CN215041222U - Double-station circulating structure of thermal transfer printing bottom plate - Google Patents

Abstract

The utility model discloses a double-station circulating structure of a heat transfer printing bottom plate, which comprises a frame body and a heating plate, wherein a feeding frame is connected and arranged in the frame body, one side of the feeding frame extends out of the frame body, transfer printing components are arranged in the feeding frame in a sliding connection mode, the transfer printing components are overlapped up and down and are provided with two groups, each heat transfer printing component comprises a slide rail, a transfer printing frame and a transfer printing bottom plate, the slide rails are fixedly arranged in the feeding frames at two sides, two sides of the transfer printing frame are connected with the slide rails in a sliding mode, and the transfer printing bottom plate is arranged in the transfer printing frame; the transfer printing frames of the two groups of thermal transfer printing components synchronously move in a staggered way. Has the advantages that: because be equipped with double-deck rendition subassembly and be favorable to forming two stations, be equipped with two rendition frames and be favorable to two stations to carry out the heat-transfer seal operation in turn, be favorable to making two rendition frames crisscross removal in step through actuating mechanism, be equipped with climbing mechanism and be favorable to carrying out the heat-transfer seal with rendition bottom plate jack-up.

Description

Double-station circulating structure of thermal transfer printing bottom plate

Technical Field

The utility model relates to a thermoprint equipment field specifically indicates a heat-transfer seal bottom plate duplex position loop construction.

Background

Thermal transfer printing is an emerging printing process, which is not introduced from abroad for more than 10 years. The printing mode of the process is divided into two parts of transfer printing film printing and transfer printing processing, wherein the transfer printing film printing adopts dot printing (the resolution ratio reaches 300dpi), patterns are printed on the surface of the film in advance, the printed patterns are rich in layers, bright in color, changeable, small in color difference and good in reproducibility, can achieve the required effect of pattern designers, and is suitable for mass production. The transfer printing processing transfers the exquisite pattern on the transfer printing film on the surface of the product through one-step processing (heating and pressurizing) of a thermal transfer printing machine, and the formed ink layer and the surface of the product are dissolved into a whole, so that the product is vivid and beautiful, and the grade of the product is greatly improved.

However, the existing thermal transfer machine is usually arranged at one station, the working efficiency is low, some double-station thermal transfer equipment appears in the market for improving the processing efficiency, but the feeding areas of the existing thermal transfer double-station equipment are arranged at the front side and the rear side of the transfer machine, two ends of the transfer machine are feeding areas, and during operation, two areas of an operator are required to get materials up and down in a reciprocating mode, or the two sides of the transfer machine are provided with the operator for operation, so that the labor is increased, and meanwhile, the working moving space is large. Two upper and lower material taking areas are arranged, and the machine occupies a large space. Therefore, a dual-station circulation structure of a thermal transfer backplane is needed to solve the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome above technical defect, provide a simple structure, the practicality is strong, only is equipped with one and goes up the unloading district and can accomplish a heat-transfer seal bottom plate duplex position loop construction of the last unloading operation in duplex position.

In order to solve the technical problem, the utility model provides a technical scheme does: a double-station circulating structure of a thermal transfer printing bottom plate comprises a frame body and a heating plate, wherein a feeding frame is connected inside the frame body, one side of the feeding frame extends out of the frame body, transfer printing assemblies are arranged in the feeding frame in a sliding connection mode, the transfer printing assemblies are arranged in two groups in an up-down overlapping mode, each thermal transfer printing assembly comprises a sliding rail, a transfer printing frame and a transfer printing bottom plate, the sliding rails are fixedly arranged in the feeding frame on the two sides, the two sides of the transfer printing frame are connected with the sliding rails in a sliding mode, and the transfer printing bottom plates are arranged in the transfer printing frames; the transfer printing frames of the two groups of heat transfer printing components synchronously move in a staggered manner, and a driving mechanism for driving the two transfer printing frames to move in a staggered manner is also arranged in the feeding frame; the inside downside of support body is equipped with climbing mechanism, climbing mechanism is used for jack-up rendition bottom plate.

