CN110843334A

CN110843334A - Pad printing production line

Info

Publication number: CN110843334A
Application number: CN201911315569.6A
Authority: CN
Inventors: 张贤龙
Original assignee: Hunan Biao Li Genenal Science & Tech Co Ltd
Current assignee: Hunan Biao Li Genenal Science & Tech Co Ltd
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2020-02-28

Abstract

A pad printing production line comprises a flow table machine and 3D pad printing machines arranged on two sides of the flow table machine; the flow table machine comprises a flow table rack, a lower conveying belt, a lifting conveying belt and a rear conveying belt, wherein the lower conveying belt, the lifting conveying belt and the rear conveying belt are arranged in the flow table rack; a material tray is arranged at the front end of the lower conveying belt; the 3D pad printing machine comprises a pad printing rack, and a mechanical arm, a primary positioning platform, a UVW correction platform, a cleaning mechanism, a machine head mechanism, a steel plate installation mechanism and a drying mechanism which are arranged in the pad printing rack; the manipulator sets up in the front side of bat printing frame, and the manipulator extends to the middle part of flowing the dish machine, and the rear side of manipulator has set gradually from being close to flowing the dish machine side to bat printing machine side and has placed the initial positioning platform and the UVW correction platform of product. The transfer printing device can realize the connection of a plurality of transfer printing devices into a production line, reduces the occupied area, increases the utilization rate of a workshop and improves the working efficiency.

Description

Pad printing production line

Technical Field

The invention relates to the technical field of pad printing, in particular to a pad printing production line.

Background

When a screen of an electronic product is printed, the screen is generally placed on a tray, and a plurality of trays are transported by using a tape-out machine.

The existing pad printing equipment only works on a single table, manual feeding is needed, the production line type feeding for multiple equipment can not be realized, two rows of conveying belts are needed when feeding is carried out on left and right equipment, the occupied area is large, and the automation degree is not improved.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects in the prior art, and provides a pad printing production line which can realize the connection of a plurality of pad printing devices, reduce the occupied area, increase the utilization rate of a workshop and improve the working efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows: a pad printing production line comprises a flow table machine and 3D pad printing machines arranged on two sides of the flow table machine;

the flow plate machine comprises a flow plate rack, and a lower conveying belt, a lifting conveying belt and a rear conveying belt which are arranged in the flow plate rack, wherein the rear conveying belt is connected to the rear end of the lower conveying belt, the lifting conveying belt is arranged in the middle of the lower conveying belt, and the lifting conveying belt is arranged on a lifting seat driven by an air cylinder; a material tray is arranged at the front end of the lower conveying belt;

the 3D pad printing machine comprises a pad printing rack, and a mechanical arm, a primary positioning platform, a UVW correction platform, a cleaning mechanism, a machine head mechanism, a steel plate installation mechanism and a drying mechanism which are arranged in the pad printing rack; the manipulator is arranged on the front side of the pad printing frame, the manipulator 2 extends to the middle of the pad printing machine, a primary positioning platform for placing a product and a UVW correction platform are sequentially arranged on the rear side of the manipulator from the side close to the pad printing machine to the side close to the pad printing machine, the bottom end of the UVW correction platform is connected with a platform guide rail arranged on the pad printing frame, a CCD camera mechanism is arranged above the right end of the platform guide rail, the UVW correction platform runs to the lower side of the CCD camera mechanism through the platform guide rail to take a visual photograph of the product, and then the UVW correction platform accurately corrects the angle and the position of the product; the middle part to the rear part of the pad printing rack is sequentially provided with a drying mechanism, a cleaning mechanism and a steel plate mounting mechanism; the machine head mechanism is arranged at the top of the pad printing rack and can be respectively connected with the UVW correction platform, the cleaning mechanism, the steel plate mounting mechanism and the drying mechanism; the pad printing head of the machine head mechanism cleans the cleaning mechanism, then ink is dipped from the etched steel plate of the steel plate mounting mechanism, the ink is slightly dried in the drying mechanism, and finally the product is imprinted on the UVW correction platform.

Further, when the lift seat is in lower extreme position, lift drive belt and lower conveyer belt parallel and level, when the lift seat is in upper extreme position, can pass through single charging tray smoothly between lift drive belt and the lower conveyer belt.

Furthermore, the front end of the lower conveying belt is provided with a positioning support for limiting the position of the material tray, two sides of the material tray are provided with stacking supports capable of supporting the material tray, the lower end of the material tray is provided with a top frame capable of jacking the material tray, the stacking supports are arranged on a stacking support driven by an air cylinder, and the top frame is arranged on a top seat driven by the air cylinder.

