CN217052695U - Tank type multi-row dyeing machine - Google Patents

Abstract

The utility model provides a tank type multi-row dyeing machine, which comprises a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage groove; the dyeing machine body is of a tank body structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, and the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes; the multi-row dyeing machine further comprises a treatment liquid circulating device. A complete dyeing cycle is formed by arranging a single corresponding cloth lifting cavity, a cloth arranging structure and a cloth storage tank, and fabrics are dyed by a plurality of production lines in one dyeing machine, so that water consumption, power consumption and dye consumption are reduced, and the production efficiency is improved.

Description

Tank type multi-row dyeing machine

Technical Field

The utility model relates to a dyeing machine field, more specifically relates to a tank-type multirow dyeing machine.

Background

Under the environment of green, environmental protection, low carbon and economy, energy conservation and emission reduction become global consensus, and a novel low-bath-ratio overflow dyeing machine which is rapidly developed in recent years meets the green development trend and is favored by wide dyeing and printing users.

At present, due to energy conservation and emission reduction, a tank type multi-row dyeing machine needs to be developed, wherein the tank shape of the tank type multi-row dyeing machine is of a tank type structure, namely a commonly-called O-shaped tank structure. Because the water consumption, the power consumption and the dye consumption generated by a plurality of single-row dyeing machines for producing fabrics simultaneously are large, while one multi-row dyeing machine can weave and dye a plurality of fabrics in one cylinder, the water, electricity and dye auxiliaries consumed are far less than the loss generated by a plurality of single-row dyeing machines. Meanwhile, the multi-row dyeing machine can correspondingly shorten the time for dyeing the fabric and the time for the front treatment and the back treatment, and has higher production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome above-mentioned prior art a plurality of single dyeing machine productions many fabrics simultaneously and the great defect of loss that produces provides a tank-type multirow dyeing machine, can weave many fabrics of dyeing simultaneously.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a tank type multi-row dyeing machine comprises a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage tank; the dyeing machine body is of a tank body structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, the first motor is arranged on the dyeing machine body, the cloth lifting wheels are arranged in the dyeing machine body and are positioned beside the cloth inlet, and the N cloth lifting wheels are in transmission connection with an output shaft of the first motor; the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes, wherein the second motor is arranged in the dyeing machine body; the N cloth storage grooves are arranged in the dyeing machine body side by side and comprise cloth storage cavities, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes are inserted into the inlets of the corresponding cloth storage cavities; the multirow dyeing machine further comprises a treatment liquid circulating device, wherein the treatment liquid circulating device comprises a liquid storage tank and a circulating pump, the liquid storage tank is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump is communicated with the liquid storage tank through a pipeline, and the liquid outlet end of the circulating pump is communicated with a nozzle in the cloth pipe through a pipeline.

According to the technical scheme, a complete dyeing cycle is formed by the single cloth lifting cavity, the cloth placing structure and the cloth storage groove which are correspondingly arranged, the fabric enters the tank body of the dyeing machine through the cloth inlet, and the first motor drives the cloth lifting wheel through the cloth lifting wheel; after passing through the synchronous cloth lifting wheel, the fabric enters a cloth inlet pipe, and a nozzle sprays treatment liquid to dye the fabric; the fabric passes through the fabric arranging pipe, and the fabric arranging device breaks up the fabric in the fabric arranging pipe, so that abnormal dyeing is avoided; after the fabric enters the cloth storage groove from the cloth arranging pipe, the fabric is lifted by the cloth lifting wheel and enters the next wheel for dyeing because the fabric is a connected ring. Wherein the cloth storage groove is separately arranged corresponding to the single fabric, thereby avoiding the problems of winding and knotting with other fabrics after the fabrics enter the cloth storage groove.

Furthermore, the cloth lifting device further comprises N cloth lifting structures, a cylindrical cloth lifting cavity is arranged in each cloth lifting structure, and the cloth lifting cavities are communicated with a cavity inside the dyeing machine body

Still further, the cloth lifting wheel is arranged in the cloth lifting cavity, and the first motor is arranged on the outer wall of the dyeing machine body.

