CN220520835U - Energy-saving dyeing device for fabric - Google Patents

Abstract

An energy-saving dyeing device for fabrics, which belongs to the technical field of textile dyeing; the dyeing device comprises a box body, be equipped with dyeing chamber and stoving chamber in the box, be located between dyeing chamber and the stoving chamber in the box and be equipped with the baffle that is used for separating dyeing chamber and stoving chamber, be equipped with dyeing mechanism and drawing liquid pump in the dyeing chamber, be connected with the feed liquid pipe between dyeing mechanism and the drawing liquid pump, the stoving intracavity is equipped with air-out subassembly and many guide rolls that stagger the setting, and the box top is equipped with the air-out spare with air-out subassembly intercommunication.

Description

Energy-saving dyeing device for fabric

Technical Field

The utility model belongs to the technical field of textile dyeing, and particularly relates to an energy-saving dyeing device for fabrics.

Background

Dyeing of fabric is a method of coloring materials such as fabric fibers with dyes, and the objects can be made to present various colors required by people through dyeing, and the objects can be put into life with a five-color six-color design. Dyeing methods have been known from ancient times and have been developed continuously. Cloth dyeing generally needs to be performed by using a cloth dyeing device, different-color cloth needs to be selected for producing clothes with different colors, the existing cloth dyeing device puts the cloth into a dye device for soaking, so that the cloth is dyed, but a box of dye is needed for dip-dyeing one piece of grey cloth in a dip-bath dyeing mode, the next batch of grey cloth can not be continued after the chromaticity of the dye is changed after dip-dyeing, and the dye is not fully utilized, so that the dye is wasted.

Disclosure of Invention

The utility model mainly solves the technical problems in the prior art and provides an energy-saving dyeing device for fabrics.

The technical problems of the utility model are mainly solved by the following technical proposal: the energy-saving dyeing device for the fabric comprises a box body, wherein a dyeing cavity and a drying cavity are arranged in the box body, a partition plate for separating the dyeing cavity from the drying cavity is arranged between the dyeing cavity and the drying cavity in the box body, a dyeing mechanism and a liquid pump are arranged in the dyeing cavity, a liquid supply pipe is connected between the dyeing mechanism and the liquid pump, an air outlet assembly and a plurality of guide rollers which are arranged in a staggered manner are arranged in the drying cavity, and an air supply piece communicated with the air outlet assembly is arranged at the top of the box body;

the air outlet assembly comprises air outlet pipes and air outlet discs, the air outlet pipes are symmetrically fixed on the front side wall and the rear side wall of the drying cavity, a plurality of air outlet discs are arranged on the 2 air outlet pipes, the air outlet discs are semicircular, and a plurality of air outlets are formed in the arc-shaped side faces of the air outlet discs.

Preferably, the dyeing mechanism comprises 2 groups of dyeing rollers and 2 squeeze rollers, wherein the 2 groups of dyeing rollers are respectively arranged on the left side and the right side of the dyeing cavity, the 2 squeeze rollers are symmetrically arranged in the dyeing cavity left and right by taking 1 group of dyeing rollers positioned on the right side of the dyeing cavity as the center, and the number of the dyeing rollers in each group is 2 and the dyeing rollers are arranged in parallel up and down.

Preferably, the liquid supply pipe comprises a liquid delivery pipe and a liquid separation pipe, wherein two ends of the liquid delivery pipe are respectively communicated with the liquid suction pump and the liquid separation pipe, and two ends of the liquid separation pipe are respectively communicated with 2 groups of dyeing rollers.

Preferably, the dyeing roller is provided with a plurality of liquid outlets, and the surface of the dyeing roller is wrapped with a sponge layer.

Preferably, 2 electric telescopic rods are fixed on the top wall of the dyeing cavity, the 2 electric telescopic rods are respectively located above the 2 extrusion rollers, supports are respectively fixed on the bottom ends of the 2 electric telescopic rods, the 2 extrusion rollers are respectively and rotatably arranged on the 2 supports, and auxiliary rollers for extrusion stress are respectively and rotatably arranged below the 2 dyeing rollers in the dyeing cavity.

