CN117188080A - Vertical high-pressure bubble dyeing and finishing device and textile washing, boiling, finishing, tentering and shaping integrated machine - Google Patents

Abstract

The invention provides a vertical high-pressure bubble dyeing and finishing device, which comprises a dye liquor blending tank and a bubble liquor generator, wherein the high-pressure dyeing and finishing bubble liquor is generated to directly spray cloth to finish dyeing and finishing work; the drying oven system behind the control desk adopts a laminated rotary structure, the high-pressure bubble dyeing and finishing device is arranged behind the control desk, the cloth is conveyed back to the rotary layer of the drying oven system after dyeing and finishing, and the finished cloth is obtained through the cloth feeding area after the tentering and shaping are carried out again. The technical scheme of the invention effectively avoids the phenomena of deformation and uneven dyeing of the thin cloth in the traditional production process, is energy-saving and efficient, has high production efficiency, and has the advantages of small occupied area of the whole machine, centralized working area, easy operation, manpower resource saving and the like.

Description

Vertical high-pressure bubble dyeing and finishing device and textile washing, boiling, finishing, tentering and shaping integrated machine

Technical Field

The invention relates to equipment for textile dyeing and finishing industry, in particular to a vertical high-pressure bubble dyeing and finishing device, and also relates to a textile washing water scouring dyeing and finishing tentering setting integrated machine adopting the vertical high-pressure bubble dyeing and finishing device.

Background

In the known dyeing and finishing industry, the cloth is required to be subjected to the treatment procedures of washing, scouring, dyeing and finishing, tentering and shaping, and the finished product can be obtained finally, and the related procedures of washing, dyeing and finishing, tentering and shaping are all carried out by a specific large machine, so that the occupied area is large, the procedures are complex and time-consuming, and the procedures belong to pollution and energy consumption households.

With the improvement of living standard and the development of chemical fiber production technology, novel chemical fiber fabrics such as nylon and polyester and the like occupy a considerable proportion in textile production. The novel fabrics have the characteristics of light weight, wear resistance, good elasticity, quick drying, close fitting, comfort and the like, but at the same time, the fabrics have dense warps and wefts, have certain internal stress, are easy to wrinkle and deform, generate cloud specks, are poor in hydrophilic air permeability and not resistant to high temperature and the like, and meanwhile, the fabrics have the characteristics of adding oiling agents, greasy dirt and the like in the previous working procedures, so that the fabrics are promoted to have to undergo additional working procedures of deep washing water, degreasing, scouring preshrinking, sizing of the blank cloth and the like before dyeing and finishing, and the dyeing and finishing difficulty is increased. The traditional equipment for washing, dyeing and finishing, tentering and shaping and the like has the defects of complex process links, high energy consumption, large occupied area, more labor time consumption, low efficiency, poor effect and the like in the process of processing the novel fabric.

Specifically, the novel fabric is a light and thin product, the warps and the wefts are dense, the hydrophilic air permeability is poor, and the traditional equipment is compatible with the treatment of thick materials, so that energy waste exists in the treatment process, the problem of excessive treatment of the novel fabric is solved, new pollution is formed, the yield is affected, and the problems are difficult to treat and solve by the traditional regulation technologies of reducing working procedures, improving efficiency, reducing equipment energy consumption and the like.

In addition, since the novel fabric has the characteristics of light weight, thinness, hydrophilicity and poor air permeability, the detergent or dye liquor is difficult to penetrate into the fabric in the washing and dyeing and finishing processes, so that the washing and dyeing and finishing efficiency is low, and good effects are difficult to obtain.

The biggest technical defect is also that in the dyeing and finishing process, the cloth in the traditional dye vat is bundled into ropes to be circularly rolled in the dye vat, so that the thin cloth has larger tension distortion, the warp and weft of the thin cloth are larger in distortion, and the conditions of density change of cloth surface areas and the like can occur. In the subsequent tentering and shaping work flow, the original fabric blank which is uniformly dyed and finished is deformed after the warp and weft threads of the rope are combed, the regional density is changed, the fabric which is uniformly dyed and finished is originally caused, and the regional color is changed in depth, so that the quality of the final finished fabric is reduced.

The technical defects of different degrees exist for the traditional thin cloth.

Disclosure of Invention

The primary purpose of the invention is to provide a novel dyeing and finishing device for dyeing and finishing thin cloth, especially novel chemical fiber fabrics such as nylon, polyester and the like, and solving the defects of uneven color and the like of finished products caused by deformation and distortion of the cloth in the prior art.

The second purpose of the invention is to solve the defects that the prior textile is scattered in the conventional processes of washing, scouring, dyeing and finishing, tentering and shaping, and the like, and the process is complex in process link, high in energy consumption, large in occupied area, much in labor time consumption, low in efficiency, poor in effect, complex in process and difficult to integrate when the novel fabric is processed.

In order to realize high-efficiency dyeing and finishing of novel chemical fiber fabrics such as nylon and polyester and the like, reduce the distortion of the fabrics in the dyeing and finishing process and realize mechanical miniaturization, the technical scheme of the invention adopts a brand-new vertical high-pressure bubble dyeing and finishing device which comprises a dye liquor blending tank and a bubble liquor generator.