Furthermore, the front end of lower conveyer belt is provided with the optical sensor who detects whether there is the charging tray in the locating support, the top one side of lift conveyer belt is provided with the optical sensor who detects whether the charging tray is located the assigned position.

Further, the manipulator is provided with a first gripper and a second gripper; when the material is taken, the first gripper grabs the product in the material tray from the production line and transmits the product to the primary positioning platform, the second gripper grabs the product in the primary positioning platform and transmits the product to the UVW correction platform, and the product which is subjected to transfer printing on the UVW correction platform is transmitted to the material tray on the production line through the first gripper; through the coordination work of the first gripper and the second gripper, the working efficiency is rapidly improved.

Furthermore, the primary positioning platform comprises a placing platform and positioning push rods arranged on four sides of the placing platform, the positioning push rods are arranged on a push plate, the bottom of the push plate is connected with a push rail arranged on a positioning seat, the placing platform is connected with the positioning seat, and the bottom end of the positioning seat is fixedly arranged on the pad printing rack; the product can be straightened by positioning the push rod.

Furthermore, a push groove for accommodating the positioning push rod to move is arranged on the placing platform.

Furthermore, the cleaning mechanism comprises a cleaning table, a winding shaft and a unwinding shaft which are arranged on two sides of the cleaning table, and a cleaning belt which sequentially bypasses the cleaning table, the winding shaft and the unwinding shaft; a winding roller and a power-assisted drum are arranged between the cleaning table and the winding shaft, and a driven roller is arranged between the cleaning table and the unwinding shaft; the cleaning belt is wound to the bottom of the driven roller from the left lower part of the unwinding shaft, then passes through the surface of the cleaning table, passes through the upper part of the power assisting cylinder and is wound out from the right lower part of the power assisting cylinder, and then passes through the left part of the winding roller and is wound to the right side of the winding shaft for winding; the winding roller, the power assisting cylinder and the winding shaft are all connected with the motor through belts, and the belts are wound out of the winding shaft, pass through the power assisting cylinder, are wound around the winding roller to the lower left side and then return to the motor to the lower right side; the inner side of the winding roller is provided with a clamping cylinder connected with the air cylinder, and the cleaning belt is clamped by the clamping cylinder and the winding roller, so that the cleaning belt is prevented from slipping on the winding roller. The motor controls the revolution number of the winding roller, and then the winding length is calculated and controlled through the circumference of the winding roller.

Furthermore, a brake ejector rod connected with the air cylinder is arranged below the driven roller, when the winding shaft stops running, the brake ejector rod is driven by the air cylinder to move upwards and clamps the cleaning belt together with the driven roller, and therefore the cleaning belt of the cleaning table is guaranteed to be in a tensioned state.

Furthermore, air filters are arranged on the top of the pad printing rack and the top of the flow tray rack, and can provide filtered clean air for the inside of the pad printing rack and the flow tray rack; touch screens are arranged on one sides of the pad printing frame and the stream panel frame, and the speed and the starting and stopping time of the conveyor belt can be set through the touch screens.

The material feeding device has the advantages that the material feeding device can feed materials to the left equipment and the right equipment simultaneously, the left equipment and the right equipment can be fed with materials and discharged on the lifting conveyor belt, the lifting conveyor belt does not interfere with the lower conveyor belt to feed materials to the rear machine table after rising, the material feeding device and the rear conveyor belt can be connected with a plurality of equipment to form a production line, the floor area is reduced, the utilization rate of a workshop is increased, the labor cost is saved, and the working efficiency is improved.

Drawings

FIG. l is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic structural diagram of a tray machine;

FIG. 3 is a schematic view of the internal structure of the tray machine;

FIG. 4 is a schematic structural diagram of a 3D pad printing machine;

FIG. 5 is a schematic view of the robot;

FIG. 6 is a schematic structural diagram of the primary positioning platform;

fig. 7 is a schematic structural view of the cleaning mechanism.

In the drawings: 1. the transfer printing machine comprises a transfer printing machine frame, 2, a mechanical arm, 21, a first gripper, 22, a second gripper, 31, a primary positioning platform, 311, a positioning push rod, 312, a push plate, 313, a positioning seat, 3131, a push rail, 314, a placing platform, 3141, a push groove, 32, a UVW correction platform, 321, a platform guide rail, 322, a CCD camera mechanism, 33, a cleaning mechanism, 3311, a cleaning table, 3312, a motor, 33121, a belt, 3313, a brake ejector rod, 3321, a winding shaft, 3322, a releasing shaft, 3323, a cleaning belt, 3331, a winding roller, 3332, a boosting cylinder, 3333, a driven roller, 41, a machine head mechanism, 42, a steel plate, 51, a flow table frame, 511, an air filter, 52, a lower conveyor belt, 521, a material tray, 522, a stacking support, 5221, a support, 523, a positioning support, 53, a lifting conveyor belt, 531, a lifting seat, 54 and a rear conveyor belt.

