CN220057301U - Steam flow cloth dyeing machine - Google Patents

Abstract

The utility model discloses a steam flow cloth dyeing machine, which relates to the technical field of cloth dyeing machines and comprises a cloth dyeing cylinder, a nozzle and a cloth guide tube, wherein the nozzle is arranged at the head position of the cloth dyeing cylinder, one end of the cloth guide tube is connected with the nozzle, the other end of the cloth guide tube is connected with the tail of the cloth dyeing cylinder, the cloth guide tube is connected with the nozzle and the cloth dyeing cylinder through flanges, an impact assembly is arranged in the cloth guide tube, the impact assembly is detachably connected with the cloth guide tube, and a driving assembly for heating air and pushing cloth impact assembly is also arranged on the cloth dyeing cylinder, so that the problems that the existing cloth needs to be dyed firstly and then manufactured through manual or equipment when wrinkles are manufactured are solved, the forming time is long, and the effect of the cloth cover is difficult to be uniform.

Description

Steam flow cloth dyeing machine

Technical Field

The utility model relates to the technical field of cloth dyeing machines, in particular to a steam flow cloth dyeing machine.

Background

The dyeing machine is used for dyeing, bleaching, scouring, dyeing liquid washing and other processes of ready-made clothes such as woolen sweaters, acrylic fibers, cotton sweaters and the like, can also be used for bleaching and dyeing treatment of finished products such as gloves, socks, towels and the like, and is an ideal bleaching and dyeing of the finished products with a reverse nozzle type device for cleaning a blocked cylinder and a wide application range. Along with the rapid development of national economy, the printing and dyeing industry of China also enters a high-speed development period, the level of equipment and technical dye liquor is obviously improved, and the production process and equipment are continuously updated.

The conventional dyeing machine comprises a dyeing barrel, a heat exchanger and a medicine barrel, wherein dye is added through the medicine barrel, the heat exchanger is utilized to heat dye liquor, the conventional cloth is often required to be subjected to wrinkling treatment in the production process, cloth on the market is dyed firstly when the cloth is subjected to wrinkling treatment, and the cloth is manufactured into the wrinkling effect through manual or equipment after finishing dyeing, so that the forming time is long, the effect of the cloth cover is difficult to be uniform, and a solution is provided below aiming at the problems.

Disclosure of Invention

The utility model aims to provide a steam flow cloth dyeing machine, which solves the problems that the existing cloth needs to be dyed firstly and then manufactured by hand or equipment when being wrinkled, the forming time is long, and the effect of the cloth cover is difficult to be uniform.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a steam flow cloth dyeing machine, includes cloth dyeing barrel, nozzle and cloth guide tube, the nozzle is installed the aircraft nose position of cloth dyeing barrel, the one end of cloth guide tube with the nozzle is connected, the other end of cloth guide tube with the tail connection of cloth dyeing barrel, the cloth guide tube with nozzle and cloth dyeing barrel all realize being connected through the flange, install the striking subassembly in the cloth guide tube, the striking subassembly with the cloth guide tube is through dismantling the connection, still install the drive assembly who is used for heating the air and promote cloth striking subassembly on the cloth dyeing barrel.

Preferably, the striking subassembly includes adapter sleeve and striking board, the striking board is the one end of slope form fixed at the adapter sleeve, a plurality of punching holes have been seted up on the striking board, the adapter sleeve is installed in the cloth guide, the adapter sleeve keep away from the one end of striking board with through dismantling between the cloth guide and be connected.

Preferably, the cloth guide pipe is divided into a first connecting pipe and a second connecting pipe which is inclined, the first connecting pipe and the second connecting pipe are connected through a flange, one end of the connecting sleeve, which is far away from the impact plate, is arranged between the first connecting pipe and the second connecting pipe, the connecting sleeve is fixed through the flange on the first connecting pipe and the second connecting pipe, and an annular rubber pad is further arranged at the joint of the first connecting pipe and the second connecting pipe.