An air pump and a liquid pump are arranged below the bubble liquid generator, a bubbling cavity is arranged above the bubble liquid generator, and the liquid pump is communicated with a jet liquid spraying port in the bubbling cavity; the air pump is communicated with the bubbler in the bubbling cavity; the periphery of the bubbler is provided with a heater; the front end of the bubbler is provided with a plurality of layers of cutting nets; the top end is provided with a bubble liquid outlet. During operation, a great number of bubbles can be generated in the jet liquid which rotates upwards, and the bubbles are divided through the multi-layer cutting net, so that high-pressure bubble liquid rich in micro bubbles is finally generated.

Inside the vertical high-pressure bubble dyeing and finishing device, a lower cloth feeding shaft is arranged at the corresponding cloth inlet; an upper cloth outlet shaft is arranged at the corresponding cloth outlet; the inside has multiunit cloth guide shaft of staggered arrangement, and cloth gets into by lower cloth feed shaft, and after a plurality of cloth guide shafts of crisscross, is derived by last cloth feed shaft, accomplishes the dyeing and finishing flow.

The dyeing liquid nozzles are communicated with the bubble liquid outlet of the bubble liquid generator through the dyeing liquid guide pipe. In the traditional dyeing and finishing process, the dye diffuses in the cloth, which is the most time-consuming process in the whole dyeing process, when the technical scheme of the invention works, the dye liquor nozzle sprays high-pressure dyeing and finishing bubble liquor, the dye liquor nozzle impacts the surface of the cloth and penetrates the inside of the cloth in a high-pressure state, and the effective dye component in the dye liquor diffuses in the cloth along with the expansion of the bubble, thereby achieving the aim of deep dyeing in the cloth and further saving dyeing and finishing time.

In the technical scheme, the cloth runs in an open width, deformation factors are not existed, and the high-quality yield is higher. The dyeing scheme of the high-pressure dyeing and finishing bubble liquid also enhances the adhesion of dye molecules in the dye liquid to the inner textile threads of the cloth, the obtained dyeing and finishing effect is uniform and is not easy to fade, the traditional high-temperature high-pressure dyeing and finishing effect is achieved, and the dyeing and finishing time is shortened.

As optimization, a liquid outlet is arranged below the high-pressure bubble dyeing and finishing device, and is communicated with an inlet of a liquid pump of the bubble liquid generator through a liquid return valve and a guide pipe, so that dye liquid can be recovered and recycled.

The bottom of the dye liquor mixing cylinder is communicated with the inlet of the liquid pump of the bubble liquid generator through the dye liquor valve and the guide pipe, so that the dye liquor can be mixed in the dye liquor mixing cylinder according to the working requirement and supplied to the bubble liquid generator.

After finishing the dyeing and finishing process, the dye liquor preparing tank can be used for preparing cleaning liquor for cleaning the high-pressure bubble dyeing and finishing device system.

As optimization, a filter screen is arranged in front of the liquid outlet and is used for filtering impurities. The bottom of the high-pressure bubble dyeing and finishing device in front of the filter screen is provided with a drain outlet and a drain valve, so that waste liquid can be discharged after dyeing and finishing work or cleaning work is finished.

As optimization, the top of the high-pressure bubble dyeing and finishing device is provided with a plurality of air vents, and the air vents are communicated with the air pump air inlet of the bubble liquid generator through the air guide pipe, so that the internal pressure balance of the high-pressure bubble dyeing and finishing device can be realized, and the leakage of air from the cloth inlet and outlet of the high-pressure bubble dyeing and finishing device is avoided.

As optimization, in order to clean the surface residual dye liquor of each cloth guide shaft in a cylinder after dyeing and finishing process, each cloth guide shaft in the high-pressure bubble dyeing and finishing device is provided with a plurality of groups of symmetrical cleaning nozzles, the cleaning nozzles are communicated with a bubble liquid outlet of a bubble liquid generator through cleaning pipes, the cleaning pipes are controlled by cleaning pipe water valves, and when the cleaning pipes are communicated, the cleaning pipes can spray the cleaning liquid to clean each cloth guide shaft.

As optimization, the upper cloth outlet shaft is a soft rubber roller with pressure, and during operation, redundant dye liquor of cloth can be extruded, so that the humidity of the cloth is lower when the cloth enters the following working procedure, and the dye liquor can not drip to pollute the following equipment.

In order to solve the defects that the prior textile has the defects of complex process links, high energy consumption, large occupied area, large labor time consumption, low efficiency, poor effect, complex process and difficult integration when the novel fabric is processed by the traditional procedures of water washing, boiling, dyeing and finishing, tentering and shaping and the like. The technical scheme adopted by the invention is that the textile washing, boiling, dyeing, finishing, tentering and shaping integrated machine comprising the vertical high-pressure bubble dyeing and finishing device consists of a cloth feeding area, a plurality of tentering and shaping oven systems and a cloth discharging area, and the working state of the machine is controlled by a control console. The cloth sequentially passes through various devices in the cloth feeding area from one side of the cloth feeding area, enters the oven system, finishes the purposes of washing, dyeing, finishing, tentering and shaping, and finally obtains a finished product of the cloth after cooling and retracting through the device in the cloth feeding area, and finishes the whole procedure.

The cloth feeding area consists of a cloth feeding combination device, a padder, a control console and other equipment. The cloth outlet area comprises a cloth outlet combination device and a cloth outlet supporting device.

The tentering shaping oven system consists of a circulating air chamber and a static pressure hot air chamber, wherein a heater and a circulating fan are arranged in the circulating air chamber; the static pressure hot air chamber is internally provided with a hot air spraying nozzle device, the hot air spraying nozzle device is provided with an upper layer and a lower layer, a track for conveying cloth is arranged in the middle, and one side of the hot air spraying nozzle device facing the cloth is provided with a hot air spraying nozzle. In the tentering setting oven system, after the air in the circulating air chamber is heated by the heater, the air pressure is generated by the circulating fan, the air enters the hot air nozzle device in the static pressure hot air chamber, and is blown to the cloth through the air nozzle, so that the tentering setting purpose is achieved.

