adhere to the hot stamping plate and influence the hot stamping pattern.

Description

Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization
Technical Field
The utility model relates to a file production technical field specifically is a novel fiber file is with inboard decorative pattern thermoprinting machine of semi-automatization.
Background
The folder is a stationery commonly used in work and study of people and can be used for clamping and placing various files. With the development of technology, more and more materials are available for making folders, including a folder made of novel fibers. In the production process of the folder, in order to endow the folder with aesthetic feeling, a pattern is stamped on the folder. The semi-automatic hot stamping machines are gradually increased with the help of hot stamping equipment and the development of science and technology.
For example, the patent number is 201620115235.X, "a folder inner bag manufacturing machine integrating punching, welding and cutting and hot stamping" disclosed in Chinese patent network. The device utilizes the ultrasonic sealing device to transversely seal the bottom edge, utilizes the binding hole punching device to longitudinally punch the binding hole, and carries out hot stamping at the hot stamping device.
However, the device still has some defects, the device lacks a cleaning part in the hot stamping device, and a hot stamping part is easy to generate scorched blocks in the hot stamping process. The coke block is easy to adhere to the hot stamping part, so that when the next hot stamping is carried out, the pattern generated by hot stamping has flaws, and the hot stamping effect is easily influenced.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
The not enough to prior art, the utility model provides a novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file has solved in the above-mentioned background art when general folder thermoprinting machine thermoprinting, is stained with the scorched pieces on the thermoprint part and influences the problem of thermoprint effect.
(II) technical scheme
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file, includes workstation, transfer roller, frame, push rod, hot stamping board and four clean dishes, and the transfer roller is established at the workstation both ends, and the frame is located the workstation, and the push rod is established under the frame, and the push rod lower extreme is connected with the hot stamping board, four clean dishes and hot stamping board four corners one-to-one, clean dish and hot stamping board sliding fit, clean dish is including clean mechanism and moving mechanism, and clean mechanism is used for clean hot stamping board bottom, and wiper mechanism establishes in the moving mechanism below, and moving mechanism can drive clean mechanism and remove.
Preferably, moving mechanism includes slider, motor, rope, spring and motor, slider and hot embossing plate sliding fit, and the motor is established in the middle part top of hot embossing plate, and the slider moves towards the motor, and the motor is established on the slider, and motor drive end passes slider and clean mechanism threaded connection, and one side of motor is passed through the rope and is connected with motor drive end, and the motor opposite side is connected with the spring, and the spring is kept away from motor one end and is connected with the hot embossing plate.
Preferably, the cleaning mechanism comprises a bottom plate, a containing bin and a plurality of brushes, a screw hole is formed in the center of the bottom plate, the bottom plate is in threaded connection with a motor transmission end through the screw hole, the containing bin is arranged on the bottom plate, the containing bin and the bottom plate are arranged in a concentric circle mode, the plurality of brushes are arranged on the containing bin, the upper end of each brush is in contact with the bottom of the hot stamping plate, a leak hole is formed in the containing bin, and the containing bin is used for collecting coke blocks.
Preferably, a moving channel for moving the folder is arranged on the workbench, one side of the workbench is connected with a single chip microcomputer, and the single chip microcomputer is used for controlling the electronic parts to work.
(III) advantageous effects
The utility model provides a novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization. The method has the following beneficial effects:
1. this novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file utilizes motor and rope to cooperate for the motor is close to the hot stamping plate to the middle part, and it is rotatory to reunite the motor and drive whole storage compartment, makes the brush on the storage compartment rotatory, thereby will adhere to the burnt piece of hot stamping plate below and scrape down, collects through the storage compartment focusing piece, thereby reaches clear effect. Avoid the coke block to adhere to the hot stamping plate and influence the hot stamping pattern.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is an enlarged view of the structure A of FIG. 1 according to the present invention;
FIG. 3 is an enlarged view of the structure B in FIG. 1 according to the present invention;
FIG. 4 is a partial structure display diagram of the present invention;
FIG. 5 is a schematic view of the structure of the cleaning plate of the present invention;
fig. 6 is a schematic view of another angle of the structure of the cleaning plate of the present invention.
