CN217671669U - Template circulation operation device of underpants heat transfer printing equipment - Google Patents

Abstract

The utility model belongs to the technical field of silk screen printing equipment technique and specifically relates to indicate a template circulation operation device of pants heat-transfer seal equipment, include: the feeding mechanism is sequentially provided with a feeding point, a hot pressing point and a discharging point, the material plates are circularly transferred from the feeding point, the hot pressing point to the discharging point, and a hot pressing mechanism for hot pressing the materials on the material plates by using a template is arranged right above the hot pressing point; the workbench is provided with a first conveying mechanism, a second conveying mechanism and a third conveying mechanism which are sequentially connected; the first conveying mechanism is sequentially provided with a first overturning assembly for withdrawing the upper template of the material plate to the first conveying mechanism, a scraping plate mechanism for scraping the excess material on the template, a water cooling mechanism for cooling the template and a cleaning mechanism for cleaning the template from the starting end to the terminal end; a silk-screen mechanism for silk-screen printing patterns on the template is arranged right above the second conveying mechanism; heating mechanism, positioning mechanism and second upset subassembly. The method and the device have the advantages of improving production efficiency and reducing production cost.

Description

Template circulation operation device of underpants heat transfer printing equipment

Technical Field

The application relates to the technical field of silk screen printing equipment, in particular to a template circulating operation device of underwear heat transfer printing equipment.

Background

At present, patterns such as logo and the like need to be printed on the existing clothes, most factories still rely on manual operation for processing, and the clothes are low in efficiency and high in cost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a template circulation operation device of pants heat-transfer seal equipment, has the advantage that improves production efficiency, reduction in production cost to overcome prior art's not enough, provides.

In order to solve the technical problem, the following technical scheme is adopted in the application:

a template circulation operation device of underwear heat transfer printing equipment comprises:

the workbench is provided with a first conveying mechanism, a second conveying mechanism and a third conveying mechanism which are connected in sequence;

the first conveying mechanism is sequentially provided with a first overturning assembly for withdrawing the upper template of the material plate to the first conveying mechanism, a scraping plate mechanism for scraping the excess material on the template, a water cooling mechanism for cooling the template and a cleaning mechanism for cleaning the template from the starting end to the terminal end;

a silk-screen mechanism for silk-screen printing patterns on the template is arranged right above the second conveying mechanism;

and the third conveying mechanism is sequentially provided with a heating mechanism for heating the template, a positioning mechanism for positioning the template and a second overturning assembly for overturning the template from the third conveying mechanism on a material plate of the feeding mechanism from the starting end to the finishing end.

Further, first upset subassembly with second upset subassembly is all including rotating the returning face plate of connecting in the workstation, the upset cylinder is installed to the returning face plate tip, the vacuum chuck that is used for adsorbing the template is installed to the output shaft tip of upset cylinder, the returning face plate passes through gear motor drive and location.

Further, the scraping plate mechanism comprises a transverse scraping plate cylinder and a longitudinal scraping plate cylinder, the transverse scraping plate cylinder is mounted on the workbench, the longitudinal scraping plate cylinder is mounted at the end portion of an output shaft of the transverse scraping plate cylinder, and a scraping plate is arranged on the output shaft of the longitudinal scraping plate cylinder.

Further, water-cooling mechanism includes the water-cooling board, locates a plurality of inlet openings and the intercommunication inlet opening of water-cooling board side and locate the apopore of water-cooling board bottom surface, the workstation is equipped with and is used for driving the water-cooling drive assembly that the water-cooling board rises and descends.

Further, the cleaning mechanism comprises a cleaning frame, a cleaning roller brush rotationally connected to the cleaning frame, and a cleaning driving assembly for driving the cleaning roller brush to rotate.

Furthermore, the silk screen printing mechanism comprises a coating plate, a trough arranged between the coating plate and the second conveying mechanism, a driving part used for driving the trough to move up and down, and a manipulator used for driving the coating plate to move up and down and move left and right.

Furthermore, the heating mechanism comprises a metal heating block arranged under the third conveying mechanism, and a plurality of heating rods are arranged in the heating block.

Further, the positioning mechanism comprises a positioning frame which is fixedly installed on the workbench and located right above the third conveying mechanism, a positioning cylinder is installed on the positioning frame, and a positioning clamping plate used for positioning the template is arranged at the end part of an output shaft of the positioning cylinder.

Furthermore, the first conveying mechanism, the second conveying mechanism and the third conveying mechanism are all in a chain wheel structure driven by a motor and are arranged in a shape like a Chinese character '21274'.