The tentering setting oven system is matched with a purifying device, is generally arranged on the upper layer of the tentering setting oven system, and is connected with the exhaust pipe and the air inlet pipeline to achieve the purposes of energy conservation and emission reduction.

Because the technical proposal of the invention directly processes Mao Peibu ingots which are not washed and dyed and Mao Peibu ingots have extrusion folding conditions in production and transportation, in the cloth feeding area of the technical proposal of the invention, mao Peibu ingots are stored by a cloth loosening machine before the cloth feeding combination device, mao Peibu ingots can be loosened and straightened, and then enter the cloth feeding combination device. The cloth feeding combination device plays roles of lifting and loosening cloth according to the requirement and controlling the centering of the cloth during conveying.

In order to remove dust and oil stains of Mao Peibu and to primarily soak cloth to make the cloth soft, a washing water scouring machine is added between a cloth feeding combination device and padder equipment;

after the cloth is washed by a washing water scouring machine, the cloth is conveyed into padder equipment and conveyed to a tentering shaping oven system through a control console.

According to the tentering shaping oven system, a static pressure hot air chamber is of a rotary structure, namely the static pressure hot air chamber is divided into two layers, a rotary static pressure hot air chamber is arranged on a lower layer static pressure air chamber, a hot air nozzle device and a track for conveying cloth are arranged in the rotary static pressure hot air chamber, and the track running direction of the hot air nozzle device is opposite to the track running direction of the lower layer static pressure hot air chamber;

in order to achieve the technical purpose of dyeing and finishing integration, the technical scheme of the invention is that the vertical high-pressure bubble dyeing and finishing device is arranged at the rear of the tentering and shaping oven system, cloth enters the inlet of the high-pressure bubble dyeing and finishing device from the outlet of the lower static pressure hot air chamber, runs inside the high-pressure bubble dyeing and finishing device, runs to the inlet of the rotary static pressure hot air chamber from the outlet of the high-pressure bubble dyeing and finishing device after dyeing and finishing, and finally is guided to the cloth outlet area from the outlet of the first rotary static pressure hot air chamber.

According to the technical scheme, the rotary static pressure hot air chamber structure is adopted, cloth is firstly subjected to tentering and shaping through the lower static pressure hot air chamber, and warps and wefts of the cloth are combed and finished, and the area density of the surface of the cloth is quite symmetrical, so that the dyeing effect obtained after the cloth enters a high-pressure bubble dyeing and finishing device for dyeing and finishing processes is more uniform. The cloth after dyeing and finishing enters a rotary static pressure hot air chamber, the tentering finished product shaping process is carried out again, the deformation generated in the dyeing and finishing process is corrected, meanwhile, the hot air drying also plays a role in deepening the adhesive force of the dye and consolidating the dyeing and finishing effect.

The cloth discharging and combining device is arranged in front of the cloth feeding and combining device and is higher than the height of each device in the cloth feeding area, the cloth discharging and supporting device is arranged above each device in the cloth feeding area, the cloth feeding and combining device is reasonably utilized as a supporting base, the space of the devices is effectively utilized, and the device structure and raw material consumption are simplified.

In order to realize high-efficiency cleaning of novel chemical fiber fabrics such as nylon and polyester and polyurethane and realize mechanical miniaturization, the washing water scouring machine adopted by the technical scheme of the invention is an open-width washing machine adopting a micro-bubble-rich water flow generator, and the washing water scouring machine comprises components such as a bubble generator, a heater, a vacuum dehumidifying device, an overfeeding cloth guide roller, an oil-water separation device and the like, so that the waterproof fabric can be quickly cleaned, and the washing water scouring machine has the advantages of not twisting the fabric and reducing the deformation of the fabric.

As optimization, the tentering shaping oven system of the technical scheme is provided with a self-adaptive air return device, and a secondary purifying device is connected behind the purifying device. The self-adaptive air return device consists of a three-way ventilating duct and a supplemental fan, wherein the three-way ventilating duct is provided with an upper through hole, a middle through hole and a lower through hole, the upper through hole leads to the external environment, the middle through hole is connected with an exhaust pipe of the secondary purification device, and the lower through hole is connected with the supplemental fan and then connected with an air inlet pipe.

As the optimization, go out cloth composite set and include cooling tuyere and cooling fan, be located out cloth strutting arrangement's top, cooling tuyere is towards the cloth, can let the cloth cooling fast.

As optimization, a partition plate is arranged between the two layers of static pressure air chambers, so that the lower layer static pressure hot air chamber and the rotary static pressure hot air chamber work at different temperatures and jet pressure to meet respective working requirements.

As further optimization of the technology, the lower static pressure air chamber and the rotary static pressure hot air chamber respectively adopt an independent circulating air chamber, a purifying device and a self-adaptive air return device, so that the working environment can be controlled more efficiently.

The invention has the advantages and effective benefits that the invention provides the novel dyeing and finishing device which can save energy and carry out high-efficiency dyeing and finishing treatment on thin cloth, especially novel chemical fiber fabrics such as nylon, polyester and the like, and the dyeing and finishing device does not generate deformation in the treatment process, and solves the defect that the color of a finished product is uneven due to the distortion of the cloth in the dyeing and finishing process, thereby solving the problems of deformation, uneven dyeing and the like in the prior art and improving the quality of the finished product.