In the figure: the automatic cleaning machine comprises a workbench 1, a conveying roller 2, a machine frame 3, a push rod 4, a hot stamping plate 5, a sliding chute 51, a sliding block 6, a motor 7, a cleaning disc 8, a bottom plate 81, a storage bin 82, a hairbrush 83, a leakage hole 84, a rope 9, a spring 10, a singlechip 11, a motor 12 and a nut 13.
Detailed Description
The embodiment of the utility model provides a novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file, as shown in fig. 1-6, including workstation 1, transfer roller 2, frame 3, push rod 4, hot stamping plate 5 and four cleaning discs 8. The conveying rollers 2 are pivoted at two ends of the workbench 1. The file folder is driven to move by the rotation of the conveying roller 2, the file is clamped and conveyed to the lower part of the rack 3, and the conveying roller 2 is a conventional technical means. The frame 3 is fixedly welded on the workbench 1. The push rod 4 is fixedly welded at the bottom of the frame 3. The lower end of the push rod 4 is fixedly welded with the hot stamping plate 5. And (3) heating by using a hot pressing plate 5 in a hot pressing mode, and pressing patterns on the folder. When the folder unfolding machine works, the inner side of the folder is unfolded upwards and placed on the conveying roller 2, and the folder is moved to the lower portion of the rack 3 through the conveying roller 2. The push rod 4 is extended to enable the hot stamping plate 5 to be close to the file, and meanwhile, the hot stamping plate 5 is heated and extrudes the file to enable the file to be embossed. The two sides of the bottom of the hot stamping plate 5 are provided with patterns for stamping.
The push rod 4 is an electric push rod, and the model of the push rod is XTL100, so the specific model and the circuit arrangement of the push rod are the same as those of the conventional technical means. The hot-pressing plate is a common hot-pressing plate. The pusher 4 and the hot stamp plate 5 are the same as those of the prior art.
The four cleaning discs 8 correspond to four corners of the hot stamping plate 5 one by one. The cleaning disc 8 is in sliding fit with the hot stamping plate 5, the cleaning disc 8 comprises a cleaning mechanism and a moving mechanism, the cleaning mechanism is used for cleaning the bottom of the hot stamping plate 5, the cleaning mechanism is arranged below the moving mechanism, and the moving mechanism can drive the cleaning mechanism to move. The four cleaning discs 8 approach the middle of the hot stamping plate 5 by utilizing the rotation of the cleaning discs 8 and being driven by the moving mechanism, and the bottom of the hot stamping plate 5 is cleaned. During operation, moving mechanism drives cleaning disc 8 to move, and cleaning disc 8 rotates simultaneously, and cleaning disc 8 is close to the middle part. When the cleaning disc 8 is contacted, the patterns on the two sides of the bottom of the hot stamping plate 5 are covered by the cleaning disc 8, and then the coke blocks attached to the bottom of the hot stamping plate 5 are taken out.
The moving mechanism includes a slider 6, a motor 7, a rope 9, a spring 10, and a motor 12. The motor 12 is fixedly mounted above the middle of the hot platen 5. The hot stamping plate 5 is provided with a sliding groove 51, and the sliding block 6 is in sliding fit with the hot stamping plate 5 through the sliding groove 51. The slide 6 is moved towards the motor 12. The motor 7 is fixedly welded on the sliding block 6. The transmission end of the motor 7 passes through the sliding block 6 to be connected with the cleaning mechanism through screw threads. The motor is used for driving the cleaning mechanism to rotate. One side of the motor 7 is connected with the transmission end of the motor 12 through a rope 9. One end of the rope 9 is fixedly welded with one side of the motor 7. The other end of the rope 9 is fixedly welded with the transmission end of the motor 12. The rope 9 can be wound on the transmission shaft of the motor 12 by the rotation of the motor 12, and then the rope 9 pulls the sliding block 6 below the motor 7, so that the sliding block 6 approaches to the motor 12. When the electric motor works, the motor 12 rotates, the rope 9 is gradually wound on a transmission shaft of the motor 12, and the rope 9 pulls the motor 7 to enable the motor 7 to slowly slide. The other side of the motor 7 is welded with the spring 10, and one end of the spring 10, which is far away from the motor 7, is welded with the hot stamping plate 5. The restoring effect is achieved by the elasticity of the spring 10. In operation, as the motor 12 rotates, the motor 7 gradually moves toward the motor 12. The spring 10 is gradually stretched to generate a contracted elastic force. When the motor 12 is stalled. The motor 7 loses the pulling force of the rope 9 and the spring 10 contracts, so that the motor 7 returns to the original position and the rope 9 is pulled to be in the original position.
