CN213353906U - Glass panel surface double-color identification printing equipment - Google Patents

Abstract

The utility model discloses a glass panel surface double-color mark printing device, which comprises a feeding frame, a feeding motor plate, a feeding motor, a feeding main shaft, a tension wheel, a chain wheel, a feeding chain, a baffle plate, a printing box, a front printing roller, a front ink adding cylinder, a rear printing roller, a rear ink adding cylinder, a printing motor, a printing transmission shaft, a rear roller wheel, a front roller wheel, a discharge motor, a discharge shaft, a discharge chain wheel, a dyeing material cylinder and a dye tube, wherein the printing machine places the printing to be printed on the feeding frame, conveys the printing to the printing box through the feeding chain, prints the paper through the front printing roller and the rear printing roller respectively, arranges a soft rubber with mark information on the printing roller, and arranges the dyeing material cylinder and the dye tube which are used for conveying the ink, the double-color printing machine can realize the mark automatic printing function of two colors on the paper, and the printing mark and the color can be conveniently changed, and the automatic paper conveying device has the functions of printing effect, color replacement and automatic paper conveying.

Description

Glass panel surface double-color identification printing equipment

Technical Field

The utility model relates to a glass production technical field, concretely relates to double-colored sign lithography apparatus in glass panels surface.

Background

Most of the glass on the market has the mark which is specific to the company, and for the products with a large number of uniform specifications and the same mark on the surface of each glass, if it is certainly impractical to print individually by hand, and existing manufacturers purchase printers, the method can realize the function of printing marks on the surface of the glass, but has higher cost, the surface mark printing is carried out on the glass with the same specification in large batch, so that the design cost is lower, and simple and effective equipment area realization, the utility model designs equipment which has low cost and simple operation and can realize printing by using common dye, can effectively reduce the cost, and then improve the product competitiveness of enterprise, can guarantee again simultaneously that the glass producer can print the product sign on the glass surface.

Disclosure of Invention

The utility model aims at providing a double-colored sign lithography apparatus in glass panels surface, which is not enough for the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a glass panel surface double-color mark printing device comprises a feeding frame, a feeding motor plate, a feeding motor, a feeding main shaft, a tensioning wheel, a chain wheel, a feeding chain, a baffle plate, a printing box, a front printing roller, a front ink adding cylinder, a rear printing roller, a rear ink adding cylinder, a printing motor, a printing transmission shaft, a rear roller wheel, a front roller wheel, a discharging motor, a discharging shaft, a discharging chain wheel, a dyeing cylinder and a dye tube, wherein two long through holes are formed in the panel on the upper end surface of the feeding frame, the feeding motor plate is fixedly arranged on the feeding frame, the feeding motor is fixedly arranged on the feeding motor plate, the feeding main shaft is connected with the chain wheel on the feeding motor through the chain, the tensioning wheel is arranged on the feeding frame through a rotating shaft, the chain wheel is arranged on the feeding frame through the rotating shaft and positioned in front of the tensioning wheel, the feeding chain is arranged on the tensioning wheel and the chain wheel, the, printing box and last work or material rest fixed connection, preceding printing cylinder install on the printing box and with preceding cylinder wheel fixed connection, preceding add the china ink section of thick bamboo install on the printing box and lie in the top position of preceding printing cylinder, back printing cylinder install on the printing box and with back cylinder wheel fixed connection, back add the china ink section of thick bamboo install on the printing box and lie in the top position of back printing cylinder, printing motor installs on the printing box and with printing transmission shaft fixed connection, back cylinder wheel and back printing cylinder fixed connection, preceding cylinder wheel and preceding printing cylinder fixed connection, ejection of compact motor fixed mounting is on the printing box and with ejection of compact axle fixed connection, ejection of compact sprocket installs at ejection of compact axle fixed connection, dyestuff section of thick bamboo fixed mounting is subaerial, dyestuff pipe one end is placed in the dyestuff section of thick bamboo and the other end is installed before adding china ink section of thick bamboo and back and is added the china ink section.

Furthermore, the diameters of the outer circle end faces of the front printing roller and the rear printing roller are 560mm, and rubber identification textures are arranged on the outer circle end faces.

Furthermore, the diameter of the outer circle of the front ink adding cylinder and the diameter of the outer circle of the rear ink adding cylinder are 200mm, and the end faces of the outer sides of the front ink adding cylinder and the rear ink adding cylinder are in sponge structures.

Further, the dye pipe conveys the dye in the dye cylinder to the front ink adding cylinder and the rear ink adding cylinder through a hydraulic pump.