The beneficial effect of this application: firstly, workers clamp the underwear at a feeding point one by one, the underwear is fixed through a shelf on a flitch, then the underwear moves along with a feeding mechanism, when the flitch moves to the tail end of a third conveying mechanism, a second turnover mechanism turns over a heated template onto the underwear, then the heated template moves to a hot pressing point, the underwear is hot pressed through the hot pressing mechanism, the silk screen printing of patterns on the underwear is realized, and finally the underwear moves to a blanking point, the workers take down the underwear to complete the thermal transfer printing, meanwhile, the template at the blanking point can be adsorbed and grabbed onto the first conveying mechanism through the first turnover mechanism, the hot-pressed template is cleaned, firstly, the residual materials of the template are scraped through a scraper, then the template is cooled through a water cooling mechanism, then the surface of the template is cleaned through a cleaning mechanism, finally, new materials are coated on the template, the template moves onto the third conveying mechanism through the second conveying mechanism, the preheating and the positioning are carried out, finally, the actions of the template on the flitch are repeated through the first turnover mechanism, the whole production process only needs to manually feeding and the direct hot pressing and cleaning steps are needed, and the production cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a rear view of an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a hot press mechanism in an embodiment of the present application;

FIG. 4 is a schematic structural view of a first flipping unit and a second flipping unit in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a water cooling mechanism in the embodiment of the present application;

FIG. 6 is a schematic structural view of a sweeping mechanism in an embodiment of the present application;

FIG. 7 is a schematic view of the structure of a heating mechanism in the embodiment of the present application;

fig. 8 is a schematic structural diagram of a positioning mechanism in an embodiment of the present application.

Reference numerals are as follows: 1. a feeding mechanism; 11. a feeding point; 12. hot pressing point; 13. a discharging point; 14. a material plate; 141. a clip; 15. a first conveying mechanism; 16. a second transport mechanism; 17. a third transport mechanism; 2. a hot-pressing mechanism; 21. a hot-pressing cylinder; 22. a hot-pressing plate; 23. hot pressing blocks; 3. a first flipping assembly; 4. a scraping plate mechanism; 41. a transverse scraper cylinder; 42. a longitudinal squeegee cylinder; 5. a water cooling mechanism; 51. a water-cooling plate; 52. a water inlet hole; 53. a water outlet hole; 54. a water-cooled drive assembly; 6. a cleaning mechanism; 61. a cleaning frame; 62. cleaning a rolling brush; 63. a sweeping drive assembly; 7. a screen printing mechanism; 71. coating a material plate; 72. a trough; 73. a drive section; 74. a manipulator; 8. a heating mechanism; 81. a heating block; 82. a heating rod; 9. a positioning mechanism; 91. a positioning frame; 92. positioning the air cylinder; 93. positioning a clamping plate; 10. a second flipping component; 100. a turnover plate; 101. turning over the air cylinder; 102. and (4) vacuum chuck.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings to facilitate the description of the application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be constructed in operation as a limitation of the application.

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 application, "a plurality" means two or more unless specifically limited otherwise.

An underpants heat transfer apparatus, see fig. 1 to 8, comprising:

the feeding mechanism 1 is sequentially provided with a feeding point 11, a hot pressing point 12 and a material plate 14 which is circularly transferred from the feeding point 11, the hot pressing point 12 to a discharging point 13, and a hot pressing mechanism 2 for hot pressing the material on the material plate 14 by using a template is arranged right above the hot pressing point 12; in this embodiment, the material loading structure is two sets of horizontal motor drive's hold-in range mechanism, and a set of vertical motor drive's hold-in range mechanism constitutes, and two sets of horizontal hold-in range mechanism parallel arrangement of each other, and vertical hold-in range mechanism sets up in the head and the tail end of two sets of horizontal hold-in range mechanisms.

Wherein, two sets of horizontal synchronous belt mechanism are provided with 3 flitch 14 stations respectively, and vertical synchronous belt mechanism is provided with 2 flitch 14 stations, and material loading point 11 is located the first flitch 14 stations of a set of horizontal synchronous belt mechanism, and hot pressing point 12 is located another horizontal synchronous belt mechanism's second station in the middle of, and unloading point 13 is located another horizontal synchronous belt mechanism's terminal station.