The motor 7, the spring 10, the rope 9 and the motor 12 are used for replacing a push rod to work, and the effect of facilitating replacement and maintenance is achieved. The push rod is electronic equipment, and the internal structure is relatively more. And the matching of the internal components is relatively precise. The maintenance is not convenient enough. The moving mechanism formed by matching the motor 7 and other parts has relatively quick maintenance.
The motor 12 is Y160M2-2 model, and the motor 7 is Y132S1-2 model. Therefore, the electric motor 12 and the motor 7 are conventional technical means, and the specific structure of the electric circuit arrangement of the electric motor 12 and the motor 7 is the same as that of the prior art.
The cleaning mechanism comprises a bottom plate 81, a storage bin 82 and a plurality of brushes 83. The screw has been seted up at bottom plate 81 center, and bottom plate 81 passes through screw and motor 7 transmission end threaded connection, and collecting storage 82 is fixed to be bonded on bottom plate 81. The storage 82 and the bottom plate 81 are arranged concentrically. A plurality of brushes 83 are provided on the storage compartment 82. The receiving bin 82 is used to collect coke lumps. The upper end of the brush 83 contacts with the bottom of the hot stamping plate 5, and the storage bin 82 is provided with a leak hole 84. So that the coke blocks fall into the milk receiving storage bin 82 through the leakage holes. The outermost edge in the storage bin 82 is fixedly welded with a flange, and the coke block is placed on the flange upwards and thrown out under the centrifugal action. During operation, motor 7 is rotatory, drives bottom plate 81 and rotates, and bottom plate 81 drives the storehouse 82 rotation of accomodating, makes brush 83 rotate, and when motor 7 was close to hot stamping plate 5 middle part gradually, brush 83 scraped the burnt piece with hot stamping plate 5 contact.
Since the bin 82 rotates, the coke cake is moved by centrifugal force on the bin after being scraped off, and drops into the bin 82 when passing through the leak hole 84.
This novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file utilizes motor 12 and rope 9 to cooperate for motor 7 is close to the middle part to hot stamping plate 5, and it is rotatory to combine motor 7 to drive whole storage chamber 82 again, makes brush 83 on the storage chamber 82 rotatory, thereby will adhere to the burnt piece of hot stamping plate 5 below and scrape down, collects through storage chamber 82 the piece of focusing, thereby reaches clear effect. The hot stamping plate 5 is prevented from being adhered with a coke block to influence the hot stamping pattern.
The driving end of the motor 7 is screwed with the bottom plate 81 and then sleeved with the nut 13. The effect of limiting and fixing the bottom plate 81 is achieved. When the coke blocks in the storage bin 82 need to be cleaned, the storage bin 82 is detached from the transmission end of the motor 7, and the coke blocks in the storage bin 82 can be poured out.
The frame 3 has four stabilizer blades and the four corners one-to-one of hot stamping plate 5, and the four corners sliding fit of 3 four stabilizer blades of frame and hot stamping plate 5 improves the steadiness when whole hot stamping plate 5 removes.
The workbench 1 is provided with a moving channel for moving the folder. The transfer rollers 2 are located at both ends of the moving passage. The middle part of the moving channel is a trapezoidal bulge. In operation, a document is placed on the moving channel, moves forward left and right under the conveying roller 2, and moves to the trapezoidal bulge in the middle of the moving channel. The top of the protrusion is planar and faces the hot stamping plate. Is convenient for hot stamping of the pattern of the folder. The baffle plates are arranged on two sides of the moving channel to play a role in guiding. When the folder moves to the trapezoidal bulge, the conveying roller 2 stops rotating, and the folder at the rear part is prevented from ejecting the folder at the trapezoidal bulge. When the hot stamping is finished, the folder is taken out, and the transmitting officer 2 continues to rotate.
When the folder enters the inclined plane of the trapezoidal bulge, the folder at the rear part pushes the file at the inclined plane to move forwards continuously and move to the plane of the trapezoidal bulge.
