CN220443375U - Gas-liquid separation device for dyeing machine after gas flow dehydration - Google Patents

Abstract

The utility model relates to the technical field of dyeing machine dehydration, in particular to a gas-liquid separation device used after the dyeing machine gas dehydration, which comprises a dyeing machine main body, a gas dehydration nozzle, a gas dehydration blowing pipe and a water separator capable of separating gas and liquid, wherein the gas dehydration nozzle, the gas dehydration blowing pipe and the water separator are arranged in the dyeing machine main body, cloth to be dehydrated move in the dyeing machine main body through a cloth guide wheel, the gas dehydration nozzle and the gas dehydration blowing pipe are oppositely arranged at two sides of the cloth, the water separator is arranged at the lower side of the gas dehydration blowing pipe so as to suck and separate gas containing vaporous liquid, the structure of the device is improved on the basis of the prior art, and the water separator capable of separating water in the gas is additionally arranged, so that the liquid separated from the cloth can be recovered by the water separator, the water-gas separation is realized, the situation of mixed liquid in the recovered gas is avoided, and the subsequent dehydration capability of the cloth is effectively improved.

Description

Gas-liquid separation device for dyeing machine after gas flow dehydration

Technical Field

The utility model relates to the technical field of dyeing machine dehydration, in particular to a gas-liquid separation device used after air flow dehydration of a dyeing machine.

Background

The principle of the air flow dehydration technology adopted by the rope dyeing machine in the current market is that high-speed air flow is utilized to blow to the travelling rope-shaped cloth, and the separation of liquid and cloth is realized by utilizing the action of wind power;

however, the separated liquid is atomized liquid droplets which float in the air, and the atomized liquid droplets are blown into a dehydration nozzle for dehydration after being sucked by a fan, and the liquid droplets are condensed into liquid after being sprayed on cloth due to the fact that a large amount of liquid mist is contained in the gas, so that the dehydration efficiency of the airflow dehydration nozzle is seriously affected, and the liquid content on the cloth cannot be effectively reduced;

thus, there is a strong need for a device that allows the separation of a mist of liquid from air after the liquid has been separated from the cloth.

Disclosure of Invention

The utility model aims to provide a gas-liquid separation device for a dyeing machine after air flow dehydration, which aims to solve the problem that in the prior art, when vaporific liquid particles float in the air after liquid is separated from cloth, liquid mist is contained in circulated gas, and the subsequent dehydration efficiency of an air flow dehydration nozzle is affected.

In order to achieve the above purpose, the utility model provides a gas-liquid separation device after gas flow dehydration of a dyeing machine, which comprises a dyeing machine body, a gas flow dehydration nozzle, a gas flow dehydration blowing pipe and a water separator capable of separating gas and liquid, wherein the gas flow dehydration nozzle, the gas flow dehydration blowing pipe and the water separator are arranged in the dyeing machine body, cloth to be dehydrated moves in the dyeing machine body through a cloth guide wheel, the gas flow dehydration nozzle and the gas flow dehydration blowing pipe are oppositely arranged at two sides of the cloth, and the water separator is arranged at the lower side of the gas flow dehydration blowing pipe so as to suck and separate gas flow containing vaporous liquid.

The water separator comprises a suction pipe, a water-gas separator and an air flow dehydration fan, wherein the suction pipe is arranged at the lower side of the air flow dehydration blowing pipe and is connected with the air flow dehydration fan through a pipeline, and the air flow dehydration fan sucks air flow mixed with mist liquid separated from cloth and is communicated with the water-gas separator.

The water-gas separator is provided with a separator air inlet, a separator air outlet and a liquid discharge port arranged at the bottom of the water-gas separator, the separator air inlet is arranged at one side of the bottom of the water-gas separator and is communicated with the air flow dewatering fan, and the separator air outlet is arranged at the other side of the water-gas separator and is communicated with the air flow dewatering air blowing pipe.

