CN203174349U - Improved dyeing machine heating device - Google Patents

Abstract

An improved dyeing machine heating device comprises a barrel body, a dye liquor supplying device, a cloth guiding pipe, a multi-tube heat exchanger and a dye liquor pipeline heat exchanger, wherein a machine head at the front of the barrel body is provided with a cloth taking wheel and a nozzle; the dye liquor supplying device is provided with a pump, an outlet end and an inlet end, and after pressurized by the pump, dye liquor is supplied to the nozzle by the pump through the outlet end; the cloth guiding pipe is connected to the tail end of the barrel body from the nozzle to form a loop for circular dip dyeing of cloth; the multi-tube heat exchanger is arranged at the outlet end of the dye liquor supplying device and provided with a first inlet pipeline and a first outlet pipeline; the dye liquor pipeline heat exchanger covers the inlet end of the dye liquor supplying device or the outer edge of the pipeline at the outlet end of the dye liquor supplying device, the dye liquor pipeline heat exchanger is provided with a second inlet pipeline and a second outlet pipeline, and a connecting pipeline is arranged between the second inlet pipeline and the first outlet pipeline so that waste heat of a first heat exchanging device can be supplied to the dye liquor pipeline heat exchanger. The improved dyeing machine heating device is provided with two stages of heating device bodies so that the improved dyeing machine heating device can meet the temperature change requirements of various kinds of cloth material and dyeing in a wider range, and waste heat of the first stage of heating device body is utilized to achieve the energy saving effect.

Description

Improved textile dyeing machinery heating apparatus

Technical field

The utility model is relevant a kind of improved textile dyeing machinery heating apparatus, refer to especially a kind ofly be provided with two road heating apparatus, and the waste heat of the first road heating apparatus can become one of thermal source of the supply second road heating apparatus, to reach the device of energy savings effect.

Background technology

Cloth ramp cycle when dyeing in textile dyeing machinery, its temperature fluctuation and its rate of heat addition of height up and down directly has influence on dyeing quality and efficient, but, 1,100 kinds of the demands of the material of cloth and dyeing color and luster, therefore, existing textile dyeing machinery only adopts heater one, can't satisfy the demand of the factory that dyes cloth.

General textile dyeing machinery all includes stack shell, cloth guide tube, dye liquor feedway and multi tube heat exchanger or cloth guide tube heat exchanger, and the heat-exchange device of existing cloth guide tube heat exchanger textile dyeing machinery is coated on this cloth guide tube outer rim; The operation of dying cloth be cloth via the promotion of the dye liquor that nozzle sprays in the stack shell head, make cloth and dye liquor pass through cloth guide tube; Enter stack shell behind the heat energy of cloth and dye liquor absorption cloth guide tube heat-exchange device inner vapor, when cloth and dye liquor move to head by tail, again by the lifting of carrying the cloth wheel that places head, and the promotion of dye liquor is pressed in the nozzle spray, make cloth and dye liquor enter the cloth guide tube that coats heat-exchange device again, program just can be finished the processing procedure of dying cloth through repeatedly circulating according to this; Because cloth guide tube has equivalent length, cloth and dye liquor walk to carry out heat exchange in the cloth guide tube heat exchanger, its variation of temperature is wayward, tend to make cloth to produce situations such as look flower, wrinkle, have a strong impact on the quality of piece dyeing, basically one real dyeing demand that has been difficult to deal with the different rate of heat addition of various cloth of heating apparatus.

Moreover, the condensed water of existing its discharge of cloth guide tube heat-exchange device, its temperature is very high is namely discharged, and violates the environmental protection demand because the energy is apt to add utilize, and therefore existing textile dyeing machinery heater has many spaces of improving in fact.