Further, the fixed mounting panel that is equipped with of the inside upside of support body, the board that generates heat sets up in the mounting panel downside, the board that generates heat has used elastic construction to be connected with the mounting panel, elastic construction is including setting up in a plurality of guide bars of the board up end that generates heat, the guide bar upwards passes the mounting panel in, the guide bar is equipped with the dog at the mounting panel upside, all around being equipped with the spring on the guide bar, the spring is located the mounting panel and generates heat between the board.

Further, the support body upside outside is equipped with the petticoat pipe, petticoat pipe top central point puts and is equipped with the exhaust fan.

Further, climbing mechanism is including fixed setting up the cylinder in the support body inside, the gas pole tip of cylinder is equipped with the roof, and cylinder drive roof rises and to the jacking of rendition bottom plate to the board department that generates heat, the support body outside is equipped with the relief pressure valve that provides the air supply for the cylinder.

Further, actuating mechanism includes band pulley, drive belt one, drive belt two, driving motor, the pay-off frame both ends are rotated and are connected and be equipped with the band pulley, drive belt one is walked around a band pulley and two free ends are connected respectively in the one end of two rendition frames, drive belt two is walked around another band pulley to two free ends are connected respectively at the other end of two rendition frames, driving motor drive band pulley rotates, the tip of pay-off frame still is equipped with control button.

Furthermore, the top of the frame body is also provided with a control panel.

Compared with the prior art, the utility model the advantage lie in: the utility model discloses thermal transfer bottom plate duplex position loop construction is favorable to forming two stations owing to be equipped with double-deck rendition subassembly, is equipped with two rendition frames and is favorable to two stations to carry out the thermal transfer operation in turn, is favorable to making two rendition frames synchronous crisscross removal through actuating mechanism, is equipped with climbing mechanism and is favorable to carrying out the thermal transfer with rendition bottom plate jack-up.

Drawings

Fig. 1 is an external structural schematic diagram of the double-station circulating structure of the thermal transfer printing bottom plate of the present invention.

Fig. 2 is a schematic diagram of the front side internal structure of the thermal transfer printing bottom plate double-station circulating structure of the present invention.

Fig. 3 is a schematic diagram of the rear internal structure of the thermal transfer printing bottom plate double-station circulating structure of the present invention.

Fig. 4 is a schematic view of the internal vertical cross section of the double-station circulating structure of the thermal transfer printing bottom plate of the present invention.

Fig. 5 is a schematic cross-sectional view of a feeding frame of a thermal transfer printing bottom plate double-station circulating structure of the present invention.

Fig. 6 is a perspective view of a feeding frame of the thermal transfer printing bottom plate double-station circulating structure of the present invention.

As shown in the figure: 1. a frame body; 2. a heat generating plate; 3. a feeding frame; 4. a slide rail; 5. a transfer frame; 6. a transfer printing bottom plate; 7. mounting a plate; 8. a guide bar; 9. a spring; 10. a smoke hood; 11. an exhaust fan; 12. a cylinder; 13. a top plate; 14. a pressure reducing valve; 15. a pulley; 16. a first transmission belt; 17. a second transmission belt; 18. a drive motor; 19. a control button; 20. a control panel.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals.

In the description of the present invention, it is to be understood that the terms "center", "lateral", "up", "down", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified. Furthermore, the term "comprises" and any variations thereof is intended to cover non-exclusive inclusions.