The dyeing machine body is further provided with a dyeing machine nozzle, and the dyeing machine nozzle is arranged at the downstream of the airflow dehydration nozzle along the cloth conveying direction.

According to the gas-liquid separation device used for the dyeing machine after the gas flow is dehydrated, the structure of the device is improved on the basis of the prior art, and the water separator capable of separating the water body in the gas flow is additionally arranged, so that the liquid separated from the cloth can be recovered by the water separator, water-gas separation is realized, the situation that the recovered gas is mixed with the liquid is avoided, and the subsequent dehydration capability of the cloth is effectively improved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a schematic side view of a gas-liquid separator for a dyeing machine after gas stream dehydration.

FIG. 2 is a schematic diagram of the main structure of a gas-liquid separation device after dehydration of air flow for a dyeing machine.

101-dyeing machine main body, 102-air dehydration nozzle, 103-air dehydration blowpipe, 104-moisture separator, 105-suction pipe, 106-moisture separator, 107-air dehydration fan, 108-separator air inlet, 109-separator air outlet, 110-liquid discharge port, 111-cloth guide wheel, 112-cloth, 113-vaporific liquid and 114-dyeing machine nozzle.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 2, fig. 1 is a schematic side structural diagram of a gas-liquid separation device after dehydration of air flow of a dyeing machine according to the present utility model, and fig. 2 is a schematic main structural diagram of a gas-liquid separation device after dehydration of air flow of a dyeing machine according to the present utility model.

The utility model provides a gas-liquid separation device after gas flow dehydration of a dyeing machine, which comprises a dyeing machine main body 101, a gas flow dehydration nozzle 102, a gas flow dehydration blowing pipe 103 and a gas-liquid separable water separator 104, wherein the gas flow dehydration nozzle 102, the gas flow dehydration blowing pipe 103 and the gas-liquid separable water separator 104 are arranged in the dyeing machine main body 101, the water separator 104 comprises a suction pipe 105, a water-gas separator 106 and a gas flow dehydration fan 107, the water-gas separator 106 is provided with a separator air inlet 108, a separator air outlet 109 and a liquid discharge outlet 110 arranged at the bottom of the water separator 104, cloth 112 to be dehydrated moves in the dyeing machine main body through a cloth guide wheel 111, the gas flow dehydration nozzle 102 and the gas flow dehydration blowing pipe 103 are oppositely arranged at two sides of the cloth 112, and the water separator 104 is arranged at the lower side of the gas flow dehydration blowing pipe 103 so as to suck and separate gas flow containing mist liquid 113.

In this embodiment, the cloth 112 to be dehydrated is limited by the cloth guide wheel 111, so as to circulate in the dyeing machine body, the air flow dehydration nozzles 102 and the air flow dehydration air blowing pipes 103 are arranged at two sides of the cloth 112, so that the water body on the cloth 112 can be the vaporous liquid 113 separated from the cloth 112, the moisture separator 104 sucks the air mixed with the vaporous liquid 113, after the moisture separation, the air is circulated into the air flow dehydration air blowing pipes 103, the subsequent cloth 112 is continued to be dehydrated, the separated liquid naturally falls to the bottom of the water-gas separator 106 under the action of gravity, is discharged by the liquid discharge ports 110, the suction pipe 105 is used for sucking the vaporous liquid 113, the air flow dewatering fan 107 is matched with the suction pipe 105 to generate negative pressure so that air flow mixed with mist liquid 113 is sent into the air-water separator 106, the air inlet 108 of the separator is matched with the air flow dewatering fan 107 so that air flow mixed with mist liquid 113 can be sent into the air-water separator 106, the air outlet 109 of the separator sends out air flow for removing water and air flow can be sent into the air flow dewatering blowing pipe 103 for next circulation, and as can be understood, the technical scheme is used for solving the problem that after the dyeing machine in the prior art performs air flow dewatering on the cloth 112, liquid is mixed in circulating air flow, and the follow-up air flow dewatering effect is poor.