The utility model content

Technical problem underlying to be solved in the utility model is, overcome the above-mentioned defective that prior art exists, and provide a kind of improved textile dyeing machinery heating apparatus, its two roads heating apparatus, to satisfy various cloth materials and dyeing variations in temperature demand in a big way, use the waste heat of the first road heating apparatus, to reach the effect of energy savings.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of improved textile dyeing machinery heating apparatus comprises: a stack shell, and its place ahead head is provided with cloth wheel and nozzle; One dye liquor feedway possesses pump, the port of export, reaches entrance point, and this pump is by delivering to this nozzle by this port of export with the dye liquor pressurization; And a cloth guide tube, picked out to this stack shell tail end by this nozzle, form a loop of contaminating for the cloth circulation; Wherein

One first road heating apparatus, comprise the multi tube heat exchanger that is arranged at this dye liquor feedway port of export, or being coated on the cloth guide tube heat exchanger of this cloth guide tube outer rim, this first road heating apparatus has one first inlet ductwork, one first vapour inlet valve, one first export pipeline, and one first cooling sea water outlet valve;

One second road heating apparatus, comprise and be coated on this dye liquor feedway entrance point or the dye liquor pipeline thermal interchanger of port of export pipeline outer rim, this second road heating apparatus has one second inlet ductwork, one second vapour inlet valve, one second export pipeline, reaches one second cooling sea water outlet valve, and make and be provided with one first between first export pipeline of second inlet ductwork of this second road heating apparatus and this first road heating apparatus and link pipeline, make the waste heat of this first road heating apparatus that this second road heating apparatus can be provided, to reach the effect of energy savings.

According to taking off feature on the utility model, in its first possible embodiments, this first road heating apparatus is one to be arranged at the multi tube heat exchanger of this dye liquor feedway port of export, and this second road heating apparatus is one to be coated on the dye liquor pipeline thermal interchanger of this dye liquor feedway entrance point pipeline outer rim.And this cloth guide tube can be included as the formation of upgoing type Fig. 1 and lower step mode Fig. 2 in the present embodiment.

According to taking off feature on the utility model, in its second possible embodiments, this first road heating apparatus is one to be coated on the cloth guide tube heat exchanger of this cloth guide tube outer rim, and this second road heating apparatus is one to be coated on the dye liquor pipeline thermal interchanger of this dye liquor feedway port of export pipeline outer rim.And this cloth guide tube can be included as the formation of upgoing type Fig. 3 and lower step mode Fig. 4 in the present embodiment.

By on take off technological means and feature, the utility model is simultaneously by opening or open separately this first road heating apparatus and this second road heating apparatus in the lump, reach to open or close the binding of waste heat pipeline is provided, can reach different heating rates and add thermal effect, on the dyeing property that is applicable to different cloth, make the maximum equipment benefit of the utility model performance.

The beneficial effects of the utility model are that its two roads heating apparatus to satisfy various cloth materials and dyeing variations in temperature demand in a big way, is used the waste heat of the first road heating apparatus, to reach the effect of energy savings.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the utility model first embodiment schematic diagram, and it shows upgoing type multi tube heat exchanger textile dyeing machinery.

Fig. 2 is the utility model first embodiment schematic diagram, and it shows lower step mode multi tube heat exchanger textile dyeing machinery.

Fig. 3 is the utility model second embodiment schematic diagram, and it shows upgoing type cloth guide tube heat exchanger textile dyeing machinery.

Fig. 4 is the utility model second embodiment schematic diagram, and it shows lower step mode cloth guide tube heat exchanger textile dyeing machinery.

The number in the figure explanation:

10 stack shells

11 cloth wheels

12 nozzles

20 dye liquor feedwaies

21 pumps

22 dye liquor port of export pipelines

23 dye liquor entrance point pipelines

30 cloth guide tubes

The 40A multi tube heat exchanger

40B cloth guide tube heat exchanger

41 first inlet ductwork

421 first vapour inlet valves

422 first cooling water inlet valves

43 first export pipelines

441 first cooling sea water outlet valves

442 first drain valves

443 first condensed water dump valves

50 dye liquor pipeline heat exchangers

51 second inlet ductwork

52 second vapour inlet valves

53 second export pipelines

541 second cooling sea water outlet valves

542 second drain valves

543 second condensed water dump valves

55 link pipeline

551 second condensing water inlet valves

60 textile dyeing machinerys

70 cloth

The specific embodiment

At first, see also Fig. 1～shown in Figure 2, the utility model textile dyeing machinery first possible embodiments comprises:

One stack shell 10, its place ahead head is provided with cloth wheel 11 and nozzle 12; One dye liquor feedway 20 possesses pump 21, the dye liquor port of export 22, reaches dye liquor entrance point 23, and this pump 21 is that this nozzle 12 is delivered in the dye liquor pressurization by the dye liquor port of export 22; One cloth guide tube 30 is picked out to this stack shell 10 tail ends by this nozzle 12, forms a loop for cloth 70 circulation dip-dyes; Cloth guide tube 30 shown in Figure 1 is upgoing type, and cloth guide tube 30 shown in Figure 2 is lower step mode, except other structure is identical in addition.

