CN111497469A

CN111497469A - UV machine with damping material receiving and discharging structure

Info

Publication number: CN111497469A
Application number: CN202010341943.6A
Authority: CN
Inventors: 刘威
Original assignee: Nantong Dongchuan Digital Technology Co ltd
Current assignee: Nantong Dongchuan Digital Technology Co ltd
Priority date: 2020-04-27
Filing date: 2020-04-27
Publication date: 2020-08-07

Abstract

The invention provides a UV (ultraviolet) machine with a damping material receiving and discharging structure, and belongs to the technical field of UV printer equipment. The feeding and tensioning device comprises a feeding air-tensioning roller, a feeding tensioning roller, a first steering roller, a damping roller, a second steering roller, a printing platform, a main driving roller, a lower pressing roller, a lamp box, a receiving supporting roller and a receiving air-tensioning roller which are sequentially arranged, wherein the tensioning degree of a material belt can be well adjusted through the feeding tensioning roller, different balance weights can be arranged, the tensioning degree can be adjusted through the first steering roller, the conveying speed of the material belt can be well adjusted through the damping roller, so that the influence of too fast conveying of the material belt on the tensioning degree is reduced, the driving lower pressing roller is arranged, the material belt can be pressed before printing, the tensioning degree of the material belt during printing is further ensured, and the printing effect of the material belt is better.

Description

UV machine with damping material receiving and discharging structure

Technical Field

The invention belongs to the technical field of UV printer equipment, and particularly relates to a UV machine with a damping material receiving and discharging structure.

Background

The UV printer is a high-tech plate-free full-color digital printer, is not limited by materials, and can be used for carrying out color photo-level printing on the surfaces of T-shirts, sliding doors, cabinet doors, sliding doors, glass, plates, various labels, crystals, PVC, acrylic, metal, plastics, stones, leather and the like. But current UV printer when printing the material area, thereby can lead to the material area to guarantee that fine rising degree makes the printing effect not good because the material in material area is different and transport speed is different usually, leads to the material area extravagant.

Disclosure of Invention

In order to comprehensively solve the problems, in particular to overcome the defects in the prior art, the invention provides the UV machine with the damping material receiving and discharging structure.

The invention adopts the following technical scheme: a UV machine with a damping material receiving and discharging structure comprises a material discharging air expansion roller, a material discharging expansion roller, a first steering roller, a damping roller, a second steering roller, a printing platform, a main driving roller, a lower pressing roller, a light box, a material receiving supporting roller and a material receiving air expansion roller which are sequentially arranged, wherein the material discharging air expansion roller is used for placing a material belt, the material belt sequentially passes through the material discharging expansion roller, the first steering roller, the damping roller, the second steering roller, the printing platform, the main driving roller, the lower pressing roller, the light box, the material receiving supporting roller and is wound on the material receiving air expansion roller, the material discharging expansion roller is connected with a balance weight support plate, downward movement of the material discharging expansion roller can be realized through a balance weight on the balance weight support plate, tensioning of the material belt is realized, the material belt is used for receiving the material belt conveyed by the material discharging roller, and transmitting the material belt to the damping roller, and the first steering roller can move up, the damping roller is connected with the magnetic powder brake and is used for controlling the material belt transmission speed and conveying the material belt to a second steering roller, the second steering roller is used for conveying the material belt to a main driving roller through a printing platform, the printing platform is used for printing the material belt passing through the platform, the main driving roller is used for conveying the material belt to a material receiving supporting roller, the material receiving supporting roller is used for conveying the material belt to a material receiving air expansion roller, the lower compression roller is used for ascending to support against the main driving roller before printing, and the lamp box is used for drying the printed material belt.

And hinged plates are connected to two ends of the first steering roller and arranged in the U-shaped guide groove of the steering roller and are controlled to ascend and descend through a lifting cylinder.

Two discharging supporting rollers for preventing the material belt from falling off are correspondingly arranged at the lower part of the discharging air expansion roller.

The lamp box adopts an ultraviolet lamp box.

And two photoelectric sensors which are arranged up and down and used for detecting the material belt are arranged on the inner side of the discharging and tensioning roller.

The lower pressing roller is provided with an electric telescopic support which can enable the lower pressing roller to ascend and descend vertically.