Detailed Description

The following examples are given to further illustrate the embodiments of the present invention:

as shown in fig. 1 to 4, an embodiment of a pad printing production line includes a flow table machine, and a 3D pad printing machine disposed on both sides of the flow table machine, the flow table machine includes a flow table frame 51, and a lower conveyor belt 52, a lifting conveyor belt 53 and a rear conveyor belt 54 disposed in the flow table frame 51, the rear conveyor belt 54 is connected to a rear end of the lower conveyor belt 52, the lifting conveyor belt 53 is disposed in a middle portion of the lower conveyor belt 52, and the lifting conveyor belt 53 is disposed on a lifting base 531 driven by an air cylinder; a material tray 521 is arranged at the front end of the lower conveying belt 52; when the lifting seat 531 is at the lower limit position, the lifting transmission belt 53 is flush with the lower transmission belt 52, and when the lifting seat 531 is at the upper limit position, the single material tray 521 can smoothly pass between the lifting transmission belt 53 and the lower transmission belt 52; the 3D pad printing machine comprises a pad printing rack 1, and a manipulator 2, a primary positioning platform 31, a UVW correction platform 32, a cleaning mechanism 33, a machine head mechanism 41, a steel plate installation mechanism 42 and a drying mechanism which are arranged in the pad printing rack 1; the manipulator 2 is arranged on the front side of the pad printing frame 1, the manipulator 2 extends to the middle of the pad printing machine, a primary positioning platform 31 for placing a product and a UVW correction platform 32 are sequentially arranged on the rear side of the manipulator 2 from the side close to the pad printing machine to the side close to the pad printing machine, the bottom end of the UVW correction platform 32 is connected with a platform guide rail 321 arranged on the pad printing frame 1, a CCD camera mechanism 322 is arranged above the right end of the platform guide rail 321, the UVW correction platform 32 runs to the position below the CCD camera mechanism 322 through the platform guide rail 321 to take a visual photograph of the product, and then the UVW correction platform 32 accurately corrects the angle and position of the product; the middle part to the rear part of the pad printing frame 1 is sequentially provided with a drying mechanism, a cleaning mechanism 33 and a steel plate installation mechanism 42; the machine head mechanism 41 is arranged at the top of the pad printing frame 1, and the machine head mechanism 41 can be respectively connected with the UVW correction platform 32, the cleaning mechanism 33, the steel plate installation mechanism 42 and the drying mechanism; the transfer head of the head mechanism 41 performs cleaning work on the cleaning mechanism 33, then ink is dipped from the etched steel plate of the steel plate mounting mechanism 42, the ink is slightly dried in the drying mechanism, and finally the product is imprinted on the UVW correction platform 32.

The front end of the lower conveyor belt 52 is provided with a positioning bracket 523 for limiting the position of the charging tray 521, two sides of the charging tray 521 are provided with stacking brackets 522 capable of supporting the charging tray 521, the lower end of the charging tray 521 is provided with a top frame capable of jacking up the charging tray 521, the stacking brackets 522 are arranged on a stacking support driven by an air cylinder, and the top frame is arranged on a top seat driven by the air cylinder. The lower conveyor belt 52 can stack multiple layers of charging trays 521, when the stacking support 522 is started, the stacking support is positioned outside the charging trays 521, when the top frame jacks up the first layer of charging trays 521, the stacked charging trays 521 are all jacked up, then the stacking support 522 moves inwards to support the bottom end of the second layer of charging trays 521, then the top frame descends until the first layer of charging trays 521 is placed on the lower conveyor belt 52, then the first layer of charging trays 521 is conveyed to the lifting conveyor belt 53 which is level with the lower conveyor belt 52, then the lifting conveyor belt 53 ascends to the upper limit position, and a manipulator waits for taking materials from the charging trays 521; the lower conveyor 52 may then convey the tray 521 directly to the rear conveyor 54.