Preferably, the driving assembly comprises a heat exchanger and a fan, the cloth dyeing barrel is of a long barrel-shaped structure, the heat exchanger and the fan are both positioned outside the cloth dyeing barrel, an air inlet end of the fan is connected with a machine head of the cloth dyeing barrel through a pipeline, an air outlet end of the fan is connected with a first air delivery pipe between the heat exchanger, an air outlet end of the heat exchanger is connected with a first exhaust pipe, one end, far away from the heat exchanger, of the first exhaust pipe is connected with the nozzle, a first control valve is arranged on the first exhaust pipe, and a thermometer is also arranged on the first exhaust pipe.

Preferably, the driving assembly comprises a heat exchanger and a fan, the cloth dyeing barrel is of a large cylindrical structure, the heat exchanger and the fan are both located outside the cloth dyeing barrel, an air inlet end of the fan is connected with a machine head of the cloth dyeing barrel through a pipeline, an air delivery pipe I is connected between an air outlet end of the fan and the heat exchanger, an exhaust pipe I is connected to an air outlet end of the heat exchanger, one end, far away from the heat exchanger, of the exhaust pipe I is connected with the nozzle, a control valve I is installed on the exhaust pipe I, a thermometer is also installed on the exhaust pipe I, an air delivery pipe II is also installed between the fan and the exhaust pipe I, and a control valve II is installed on the air delivery pipe I and the air delivery pipe II.

Preferably, the driving assembly comprises a heat exchanger and a fan, the cloth dyeing barrel is of a large barrel-shaped structure, the heat exchanger is arranged in the cloth dyeing barrel, the fan is arranged at the top of the cloth dyeing barrel, the air guiding cover is arranged at the top of the heat exchanger, the fan is connected with the air guiding cover through a pipeline, and the air outlet end of the fan is connected with the nozzle through a pipeline.

Preferably, the heat exchanger is also provided with a steam inlet pipe, a condensed water discharge pipe and a heater drain pipe.

The beneficial effects are that: the complete device consisting of the fan, the impact assembly and the heat exchanger can be linked with the process of the original complete machine, can also be independently operated, can realize more process requirements, and saves time and cost;

the complete device circulates air in the cylinder through the fan, the air is rapidly warmed up through the heat exchanger, the cloth stretches greatly because of large temperature difference, meanwhile, the air blown out by the fan is sprayed through the nozzle to drive the cloth to be punched towards the impact assembly at high speed, the impact plate is provided with punching holes, relatively large friction is generated when the cloth is impacted with the impact plate, and the cloth can generate uniform, stable and obvious 'fold' effect after continuous impact;

the dyeing machine with the complete set of devices is mainly used for the 'fold' effect of the cloth cover, after finishing dyeing, the 'fold' effect is made by hands or simple devices, the forming time is long, the cloth cover effect is difficult to be uniform, and the folding work of the cloth can be realized in the dyeing stage through the equipment.

Drawings

FIG. 1 is a schematic diagram of a first embodiment;

FIG. 2 is a schematic diagram showing a position of a driving assembly according to a second embodiment;

FIG. 3 is a schematic side view of a fabric dyeing drum according to the second embodiment;

FIG. 4 is a schematic diagram showing the position of a driving assembly in a third embodiment;

FIG. 5 is a schematic diagram showing a side view of a cloth dyeing drum according to the third embodiment;

FIG. 6 is a schematic structural view for showing an impact assembly;

fig. 7 is a schematic view for showing the structure of the striking plate.

Reference numerals: 1. a cloth dyeing cylinder; 2. a nozzle; 3. a cloth guide tube; 4. an impact assembly; 5. a drive assembly; 6. connecting sleeves; 7. an impingement plate; 8. punching; 9. a first connecting pipe; 10. a second connecting pipe; 11. a heat exchanger; 12. a blower; 13. a first gas pipe; 14. an exhaust pipe I; 15. a first control valve; 16. a thermometer; 17. a second gas pipe; 18. a second control valve; 19. an induced draft cover; 20. a steam inlet pipe; 21. a condensed water discharge pipe; 22. a heater drain.

Detailed Description

The following description is only of the preferred embodiments of the present utility model, and the scope of the present utility model should not be limited to the examples, but should be construed as falling within the scope of the present utility model. It should also be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present utility model are intended to be comprehended within the scope of the present utility model.