Furthermore, the cloth inlet is arranged on the cloth lifting cavity, and the cloth inlet is correspondingly provided with a window.

According to the technical scheme, the cloth lifting cavity is communicated with the inside of the dyeing machine body, the fabric enters the cloth lifting wheel from a cloth inlet on the cloth lifting cavity, enters a weaving and dyeing link, returns to the cloth lifting wheel through the cloth storage groove and is circularly woven and dyed, and the fabric can be discharged from the cloth inlet when the fabric needs to be discharged.

Furthermore, a plurality of anti-skidding structures which are arranged in parallel are arranged on the cloth lifting wheel.

Furthermore, the anti-skid structure is a plurality of rubber columns which are arranged in parallel and fixed together.

According to the technical scheme, the anti-slip structure formed by the rubber columns can drive the fabric to move to the maximum degree when the fabric lifting wheel lifts the fabric.

Furthermore, the second motor is a rotating motor, the cloth swinging structure comprises a first transmission rod and a second transmission rod, one end of the first transmission rod is connected with an output shaft of the rotating motor, the other end of the first transmission rod is movably connected with the second transmission rod, and one end of the second transmission rod is connected with the cloth swinging pipe.

According to the design of the technical scheme, the second motor drives the cloth swinging structure, and the cloth swinging structure drives the cloth swinging pipe, so that cloth swinging is realized. The second motor drives the first transmission rod, the first transmission rod drives the second transmission rod, and the second transmission rod drives the cloth arranging pipe, so that the cloth arrangement of the fabric is realized, and the fabric is scattered.

Further, the liquid storage tank is arranged at the bottom of the dyeing machine body.

Still further, the treatment liquid circulation device further comprises a heater which is communicated with the conduit between the circulation pump and the nozzle.

According to the design of the technical scheme, the filtering device is arranged in the liquid storage tank, the woven and dyed treatment liquid can be re-filtered, the filtered treatment liquid is put into use again through the circulating pump again, energy consumption and water consumption are reduced, and water pollution is reduced.

Furthermore, the multi-row dyeing machine further comprises a cloth outlet device, the cloth outlet structure comprises a cloth outlet wheel and a cloth outlet frame, the cloth outlet frame is connected with the dyeing machine body, and the cloth outlet wheel is arranged on the cloth outlet frame.

According to the technical scheme, the cloth discharging frame is connected to the dyeing machine body and used for supporting the cloth discharging wheel, and when the fabric is discharged, the fabric is discharged from the cloth discharging opening and then is discharged into the transfer vehicle through the cloth discharging wheel in a circulating mode.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

the utility model provides a tank type multi-row dyeing machine, which comprises a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage groove; the dyeing machine body is of a tank body structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, the first motor is arranged on the dyeing machine body, the cloth lifting wheels are arranged in the dyeing machine body and are positioned beside the cloth inlet, and the N cloth lifting wheels are in transmission connection with an output shaft of the first motor; the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes, wherein the second motor is arranged in the dyeing machine body, an output shaft of the second motor is connected with the cloth swinging structure, the cloth swinging structure is connected with the N cloth swinging pipes, one end of each cloth swinging pipe can be rotatably connected with the cloth feeding pipe, and a nozzle is arranged in each cloth feeding pipe; the N cloth storage grooves are arranged in the dyeing machine body side by side and comprise cloth storage cavities, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes are inserted into the inlets of the corresponding cloth storage cavities; the multirow dyeing machine further comprises a treatment liquid circulating device, wherein the treatment liquid circulating device comprises a liquid storage tank and a circulating pump, the liquid storage tank is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump is communicated with the liquid storage tank through a pipeline, and the liquid outlet end of the circulating pump is communicated with a nozzle in the cloth pipe through a pipeline.

The utility model discloses a thereby set up single cloth chamber of carrying that corresponds, put cloth structure and store up the cloth groove and form a complete dyeing circulation, dye the fabric at a plurality of production lines in a dyeing machine to reduce water consumption, power consumption and dyestuff loss, and improved production efficiency.