The invention also provides a textile washing water scouring, dyeing and finishing tentering setting integrated machine which adopts the novel dyeing and finishing device and integrates the working procedures of washing scouring, dyeing and finishing, tentering setting and the like.

Drawings

FIG. 1 is a schematic structural view of an embodiment of a vertical high pressure bubble dyeing and finishing device for use in the present invention;

FIG. 2 is a schematic diagram of a textile washing, scouring, dyeing, finishing, tentering and shaping machine to which the embodiment of FIG. 1 is applied;

FIG. 3 is a transverse cross-sectional view of the oven unit of the embodiment of FIG. 2;

FIG. 4 is a schematic view of the adaptive return air device in the embodiment of FIG. 2;

in the figure, 1, a cloth feeding area; 2. an oven system; 3. a cloth outlet area; 4. vertical high-pressure bubble dyeing and finishing device; 5. a purifying device; 6. a secondary purification device; 7. self-adaptive air return device; 8. distributing materials; 9. a bubble liquid generator; 10. a dye liquor blending cylinder;

101. a cloth feeding combination device; 102. a padder; 103. a console; 104. a cloth loosening machine; 105. a washing water boiling-off machine;

201. a circulating air chamber; 202. a lower static pressure hot air chamber; 203. a heater; 204. a track; 205. clip for cloth; 206. a rotary static pressure hot air chamber; 207. a hot air nozzle device; 208. a circulating fan; 209. a partition plate;

301. a cloth discharging combination device; 302. a cloth outlet supporting device; 303. a cooling tuyere; 304. a cooling fan;

401. a lower cloth feeding shaft; 402. a cloth shaft is arranged on the upper part; 403. a cloth guide shaft; 404. cleaning the nozzle; 405. a dye liquor nozzle; 406. a dye liquor conduit; 407. cleaning the catheter; 408. an exhaust hole; 409. a liquid baffle plate;

701. a three-way ventilation duct; 702. 703 and an air outlet pipe; 704. an air inlet pipe;

901. an air pump; 902. a liquid pump; 903. a jet liquid spraying port; 904. a heater; 905. a bubbler; 906. cutting the net; 907. a bubble liquid outlet;

1001. cleaning a pipe water valve; 1002. a liquid return water valve; 1003. a dye liquor valve; 1004. a blow-down valve; 1005. and (3) a filter screen.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings and examples. The following examples are only for more clearly illustrating the technical aspects of the present invention, and are not intended to limit the scope of the present invention.

In order to realize high-efficiency dyeing and finishing of cloth, reduce distortion of cloth in the dyeing and finishing process and realize a mechanical miniaturized high-pressure bubble dyeing and finishing device, as shown in fig. 1, the technical scheme of the invention provides a vertical high-pressure bubble dyeing and finishing device 4, which comprises a dye liquor blending tank 10 and a bubble liquor generator 9 which are matched to work.

An air pump 901 and a liquid pump 902 are arranged below the bubble liquid generator 9, a bubble cavity is arranged above the bubble liquid generator, and the liquid pump 902 is communicated with a jet liquid spraying port 903 in the bubble cavity; the air pump 901 is communicated with a bubbler 905 in the bubbling cavity; the perimeter of the bubbler is provided with a heater 904; the front end of the bubbler 904 is provided with a multi-layer cutting net 906; the top end is provided with a bubble liquid outlet 907. In operation, a significant number of bubbles can be generated in the swirling upward jet liquid and passed through the multi-layer cutting screen 906 to divide the bubbles, ultimately producing a high pressure bubble liquid rich in microbubbles.

Inside the vertical high-pressure bubble dyeing and finishing device 4, a lower cloth feeding shaft 401 is arranged at the corresponding cloth inlet; an upper cloth outlet shaft 402 is arranged at the corresponding cloth outlet; inside, there are several groups of cloth guiding shafts 403, cloth is guided in by the lower cloth feeding shaft 401, and after passing through the cloth guiding shafts 403, cloth is guided out by the upper cloth discharging shaft 402, so as to complete dyeing and finishing process.

On both sides of the cloth 8 there are groups of symmetrical dye liquor nozzles 405, the dye liquor nozzles 405 being in communication with the bubble liquor outlet 907 of the bubble liquor generator 9 via dye liquor conduits 406.

In the conventional dyeing and finishing process, the dye diffuses inside the cloth, which is the most time-consuming process in the whole dyeing and finishing process, and occupies more than about 70% of the time of the whole dyeing and finishing process. When the technical scheme of the invention works, the dye liquor nozzle 405 sprays high-pressure dyeing and finishing bubble liquor, and in a high-pressure state, the dye liquor nozzle impacts the surface of the cloth 8 and penetrates the inside of the cloth, and the dye effective components in the dye liquor are diffused in the inside of the cloth along with the expansion of the bubble, so that the aim of deep dyeing in the inside of the cloth is fulfilled; the dyeing scheme of the high-pressure dyeing and finishing bubble liquid also enhances the adhesive force of dye molecules in the dye liquid to the inner textile threads of the cloth, the obtained dyeing and finishing effect is uniform and is not easy to fade, the traditional high-temperature high-pressure dyeing and finishing effect is achieved, and the dyeing and finishing time is shortened, so that the dyeing and finishing work can be completed in a limited small equipment space. In the technical scheme, the cloth 8 runs in an open width, no deformation factor exists, and the high-quality yield is higher.