And a singlechip 11 is fixedly arranged on one side of the workbench 1. The single chip microcomputer 11 is used for controlling electronic parts of the whole device to work. The model of the singlechip 11 is MC9S12DP 512. Therefore, the single chip microcomputer is a conventional technical means and is electrically connected with each electronic device. The whole device provides power for the electronic equipment in a mode of being connected with commercial power.
The working principle is as follows: in use, the folder is moved under the frame 3 by the transport roller 2. The push rod 4 is extended to enable the hot stamping plate 5 to be close to the file, and meanwhile, the hot stamping plate 5 is heated and extrudes the file to enable the file to be embossed. When cleaning hot-stamping plate 5 bottom, motor 12 is rotatory, and rope 9 twines gradually on motor 12 transmission shaft, and rope 9 drags motor 7, makes motor 7 slowly slide and is close to the motor, and motor 7 is rotatory simultaneously, drives bottom plate 81 and rotates, and bottom plate 81 drives storage bin 82 rotatory, makes brush 83 rotate, and when motor 7 was close to gradually to hot-stamping plate 5 middle part, brush 83 and hot-stamping plate 5 contact will be burnt piece and scrape down.
To sum up, this novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file utilizes motor 12 and rope 9 to cooperate for motor 7 is close to the middle part to hot stamping plate 5, and it is rotatory to combine motor 7 to drive whole storage chamber 82 again, makes brush 83 on the storage chamber 82 rotatory, thereby will adhere to the burnt piece of hot stamping plate 5 below and scrape down, collects through the storage chamber 82 the piece of focusing, thereby reaches clear effect. The hot stamping plate 5 is prevented from being adhered with a coke block to influence the hot stamping pattern.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a novel inboard decorative pattern thermoprinting machine of semi-automatization for fiber file, its characterized in that: including workstation (1), transfer roller (2), frame (3), push rod (4), hot platen (5) and four clean dishes (8), establish at workstation (1) both ends transfer roller (2), frame (3) are located workstation (1), establish under frame (3) push rod (4), push rod (4) lower extreme is connected with hot platen (5), four clean dishes (8) and hot platen (5) four corners one-to-one, clean dish (8) and hot platen (5) sliding fit, clean dish (8) are including clean mechanism and moving mechanism, and clean mechanism is used for clean hot platen (5) bottom, and the wiper mechanism is established in the moving mechanism below, and moving mechanism can drive clean mechanism and remove.
2. The semi-automatic inner pattern hot stamping machine for the novel fiber folder as claimed in claim 1, wherein: moving mechanism includes slider (6), motor (7), rope (9), spring (10) and motor (12), slider (6) and hot platen (5) sliding fit, establish the middle part top in hot platen (5) motor (12), slider (6) move towards motor (12), establish on slider (6) motor (7), slider (6) and clean mechanism threaded connection are passed to motor (7) transmission end, one side of motor (7) is passed rope (9) and is connected with motor (12) transmission end, motor (7) opposite side is connected with spring (10), motor (7) one end is kept away from in spring (10) and is connected with hot platen (5).
3. The semi-automatic inner pattern hot stamping machine for the novel fiber folder as claimed in claim 2, wherein: clean mechanism includes bottom plate (81), storage bin (82), a plurality of brush (83), and the screw has been seted up at bottom plate (81) center, and bottom plate (81) pass through screw and motor (7) transmission end threaded connection, and storage bin (82) are established on bottom plate (81), and storage bin (82) and bottom plate (81) are arranged for concentric circles, and a plurality of brushes (83) are established on storage bin (82), the bottom contact of brush (83) upper end and hot-pressing platen (5), leak (84) have been seted up on storage bin (82), and storage bin (82) are used for collecting the burnt piece.
4. The semi-automatic inner pattern hot stamping machine for the novel fiber folder as claimed in claim 1, wherein: be equipped with the removal passageway that supplies the file to remove on workstation (1), one side of workstation (1) is connected with singlechip (11), and singlechip (11) are used for controlling electronic component work.
CN201921351224.1U 2019-08-20 2019-08-20 Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization Active CN210851673U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921351224.1U CN210851673U (en) 2019-08-20 2019-08-20 Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921351224.1U CN210851673U (en) 2019-08-20 2019-08-20 Novel fiber file is inboard decorative pattern thermoprinting machine of semi-automatization

Publications (1)

Publication Number Publication Date
CN210851673U true CN210851673U (en) 2020-06-26

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