Wherein the suction pipe 105 is arranged at the lower side of the air dehydrating blow pipe 103 and is connected with the air dehydrating blower 107 through a pipeline, and the air dehydrating blower 107 sucks the air mixed with the mist liquid 113 separated from the cloth 112 and is communicated with the water vapor separator 106.

The suction pipe 105 cooperates with the air flow dewatering fan 107 to generate negative pressure, so that the air flow mixed with the mist liquid 113 can be sent into the water-gas separator 106, and the water-gas separator 106 is used for separating water and gas, so that the mist liquid 113 naturally settles after impinging on the plate body, and the structure of the suction pipe is not described in detail in the present application because the suction pipe belongs to the prior art.

Secondly, the separator air inlet 108 is disposed at one side of the bottom of the water-gas separator 106 and is communicated with the air flow dewatering fan 107, and the separator air outlet 109 is disposed at the other side of the water-gas separator 106 and is communicated with the air flow dewatering air blowing pipe 103.

The separator air inlet 108 is used for allowing the air flow mixed with the mist liquid 113 to enter the water-gas separator 106, the separator air outlet 109 enables the air removed by the liquid to be sent into the air flow dehydration blowing pipe 103 for the next circulation, and the liquid discharge outlet 110 is opened when required, so that the water body deposited at the bottom of the water-gas separator 106 can be discharged out of the water-gas separator 106.

The dyeing machine body of the present utility model is further provided with a dyeing machine nozzle 114, and the dyeing machine nozzle 114 is disposed downstream of the air flow dehydrating nozzle 102 in the transporting direction of the cloth 112.

The dyeing machine nozzle 114 is used to meet the dyeing requirements of the cloth 112.

According to the gas-liquid separation device for the dyeing machine after the gas flow is dehydrated, the structure of the device is improved on the basis of the prior art, and the water separator 104 capable of separating the water body in the gas flow is additionally arranged, so that the liquid separated from the cloth 112 can be recovered by the water separator 104, water-gas separation is realized, the situation that the recovered gas is mixed with liquid is avoided, and the subsequent dehydration capability of the cloth 112 is effectively improved.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (4)

1. A gas-liquid separation device used for a dyeing machine after gas flow dehydration comprises a dyeing machine main body, and is characterized in that,

the dyeing machine comprises a dyeing machine body, and is characterized by further comprising an air flow dehydration nozzle, an air flow dehydration blowing pipe and a water separator, wherein the air flow dehydration nozzle, the air flow dehydration blowing pipe and the water separator are arranged in the dyeing machine body, the air flow dehydration blowing pipe and the water separator are capable of separating air and liquid, cloth to be dehydrated moves in the dyeing machine body through a cloth guide wheel, the air flow dehydration nozzle and the air flow dehydration blowing pipe are oppositely arranged on two sides of the cloth, and the water separator is arranged on the lower side of the air flow dehydration blowing pipe so as to inhale and separate air flow containing vaporific liquid.

2. A gas-liquid separation device after dehydration for dyeing machine gas stream according to claim 1,

the water separator comprises a suction pipe, a water-gas separator and an air flow dehydration fan, wherein the suction pipe is arranged at the lower side of the air flow dehydration blowing pipe and is connected with the air flow dehydration fan through a pipeline, and the air flow dehydration fan sucks air flow mixed with mist liquid separated from cloth and is communicated with the water-gas separator.

3. A gas-liquid separation device after dehydration for dyeing machine gas stream according to claim 2, characterized in that,

the water-gas separator is provided with a separator air inlet, a separator air outlet and a liquid discharge port arranged at the bottom of the water-gas separator, the separator air inlet is arranged at one side of the bottom of the water-gas separator and is communicated with the air flow dewatering fan, and the separator air outlet is arranged at the other side of the water-gas separator and is communicated with the air flow dewatering air blowing pipe.

4. A gas-liquid separation device after dehydration for dyeing machine gas stream according to claim 3,

the dyeing machine body is also provided with a dyeing machine nozzle which is arranged at the downstream of the airflow dehydration nozzle along the cloth conveying direction.