CN112944860A - Fabric drying method - Google Patents

Abstract

The invention provides a fabric drying method, and belongs to the technical field of warp knitting. The drying method solves the technical problems of large energy consumption and the like of the existing drying method. The fabric drying method is characterized by comprising the following steps: a. starting the equipment: checking the water level in the water washer and starting the fuel cell system; b. fabric cleaning: the fabric enters a washing machine for washing and then enters a dryer; c. heating and drying: heating and drying the fabric by a heating block in a dryer, wherein the temperature in the dryer is controlled to be 85-95 ℃; d. discharging steam: the fan discharges water vapor in the dryer, so that the drying efficiency is improved; e. and (3) winding the fabric: the fabric is rolled up through the rolling mechanism. The invention has the advantage of good use effect.

Description

Fabric drying method

Technical Field

The invention belongs to the technical field of warp knitting, relates to a drying method, and particularly relates to a fabric drying method.

Background

Warp knitting surface fabric need pass through the stoving step in process of production, need guarantee warp knitting surface fabric's cleanliness through washing before the stoving, and traditional stoving is hung warp knitting surface fabric and is dried naturally on drying the frame, and drying efficiency is lower, and current drying equipment washes warp knitting surface fabric earlier, and rethread electrical heating heats the air to drying warp knitting surface fabric, the great and not environmental protection of energy consumption.

Therefore, it is necessary to design a fabric drying method.

Disclosure of Invention

The invention aims to provide a fabric drying method aiming at the problems in the prior art, and solves the problem of high energy consumption in the prior drying method.

The purpose of the invention can be realized by the following technical scheme: the fabric drying method is characterized by comprising the following steps:

a. starting the equipment: checking the water level in the water washer and starting the fuel cell system;

b. fabric cleaning: the fabric enters a washing machine for washing and then enters a dryer;

c. heating and drying: heating and drying the fabric by a heating block in a dryer, wherein the temperature in the dryer is controlled to be 85-95 ℃;

d. discharging steam: the fan discharges water vapor in the dryer, so that the drying efficiency is improved;

e. and (3) winding the fabric: the fabric is rolled up through a rolling mechanism;

the fuel cell system comprises an electric pile, an air subsystem, a hydrogen subsystem and a cooling subsystem, wherein the air subsystem, the hydrogen subsystem and the cooling subsystem are connected with the electric pile; the washing machine comprises a washing box body, a water squeezing structure is arranged in the washing box body, and a heat exchange pipe is also arranged on the washing box body and is connected with a cooling subsystem; the dryer comprises a drying box body, a plurality of heating blocks are arranged in the drying box body, the upper surfaces of the heating blocks are arc-shaped, the heating blocks are fixed on the drying box body through a support, and the heating blocks are electrically connected with the electric pile through an inverter.

Structure more than adopting, the industry waste hydrogen that will produce the chemical plant is retrieved, supply the electric energy to the drying-machine through fuel cell system, set up the heat exchange tube simultaneously, play the effect of cooling the pile when retrieving the heat that the pile produced, the heat exchange tube carries out the heat transfer with the washing liquid in the washing box, improve the temperature of the washing liquid in the washing box, thereby improve surface fabric washing effect, the advantage of practicing thrift the energy consumption has, use fuel cell system simultaneously, washing machine and drying-machine carry out the stoving of surface fabric, drying efficiency is high and the energy consumption is lower, has the advantage that excellent in use effect.

The air subsystem comprises an air compressor, a throttle valve and a water-vapor separator, the air compressor is communicated with an air inlet of the galvanic pile, the throttle valve is communicated with an air outlet of the galvanic pile, and the water-vapor separator is connected with the throttle valve.

By adopting the structure, air is supplied to the galvanic pile through the air compressor, and water generated in the reaction process is recycled through the water-vapor separator, so that resources are saved.

The water-vapor separator comprises a box body, the box body in be divided into separation chamber and water storage chamber through the baffle, the baffle slope sets up, has seted up a plurality of through-holes on the baffle, the separation intracavity still is provided with a plurality of auxiliary balls, has seted up mist inlet, gas outlet and delivery port on the box body, mist inlet and gas outlet all are located the separation chamber, the delivery port is located the water storage chamber, the mist inlet is connected with the air throttle, the gas outlet is linked together with the atmosphere, the delivery port leads to pipe and washing box body to be linked together, still is provided with auxiliary structure on the box body.