The device comprises a workbench, a first conveying mechanism 15, a second conveying mechanism 16 and a third conveying mechanism 17, wherein the workbench is provided with the first conveying mechanism, the second conveying mechanism and the third conveying mechanism which are sequentially connected;

the first conveying mechanism 15 is sequentially provided with a first overturning assembly 3 for withdrawing the template on the material plate 14 to the first conveying mechanism 15, a scraping plate mechanism 4 for scraping the residual material on the template, a water cooling mechanism 5 for cooling the template and a cleaning mechanism 6 for cleaning the template from the starting end to the terminal end;

a silk-screen mechanism 7 for silk-screen printing patterns on the template is arranged right above the second conveying mechanism 16;

the third conveying mechanism 17 is sequentially provided with a heating mechanism 8 for heating the template, a positioning mechanism 9 for positioning the template and a second overturning assembly 10 for overturning the template from the third conveying mechanism 17 onto the material plate 14 of the feeding mechanism 1 from the starting end to the ending end.

Further, the first conveying mechanism 15, the second conveying mechanism 16 and the third conveying mechanism 17 are all in a chain wheel structure driven by a motor and are arranged in a shape like' 21274. The first conveying mechanism 15 is located on one side of a material plate 14 station of the blanking point 13, and the tail end of the third conveying mechanism 17 is located on one side of a material plate 14 station of the longitudinal synchronous belt mechanism.

Specifically, the material plate 14 is provided with a clip 141 for holding the material (underwear), so as to ensure that the material is stable during the hot-press transfer.

Further, the hot pressing mechanism 2 comprises a hot pressing cylinder 21 and a hot pressing plate 22 arranged at the end part of the output shaft of the hot pressing cylinder 21; the hot pressing device further comprises a hot pressing block 23 which is connected to the bottom of the hot pressing plate 22 in a sliding mode through a plurality of guide rods, and springs are sleeved on the guide rods. During hot pressing, the hot pressing cylinder 21 pushes the hot pressing block 23 to abut against the template downwards, and flexible abutting is performed through the spring, so that the abutting is guaranteed to be firmer, the template and the material plate 14 cannot be damaged, and the hot pressing effect is better.

Further, first upset subassembly 3 with second upset subassembly 10 all includes to rotate to be connected in the workstation to be located the returning face plate 100 of feed mechanism 1 one side, upset cylinder 101 is installed to returning face plate 100 tip, vacuum chuck 102 that is used for adsorbing the template is installed to the output shaft tip of upset cylinder 101, returning face plate 100 passes through gear motor drive and location.

In this embodiment, the length and angle of the flipping panel 100 require routine measurement and design by those skilled in the art to ensure that the template can be accurately transferred and positioned after flipping.

Further, the scraping mechanism 4 comprises a transverse scraping cylinder 41 arranged on the workbench and a longitudinal scraping cylinder 42 arranged at the end part of the output shaft of the transverse scraping cylinder 41, and the output shaft of the longitudinal scraping cylinder 42 is provided with a scraping plate. The scraping plate mechanism 4 is used for scraping off excess materials on the template, so that the subsequent silk-screen printing step is facilitated.

Further, the water cooling mechanism 5 includes a water cooling plate 51, a plurality of water inlet holes 52 disposed on a side surface of the water cooling plate 51, and a water outlet hole 53 communicated with the water inlet holes 52 and disposed on a bottom surface of the water cooling plate 51, and the workbench is provided with a water cooling driving assembly 54 for driving the water cooling plate 51 to ascend and descend.

In this embodiment, the inlet opening 52 all needs to lead to and establishes the water pipe to carry out water-cooling, during the water-cooling, at first water-cooling drive assembly 54 is close to the template with water-cooling board 51 butt, later flushes to the template from apopore 53, cools off the template, and after the cooling, water-cooling drive assembly 54 keeps away from the template with water-cooling board 51. Specifically, the water-cooled driving assembly 54 is a cylinder mounted on a water-cooled frame.

Further, the cleaning mechanism 6 includes a cleaning frame 61, a cleaning roller 62 rotatably connected to the cleaning frame 61, and a cleaning driving assembly 63 for driving the cleaning roller to rotate. In the present embodiment, the cleaning drive unit 63 is a motor-driven timing belt mechanism.

Further, the screen printing mechanism 7 includes a coating plate 71, a trough 72 provided between the coating plate 71 and the second conveying mechanism 16, a driving unit 73 for driving the trough 72 to move up and down, and a manipulator 74 for driving the coating plate 71 to move up and down and left and right. In this embodiment, the adopted screen printing mechanism 7 is a screen printing machine, and specifically, during screen printing, the second conveying mechanism 16 firstly conveys the template to a position right below the trough 72, then the trough 72 is close to the template, and finally the scraper plate prints the coating on the template in a screen printing manner, so that template feeding is realized; the driving portion 73 is an air cylinder.

Further, the heating mechanism 8 includes a metal heating block 81 disposed right below the third conveying mechanism 17, and a plurality of heating rods 82 are disposed inside the heating block 81.