The utility model discloses following beneficial effect has:

the utility model relates to a glass panel surface double-color identification printing device, when in use, glass to be printed is placed on a feeding frame, a feeding motor drives a feeding main shaft to rotate, the feeding main shaft drives a feeding chain arranged above a tension wheel and a chain wheel to rotate, because the feeding frame is provided with two long through holes, the feeding chain is arranged in the long through hole of the feeding frame, the glass to be printed can be transported into a printing box in the running process of the left and right feeding chains, a front printing cylinder and a rear printing cylinder are arranged in the printing box, a front ink adding cylinder and a rear ink adding cylinder are arranged above the front printing cylinder and the rear printing cylinder, different printing dyes are placed in the front and the rear dyeing cylinders, a dyeing pipe is respectively designed to convey the front and the rear dyes from the dye cylinders to the front ink adding cylinder and the rear ink adding cylinder, the dyes are smeared on the surfaces of the front printing cylinder and the rear printing cylinder through the front ink adding cylinder and the rear ink adding cylinder, in order to realize that the device can print different signs, preceding printing cylinder and back printing cylinder surface have all set up rubber construction's sign pattern, and rubber construction's sign pattern can be changed according to customer's different needs, the ink colour and the pattern that preceding printing cylinder and back printing cylinder used are different simultaneously, just so glass just can reach the function of printing two kinds of patterns and colour behind preceding printing cylinder and the back printing cylinder, in addition, after the printing is accomplished, it is rotatory through ejection of compact axle drive ejection of compact sprocket, ejection of compact sprocket drives the glass board that the chain will have been printed and accomplishes the printing, this double-colored seal identification machine can realize the automatic printing function of sign of two kinds of colours on glass, and it is convenient to change printing sign and colour, has the printing effect, the colour is removable and can carry glass's function automatically.

Drawings

FIG. 1 is a schematic view of the overall structure of a dual-color mark printing device for the surface of a glass panel;

fig. 2 is the structure schematic diagram of the glass panel surface double-color mark printing device of the utility model in the other direction.

In the figure: 1. a feeding frame; 2. a feeding motor plate; 3. a feeding motor; 4. a feeding main shaft; 5. a tension wheel; 6. a sprocket; 7. a feeding chain; 8. a baffle plate; 9. a printing box; 10. a front printing cylinder; 11. a front ink adding cylinder; 12. a rear printing cylinder; 13. a rear ink adding cylinder; 14. printing a motor; 15. printing a transmission shaft; 16. a rear drum wheel; 17. a front drum wheel; 18. a discharging motor; 19. discharging the material shaft; 20. a discharge sprocket; 21. a dyeing cylinder; 22. dye tube.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the present invention.

The utility model relates to a glass panel surface double-color mark printing device as shown in fig. 1 and 2, which comprises a feeding frame 1, a feeding motor plate 2, a feeding motor 3, a feeding main shaft 4, a tension wheel 5, a chain wheel 6, a feeding chain 7, a baffle 8, a printing box 9, a front printing cylinder 10, a front inking cylinder 11, a rear printing cylinder 12, a rear inking cylinder 13, a printing motor 14, a printing transmission shaft 15, a rear roller wheel 16, a front roller wheel 17, a discharging motor 18, a discharging shaft 19, a discharging chain wheel 20, a dyeing cylinder 21 and a dye tube 22, wherein the panel on the upper end surface of the feeding frame 1 is provided with two long through holes, the feeding motor plate 2 is fixedly arranged on the feeding frame 1, the feeding motor 3 is fixedly arranged on the feeding motor plate 2, the feeding main shaft 4 is connected with the chain wheel on the feeding motor 3 through a chain, the tension wheel 5 is arranged on the feeding frame 1 through a rotating shaft, the chain wheel 6 is arranged on the feeding frame 1 and is positioned in front of, the feeding chain 7 is arranged on the tension wheel 5 and the chain wheel 6, the baffle plate 8 is arranged at two sides of the feeding frame 1 through bolt locking, the printing box 9 is fixedly connected with the feeding frame 1, the front printing cylinder 10 is arranged on the printing box 9 and is fixedly connected with the front cylinder wheel 17, the front ink adding cylinder 11 is arranged on the printing box 9 and is positioned above the front printing cylinder 10, the rear printing cylinder 12 is arranged on the printing box 9 and is fixedly connected with the rear cylinder wheel 16, the rear ink adding cylinder 13 is arranged on the printing box 9 and is positioned above the rear printing cylinder 12, the printing motor 14 is arranged on the printing box 9 and is fixedly connected with the printing transmission shaft 15, the rear cylinder wheel 16 is fixedly connected with the rear printing cylinder 12, the front cylinder wheel 17 is fixedly connected with the front printing cylinder 10, the discharging motor 18 is fixedly arranged on the printing box 9 and is fixedly connected with the discharging shaft 19, the discharging chain wheel 20 is arranged on the discharging shaft 19, the dye cylinder 21 is fixedly arranged on the ground, one end of the dye tube 22 is placed in the dye cylinder 21, and the other end of the dye tube is arranged on the front ink adding cylinder 11 and the rear ink adding cylinder 13.

Specifically, the diameters of the outer circle end faces of the front printing roller 10 and the rear printing roller 12 are 560mm, and rubber identification textures are arranged on the outer circle end faces. The excircle diameter of the front ink adding cylinder 11 and the rear ink adding cylinder 13 is 200mm, and the outer end faces are of sponge structures. The dye pipe 22 conveys the dye in the dye cylinder 21 to the front ink adding cylinder 11 and the rear ink adding cylinder 13 through a hydraulic pump.