Structure more than adopting, during the water that will retrieve adds the washing box, the water of supplementary surface fabric loss in the cleaning process, the water economy resource for the steam-water separation effect is better through setting up auxiliary structure simultaneously, sets up a plurality of auxiliary balls, and the baffle slope sets up, separation liquid water that can be better, has excellent in use effect's advantage.

The auxiliary structure comprises an auxiliary plate, a positioning plate and a clamping block, wherein the auxiliary plate is rotatably arranged on the box body and is positioned between the mixed gas inlet and the gas outlet, the clamping block is arranged on the auxiliary plate through a spring, the positioning plate is fixed on the box body, and a plurality of positioning blocks which can be matched with the clamping block are fixed on the positioning plate.

By adopting the structure, the clamping blocks are clamped between the adjacent positioning blocks, so that the angle of the auxiliary plate can be adjusted, and a better water-vapor separation effect is achieved.

The hydrogen subsystem comprises a hydrogen supply system and a circulating pump, the hydrogen supply system is communicated with the electric pile through a hydrogen pipeline, and the circulating pump is further arranged on the hydrogen pipeline.

The cooling subsystem comprises a water pump, the inlet of the water pump is communicated with the water outlet of the galvanic pile, the outlet of the water pump is communicated with the inlet of the heat exchange tube, and the outlet of the heat exchange tube is communicated with the water inlet of the galvanic pile.

The drying box body is provided with a plurality of air outlets, and the drying box body is also provided with a fan which is communicated with the drying box body.

The washing tank body is provided with an overflow outlet for preventing the washing water from overflowing.

By adopting the structure, the water level of the washing tank body is prevented from being too high.

And a plurality of guide rollers are also arranged in the washing box body and the drying box body.

The washing box body and the drying box body are both fixed on the base, and the base is also provided with a driving structure for driving the fabric to move.

Compared with the prior art, the invention has the following advantages:

the industrial waste hydrogen that will chemical plant produced is retrieved, supply the electric energy to the drying-machine through fuel cell system, set up the heat exchange tube simultaneously, the effect of cooling the pile is played when retrieving the heat that the pile produced, the heat exchange tube carries out the heat transfer with the washing liquid in the washing box, improve the temperature of the washing liquid in the washing box, thereby improve surface fabric washing effect, the advantage of practicing thrift the energy consumption has, use fuel cell system simultaneously, the drying of surface fabric is carried out to rinsing machine and drying-machine, high and the energy consumption of drying efficiency is lower, has the advantage that excellent in use effect.

Drawings

Fig. 1 is a schematic diagram of the present invention.

FIG. 2 is a schematic sectional view of the washing machine of the present invention.

Fig. 3 is a schematic sectional view of a dryer according to the present invention.

FIG. 4 is a schematic sectional structure of the water-vapor separator of the present invention.

Fig. 5 is an enlarged schematic view of the present invention at a.

In the figure, 1, a fan; 2. washing the box body with water; 2a, an overflow outlet; 3. drying the box body; 3a, an air outlet; 4. a heating block; 5. a heat exchange pipe; 6. a box body; 6a, a mixed gas inlet; 6b, an air outlet; 6c, a water outlet; 7. a baffle plate; 7a, a through hole; 8. an auxiliary ball; 9. a separation chamber; 10. a water storage cavity; 11. an auxiliary plate; 12. positioning a plate; 13. clamping the block; 14. positioning blocks; 15. a support; 16. a guide roller; 17. a water squeezing structure.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, a fabric drying method, in this embodiment, includes the following steps:

a. starting the equipment: checking the water level in the water washer and starting the fuel cell system;

b. fabric cleaning: the fabric enters a washing machine for washing and then enters a dryer;

c. heating and drying: a heating block 4 in the dryer heats and dries the fabric, and the temperature in the dryer is controlled to be 85-95 ℃;

d. discharging steam: the fan 1 discharges water vapor in the dryer, so that the drying efficiency is improved;

e. and (3) winding the fabric: the fabric is rolled up through a rolling mechanism;