Further, the positioning mechanism 9 includes a positioning frame 91 fixedly mounted on the workbench and located right above the third conveying mechanism 17, a positioning cylinder 92 is mounted on the positioning frame 91, and a positioning clamping plate 93 for positioning the template is arranged at an end of an output shaft of the positioning cylinder 92. Due to the design of the positioning mechanism 9, the template can be conveniently and accurately grabbed by the second turnover mechanism.

The specific working process comprises the following steps: firstly, a worker clamps each underwear at a feeding point 11, the underwear is fixed through a frame on a flitch 14, then the underwear moves along with a feeding mechanism 1, when each flitch 14 moves to the tail end of a third conveying mechanism 17, a second turnover mechanism overturns a heated template onto the underwear, then the underwear moves to a hot pressing point 12, the underwear is hot pressed through a hot pressing mechanism 2, screen printing of patterns on the underwear is realized, and finally the underwear moves to a blanking point 13, the worker takes off the underwear to complete hot transfer printing, meanwhile, the template at the blanking point 13 is adsorbed and grabbed onto a first conveying mechanism 15 through the first turnover mechanism, the hot-pressed template is cleaned, firstly, residual materials of the template are scraped through a scraper, then the template is cooled through a water cooling mechanism 5, then the template surface is cleaned through a cleaning mechanism 6, finally, new materials are coated on the template, the template moves onto the third conveying mechanism 17 through a second conveying mechanism 16, preheating and positioning are performed, finally, the first turnover mechanism is repeated to move the template onto the flitch 14, the whole production process only needs to be convenient, and the production cost is reduced.

The above-mentioned embodiments are merely illustrative and not restrictive, and those skilled in the art can make modifications to the embodiments without inventive contribution as required after reading the present specification, but only protected by the patent laws within the scope of the claims of the present application.

Claims (8)

1. A template circulation operation device of underwear heat transfer printing equipment is characterized by comprising:

the workbench is provided with a first conveying mechanism, a second conveying mechanism and a third conveying mechanism which are connected in sequence;

the first conveying mechanism is sequentially provided with a first overturning assembly for withdrawing the upper template of the material plate to the first conveying mechanism, a scraping plate mechanism for scraping excess materials on the template, a water cooling mechanism for cooling the template and a cleaning mechanism for cleaning the template from a starting end to a terminal end;

a silk-screen mechanism for silk-screen printing patterns on the template is arranged right above the second conveying mechanism;

the third conveying mechanism is sequentially provided with a heating mechanism for heating the template, a positioning mechanism for positioning the template and a second overturning assembly for overturning the template from the third conveying mechanism on a material plate of the feeding mechanism from the starting end to the terminal end.

2. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: first upset subassembly with second upset subassembly all is including rotating the returning face plate of connecting in the workstation, the upset cylinder is installed to the returning face plate tip, the vacuum chuck that is used for adsorbing the template is installed to the output shaft tip of upset cylinder, the returning face plate passes through gear motor drive and location.

3. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the scraping plate mechanism comprises a transverse scraping plate cylinder and a longitudinal scraping plate cylinder, the transverse scraping plate cylinder is installed on the workbench, the longitudinal scraping plate cylinder is installed at the end portion of an output shaft of the transverse scraping plate cylinder, and a scraping plate is arranged on an output shaft of the longitudinal scraping plate cylinder.

4. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the water-cooling mechanism comprises a water-cooling plate, a plurality of water inlet holes formed in the side face of the water-cooling plate, and a water outlet hole communicated with the water inlet holes and formed in the bottom face of the water-cooling plate, and the workbench is provided with a water-cooling driving assembly used for driving the water-cooling plate to ascend and descend.

5. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the cleaning mechanism comprises a cleaning frame, a cleaning rolling brush rotationally connected to the cleaning frame and a cleaning driving assembly driving the cleaning rolling brush to rotate.

6. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the silk screen printing mechanism comprises a coating plate, a trough arranged between the coating plate and the second conveying mechanism, a driving part used for driving the trough to move up and down, and a manipulator used for driving the coating plate to move up and down and move left and right.

7. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the heating mechanism comprises a metal heating block arranged right below the third conveying mechanism, and a plurality of heating rods are arranged inside the heating block.

8. The stencil circulation operation apparatus of a pants heat transfer apparatus as claimed in claim 1, wherein: the positioning mechanism comprises a positioning frame which is fixedly arranged on the workbench and is positioned right above the third conveying mechanism, a positioning cylinder is arranged on the positioning frame, and a positioning clamping plate used for positioning the template is arranged at the end part of an output shaft of the positioning cylinder.

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