Drawings

Fig. 1 is a schematic view of a dying machine.

Fig. 2 is a schematic view of a cloth lifting wheel.

Fig. 3 is a schematic view of the connection between the cloth placing device and the cloth placing pipe.

Fig. 4 is a schematic view of the connection between the cloth placing device and the cloth placing pipe.

Figure 5 is a schematic representation of fabric dyeing.

Wherein: 1. a cloth lifting device; 101. a first motor; 102. a cloth lifting wheel; 103. a cloth lifting cavity; 104. a rubber column; 2. a cloth placing device; 201. a second motor; 202. arranging a pipe; 203. a cloth feeding pipe; 204. a first drive lever; 205. a second transmission rod; 3. a cloth storage tank; 4. a liquid storage tank; 5. a circulation pump; 6. a cloth inlet; 7. windowing; 8. a heater.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the present application will be clearly and completely described below with reference to the drawings of the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments without any inventive step, are within the scope of protection of the present application.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. As used in this application, the terms "first," "second," and the like, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used only to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example 1

As shown in fig. 1-2, the present embodiment discloses a tank type multi-row dyeing machine, which comprises a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage tank; the dyeing machine body is of a tank body structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, the first motor is arranged on the dyeing machine body, the cloth lifting wheels are arranged in the dyeing machine body and are positioned beside the cloth inlet, and the N cloth lifting wheels are in transmission connection with an output shaft of the first motor; the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes, wherein the second motor is arranged in the dyeing machine body; the N cloth storage grooves are arranged in the dyeing machine body side by side and comprise cloth storage cavities, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes are inserted into the inlets of the corresponding cloth storage cavities; the multirow dyeing machine also comprises a treatment liquid circulating device, wherein the treatment liquid circulating device comprises a liquid storage tank and a circulating pump, the liquid storage tank is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump is communicated with the liquid storage tank through a pipeline, and the liquid outlet end of the circulating pump is communicated with a nozzle in the cloth inlet pipe through a pipeline.

In a specific implementation process, the cloth lifting device 1 further comprises N cloth lifting structures, a cylindrical cloth lifting cavity 103 is arranged in each cloth lifting structure, and the cloth lifting cavities 103 are communicated with a cavity in the dyeing machine body.

In a specific implementation process, the cloth lifting wheel 102 is arranged in the cloth lifting cavity 103, and the first motor 101 is arranged on the outer wall of the dyeing machine body.

In the specific implementation process, the cloth inlet 6 is arranged on the cloth lifting cavity 103, and the opening window 7 is correspondingly arranged at the cloth inlet 6.

The cloth lifting structure is communicated with the inside of the dyeing machine through a cloth lifting cavity 103, after entering a cloth lifting wheel 102 from a cloth inlet on the cloth lifting cavity 103, after entering a weaving and dyeing link, the fabric returns to the cloth lifting wheel 102 through a cloth storage groove 3 to be circularly woven and dyed, when the fabric needs to be discharged, the fabric is discharged from the cloth inlet, because in the weaving and dyeing process of the fabric, the fabric enters and is woven and dyed, and then is discharged, wherein the cloth inlet can meet the requirements of the fabric inlet and the fabric outlet, and the fabric outlet is provided with a closable opening window 7, if the dyeing condition of the fabric needs to be observed, the fabric can be observed through glass on the opening window 7.

In the specific implementation process, the cloth lifting wheel 102 is provided with a plurality of anti-skid structures which are arranged in parallel.

In the specific implementation process, the anti-slip structure is a plurality of rubber columns 104 which are arranged in parallel and fixed together, as shown in fig. 2.

The anti-slip structure formed by the rubber columns 104 can drive the fabric to move to the maximum extent when the cloth lifting wheel 102 lifts the cloth.