The two ends of the discharging tensioning roller are hinged to the supporting blocks, the counterweight support plates are welded on the supporting blocks, supporting rods are welded on the lower portions of the supporting blocks, supporting legs are correspondingly installed at the lower ends of the supporting rods, piston grooves corresponding to the supporting rods are formed in the supporting legs, the lower ends of the supporting rods are arranged in the piston grooves and can move up and down along the piston grooves, buffer springs are sleeved on the portions, located on the upper portions of the supporting legs, of the supporting rods, one ends of the buffer springs are welded with the supporting legs, the other ends of the buffer springs are welded with spring fixing plates arranged on the supporting rods, the counterweight support plates are connected through connecting rods, two supporting rods are welded at the two ends of the connecting rods, supporting legs II are correspondingly installed at the lower ends of the supporting legs, piston grooves II corresponding to the supporting rods are formed in, The lower motion, the part cover that the bracing piece is two in supporting leg two upper portions is equipped with buffer spring two, buffer spring two's one end and supporting leg two welding, the other end and the second welding of the spring fixing plate that sets up on the bracing piece two, supporting leg two and base, the counter weight mounting panel is formed with a plurality of counter weight grooves and is used for placing barbell type counter weight.

The invention has the beneficial effects that: the feeding and tensioning device is simple in structure, the tensioning degree of the material belt can be well adjusted through the feeding and tensioning roller, different counter weights can be arranged, the tensioning degree can be adjusted through the steering roller, the conveying speed of the material belt can be well adjusted through the damping roller, therefore, the influence of the too fast conveying of the material belt on the tensioning degree is reduced, the driving lower pressing roller is arranged, the material belt can be compressed before printing, the tensioning degree of the material belt during printing is further ensured, and the printing effect of the material belt is better.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the discharging tension roller and the counterweight support plate of the invention;

FIG. 3 is a schematic layout of the main drive roll, the lower compaction roll of the present invention;

FIG. 4 is a schematic view of the connection of a first deflection roller of the present invention to a lift cylinder;

fig. 5 is a schematic diagram of the control circuit of the present invention.

Detailed Description

The technical scheme of the invention is clearly and completely described in the following with reference to the accompanying drawings.

As shown in fig. 1-3, the present embodiment provides a UV machine with a damping material receiving and discharging structure, which includes a material discharging air-expanding roller 2, a material discharging expanding roller 3, a first steering roller 601, a damping roller 7, a second steering roller 602, a printing platform 11, a main driving roller 12, a lower pressing roller 13, a light box 14, a material receiving supporting roller 1, and a material receiving air-expanding roller 2, which are sequentially arranged, the material discharging air-expanding roller 2 is used for placing a material strip, the material strip sequentially passes through the material discharging expanding roller 3, the first steering roller 601, the damping roller 7, the second steering roller 602, the printing platform 11, the main driving roller 12, the lower pressing roller 13, the light box 14, and the material receiving supporting roller 1 and is wound on the material receiving air-expanding roller 16, the material discharging roller 3 is connected with a counterweight support plate 4, downward movement of the material discharging expanding roller 3 can be realized through a counterweight on the counterweight support plate 4, and further realize tensioning of the material strip, the material strip is conveyed by the first, the material belt is conveyed to a damping roller 7, the first steering roller 601 can move up and down to adjust the tension degree of the material belt, the damping roller 7 is connected with a magnetic powder brake 8 and used for controlling the transmission speed of the material belt and conveying the material belt to a second steering roller 602, the second steering roller 602 is used for conveying the material belt to a main driving roller 12 through a printing platform 11, the printing platform 11 is used for printing the material belt passing through the platform, the main driving roller 12 is used for conveying the material belt to a material receiving supporting roller 1, the material receiving supporting roller 1 is used for conveying the material belt to a material receiving air expansion roller 16, the lower pressing roller 13 is used for ascending to abut against the main driving roller 12 before printing, and the lamp box 14 is used for drying the printed material belt.

Hinged plates 603 are connected to two ends of the first steering roller 601, are arranged in the U-shaped guide grooves 9 of the steering rollers and are controlled to lift through a lifting cylinder 10.

Two discharging supporting rollers 15 for preventing the material belt from falling off are correspondingly arranged at the lower part of the discharging air expansion roller 2.

The light box 14 is an ultraviolet light box.

And two photoelectric sensors 5 which are arranged up and down and used for detecting the material belt are arranged on the inner side of the discharging and tensioning roller 3.