the fuel cell system comprises an electric pile, an air subsystem, a hydrogen subsystem and a cooling subsystem, wherein the air subsystem, the hydrogen subsystem and the cooling subsystem are connected with the electric pile; the washing machine comprises a washing box body 2, wherein a water squeezing structure 17 is arranged in the washing box body 2, in the embodiment, the water squeezing structure 17 adopts the existing structure, a heat exchange tube 5 is also arranged on the washing box body 2, and the heat exchange tube 5 is connected with a cooling subsystem; the drying-machine includes stoving box 3, is provided with a plurality of heating blocks 4 in the stoving box 3, and the upper surface of heating block 4 is circular-arc, and heating block 4 passes through support 15 to be fixed on stoving box 3, and heating block 4 passes through the dc-to-ac converter and links to each other with the pile electricity, and in this embodiment, heating block 4 adopts current product, and dc-to-ac converter and pile adopt current product, and its mounting means is prior art.

Structure more than adopting, the industry waste hydrogen that will produce the chemical plant is retrieved, supply the electric energy to the drying-machine through fuel cell system, set up heat exchange tube 5 simultaneously, play the effect of cooling the pile when retrieving the heat that the pile produced, heat exchange tube 5 carries out the heat transfer with the washing liquid in the washing box 2, improve the temperature of the washing liquid in the washing box 2, thereby improve surface fabric washing effect, the advantage of practicing thrift the energy consumption has, use fuel cell system simultaneously, rinsing machine and drying-machine carry out the stoving of surface fabric, drying efficiency is high and the energy consumption is lower, has the advantage that excellent in use effect.

The air subsystem comprises an air compressor, a throttle valve and a water-vapor separator, wherein the air compressor is communicated with an air inlet of the galvanic pile, the throttle valve is communicated with an air outlet of the galvanic pile, and the water-vapor separator is connected with the throttle valve.

By adopting the structure, air is supplied to the galvanic pile through the air compressor, and water generated in the reaction process is recycled through the water-vapor separator, so that resources are saved.

The water vapor separator includes box body 6, divide into disengagement chamber 9 and water storage chamber 10 through baffle 7 in the box body 6, the slope of baffle 7 sets up, a plurality of through-holes 7a have been seted up on the baffle 7, still be provided with a plurality of auxiliary balls 8 in the disengagement chamber 9, gas mixture import 6a has been seted up on the box body 6, gas outlet 6b and delivery port 6c, gas mixture import 6a and gas outlet 6b all are located disengagement chamber 9, delivery port 6c is located water storage chamber 10, gas mixture import 6a is connected with the air throttle, gas outlet 6b is linked together with the atmosphere, delivery port 6c leads to pipe and washing box 2 to be linked together, still be provided with auxiliary structure on the box body 6.

Structure more than adopting, during water that will retrieve adds washing box 2, the water of supplementary surface fabric loss in the cleaning process, the water economy resource is simultaneously through setting up auxiliary structure for the steam-water separation effect is better, sets up a plurality of auxiliary balls 8, and 7 slopes to set up of baffle, separation liquid water that can be better, has excellent in use effect's advantage.

The auxiliary structure comprises an auxiliary plate 11, a positioning plate 12 and a clamping block 13, wherein the auxiliary plate 11 is rotatably arranged on the box body 6, the auxiliary plate 11 is positioned between the mixed gas inlet 6a and the gas outlet 6b, the clamping block 13 is arranged on the auxiliary plate 11 through a spring, the positioning plate 12 is fixed on the box body 6, and a plurality of positioning blocks 14 which can be matched with the clamping block 13 are fixed on the positioning plate 12.

By adopting the structure, the clamping blocks 13 are clamped between the adjacent positioning blocks 14, so that the angle of the auxiliary plate 11 can be adjusted, and a better water-vapor separation effect is achieved.

The hydrogen subsystem comprises a hydrogen supply system and a circulating pump, the hydrogen supply system is communicated with the electric pile through a hydrogen pipeline, and the circulating pump is further arranged on the hydrogen pipeline.

The cooling subsystem comprises a water pump, the inlet of the water pump is communicated with the water outlet 6c of the galvanic pile, the outlet of the water pump is communicated with the inlet of the heat exchange tube 5, and the outlet of the heat exchange tube 5 is communicated with the water inlet of the galvanic pile.