See figures 1, 6 and 7 show, a steam flow cloth dyeing machine, including cloth dyeing barrel 1, nozzle 2 and cloth guide tube 3, nozzle 2 installs in the aircraft nose position of cloth dyeing barrel 1, the one end and the nozzle 2 of cloth guide tube 3 are connected, the other end and the tail of cloth dyeing barrel 1 of cloth guide tube 3 are connected, cloth guide tube 3 and nozzle 2 and cloth dyeing barrel 1 all realize being connected through the flange, thereby cloth conveys in cloth dyeing barrel 1, thereby enter into the circulation cloth dyeing of cloth in the cloth guide tube 3 through nozzle 2, current cloth dyeing barrel 1 still is provided with heat exchanger and medicine bucket, add the dyestuff through the medicine bucket, thereby utilize heat exchanger 11 to heat the dye liquor.

Install striking subassembly 4 in the cloth guide 3, but strike subassembly 4 when making cloth convey in cloth guide 3 through installation striking subassembly 4 in cloth guide 3, thereby go to realize the formation of fold on the cloth through striking subassembly 4, striking subassembly 4 is through dismantling the connection with cloth guide 3, when can dismantling the connection through it for can dismantle striking subassembly 4 when the cloth does not need the preparation fold, thereby use cloth dyeing barrel 1 as traditional cloth dyeing barrel 1.

The striking subassembly 4 includes adapter sleeve 6 and striking board 7, and striking board 7 is the one end of slope form fixed at adapter sleeve 6, has offered a plurality of punching holes 8 on the striking board 7, and adapter sleeve 6 is installed in the cloth guide tube 3, and the in-process that cloth was carried out in the cloth guide tube 3 can penetrate in adapter sleeve 6 and contact with striking board 7 on the adapter sleeve 6, because offer the punching hole 8 on the striking board 7 so this cloth can produce relatively great friction when striking board 7 striking, the cloth can produce even stable and obvious "fold" effect after lasting the striking.

The one end that striking board 7 was kept away from to adapter sleeve 6 is through dismantling the connection between the cloth guide tube 3, and the cloth guide tube 3 divide into connecting pipe one 9 and is the connecting pipe two 10 of slope form, connects through the flange between connecting pipe one 9 and the connecting pipe two 10, and the one end that striking board 7 was kept away from to adapter sleeve 6 is installed between connecting pipe one 9 and connecting pipe two 10, thereby adapter sleeve 6 realizes fixing through the flange on connecting pipe one 9 and the connecting pipe two 10, and annular rubber pad is still installed to the junction of connecting pipe one 9 and connecting pipe two 10, plays sealed effect through annular rubber pad, only need the flange joint structure of connecting pipe one 9 and connecting pipe two 10 demolish alright realize dismantling striking subassembly 4 when needs dismantle striking subassembly 4.

The dyeing barrel 1 is also provided with a driving component 5, and the driving component 5 is used for heating air and pushing cloth to strike the striking component 4 through air flow.

Example 1

See fig. 1, drive assembly 5 includes heat exchanger 11 and fan 12, heat exchanger 11 and fan 12 all are located the outside of dyeing cloth section of thick bamboo 1, dyeing cloth section of thick bamboo 1 is long tubular structure, because long tubular dyeing cloth section of thick bamboo 1 its headspace is little, fan 12 puts the top inconvenient, heat exchanger 11 built-in can waste very big inner space so this will be equipped with external, external reasonable choice is just do benefit to equipment and later maintenance, the air inlet end of fan 12 is connected with the aircraft nose of dyeing cloth section of thick bamboo 1 through the pipeline, be connected with gas-supply pipe one 13 between the air-out end of fan 12 and the heat exchanger 11, be connected with blast pipe one 14 on the heat exchanger 11 on the end of giving vent to anger, blast pipe one 14 is kept away from the one end of heat exchanger 11 and is connected with nozzle 2, install control valve one 15 on the blast pipe one 14, still install thermometer 16 on the blast pipe one 14.