In the specific implementation process, the multi-row dyeing machine further comprises a cloth discharging device, the cloth discharging structure comprises a cloth discharging wheel and a cloth discharging frame, the cloth discharging frame is connected with the dyeing machine body, and the cloth discharging wheel is arranged on the cloth discharging frame.

In the implementation process of the embodiment, a complete dyeing cycle is formed by the single correspondingly arranged cloth lifting cavity 103, the cloth placing structure and the cloth storage tank 3, a plurality of fabrics enter the inside of the tank body of the dyeing machine through the cloth inlet 6 arranged on the cloth lifting device 1, and after passing through each cloth lifting wheel 102, the first motor 101 drives each cloth lifting wheel 102; a plurality of fabrics enter the cloth feeding pipe 203 after passing through respective cloth lifting wheels 102; the treatment liquid is sprayed out from a nozzle at the cloth inlet pipe 203, and the fabric is dyed; the fabric passes through the fabric arranging pipe 202, and the fabric arranging device 2 breaks up the fabric in the fabric arranging pipe 202, so that abnormal dyeing is avoided; after each fabric enters each cloth storage groove 3 from each cloth swinging pipe 202, because the fabric is a connected ring, the fabric enters the next round of dyeing from the cloth lifting cavity 103, and after the fabric dyeing is finished, the fabric is discharged from the cloth inlet 6 and is conveyed into the conveying vehicle through the cloth outlet wheel. And the cloth storage groove 3 is separately arranged corresponding to the single fabric, so that the problems of winding and knotting with other fabrics after the fabrics enter the cloth storage groove 3 are avoided.

Example 2

As shown in fig. 1, 3 and 4, the present embodiment provides a tank-type multi-row dyeing machine, which includes a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage tank; the dyeing machine body is of a tank structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, the first motor is arranged on the dyeing machine body, the cloth lifting wheels are arranged in the dyeing machine body and located beside the cloth inlet, and the N cloth lifting wheels are in transmission connection with an output shaft of the first motor; the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes, wherein the second motor is arranged in the dyeing machine body; the N cloth storage grooves are arranged in the dyeing machine body side by side and comprise cloth storage cavities, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes are inserted into the inlets of the corresponding cloth storage cavities; the multi-row dyeing machine further comprises a treatment liquid circulating device, the treatment liquid circulating device comprises a liquid storage tank and a circulating pump, the liquid storage tank is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump is communicated with the liquid storage tank through a pipeline, and the liquid outlet end of the circulating pump is communicated with a nozzle in the cloth pipe through a pipeline.

In a specific implementation process, the second motor 201 is a rotating motor, the cloth swinging structure includes a first transmission rod 204 and a second transmission rod 205, one end of the first transmission rod 204 is connected to an output shaft of the rotating motor, the other end of the first transmission rod is movably connected to the second transmission rod 205, and one end of the second transmission rod 205 is connected to the cloth swinging pipe 202, as shown in fig. 3 and 4.

In the specific implementation process, the multi-row dyeing machine further comprises a cloth discharging device, the cloth discharging structure comprises a cloth discharging wheel and a cloth discharging frame, the cloth discharging frame is connected with the dyeing machine body, and the cloth discharging wheel is arranged on the cloth discharging frame.

In the implementation process of the embodiment, a complete dyeing cycle is formed by the single cloth lifting cavity 103, the cloth placing structure and the cloth storage tank 3 which are correspondingly arranged, a plurality of fabrics enter the tank body of the dyeing machine through the cloth inlet 6 arranged on the cloth lifting device 1, and after passing through each cloth lifting wheel 102, the first motor 101 drives each cloth lifting wheel 102; a plurality of fabrics enter the cloth feeding pipe 203 after passing through respective cloth lifting wheels 102; the treatment liquid is sprayed out from a nozzle at the cloth inlet pipe 203, and the fabric is dyed; the fabric passes through the fabric arranging pipe 202, the second motor 201 drives the first transmission rod 204, the first transmission rod 204 drives the second transmission rod 205, and the second transmission rod 205 drives the fabric arranging pipe 202, so that the fabric is arranged, the fabric in the fabric arranging pipe 202 is scattered, and abnormal dyeing is avoided; after the fabric enters the cloth storage groove 3 from the cloth arranging pipe 202, the fabric enters the next round of dyeing from the cloth lifting cavity 103 because the fabric is a connected ring, and after the fabric dyeing is finished, the fabric is discharged from the cloth inlet 6 and is conveyed into the conveying vehicle through the cloth outlet wheel.