The lower pressing roller 13 is provided with an electric telescopic bracket 1301 capable of lifting up and down along the lower pressing roller 13, the electric telescopic bracket 1301 comprises a second hinged plate 1302 hinged with two ends of the lower pressing roller 13, and the second hinged plate is connected with an electric telescopic cylinder 1303.

The two ends of the discharging tensioning roller 3 are hinged with a supporting block 301, a counterweight support plate 4 is welded on the supporting block 301, a supporting rod 302 is welded on the lower portion of the supporting block 301, a supporting leg 303 is correspondingly installed at the lower end of the supporting rod 302, a piston groove 304 corresponding to the supporting rod 302 is arranged on the supporting leg 303, the lower end of the supporting rod 302 is arranged in the piston groove 304 and can move up and down along the piston groove 304, a buffer spring 305 is sleeved on the part, located at the upper portion of the supporting leg 303, of the supporting rod 302, one end of the buffer spring 305 is welded with the supporting leg 303, the other end of the buffer spring 305 is welded with a spring fixing plate 306 arranged on the supporting rod 302, the counterweight support plates 4 are connected through a connecting rod 401, two supporting rods 402 are welded at the two ends of the connecting rod 401, two supporting legs 403 are, the lower end of the second support rod 402 is arranged in the second piston groove 404 and can move up and down along the second piston groove 404, a buffer spring second 405 is sleeved on the part, located on the upper portion of the second support leg 403, of the second support rod 402, one end of the buffer spring second 405 is welded with the second support leg 403, the other end of the buffer spring second is welded with the second spring fixing plate 406 arranged on the second support rod 402, the support leg 303, the second support leg 403 and the base 307 are fixed with the bottom surface through expansion wires, and the counterweight support plate 4 is provided with a plurality of counterweight grooves 407 for placing barbell-shaped counterweights.

When the device is used specifically, a material belt is firstly placed on the discharging air expansion roller 2, one end of the material belt sequentially passes through the discharging expansion roller 3, the steering roller 601, the damping roller 7, the steering roller two 602, the printing platform 11, the main driving roller 12, the lower pressing roller 13, the lamp box 14 and the material receiving supporting roller 1 and is wound on the material receiving air expansion roller 16, before printing, the lower pressing roller 13 is controlled to ascend to abut against the main driving roller 12 to clamp the material belt, meanwhile, a barbell type counterweight is added on the counterweight support plate 4 to adjust the tension of the material belt, meanwhile, the lifting cylinder can drive the steering roller 6 to lift to adjust the tension of the material belt, when the material belt passes through the damping roller 7, the transmission speed of the material belt can be adjusted through the damping roller 7, the tension cannot be influenced by too fast conveying of the material belt, when the speed is too fast, the damping roller can generate a braking action through the magnetic powder brake, so that the speed of conveyed objects is gradually reduced, the material belt tension degree is adjusted, printing is carried out on the printing platform 11, after printing is completed, the lower pressing roller 13 moves downwards to be away from the main driving roller 12, the material receiving air expansion roller 16 receives material, printed parts can be quickly dried when passing through the lamp box 14, better printing quality is guaranteed, the photoelectric sensor 5 is used for detecting the material discharging state of the material belt, when the photoelectric sensor 5 cannot detect the material belt, the material discharging air expansion roller 2 stops working, electromagnetic valves are arranged at the air inlet and the air outlet of the material discharging air expansion roller and the material receiving air expansion roller, air is fed during feeding, the diameter is increased, the material belt is tightly supported, air is exhausted during feeding, the diameter is reduced, and the material belt is taken out; all drives, electromagnetic valves, sensors and lamp boxes are driven by an STC89C52RC single chip microcomputer and are specifically connected as shown in figure 5.

The feeding and tensioning device is simple in structure, the tensioning degree of the material belt can be well adjusted through the feeding and tensioning roller, different counter weights can be arranged, the tensioning degree can be adjusted through the steering roller, the conveying speed of the material belt can be well adjusted through the damping roller, therefore, the influence of the too fast conveying of the material belt on the tensioning degree is reduced, the driving lower pressing roller is arranged, the material belt can be compressed before printing, the tensioning degree of the material belt during printing is further ensured, and the printing effect of the material belt is better.

The present invention is illustrated by way of example and not by way of limitation. It will be apparent to those skilled in the art that other variations and modifications may be made in the foregoing disclosure without departing from the spirit or essential characteristics of all embodiments, and that all changes and modifications apparent from the above teachings are within the scope of the invention.