A plurality of air outlets 3a are formed in the drying box body 3, a fan 1 is further arranged on the drying box body 3, and the fan 1 is communicated with the drying box body 3.

The washing tank 2 is provided with an overflow outlet 2a for preventing the washing water from overflowing.

By adopting the structure, the water level of the washing tank body 2 is prevented from being too high.

A plurality of guide rollers 16 are also arranged in the washing box body 2 and the drying box body 3.

Washing box 2 and stoving box 3 all fix on the base, still are provided with the drive structure that drives the surface fabric motion on the base, and in this embodiment, the drive structure adopts current structure.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. The fabric drying method is characterized by comprising the following steps:

a. starting the equipment: checking the water level in the water washer and starting the fuel cell system;

b. fabric cleaning: the fabric enters a washing machine for washing and then enters a dryer;

c. heating and drying: heating and drying the fabric by a heating block in a dryer, wherein the temperature in the dryer is controlled to be 85-95 ℃;

d. discharging steam: the fan discharges water vapor in the dryer, so that the drying efficiency is improved;

e. and (3) winding the fabric: the fabric is rolled up through a rolling mechanism;

the fuel cell system comprises an electric pile, an air subsystem, a hydrogen subsystem and a cooling subsystem, wherein the air subsystem, the hydrogen subsystem and the cooling subsystem are connected with the electric pile; the washing machine comprises a washing box body, a water squeezing structure is arranged in the washing box body, and a heat exchange pipe is also arranged on the washing box body and is connected with a cooling subsystem; the dryer comprises a drying box body, a plurality of heating blocks are arranged in the drying box body, the upper surfaces of the heating blocks are arc-shaped, the heating blocks are fixed on the drying box body through a support, and the heating blocks are electrically connected with the electric pile through an inverter.

2. A method of drying fabric as claimed in claim 1 wherein the air subsystem comprises an air compressor in communication with the air inlet of the stack, a damper in communication with the air outlet of the stack, and a water vapor separator connected to the damper.

3. A fabric drying method according to claim 2, wherein the water-vapor separator comprises a box body, the box body is divided into a separation cavity and a water storage cavity by a baffle plate, the baffle plate is obliquely arranged, a plurality of through holes are formed in the baffle plate, a plurality of auxiliary balls are further arranged in the separation cavity, a mixed gas inlet, a gas outlet and a water outlet are formed in the box body, the mixed gas inlet and the gas outlet are both located on the separation cavity, the water outlet is located on the water storage cavity, the mixed gas inlet is connected with a throttle valve, the gas outlet is communicated with the atmosphere, the water outlet is communicated with the water washing box body through a water pipe, and an auxiliary structure is further.

4. A fabric drying method according to claim 3, wherein the auxiliary structure comprises an auxiliary plate, a positioning plate and a clamping block, the auxiliary plate is rotatably arranged on the box body, the auxiliary plate is positioned between the mixed gas inlet and the gas outlet, the clamping block is arranged on the auxiliary plate through a spring, the positioning plate is fixed on the box body, and a plurality of positioning blocks which can be matched with the clamping block are fixed on the positioning plate.

5. The fabric drying method of claim 1, wherein the hydrogen subsystem comprises a hydrogen supply system and a circulating pump, the hydrogen supply system is communicated with the electric pile through a hydrogen pipeline, and the circulating pump is further arranged on the hydrogen pipeline.

6. The fabric drying method according to claim 1, wherein the cooling subsystem comprises a water pump, an inlet of the water pump is communicated with a water outlet of the electric pile, an outlet of the water pump is communicated with an inlet of the heat exchange tube, and an outlet of the heat exchange tube is communicated with a water inlet of the electric pile.

7. The fabric drying method according to claim 1, wherein the drying box body is provided with a plurality of air outlets, and the drying box body is further provided with a fan which is communicated with the drying box body.

8. The fabric drying method according to claim 1, wherein an overflow port for preventing the washing water from being overfilled is formed on the washing tank body.

9. The fabric drying method according to claim 1, wherein a plurality of guide rollers are further arranged in the washing box body and the drying box body.

10. The fabric drying method according to claim 1, wherein the washing box body and the drying box body are both fixed on a base, and a driving structure for driving the fabric to move is further arranged on the base.

Images