Example 3

As shown in fig. 1 and 5, the present embodiment provides a tank type multi-row dyeing machine, which comprises a dyeing machine body, a cloth lifting device, a cloth placing device and a cloth storage tank; the dyeing machine body is of a tank body structure, N cloth inlets are formed in the dyeing machine body, and N is more than or equal to 3; the cloth lifting device comprises a first motor and N cloth lifting wheels, the first motor is arranged on the dyeing machine body, the cloth lifting wheels are arranged in the dyeing machine body and are positioned beside the cloth inlet, and the N cloth lifting wheels are in transmission connection with an output shaft of the first motor; the cloth swinging device comprises a second motor, a cloth swinging structure, N cloth swinging pipes and N cloth feeding pipes, wherein the second motor is arranged in the dyeing machine body; the N cloth storage grooves are arranged in the dyeing machine body side by side and comprise cloth storage cavities, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes are inserted into the inlets of the corresponding cloth storage cavities; the multi-row dyeing machine further comprises a treatment liquid circulating device, the treatment liquid circulating device comprises a liquid storage tank and a circulating pump, the liquid storage tank is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump is communicated with the liquid storage tank through a pipeline, and the liquid outlet end of the circulating pump is communicated with a nozzle in the cloth pipe through a pipeline.

In the specific implementation process, the liquid storage tank 4 is arranged at the bottom of the dyeing machine body.

In the specific implementation process, the treatment liquid circulating device further comprises a heater 8, and the heater 8 is communicated between the circulating pump 5 and the nozzle through a pipeline.

Wherein, a filtering device is arranged in the liquid storage tank 4, the woven and dyed treatment fluid is filtered again, and then the filtered treatment fluid is put into use again through the circulating pump 5, thereby reducing energy consumption and water consumption and being beneficial to reducing water pollution, wherein, the heater 8 heats the treatment fluid to meet the requirement of partial fabrics on water temperature during weaving and dyeing.

In the specific implementation process, the multi-row dyeing machine further comprises a cloth discharging device, the cloth discharging structure comprises a cloth discharging wheel and a cloth discharging frame, the cloth discharging frame is connected with the dyeing machine body, and the cloth discharging wheel is arranged on the cloth discharging frame.

In the implementation process of the embodiment, a complete dyeing cycle is formed by the single cloth lifting cavity 103, the cloth placing structure and the cloth storage tank 3 which are correspondingly arranged, the fabric enters the tank body of the dyeing machine through the cloth inlet 6, and the first motor 101 drives the cloth lifting wheel 102 through the cloth lifting wheel 102; after passing through the synchronous cloth lifting wheel 102, the fabric enters the cloth inlet pipe 203, and the treatment liquid is sprayed out from the nozzle to dye the fabric; the fabric passes through the fabric arranging pipe 202, and the fabric arranging device 2 breaks up the fabric in the fabric arranging pipe 202, so that abnormal dyeing is avoided; after the fabric enters the cloth storage groove 3 from the cloth arranging pipe 202, the fabric enters the next round of dyeing from the cloth lifting cavity 103 because the fabric is a connected ring, and after the fabric dyeing is finished, the fabric is discharged from the cloth inlet 6 and is conveyed into the conveying vehicle through the cloth outlet wheel.