Claims

1. The UV machine with the damping material receiving and discharging structure is characterized by comprising a material discharging air expansion roller (2), a material discharging expansion roller (3), a first steering roller (601), a damping roller (7), a second steering roller (602), a printing platform (11), a main driving roller (12), a lower pressing roller (13), a lamp box (14), a material receiving supporting roller (1) and a material receiving air expansion roller (16) which are sequentially arranged, wherein the material discharging air expansion roller (2) is used for placing a material belt, the material belt sequentially passes through the material discharging expansion roller (3), the first steering roller (601), the damping roller (7), the second steering roller (602), the printing platform (11), the main driving roller (12), the lower pressing roller (13), the lamp box (14), the supporting roller (1) and is wound on the material receiving air expansion roller (16), the material discharging expansion roller (3) is connected with a balance weight support plate (4), and the downward movement of the material discharging roller (3) can be realized through a balance weight on the balance weight support plate (4), the material belt tensioning is further realized, the first steering roller (601) is used for receiving the material belt conveyed by the discharging and tensioning roller (3) and conveying the material belt to the damping roller (7), the first steering roller (601) can move up and down to adjust the tensioning degree of the material belt, the damping roller (7) is connected with the magnetic powder brake (8) and used for controlling the conveying speed of the material belt and conveying the material belt to the second steering roller (602), the second steering roller (602) is used for conveying the material belt to the main driving roller (12) through the printing platform (11), the printing platform (11) is used for printing the material belt passing through the platform, the main driving roller (12) is used for conveying the material belt to the material receiving supporting roller (1), the supporting roller (1) is used for conveying the material belt to the material receiving air-expanding roller (16), and the lower pressing roller (13) is used for pressing against the main driving roller (12) before printing, the lamp box (14) is used for drying the printed material belt.

2. The UV machine with the damping material receiving and discharging structure is characterized in that hinged plates are connected to two ends of the first steering roller (601), are arranged in the U-shaped guide groove (9) of the first steering roller, and are controlled to lift through the lifting cylinder (10).

3. The UV machine with the damping material receiving and discharging structure according to claim 2, wherein two material discharging supporting rollers (15) for preventing the material belt from falling off are correspondingly arranged at the lower part of the material discharging air expansion roller (2).

4. The UV machine with the damping material receiving and discharging structure as claimed in claim 3, wherein the lamp box (14) is an ultraviolet lamp box.

5. The UV machine with the damping material receiving and releasing structure according to claim 4, wherein two photoelectric sensors (5) arranged up and down for detecting the material belt are arranged on the inner side of the material releasing and tensioning roller (3).

6. The UV machine with the damping material receiving and discharging structure according to claim 5, wherein an electric telescopic support capable of lifting the lower pressing roller (13) up and down is arranged on the lower pressing roller (13).

7. The UV machine with the damping material receiving and releasing structure according to claim 6, wherein two ends of the material releasing tension roller (3) are hinged to a supporting block (301), a counterweight support plate (4) is welded on the supporting block (301), a supporting rod (302) is welded on the lower portion of the supporting block (301), a supporting leg (303) is correspondingly installed at the lower end of the supporting rod (302), a piston groove (304) corresponding to the supporting rod (302) is formed in the supporting leg (303), the lower end of the supporting rod (302) is arranged in the piston groove (304) and can move up and down along the piston groove (304), a buffer spring (305) is sleeved on the portion, located at the upper portion of the supporting leg (303), of the supporting rod (302), one end of the buffer spring (305) is welded with the supporting leg (303), and the other end of the buffer spring is welded with a spring fixing plate (306) arranged on, the counterweight support plates (4) are connected through a connecting rod (401), two ends of the connecting rod (401) are welded with a second support rod (402), a second support leg (403) is correspondingly arranged at the lower end of the second support rod (402), a second piston groove (404) corresponding to the second support rod (402) is arranged on the second support leg (403), the lower end of the second support rod (402) is arranged in the second piston groove (404) and can move up and down along the second piston groove (404), a second buffer spring (405) is sleeved on the part, positioned at the upper part of the second support leg (403), of the second support rod (402), one end of the second buffer spring (405) is welded with the second support leg (403), the other end of the second buffer spring is welded with the second spring fixing plate (406) arranged on the second support rod (402), the supporting legs (303), the second supporting legs (403) and the base (307), the balance weight support plate (4) is provided with a plurality of balance weight grooves (407) for placing barbell type balance weights.