In this embodiment, when the driving component 5 is needed, the fan 12 is started, the air in the cloth dyeing barrel 1 is pumped out through the fan 12, the air is discharged into the heat exchanger 11 through the air pipe I13 by the fan 12, the air is heated through the heat exchanger 11, the heated air is discharged into the nozzle 2 through the air discharging pipe I, the spraying is realized through the nozzle 2, the cloth stretches out and draws back due to large temperature difference, and the cloth is pushed to move fast in the cloth guiding pipe 3 through the air, so that the cloth can strike the striking component 4 to manufacture the fold effect of the cloth, the temperature is changed through the thermometer 16, the steam quantity of the heat exchanger 11 is controlled, and the heating is performed according to a preset heating curve.

Example 2

In fig. 2 and 3, the driving assembly 5 comprises a heat exchanger 11 and a fan 12, the heat exchanger 11 and the fan 12 are both positioned outside the cloth dyeing barrel 1, the cloth dyeing barrel 1 is of a large cylindrical structure, the heat exchanger 11 is externally arranged, the fan 12 is placed around the cloth dyeing machine, air suction is performed from the side face, the maintenance of the external heat exchanger 11 and the fan 12 is convenient, the air inlet end of the fan 12 is connected with the machine head of the cloth dyeing barrel 1 through a pipeline, an air delivery pipe I13 is connected between the air outlet end of the fan 12 and the heat exchanger 11, an exhaust pipe I14 is connected to the air outlet end of the heat exchanger 11, one end of the exhaust pipe I14 far away from the heat exchanger 11 is connected with the nozzle 2, a control valve I15 is mounted on the exhaust pipe I14, a thermometer 16 is further mounted on the exhaust pipe I14, an air delivery pipe II 17 is further mounted between the fan 12 and the exhaust pipe I14, and a control valve II 18 is mounted on the air delivery pipe I13 and the air delivery pipe II 17.

In this embodiment, when the driving component 5 is needed, the fan 12 is started, the air in the cloth dyeing cylinder 1 is pumped out from the side through the fan 12, the air is discharged into the heat exchanger 11 through the air pipe I13 by the fan 12, the heated air is discharged into the nozzle 2 through the air pipe I, the nozzle 2 is used for realizing injection, the cloth stretches out and draws back due to large temperature difference, the cloth is pushed to move in the cloth guide pipe 3 quickly through the air, the cloth can strike the striking component 4 to manufacture the fold effect of the cloth, the temperature is changed through the thermometer 16, the steam quantity of the heat exchanger 11 is controlled, the heating is performed according to a preset heating curve, the control valve II 18 on the air pipe I13 can be closed when the heating is not needed through the air pipe II 17, and the control valve II 18 on the air pipe II 17 can only play a role in pushing the nozzle 2 through the wind of the fan 12.

Example 3

In fig. 4 and 5, the driving component 5 comprises a heat exchanger 11 and a fan 12, the heat exchanger 11 is installed in the cloth dyeing barrel 1, the fan 12 is installed at the top of the cloth dyeing barrel 1, the cloth dyeing barrel 1 is of a large cylindrical structure, the heat exchanger 11 is internally arranged, the fan 12 is placed at the top of the cloth dyeing machine to suck air from the top, the top of the fan 12 and the heat exchanger 11 are internally arranged, the space is saved, connecting pipelines and control valves are fewer, an induced air cover 19 is installed at the top of the heat exchanger 11, the fan 12 is connected with the induced air cover 19 through a pipeline, and the air outlet end of the fan 12 is connected with the nozzle 2 through the pipeline.

In this embodiment, when the driving component 5 needs to be used, the fan 12 is started, the air is sucked from the top through the fan 12, the air in the air suction process of the fan 12 passes through the heat exchanger 11, the air is heated by the heat exchanger 11, and the heated air can be directly discharged into the nozzle 2 through the fan 12.

The heat exchanger 11 is also provided with a steam inlet pipe 20, a condensate water outlet pipe 21 and a heater outlet pipe 22.

Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. By "substantially" is meant that within an acceptable error range, a person skilled in the art is able to solve the technical problem within a certain error range, substantially achieving the technical effect.