In the present embodiment, one first road heating apparatus is a multi tube heat exchanger 40A, is arranged at being exported between the dye liquor port of export pipeline 22 of this dye liquor feedway 20, and it has one first inlet ductwork 41, one first export pipeline 43.This first inlet ductwork 41 is provided with the first vapour inlet valve 421 and the first cooling water inlet valve 422, and this first export pipeline 43 is provided with first cooling sea water outlet valve 441, first drain valve 442 and the first condensed water dump valve 443.

One second road heating apparatus is a dye liquor pipeline thermal interchanger 50, is coated on dye liquor entrance point pipeline 23 outer rims of this dye liquor feedway 20, and it has one second inlet ductwork 51, one second export pipeline 53.And make this second inlet ductwork 51 and 43 of this first export pipelines be provided with one and link pipeline 55, make the waste heat of this first heat-exchange device 40A that this dye liquor pipeline thermal interchanger 50 can be provided.In the present embodiment, this second inlet ductwork 51 is provided with the second vapour inlet valve 52 and the second condensing water inlet valve 551, and this second export pipeline 53 is provided with second cooling sea water outlet valve 541, second drain valve 542 and the second condensed water dump valve 543.

See also Fig. 3～shown in Figure 4, be the utility model second possible embodiments, its structure that is same as first embodiment represents that with same reference numbers cloth guide tube 30 shown in Figure 3 is upgoing type, and cloth guide tube 30 shown in Figure 4 is lower step mode, except other structure is identical in addition.Its difference is:

In the present embodiment, one first road heating apparatus is a cloth guide tube heat exchanger 40B, is coated on this cloth guide tube 30 outer rims, and it has one first inlet ductwork 41, one first export pipeline 43;

One second road heating apparatus is a dye liquor pipeline thermal interchanger 50, be coated on dye liquor port of export pipeline 22 outer rims of this dye liquor feedway 20, it has one second inlet ductwork 51, one second vapour inlet valve 52, one second export pipeline 53, and make this second inlet ductwork 51 and 43 of this first export pipelines be provided with one and link pipeline 55, make the waste heat of this cloth guide tube heat exchanger 40B that this dye liquor pipeline thermal interchanger 50 can be provided.

The utility model by on take off technological means, the high-temperature vapour condensate water (water temperature is at 95 ℃～98 ℃) of discharging when it has multi tube heat exchanger 40A on the textile dyeing machinery 60 or cloth guide tube heat exchanger 40B intensification, introduce in this dye liquor pipeline heat exchanger 50, the dye liquor that is not warming up to 95 ℃ in the dye vat is as yet heated, carry out the waste heat recycling, to reach energy-conservation effect.And can utilize separately on the dye liquor pipeline heat exchanger 50 of 1 ℃ of the fastest heating rate per minute of design, carry out free of discontinuities continous mode linearity and heat up at a slow speed, also can be rapidly heated together with multitube or cloth guide tube heat exchanger in series.

Means feature accordingly, the utility model is in taking off first embodiment, no matter be upgoing type cloth guide tube or lower step mode cloth guide tube, it is to begin to heat up when textile dyeing machinery 60 when using, open the first vapour inlet valve 421, steam is injected multi tube heat exchanger 40A, open the second condensing water inlet valve 551 simultaneously, when the condensate water of high-temperature vapour is discharged by first drain valve 442, enter dye liquor pipeline heat exchanger 50 by the second condensing water inlet valve 551, to be heated by the dye liquor of pump 21, when the temperature of dye vat rises to 95 ℃, close the second condensing water inlet valve 551, open the first condensed water dump valve 443 simultaneously, discharge condensed steam water, continue to be warming up to the temperature that sets and dye.

Again, when the easy look flower of sensitivities such as dye vat green colouring, grey color must be carried out proportion expression intensification at a slow speed, close multi tube heat exchanger 40A temperature elevation system, only open dye liquor pipeline heat exchanger 50 control systems, open the second steam-gas inlet valve 52, carry out proportion expression linear temperature increase at a slow speed.