The front end of the lower conveyor belt 52 is provided with an optical sensor for detecting whether a charging tray 521 is arranged in the positioning bracket or not, and one side above the lifting conveyor belt 53 is provided with an optical sensor for detecting whether the charging tray 521 is positioned at a designated position or not; an air filter 511 is arranged at the top of the flow tray frame 51 and can provide filtered clean air for the interior of the flow tray frame 51; one side of the tray rack 51 is provided with a touch screen, and the speed and the start-stop time of the conveyor belt can be set through the touch screen.

As shown in fig. 5, the manipulator 2 is provided with a first gripper 21 and a second gripper 22; when the material is taken, the first gripper 21 grips products in the material tray 521 from the production line and transmits the products to the primary positioning platform 31, the second gripper 22 grips the products in the primary positioning platform 31 and transmits the products to the UVW correction platform 32, and the products subjected to pad printing on the UVW correction platform are transmitted to the material tray 521 on the production line through the first gripper 21; the first gripper 21 and the second gripper 22 work cooperatively, so that the working efficiency is improved rapidly.

As shown in fig. 6, the primary positioning platform 31 includes a placing platform 314 and positioning push rods 311 disposed on four sides of the placing platform 314, the positioning push rods 311 are disposed on a push plate 312, the bottom of the push plate 312 is connected to a push rail 3131 disposed on a positioning seat 313, the placing platform 314 is connected to the positioning seat 313, and the bottom end of the positioning seat 313 is fixedly mounted on the pad printing rack 1; the product can be straightened by positioning the push rod 311; the placing platform 314 is provided with a push groove 3141 for accommodating the positioning push rod 311.

As shown in fig. 7, the cleaning mechanism 33 includes a cleaning table 3311, a winding shaft 3321 and a unwinding shaft 3322 provided on both sides of the cleaning table 3311, and a cleaning tape 3323 passing through the cleaning table 3311, the winding shaft 3321, and the unwinding shaft 3322 in this order; a winding roller 3331 and a boosting roller 3332 are arranged between the cleaning table 3311 and the winding shaft 3321, and a driven roller 3333 is arranged between the cleaning table 3311 and the unwinding shaft 3322; the cleaning tape 3323 is wound from the lower left of the unwinding shaft 3322 to the bottom of the driven roller 3333, passes through the surface of the cleaning table 3311, passes through the upper portion of the booster cylinder 3332, is wound from the lower right thereof, passes through the left of the winding roller 3331, and is wound on the right of the winding shaft 3321; the winding roller 3331, the booster cylinder 3332 and the winding shaft 3321 are all connected to the motor 3312 through a belt 33121, and the belt 33121 is wound from the winding shaft 3321, passes through the booster cylinder 3332, further passes through the winding roller 3331 to the lower left, and then returns to the motor 3312 to the lower right; a clamping cylinder 3314 connected with the air cylinder is arranged on the inner side of the winding roller 3331, and the cleaning belt 3323 is clamped by the clamping cylinder 3314 and the winding roller 3331; a brake lift rod 3313 connected to a cylinder is provided below the driven cylinder 3333, and when the winding shaft 3321 stops operating, the brake lift rod 3313 is driven by the cylinder to move upward and clamps the cleaning tape 3323 together with the driven cylinder 3333, thereby securing the cleaning tape 3323 of the cleaning stage 3311 in a tensioned state.

The top of the pad printing rack 1 is provided with an air filter which can provide filtered clean air for the interior of the pad printing rack; and a touch screen is arranged on one side of the pad printing rack 1, and the speed and the start-stop time of the conveyor belt can be set through the touch screen.

Those not described in detail in the specification are well within the skill of the art.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as being within the protection scope of the present invention.

Claims

1. A pad printing production line is characterized by comprising a flow table machine and 3D pad printing machines arranged on two sides of the flow table machine; the flow plate machine comprises a flow plate rack, and a lower conveying belt, a lifting conveying belt and a rear conveying belt which are arranged in the flow plate rack, wherein the rear conveying belt is connected to the rear end of the lower conveying belt, the lifting conveying belt is arranged in the middle of the lower conveying belt, and the lifting conveying belt is arranged on a lifting seat driven by an air cylinder; a material tray is arranged at the front end of the lower conveying belt; the 3D pad printing machine comprises a pad printing rack, and a mechanical arm, a primary positioning platform, a UVW correction platform, a cleaning mechanism, a machine head mechanism, a steel plate installation mechanism and a drying mechanism which are arranged in the pad printing rack; the manipulator is arranged on the front side of the pad printing frame, the manipulator 2 extends to the middle of the pad printing machine, a primary positioning platform for placing a product and a UVW correction platform are sequentially arranged on the rear side of the manipulator from the side close to the pad printing machine to the side close to the pad printing machine, the bottom end of the UVW correction platform is connected with a platform guide rail arranged on the pad printing frame, a CCD camera mechanism is arranged above the right end of the platform guide rail, the UVW correction platform runs to the lower side of the CCD camera mechanism through the platform guide rail to take a visual photograph of the product, and then the UVW correction platform accurately corrects the angle and the position of the product; the middle part to the rear part of the pad printing rack is sequentially provided with a drying mechanism, a cleaning mechanism and a steel plate mounting mechanism; the machine head mechanism is arranged at the top of the pad printing rack and can be respectively connected with the UVW correction platform, the cleaning mechanism, the steel plate mounting mechanism and the drying mechanism; the pad printing head of the machine head mechanism cleans the cleaning mechanism, then ink is dipped from the etched steel plate of the steel plate mounting mechanism, the ink is slightly dried in the drying mechanism, and finally the product is imprinted on the UVW correction platform.