Claims (7)

1. The utility model provides a steam flow dyeing machine, includes dyeing cloth section of thick bamboo (1), nozzle (2) and cloth guide tube (3), its characterized in that, nozzle (2) are installed the aircraft nose position of dyeing cloth section of thick bamboo (1), the one end of cloth guide tube (3) with nozzle (2) are connected, the other end of cloth guide tube (3) with the tail of dyeing cloth section of thick bamboo (1) is connected, cloth guide tube (3) with nozzle (2) and dyeing cloth section of thick bamboo (1) all realize being connected through the flange, install striking subassembly (4) in cloth guide tube (3), striking subassembly (4) with cloth guide tube (3) are through dismantling the connection, still install on dyeing cloth section of thick bamboo (1) and be used for heating and promote driving assembly (5) of cloth striking subassembly (4) to the air.

2. The steam dyeing machine according to claim 1, characterized in that the striking assembly (4) comprises a connecting sleeve (6) and a striking plate (7), the striking plate (7) is fixed at one end of the connecting sleeve (6) in an inclined manner, a plurality of punching holes (8) are formed in the striking plate (7), the connecting sleeve (6) is arranged in the cloth guide tube (3), and one end, far away from the striking plate (7), of the connecting sleeve (6) is detachably connected with the cloth guide tube (3).

3. The steam dyeing machine according to claim 2, wherein the cloth guide tube (3) is divided into a first connecting tube (9) and a second connecting tube (10) which is inclined, the first connecting tube (9) and the second connecting tube (10) are connected through a flange, one end of the connecting tube (6) away from the impact plate (7) is installed between the first connecting tube (9) and the second connecting tube (10), the connecting tube (6) is fixed through flanges on the first connecting tube (9) and the second connecting tube (10), and an annular rubber pad is further installed at the joint of the first connecting tube (9) and the second connecting tube (10).

4. The steam dyeing machine according to claim 2, wherein the driving assembly (5) comprises a heat exchanger (11) and a fan (12), the dyeing barrel (1) is of a long barrel-shaped structure, the heat exchanger (11) and the fan (12) are both positioned outside the dyeing barrel (1), an air inlet end of the fan (12) is connected with a machine head of the dyeing barrel (1) through a pipeline, an air delivery pipe I (13) is connected between an air outlet end of the fan (12) and the heat exchanger (11), an exhaust pipe I (14) is connected to an air outlet end of the heat exchanger (11), one end, far away from the heat exchanger (11), of the exhaust pipe I (14) is connected with the nozzle (2), a control valve I (15) is arranged on the exhaust pipe I (14), and a thermometer (16) is also arranged on the exhaust pipe I (14).

5. The steam dyeing machine according to claim 2, wherein the driving assembly (5) comprises a heat exchanger (11) and a fan (12), the dyeing barrel (1) is of a large cylindrical structure, the heat exchanger (11) and the fan (12) are both located outside the dyeing barrel (1), an air inlet end of the fan (12) is connected with a machine head of the dyeing barrel (1) through a pipeline, a first air delivery pipe (13) is connected between an air outlet end of the fan (12) and the heat exchanger (11), an exhaust pipe (14) is connected to an upper air outlet end of the heat exchanger (11), one end, far away from the heat exchanger (11), of the exhaust pipe (14) is connected with the nozzle (2), a first control valve (15) is installed on the exhaust pipe (14), a thermometer (16) is also installed on the exhaust pipe (14), a second air delivery pipe (17) is also installed between the fan (12) and the exhaust pipe (14), and the second air delivery pipe (13) is connected with the second control valve (18).

6. The steam dyeing machine according to claim 2, characterized in that the driving assembly (5) comprises a heat exchanger (11) and a fan (12), the dyeing barrel (1) is of a large cylindrical structure, the heat exchanger (11) is installed inside the dyeing barrel (1), the fan (12) is installed at the top of the dyeing barrel (1), the air inducing cover (19) is installed at the top of the heat exchanger (11), the fan (12) is connected with the air inducing cover (19) through a pipeline, and the air outlet end of the fan (12) is connected with the nozzle (2) through a pipeline.

7. A steam dyeing machine according to any of claims 4-6, characterized in that the heat exchanger (11) is also provided with a steam inlet pipe (20), a condensate water outlet pipe (21) and a heater outlet pipe (22).