When textile dyeing machinery 60 floats cylinder, washes work such as cylinder must more be rapidly heated the time, can open the second vapour inlet valve 52 on the dye liquor pipeline heat exchanger 50 simultaneously, and the first vapour inlet valve 421 (this moment the second condensing water inlet valve 551 close) on the multi tube heat exchanger 40A connecting is rapidly heated, to shorten the heating and cooling time and to reduce power consumption.

In like manner, in a second embodiment, its operation control device is identical, its difference is that its first road heating apparatus changes cloth guide tube heat exchanger 40B into, to supply method and the usefulness of the second road heating apparatus to reach energy savings with the waste heat of the first road heating apparatus then identical to link pipeline 55 for all the other, holds and do not give unnecessary details one by one.

The above, it only is preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any simple modification, equivalent variations and modification that above embodiment does.

In sum, the utility model is on structural design, use practicality and cost benefit, it is required to meet industry development fully, and the structure that discloses also is to have unprecedented innovation structure, have novelty, creativeness, practicality, the regulation that meets relevant novel patent requirement is so mention application in accordance with the law.

Claims (8)

1. improved textile dyeing machinery heating apparatus comprises:

One stack shell, its place ahead head is provided with cloth wheel and nozzle;

One dye liquor feedway possesses pump, the port of export, reaches entrance point, and this pump pressurizes dye liquor by delivering to this nozzle by this port of export;

One cloth guide tube is picked out to this stack shell tail end by this nozzle, forms a loop for cloth circulation dip-dye; It is characterized in that:

One multi tube heat exchanger is arranged at the port of export of this dye liquor feedway, and it has one first inlet ductwork, one first export pipeline;

One dye liquor pipeline thermal interchanger, be coated on entrance point or the port of export pipeline outer rim of this dye liquor feedway, its have one second inlet ductwork, one second export pipeline and make this second inlet ductwork and this first export pipeline between be provided with one and link pipeline, make the waste heat of first heat-exchange device that this dye liquor pipeline thermal interchanger can be provided.

2. improved textile dyeing machinery heating apparatus according to claim 1 is characterized in that, described cloth guide tube comprises upgoing type and lower step mode structure.

3. improved textile dyeing machinery heating apparatus according to claim 2, it is characterized in that, described first inlet ductwork comprises the first vapour inlet valve and the first cooling water inlet valve, and this first export pipeline comprises first cooling sea water outlet valve, first drain valve and the first condensed water dump valve.

4. improved textile dyeing machinery heating apparatus according to claim 3, it is characterized in that, described second inlet ductwork comprises the second vapour inlet valve, this binding pipeline is provided with one second condensing water inlet valve, and this second export pipeline comprises one second cooling sea water outlet valve, second drain valve and two condensed water dump valves.

5. improved textile dyeing machinery heating apparatus comprises:

One stack shell, its place ahead head is provided with cloth wheel and nozzle;

One dye liquor feedway possesses pump, the port of export, reaches entrance point, and this pump is by delivering to this nozzle by this port of export with the dye liquor pressurization; And

One cloth guide tube is picked out to this stack shell tail end by this nozzle, forms a loop for cloth circulation dip-dye;

It is characterized in that:

One cloth guide tube heat exchanger is coated on this cloth guide tube outer rim, and it has one first inlet ductwork, one first export pipeline;

One dye liquor pipeline thermal interchanger, be coated on entrance point or the port of export pipeline outer rim of this dye liquor feedway, its have one second inlet ductwork, one second export pipeline and make this second inlet ductwork and this first export pipeline between be provided with one and link pipeline, make the waste heat of this cloth guide tube heat exchanger for this dye liquor pipeline thermal interchanger.

6. improved textile dyeing machinery heating apparatus according to claim 5 is characterized in that, described cloth guide tube comprises and is set as upgoing type and lower step mode structure.

7. improved textile dyeing machinery heating apparatus according to claim 6, it is characterized in that, described first inlet ductwork comprises the first vapour inlet valve and the first cooling water inlet valve, and this first export pipeline comprises one first cooling sea water outlet valve, first drain valve and the first condensed water dump valve.

8. improved textile dyeing machinery heating apparatus according to claim 7, it is characterized in that, described second inlet ductwork is provided with the second vapour inlet valve, this binding pipeline is provided with one second condensing water inlet valve, and this second export pipeline comprises one second cooling sea water outlet valve, second drain valve and the second condensed water dump valve.

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