2. The pad printing production line according to claim 1, wherein when the lifting seat is at the lower limit position, the lifting transmission belt is flush with the lower transmission belt, and when the lifting seat is at the upper limit position, the lifting transmission belt and the lower transmission belt can smoothly pass through a single material tray.

3. The pad printing production line according to claim 2, wherein the front end of the lower conveying belt is provided with a positioning bracket for limiting the position of the material tray, the two sides of the material tray are provided with stacking brackets for supporting the material tray, the lower end of the material tray is provided with a top frame for jacking up the material tray, the stacking brackets are arranged on a stacking support driven by an air cylinder, and the top frame is arranged on a top seat driven by the air cylinder.

4. The pad printing production line according to claim 3, wherein the front end of the lower conveyor belt is provided with an optical sensor for detecting whether the tray is in the positioning bracket or not, and one side above the lifting conveyor belt is provided with an optical sensor for detecting whether the tray is in a specified position or not.

5. The pad printing production line according to claim 4, wherein the manipulator is provided with a first gripper and a second gripper; when the material is taken, the first gripper grabs the products in the material tray from the production line and conveys the products to the primary positioning platform, the second gripper grabs the products in the primary positioning platform and conveys the products to the UVW correction platform, and the products which are subjected to transfer printing on the UVW correction platform are conveyed to the material tray on the production line through the second gripper.

6. The pad printing production line according to claim 5, wherein the primary positioning platform comprises a placing platform and positioning push rods arranged on four sides of the placing platform, the positioning push rods are arranged on a push plate, the bottom of the push plate is connected with a push rail arranged on a positioning seat, the placing platform is connected with the positioning seat, and the bottom end of the positioning seat is fixedly arranged on the pad printing rack.

7. The pad printing production line according to claim 6, wherein the placing platform is provided with a push groove for accommodating the movement of the positioning push rod.

8. The pad printing production line according to claim 7, wherein the cleaning mechanism comprises a cleaning table, a winding shaft and an unwinding shaft which are arranged on two sides of the cleaning table, and a cleaning belt which sequentially bypasses the cleaning table, the winding shaft and the unwinding shaft; a winding roller and a power-assisted drum are arranged between the cleaning table and the winding shaft, and a driven roller is arranged between the cleaning table and the unwinding shaft; the cleaning belt is wound to the bottom of the driven roller from the left lower part of the unwinding shaft, then passes through the surface of the cleaning table, passes through the upper part of the power assisting cylinder and is wound out from the right lower part of the power assisting cylinder, and then passes through the left part of the winding roller and is wound to the right side of the winding shaft for winding; the winding roller, the power assisting cylinder and the winding shaft are all connected with the motor through belts, and the belts are wound out of the winding shaft, pass through the power assisting cylinder, are wound around the winding roller to the lower left side and then return to the motor to the lower right side; the inner side of the coiling roller is provided with a clamping cylinder connected with the air cylinder, and the cleaning tape is clamped by the clamping cylinder and the coiling roller; the motor controls the revolution number of the winding roller, and then the winding length is calculated and controlled through the circumference of the winding roller.

9. The pad printing production line of claim 8, wherein a brake ram connected with the air cylinder is arranged below the driven roller, and when the winding shaft stops running, the brake ram is driven by the air cylinder to run upwards and clamp the cleaning belt together with the driven roller.

10. The pad printing production line of claim 9, wherein the top of the pad printing frame and the top of the flow tray frame are provided with air filters for providing filtered clean air for the inside of the pad printing frame and the flow tray frame; touch screens are arranged on one sides of the pad printing frame and the stream panel frame, and the speed and the starting and stopping time of the conveyor belt can be set through the touch screens.