A liquid outlet is arranged below the vertical high-pressure bubble dyeing and finishing device 4, and is communicated with the inlet of a liquid pump 902 of the bubble liquid generator 9 through a liquid return valve 1002 and a guide pipe, so that the dye liquid can be recovered and recycled.

The bottom of the dye liquor mixing cylinder 10 is communicated with the inlet of the liquid pump 902 of the bubble liquid generator 9 through the dye liquor valve 1003 and a conduit, and dye liquor can be mixed in the dye liquor mixing cylinder 10 according to working requirements and supplied to the bubble liquid generator 9.

After the dyeing and finishing process is completed, the dye liquor preparing tank 10 can also be used for preparing cleaning liquor for cleaning the high-pressure bubble dyeing and finishing device system.

Preferably, a filter screen 1005 is arranged in front of the liquid outlet to filter impurities. The bottom of the high-pressure bubble dyeing and finishing device in front of the filter screen is provided with a drain outlet and a drain valve 1004, so that waste liquid can be discharged after dyeing and finishing work or cleaning work is finished.

The top of the vertical high-pressure bubble dyeing and finishing device 4 is provided with a plurality of air vents 408, and the air vents are communicated with the air inlets of the air pumps 901 of the bubble liquid generator 9 through air ducts, so that the internal pressure balance of the high-pressure bubble dyeing and finishing device 4 can be realized, and the leakage of air from the cloth inlet and outlet of the vertical high-pressure bubble dyeing and finishing device 4 is avoided.

In order to clean the dyeing and finishing process, the surface of each cloth guide shaft in the cylinder is remained with dye liquor, and each cloth guide shaft 405 in the vertical high-pressure bubble dyeing and finishing device 4 is provided with a plurality of groups of symmetrical cleaning nozzles, the cleaning nozzles are communicated with a bubble liquor outlet 907 of the bubble liquor generator 9 through a cleaning conduit 407, and the cleaning conduit 407 is controlled by a cleaning pipe water valve 1001.

As an optimization, the upper cloth outlet shaft 402 is a soft rubber roller with pressure, and can squeeze out redundant dye liquor of cloth during operation, so that the cloth can keep lower humidity and avoid dropping the dye liquor when entering a subsequent processing facility.

When the vertical high-pressure bubble dyeing and finishing device 4 works, firstly, dye liquor is prepared in the dye liquor preparing cylinder 10, after a cloth 8 enters the vertical high-pressure bubble dyeing and finishing device 4 through the lower cloth feeding shaft 401, a dye liquor valve 1003, an air pump 901, a liquid pump 902 and a heater 904 are opened, so that the bubble liquid generator 9 generates high-temperature high-pressure bubble dye liquor rich in micro bubbles, the high-pressure bubble dye liquor is supplied to the dye liquor nozzle 405 through the dye liquor guide pipe 406, and the high-pressure bubble dye liquor is sprayed on the surface of the cloth 8. The drain valve 1004, the cleaning tube water valve 1001, and the return water valve 1002 remain closed during this process.

After dyeing and finishing work enters a stable state, after dye liquor is accumulated at the bottom of the vertical high-pressure bubble dyeing and finishing device 4, a liquor return water valve 1002 is opened to reuse the recovered dye liquor, and in the process, the dye liquor valve 1003 is closed or opened as required to control the total amount of the dye liquor.

After finishing the dyeing and finishing operation, a cleaning operation is performed to avoid coagulation of the dyeing and finishing inside the machine. Firstly, a drain valve 1004 is opened, waste dye liquor is discharged, cleaning water is led in from the position of a dye liquor blending cylinder 10, after the dye liquor blending cylinder 10 is cleaned, the dye liquor is heated and pressurized by a bubble liquid generator 9, enters a dye liquor guide pipe 406 and a dye liquor nozzle 405, the cleaning dye liquor flows through a pipeline, meanwhile, a cleaning pipe water valve 1001 is opened, the cleaning nozzle 404 sprays the cleaning water on the surfaces of all cloth guide shafts, the purpose of cleaning the cloth guide shafts is achieved, and in the process, the drain valve 1004 is opened or closed as required.

As further optimization, as shown in fig. 1, the inclined liquid baffle plates 409 are arranged above and behind the lower cloth feeding shaft 401, so that the dye liquor can be shielded, the dye liquor is prevented from polluting the lower cloth feeding shaft 401, a group of cleaning nozzles 404 can be saved, and the pollution caused by suspended particles of the dye liquor entering the lower static pressure hot air chamber 202 from the cloth inlet in front of the lower cloth feeding shaft 401 is also avoided.

Meanwhile, because the upper cloth shaft 402 is a soft rubber roller with pressure, the connection is tight and the cleaning is difficult, and therefore, the cleaning nozzles 404 at the position of the upper cloth shaft 402 are arranged in a triangle.

As shown in FIG. 2, the textile washing, scouring, dyeing and finishing, tentering and shaping integrated machine in the embodiment of FIG. 1 is adopted, and comprises a cloth feeding area 1, a plurality of tentering and shaping oven systems 2 and a cloth discharging area 3.

The cloth feeding area 1 consists of a cloth feeding combination device 101, a padder 102, a control console 103 and other devices, a cloth loosening machine 104 is arranged in front of the cloth feeding combination device 101, and a washing water scouring machine 105 is arranged in front of the padder 102.

The cloth outlet area 3 is composed of a cloth outlet supporting device 302, a cloth outlet combination device 301 and other devices.