In this embodiment, the treatment liquid sprayed from the nozzle flows into the liquid storage tank 4 at the bottom from the inner wall of the dyeing machine tank, the treatment liquid in the liquid storage tank 4 is filtered by the filter device, and then the filtered treatment liquid is heated by the circulating pump 5 and the heater 8 and pumped to the nozzle again.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The tank type multi-row dyeing machine is characterized by comprising a dyeing machine body, a cloth lifting device (1), a cloth placing device (2) and a cloth storage tank (3);

the dyeing machine body is of a tank structure, N cloth inlets (6) are formed in the dyeing machine body, and N is more than or equal to 3;

the cloth lifting device (1) comprises a first motor (101) and N cloth lifting wheels (102), wherein the first motor (101) is arranged on the dyeing machine body, the cloth lifting wheels (102) are arranged in the dyeing machine body and are positioned beside a cloth inlet, and the N cloth lifting wheels (102) are in transmission connection with an output shaft of the first motor (101);

the cloth swinging device (2) comprises a second motor (201), a cloth swinging structure, N cloth swinging pipes (202) and N cloth feeding pipes (203), the second motor (201) is arranged in the dyeing machine body, an output shaft of the second motor (201) is connected with the cloth swinging structure, the cloth swinging structure is connected with the N cloth swinging pipes (202), one end of each cloth swinging pipe (202) is rotatably connected with the corresponding cloth feeding pipe (203), and a nozzle is arranged in each cloth feeding pipe (203);

the N cloth storage grooves (3) are arranged in the dyeing machine body side by side, each cloth storage groove (3) comprises a cloth storage cavity, each cloth storage cavity comprises an inlet and an outlet, and the other ends of the N cloth swinging pipes (202) are inserted into the inlets of the corresponding cloth storage cavities;

the multi-row dyeing machine further comprises a treatment liquid circulating device, the treatment liquid circulating device comprises a liquid storage tank (4) and a circulating pump (5), the liquid storage tank (4) is communicated with the dyeing machine body through a pipeline, the liquid inlet end of the circulating pump (5) is communicated with the liquid storage tank (4) through a pipeline, and the liquid outlet end of the circulating pump (5) is communicated with a nozzle in the cloth inlet pipe (203) through a pipeline.

2. Tank-type multi-row dyeing machine according to claim 1, characterized in that said cloth lifting device (1) further comprises N cloth lifting structures, inside which there are cylindrical cloth lifting cavities (103), said cloth lifting cavities (103) being in communication with a cavity inside the dyeing machine body.

3. Tank-type multi-row dying machine, according to claim 2, characterised in that said lifting wheel (102) is arranged inside a lifting cavity (103), said first motor (101) being arranged on the external wall of the dying machine body.

4. Tank-type multi-row dyeing machine according to claim 3, characterized in that said cloth inlet (6) is provided on the cloth lifting chamber (103), where the cloth inlet (6) is provided with a corresponding fenestration (7).

5. Tank-type multi-row dying machine, according to claim 1, characterised in that said lifting wheel (102) is provided with several anti-skid structures arranged in parallel.

6. Tank-type multi-row dying machine, in accordance with claim 5, characterised in that said anti-skid structure is a number of rubber columns (104) arranged in parallel and fixed together.

7. Tank-type multi-row dyeing machine according to claim 1, characterized in that said second motor (201) is a rotary motor, said swinging structure comprises a first transmission rod (204) and a second transmission rod (205), said first transmission rod (204) is connected to the output shaft of the rotary motor at one end, and is movably connected to the second transmission rod (205) at the other end, said second transmission rod (205) is connected to the swinging pipe (202) at one end.

8. Tank-type multi-row dying machine, according to claim 1, characterised in that said tank (4) is arranged at the bottom of the dying machine body.

9. Tank-type multi-row dying machine according to claim 8, characterised in that said treatment liquid circulation means also comprise a heater (8), said heater (8) being in communication on the conduit between the circulation pump (5) and the nozzles.

10. Tank-type multi-row dyeing machine according to claim 1, characterized in that it further comprises a cloth-outlet device, said cloth-outlet structure comprising a cloth-outlet wheel and a cloth-outlet frame, said cloth-outlet frame being connected to the dyeing machine body, the cloth-outlet wheel being arranged on the cloth-outlet frame.

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