A double-station circulating structure of a thermal transfer printing bottom plate comprises a frame body 1 and a heating plate 2, wherein a feeding frame 3 is connected and arranged in the frame body 1, one side of the feeding frame 3 extends out of the frame body 1, transfer printing assemblies are arranged in the feeding frame 3 in a sliding connection mode, the transfer printing assemblies are arranged in two groups in an up-and-down overlapping mode, each thermal transfer printing assembly comprises a sliding rail 4, a transfer printing frame 5 and a transfer printing bottom plate 6, the sliding rails 4 are fixedly arranged in the feeding frames 3 on two sides, two sides of the transfer printing frame 5 are connected with the sliding rails 4 in a sliding mode, and the transfer printing bottom plates 6 are arranged in the transfer printing frames 5; the transfer printing frames 5 of the two groups of heat transfer printing components synchronously move in a staggered manner, and a driving mechanism for driving the two transfer printing frames 5 to move in a staggered manner is also arranged in the feeding frame 3; a jacking mechanism is arranged at the lower side in the frame body 1 and is used for jacking the transfer printing bottom plate 6; the two transfer printing components are arranged in an overlapped mode, one transfer printing frame 5 is located below the heating plate 2 for transfer printing, the other transfer printing frame is located on the outer side of the frame body 1 for thermal transfer printing preparation, the jacking mechanism jacks up a transfer printing bottom plate 6 below the heating plate 2 to be in contact with the heating plate 2 for thermal transfer printing, and after the transfer printing is finished, the jacking mechanism retracts, namely the transfer printing bottom plate 6 is placed back into the transfer printing frame 5; then the transfer frame 5 positioned outside the frame body 1 is also prepared to be finished, the two transfer frames 5 are synchronously staggered and transposed through the driving mechanism, the thermal transfer process is repeated, and thus the thermal transfer work of two stations is carried out on one side.

The heating rack is characterized in that a mounting plate 7 is fixedly arranged on the upper side inside the rack body 1, the heating plate 2 is arranged on the lower side of the mounting plate 7, the heating plate 2 is connected with the mounting plate 7 through an elastic structure, the elastic structure comprises a plurality of guide rods 8 arranged on the upper end surface of the heating plate 2, the guide rods 8 upwards penetrate through the mounting plate 7, stop blocks are arranged on the guide rods 8 on the upper side of the mounting plate 7, springs 9 are wound on the guide rods 8, and the springs 9 are positioned between the mounting plate 7 and the heating plate 2; the heating plate 2 can make the transfer printing bottom plate 6 and the heating plate 2 contact softly through the action of the spring 9, and has a certain buffer effect. A smoke hood 10 is arranged outside the upper side of the frame body 1, the smoke hood 10 is provided, and an exhaust fan 11 is arranged in the center of the top of the smoke hood 10; the smoke is easily generated by heating during the heat transfer, the smoke hood 10 arranged on the upper side of the heating plate is beneficial to preventing the smoke from overflowing, and the exhaust fan 11 is used for pumping the smoke out and exhausting the smoke out of a room.

The jacking mechanism comprises an air cylinder 12 fixedly arranged in the frame body 1, a top plate 13 is arranged at the end part of an air rod of the air cylinder 12, the air cylinder 12 drives the top plate 13 to ascend to jack the transfer printing bottom plate 6 to the heating plate 2, and a pressure reducing valve 14 for providing an air source for the air cylinder 12 is arranged on the outer side of the frame body 1; the air cylinder 12 drives the top plate 13 to lift up the transfer base plate 6 and perform the transfer process, and the air cylinder 12 is retracted to drop the transfer base plate 6 back into the corresponding transfer frame 5. The driving mechanism comprises belt wheels 15, a first driving belt 16, a second driving belt 17 and a driving motor 18, the belt wheels 15 are rotatably connected to two ends of the feeding frame 3, the first driving belt 16 bypasses one belt wheel 15, two free ends of the first driving belt are respectively connected to one ends of the two transfer printing frames 5, the second driving belt 17 bypasses the other belt wheel 15, the two free ends of the second driving belt are respectively connected to the other ends of the two transfer printing frames 5, the driving motor 18 drives the belt wheels 15 to rotate, and a control button 19 is further arranged at the end part of the feeding frame 3; the operator prepares the outer transfer plate 6 before transfer, and presses the control button 19 during transfer, so that the two transfer frames 5 are shifted, specifically, the driving motor 18 drives the pulley 15 to rotate, and the pulley 15 moves the two transfer frames 5 simultaneously through the first and second belts 16 and 17. The top of the frame body 1 is also provided with a control panel 20; the control panel 20 is used to set parameters such as the temperature of the heating plate 2 and the time for the cylinder 12 to lift up for transfer printing.