The cloth 8 shown by the dotted line is loosened and straightened in a cloth loosening machine 104, then enters a cloth feeding combination device 101, is controlled to be conveyed in a centering way, is cleaned by a washing water scouring machine 105, is removed from dust and greasy dirt of Mao Peibu ingots, is preliminarily soaked to be soft, is input into a padder 102, and is conveyed to a rear tentering and shaping oven system 2 through a control console 103.

In the tenter setting oven system 2 adopted in this embodiment, the lower layer is a circulation air chamber 201, the upper Fang Jingya hot air chamber is divided into two layers, and specifically, a rotary static pressure hot air chamber 206 is arranged above the lower static pressure air chamber 202.

A heater and a circulating fan are arranged in the circulating air chamber 201; the static pressure hot air chamber 202/206 is provided with a hot air nozzle device and a track for conveying cloth, wherein the hot air nozzle device is provided with an air nozzle on the side facing the cloth, and the related structure is described in detail below with reference to fig. 3.

In the present invention, the track running direction in the swirling static pressure hot air chamber 206 is opposite to the track running direction in the lower static pressure hot air chamber 202, specifically, the track running direction in the lower static pressure hot air chamber 202 is from front to back, and the track running direction in the swirling static pressure hot air chamber 206 is from back to front.

The oven system 2 is matched with a purifying device 5, and a secondary purifying device 6 and a self-adaptive air return device 7 are arranged behind the purifying device 5 to recycle waste belt hot air so as to achieve the purposes of energy conservation and emission reduction. The whole set of system is arranged on the upper layer of the tentering shaping oven system and is connected with the exhaust pipe and the air inlet pipeline. The structure will be described in detail later with reference to fig. 3.

In the embodiment of the invention, a vertical high-pressure bubble dyeing and finishing device 4 shown in fig. 1 is arranged at the rear of an oven system 2, a cloth 8 enters an inlet of the vertical high-pressure bubble dyeing and finishing device 4 from an outlet of a lower static pressure hot air chamber 202, runs inside the vertical high-pressure bubble dyeing and finishing device 4, runs from the outlet of the high position of the vertical high-pressure bubble dyeing and finishing device 4 to an inlet of a rotary static pressure hot air chamber 206 after dyeing and finishing working procedures are carried out, and finally is guided to a cloth outlet area 3 from an outlet of a first rotary static pressure hot air chamber 206.

In the oven system 2 of the embodiment of the invention, the cloth 8 conveyed by the cloth feeding area 1 is firstly treated by the lower static pressure hot air chamber 202, tentering and shaping are carried out, and the warp and weft are combed and finished, so that the area density of the surface of the cloth 8 is quite symmetrical, and the dyeing effect obtained after the cloth enters the vertical high-pressure bubble dyeing and finishing device 4 for dyeing and finishing processes is more uniform. The dyed cloth 8 enters a rotary static pressure hot air chamber 206, the tentering and shaping process is carried out again, slight deformation generated in the dyeing and finishing process is corrected, meanwhile, the hot air drying also plays a role in deepening dye adhesion and consolidating dyeing and finishing effects.

In the embodiment of the invention, the cloth 8 enters from the front end of the static pressure hot air chamber 202 at the lower layer in the tentering and shaping oven system 2, and exits from the front end of the rotary static pressure hot air chamber 206 at the upper layer, and the cloth inlet and outlet are all positioned at the front end of the tentering and shaping oven system 2 and have a certain height difference. The overall height of each device in the cloth feeding area 1 is lower than the cloth outlet at the front end of the upper layer rotary static pressure hot air chamber 206, and the cloth discharging combination device 301 is arranged in front of the cloth feeding combination device 101 and higher than the overall height of each device in the cloth feeding area 1. With this height difference, the cloth 8 passes over the cloth feeding area 1 and is guided to the cloth discharging area 3.

In this embodiment, the height of each device in the cloth feeding area 1 is fully utilized, and the cloth discharging support device 302 is disposed above each device in the cloth feeding area 1, so as to simplify the structure and reduce the material consumption. Meanwhile, as the cloth inlet area 1 and the cloth outlet area 3 are overlapped, the respective working areas are staggered in height, so that a comprehensive working area is formed, and the occupied area is also saved.

The cloth discharging combined device 301 is provided with a cooling air nozzle 303 and a cooling fan 304, the cooling air nozzle 303 is positioned above the cloth discharging supporting device 302 and faces the cloth 8, the cloth 8 is cooled by the cooling fan and is collected into a cloth box, and finally the finished cloth is obtained.

According to the technical scheme, the traditional washing, dyeing and finishing, whole-course tentering and shaping procedures are decomposed into washing, half Cheng Lafu shaping, dyeing and finishing, half Cheng Lafu shaping and fixation procedures, so that the high-quality finished fabric with uniform dyeing, straight cloth cover and neat warps and wefts is obtained.

The configuration of each device in the configuration diagram of the present embodiment is simplified to a certain extent for convenience of description, and therefore, the configuration diagram of the present embodiment should not be construed as limiting the actual configuration. Each device in the practical all-in-one machine can also comprise a functional device such as a centering device, overfeeding, width adjustment, flexible edge, speed synchronization, photoelectric weft straightening and the like, and can be freely combined according to practical requirements.