The utility model discloses a theory of operation does: when in use, glass to be printed is placed on the feeding frame 1, the feeding main shaft 4 is driven to rotate by the feeding motor 3, the feeding main shaft 4 drives the feeding chain 7 arranged above the tension wheel 5 and the chain wheel 6 to rotate, the feeding frame 1 is provided with two long through holes, the feeding chain 7 is positioned in the long through hole of the feeding frame 1, the glass to be printed can be transported into the printing box 9 in the running process of the left feeding chain 7 and the right feeding chain 7, the printing box 9 is internally provided with the front printing roller 10 and the rear printing roller 12, the front ink adding cylinder 11 and the rear ink adding cylinder 13 are arranged above the front printing roller 10 and the rear printing roller 12, different printing dyes are placed in the front dyeing cylinder 21 and the rear dyeing cylinder 21, the dye pipes 22 are respectively designed to convey the front dye from the dye cylinder 21 to the front ink adding cylinder 11 and the rear ink adding cylinder 13, and the dyes are smeared on the surfaces of the front printing roller 10 and the rear printing roller 12 by the front ink adding cylinder 11 and the rear ink adding cylinder 13, in order to realize that the device can print different marks, the surfaces of the front printing cylinder 10 and the rear printing cylinder 12 are respectively provided with a mark pattern of a rubber structure, and the mark patterns of the rubber structures can be replaced according to different requirements of customers, while the colors and patterns of the inks used by the front print cylinder 10 and the rear print cylinder 12 are different, so that the glass can achieve the function of printing two patterns and colors after passing through the front printing cylinder 10 and the rear printing cylinder 12, in addition, after the printing is finished, the discharging shaft 19 drives the discharging chain wheel 20 to rotate, the discharging chain wheel 20 drives the chain to convey the printed glass plate out to finish the printing, this double-colored seal mark machine can realize the automatic printing function of the sign of two kinds of colours on glass, and it is convenient to change printing sign and colour, has printing effect, removable and the automatic function of carrying glass of colour.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (4)

1. The utility model provides a glass panels surface double-colored sign lithography apparatus which characterized in that: comprises a feeding frame (1), a feeding motor plate (2), a feeding motor (3), a feeding main shaft (4), a tension wheel (5), a chain wheel (6), a feeding chain (7), a baffle plate (8), a printing box (9), a front printing roller (10), a front ink adding cylinder (11), a rear printing roller (12), a rear ink adding cylinder (13), a printing motor (14), a printing transmission shaft (15), a rear roller wheel (16), a front roller wheel (17), a discharging motor (18), a discharging shaft (19), a discharging chain wheel (20), a dye cylinder (21) and a dye tube (22), wherein two long through holes are formed in a panel on the upper end face of the feeding frame (1), the feeding motor plate (2) is fixedly arranged on the feeding frame (1), the feeding motor (3) is fixedly arranged on the feeding motor plate (2), the feeding main shaft (4) is connected with the chain wheel on the feeding motor (3) through a chain, the tension wheel (5) is arranged on the upper material rack (1) through a rotating shaft, the chain wheel (6) is arranged on the upper material rack (1) through the rotating shaft and is positioned in front of the tension wheel (5), the feeding chain (7) is arranged on the tension wheel (5) and the chain wheel (6), the baffle plate (8) is arranged on two side positions of the upper material rack (1) through locking bolts, the printing box (9) is fixedly connected with the upper material rack (1), the front printing roller (10) is arranged on the printing box (9) and is fixedly connected with the front roller wheel (17), the front ink adding cylinder (11) is arranged on the printing box (9) and is positioned above the front printing roller (10), the rear printing roller (12) is arranged on the printing box (9) and is fixedly connected with the rear roller wheel (16), the rear ink adding cylinder (13) is arranged on the printing box (9) and is positioned above the rear printing roller (12), the printing motor (14) is arranged on the printing box (9) and is fixedly connected with the printing transmission shaft (15), rear roller wheel (16) and rear printing roller (12) fixed connection, preceding roller wheel (17) and preceding printing roller (10) fixed connection, ejection of compact motor (18) fixed mounting on printing case (9) and with ejection of compact axle (19) fixed connection, ejection of compact sprocket (20) are installed at ejection of compact axle (19) fixed connection, dye cylinder (21) fixed mounting is subaerial, dye pipe (22) one end is placed in dye cylinder (21) the other end install before add ink cylinder (11) and back add ink cylinder (13).

2. The apparatus of claim 1, wherein the printing device comprises: the diameters of the outer circle end faces of the front printing roller (10) and the rear printing roller (12) are 560mm, and rubber identification textures are arranged on the outer circle end faces.

3. The apparatus of claim 1, wherein the printing device comprises: the outer circle diameters of the front ink adding cylinder (11) and the rear ink adding cylinder (13) are 200mm, and the outer end faces are of sponge structures.

4. The apparatus of claim 1, wherein the printing device comprises: the dye pipe (22) conveys dyes in the dye cylinder (21) to the front ink adding cylinder (11) and the rear ink adding cylinder (13) through a hydraulic pump.

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