The working principle is as follows: in actual use, one of the two transfer frames 5 is used for heat transfer printing in the frame body 1, the other is used for transfer printing preparation outside, an operator carries out transfer printing preparation, after the operation of the inner transfer frame 5 is finished, the two transfer frames 5 are switched to the same position for cycle operation, the inner air cylinder 12 is used for supporting the transfer printing bottom plate 6, and the exhaust fan 11 is used for exhausting smoke generated by transfer printing.

The present invention and the embodiments thereof have been described above, but the present invention is not limited thereto, and the embodiments shown in the detailed description are only some examples, not all examples, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The double-station circulating structure of the heat transfer printing bottom plate comprises a frame body (1) and a heating plate (2), and is characterized in that a feeding frame (3) is connected inside the frame body (1), one side of the feeding frame (3) extends out of the frame body (1), transfer printing assemblies are arranged in the feeding frame (3) in a sliding connection mode, the transfer printing assemblies are overlapped up and down and are provided with two groups, each heat transfer printing assembly comprises a sliding rail (4), a transfer printing frame (5) and a transfer printing bottom plate (6), the sliding rails (4) are fixedly arranged in the feeding frame (3) on the two sides, the two sides of the transfer printing frame (5) are in sliding connection with the sliding rails (4), and the transfer printing bottom plate (6) is arranged in the transfer printing frame (5); the transfer printing frames (5) of the two groups of heat transfer printing components synchronously move in a staggered manner, and a driving mechanism for driving the two transfer printing frames (5) to move in a staggered manner is also arranged in the feeding frame (3); the inside downside of support body (1) is equipped with climbing mechanism, climbing mechanism is used for jack-up rendition bottom plate (6).

2. The double-station circulating structure of the heat transfer printing base plate according to claim 1, wherein a mounting plate (7) is fixedly arranged on the upper side inside the frame body (1), the heating plate (2) is arranged on the lower side of the mounting plate (7), the heating plate (2) is connected with the mounting plate (7) through an elastic structure, the elastic structure comprises a plurality of guide rods (8) arranged on the upper end surface of the heating plate (2), the guide rods (8) upwards penetrate through the mounting plate (7), stop blocks are arranged on the upper side of the mounting plate (7) through the guide rods (8), springs (9) are wound on the guide rods (8), and the springs (9) are arranged between the mounting plate (7) and the heating plate (2).

3. The double-station circulating structure of the heat transfer printing base plate is characterized in that a smoke hood (10) is arranged outside the upper side of the frame body (1), the smoke hood (10) is arranged, and an exhaust fan (11) is arranged in the center of the top of the smoke hood (10).

4. The double-station circulating structure of the thermal transfer printing bottom plate according to claim 1, wherein the jacking mechanism comprises a cylinder (12) fixedly arranged inside the frame body (1), a top plate (13) is arranged at the end of an air rod of the cylinder (12), the cylinder (12) drives the top plate (13) to ascend to jack the transfer printing bottom plate (6) to the heating plate (2), and a pressure reducing valve (14) for providing an air source for the cylinder (12) is arranged on the outer side of the frame body (1).

5. The double-station circulating structure of the thermal transfer printing bottom plate according to claim 1, wherein the driving mechanism comprises a belt wheel (15), a first transmission belt (16), a second transmission belt (17) and a driving motor (18), the belt wheel (15) is rotatably connected to two ends of the feeding frame (3), the first transmission belt (16) bypasses one belt wheel (15) and two free ends are respectively connected to one ends of the two transfer printing frames (5), the second transmission belt (17) bypasses the other belt wheel (15) and two free ends are respectively connected to the other ends of the two transfer printing frames (5), the driving motor (18) drives the belt wheel (15) to rotate, and a control button (19) is further arranged at the end of the feeding frame (3).

6. The double-station circulating structure of the heat transfer printing bottom plate according to claim 1, wherein a control panel (20) is further arranged at the top of the frame body (1).

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