As shown in the cross-sectional view of the oven unit of the first embodiment of the present invention shown in FIG. 3, the oven system 2 is composed of a lower circulation plenum 201, a middle lower static pressure hot plenum 202, and an upper rotary static pressure hot plenum 206. The circulating air chamber 201 is internally provided with a blower 208 and a heater 203, and the working purpose is to heat air; inside the lower static pressure hot air chamber 202 and the rotary static pressure hot air chamber 206 are provided with U-shaped hot air nozzle devices 207, a track 204 for conveying cloth 8 is arranged in the middle of the hot air nozzle devices 207, a cloth gripper 205 device is arranged on the track 204, and a blowing hole is formed in the surface of one side of the hot air nozzle devices 207 facing the cloth 8. After being heated by the heater 203 of the circulating air chamber 201, the air is pressurized by the circulating fan 208 and is blown to the surface of the cloth 8 through the blowing hole of the hot air nozzle device 207, so that the purpose of tentering and shaping the cloth is achieved.

In this embodiment, there is an obvious air chamber partition 209 between the lower static pressure hot air chamber 202 and the convolution static pressure hot air chamber 206, so that the two hot air chambers can work under the air injection pressures with different temperatures, so as to meet the different working requirements of the lower static pressure hot air chamber 202 for tentering shaping and the convolution static pressure hot air chamber 206 for tentering shaping and fixation.

As shown in fig. 4, the present embodiment has a secondary purification device 6 and an adaptive return air device 7 behind the purification device 5. The self-adaptive air return device 7 consists of a three-way ventilating duct 701 and a supplemental fan 702, wherein the three-way ventilating duct 701 is provided with an upper through hole, a middle through hole and a lower through hole, the upper through hole is communicated with the external environment, the middle through hole is connected with an exhaust pipe 703 of the secondary purification device 6, the lower through hole is connected with the supplemental fan 702, enters the circulating air chamber 201, passes through the heater 203 and enters the static pressure hot air chamber 202/206, and the static pressure hot air chamber is recycled into the purification device 5 after the cloth is shaped.

When the self-adaptive air return device 7 works, the air supplementing machine 702 generates suction force, purified tail gas with heat meeting emission standards is sucked into the circulating air chamber 201, so that heat energy air basically circulates in a setting machine system, the emission of the tail gas with heat energy is greatly reduced, and the heat energy utilization is obviously improved.

The self-adaptive air return device 7 can automatically discharge or suck air according to the working state, and can automatically adjust in the working process of the setting machine, so that manual intervention is reduced. And the temperature and the wind pressure of hot air are not interfered by the outside, so that the system works more stably, the emission of tail gas with heat can be effectively reduced by more than 80% under different working environments, and the heat energy consumption is effectively saved.

As mentioned above, the optimum working state of the present invention is that the lower static pressure hot air chamber 202 and the convolution hot air chamber 206 work under different air pressures and temperatures, so that the lower static pressure hot air chamber 202 and the convolution hot air chamber 206 can be respectively adopting an independent circulation air chamber, a purifying device and an adaptive return air device, or simply adopting an independent circulation air chamber to share the purifying device and the adaptive return air device, which should be regarded as the scope of the present invention.

According to the technical scheme, a double-layer static pressure hot air chamber structure and a structure that a cloth inlet area and a cloth outlet area are overlapped are adopted, so that the occupied area of equipment is saved, and the equipment management is optimized. If the double-layer static pressure hot air chamber structure is decomposed into two tentering and shaping oven systems, the tentering and shaping oven systems work independently in front and back of the high-pressure bubble dyeing and finishing device, and the double-layer static pressure hot air chamber structure is also regarded as the technical scheme scope of the invention.

The technical scheme of the integrated machine not only provides the textile equipment with small occupied area, simple operation, energy conservation, high efficiency and excellent finished product in integrated water washing, boiling, dyeing and finishing and tentering setting procedures, but also has the advantage of saving labor. The traditional sectional type process requires 2 persons to wash water, 2 persons to dye and finish, 2-3 persons to fix the shape, and a total of 6-7 persons, and the machine only needs 2 workers equivalent to the lowest manpower of the setting machine, so that the machine has technical advantages and saves manpower resource consumption.

In summary, the invention provides a novel vertical high-pressure bubble dyeing and finishing device which is used for carrying out energy-saving and high-efficiency dyeing and finishing treatment on thin cloth, especially novel chemical fiber fabrics such as nylon, terylene and the like, does not generate deformation in the treatment process, and solves the defect that the cloth is distorted in the dyeing and finishing process to cause uneven color of a finished product, thereby solving the problems of deformation, uneven dyeing and the like in the prior art and improving the quality of the finished product. The textile washing, boiling, dyeing, finishing, tentering and shaping integrated machine adopting the vertical high-pressure bubble dyeing and finishing device has the advantages of small occupied area, energy saving, high efficiency, and higher and better finished product rate, and can simultaneously finish the procedures of washing, dyeing, finishing and tentering and shaping. While the foregoing is merely a preferred embodiment of the present invention, it is not possible to operate entirely in accordance with the above-described embodiments due to the different manufacturing process requirements during actual deployment of the present invention, and thus the various embodiments of the present invention should not be construed as limiting the present invention. It should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as being within the effective protection scope of the present invention.

Claims (6)

1. A vertical high-pressure bubble dyeing and finishing device is characterized in that: comprises a dye liquor blending cylinder and a bubble liquor generator;

an air pump and a liquid pump are arranged below the bubble liquid generator, a bubble cavity is arranged above the bubble liquid generator, and the liquid pump is communicated with a jet liquid spraying port in the bubble cavity; the air pump is communicated with the bubbler in the bubbling cavity; the periphery of the bubbler is provided with a heater; the front end of the bubbler is provided with a plurality of layers of cutting nets; the top end is provided with a bubble liquid outlet;

inside the vertical high-pressure bubble dyeing and finishing device, a lower cloth feeding shaft is arranged at the corresponding cloth inlet; an upper cloth outlet shaft is arranged at the corresponding cloth outlet; a plurality of groups of cloth guide shafts are arranged in a staggered manner, cloth enters from the lower cloth inlet shaft, passes through the cloth guide shafts in a staggered manner, and is guided out from the upper cloth outlet shaft;

the dyeing liquid nozzles are communicated with a bubble liquid outlet of the bubble liquid generator through a dyeing liquid guide pipe;

a liquid outlet is arranged below the vertical high-pressure bubble dyeing and finishing device and is communicated with an inlet of a liquid pump of the bubble liquid generator through a liquid return valve and a guide pipe;

the bottom of the dye liquor blending cylinder is communicated with an inlet of a liquid pump of the bubble liquid generator through a dye liquor valve and a conduit;

a filter screen is arranged in front of the liquid outlet, and a drain outlet and a drain valve are arranged at the bottom of the high-pressure bubble dyeing and finishing device in front of the filter screen;

the top of the vertical high-pressure bubble dyeing and finishing device is provided with a plurality of air vents which are communicated with an air pump air inlet of the bubble liquid generator through an air duct;

the upper cloth outlet shaft is a pair of soft rubber rollers with pressure.

2. A vertical high pressure bubble dyeing and finishing device according to claim 1 and characterized in that:

the inside of the vertical high-pressure bubble dyeing and finishing device is provided with a plurality of groups of symmetrical cleaning nozzles, the cleaning nozzles are communicated with a bubble liquid outlet of the bubble liquid generator through cleaning pipes, and the cleaning pipes are controlled by cleaning pipe water valves.

3. A textile washing water boiling, dyeing and finishing, tentering and shaping integrated machine comprising the vertical high-pressure bubble dyeing and finishing device of claim 1, which consists of a cloth feeding area, a plurality of tentering and shaping oven systems and a cloth discharging area, and controls the working state of the machine through a control console; the cloth feeding area consists of a cloth feeding combination device, a padder, a control console and other equipment, and the cloth discharging area comprises a cloth discharging combination device and a cloth discharging support device; the tentering shaping oven system consists of a circulating air chamber and a static pressure hot air chamber, wherein a heater and a circulating fan are arranged in the circulating air chamber; a hot air spraying nozzle device is arranged in the static pressure hot air chamber, the hot air spraying nozzle device is provided with an upper layer and a lower layer, a track for conveying cloth is arranged in the middle, and a hot air spraying nozzle is arranged on one side of the hot air spraying nozzle device facing the cloth; the tentering setting oven system is matched with a purifying device, is generally arranged on the upper layer of the tentering setting oven system and is connected with an exhaust pipe and an air inlet pipeline, and is characterized in that:

in the cloth feeding area, a cloth loosening machine is arranged in front of the cloth feeding combined device; a washing water boiling-off machine is arranged in front of the padder equipment;

the static pressure hot air chamber of the tentering shaping oven system adopts a convolution structure, namely the static pressure hot air chamber is divided into two layers, a convolution static pressure hot air chamber is arranged on the static pressure air chamber at the lower layer, a hot air nozzle device and a track for conveying cloth are also arranged in the convolution static pressure hot air chamber, and the track running direction of the convolution static pressure hot air chamber is opposite to the track running direction of the static pressure hot air chamber at the lower layer; a partition plate is arranged between the two layers of static pressure air chambers;

the vertical high-pressure bubble dyeing and finishing device is arranged at the rear of the tentering and shaping oven system, cloth enters the inlet of the vertical high-pressure bubble dyeing and finishing device from the outlet of the lower static pressure hot air chamber, after being dyed and finished in the vertical high-pressure bubble dyeing and finishing device, the cloth moves to the inlet of the rotary static pressure hot air chamber from the outlet of the high position of the vertical high-pressure bubble dyeing and finishing device, and finally is guided to the cloth outlet area from the outlet of the first rotary static pressure hot air chamber;

the cloth discharging combination device is arranged in front of the cloth feeding combination device and is higher than the height of each device in the cloth feeding area, and the cloth discharging support device is arranged above each device in the cloth feeding area;

the cloth discharging combined device comprises a cooling air nozzle and a cooling fan, and is positioned above the cloth discharging supporting device, and the cooling air nozzle faces the cloth.

4. A textile wash water scouring dyeing and finishing tentering setting all-in-one machine as claimed in claim 3, wherein:

the washing water scouring machine is an open-width washing machine adopting a micro bubble-rich water flow generator.

5. A textile wash water scouring dyeing and finishing tentering setting all-in-one machine as claimed in claim 3, wherein:

the tentering setting oven system is provided with an adaptive air return device and is connected with a secondary purifying device after the purifying device;

the self-adaptive air return device consists of a three-way ventilating duct and a air supplementing machine, wherein the three-way ventilating duct is provided with an upper through hole, a middle through hole and a lower through hole, the upper through hole leads to the external environment, the middle through hole is connected with an exhaust pipe of the secondary purifying device, and the lower through hole is connected with the air supplementing machine and then is connected with an air inlet pipe.

6. A textile wash water scouring dyeing and finishing tentering setting all-in-one machine as claimed in claim 3, wherein:

the lower static pressure air chamber and the rotary static pressure hot air chamber respectively adopt an independent circulating air chamber, a purifying device and a self-adaptive air return device.