Preferably, the air supply piece comprises a hot air box, an air supply pipe and a shunt pipe, the hot air box is fixed at the top of the box body, two ends of the air supply pipe are respectively communicated with the hot air box and the shunt pipe, and two ends of the shunt pipe are respectively communicated with 2 air outlet pipes in the drying cavity.

Preferably, the left side wall and the right side wall of the box body are respectively provided with a feed inlet communicated with the dyeing cavity and a discharge outlet communicated with the drying cavity, the partition plate is provided with a material passing port used for communicating the dyeing cavity and the drying cavity, and the feed inlet, the discharge outlet and the material passing port are respectively provided with a cloth guide roller in a rotating mode.

The utility model has the beneficial effects that:

compared with the prior art, the dyeing liquid is fed into the dyeing roller through the liquid suction pump and flows out from the liquid outlet formed in the dyeing roller to be adsorbed by the sponge layer, when the cloth passes through the space between 2 dyeing rollers, the sponge layer is extruded to enable the dyeing in the sponge layer to be extruded and then to permeate into the cloth to complete dyeing, the dyed cloth passes through the extrusion of the extrusion roller between the extrusion roller and the auxiliary roller, and the dyeing liquid in the cloth passes through the dyeing of the dyeing roller and the extrusion of the extrusion roller again after being extruded, so that the consumption of the dyeing liquid can be effectively saved on the premise of ensuring the uniform dyeing of the fabric to be dyed.

According to the utility model, the air outlet pipe and the air outlet disc are arranged on the inner side wall of the drying cavity, the plurality of air outlets are arranged on the cambered surface of the side edge of the air outlet disc, and hot air is not directly blown onto the surface of the cloth when the dyed cloth is dried, so that the damage to the surface of the cloth caused by overhigh temperature is avoided, and the dye liquor in the dyed cloth is extruded by the extrusion roller, so that the drying efficiency of the cloth is improved, and the electric energy consumed for drying the cloth is reduced.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the present utility model;

FIG. 3 is a schematic view of the structure of the present dyeing roll and liquid supply tube;

fig. 4 is a schematic structural view of the air outlet assembly.

In the figure: 1. a case; 2. a dyeing chamber; 3. a drying chamber; 4. a partition plate; 5. a dyeing mechanism; 6. a liquid pump; 7. a liquid supply pipe; 8. an air outlet assembly; 9. a guide roller; 10. an air supply member; 11. a dyeing roller; 12. a squeeze roll; 13. an infusion tube; 14. a liquid separating pipe; 15. a liquid outlet; 16. a sponge layer; 17. an electric telescopic rod; 18. a bracket; 19. an auxiliary roller; 20. an air outlet pipe; 21. an air outlet disc; 22. an air outlet; 23. a hot air box; 24. an air supply pipe; 25. a shunt; 26. a feed inlet; 27. a discharge port; 28. a material passing opening; 29. a cloth guide roller; 30. and (5) distributing materials.

Description of the embodiments

The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings.

Examples: the utility model provides an energy-conserving dyeing apparatus of fabric, as shown in fig. 1-4, includes box 1, be equipped with dyeing chamber 2 and stoving chamber 3 in the box 1, be equipped with the baffle 4 that is used for separating dyeing chamber 2 and stoving chamber 3 between dyeing chamber 2 and stoving chamber 3 in the box 1, be equipped with dyeing mechanism 5 and drawing liquid pump 6 in the dyeing chamber 2, be connected with liquid feed pipe 7 between dyeing mechanism 5 and the drawing liquid pump 6, be equipped with air-out subassembly 8 and many guide rolls 9 that stagger the setting in the stoving chamber 3, box 1 top is equipped with the air feed piece 10 with air-out subassembly 8 intercommunication.

Further, the dyeing mechanism 5 includes 2 sets of dyeing rollers 11 and 2 squeeze rollers 12, the 2 sets of dyeing rollers 11 are respectively arranged at the left and right sides in the dyeing cavity 2, the 2 squeeze rollers 12 are symmetrically arranged in the dyeing cavity 2 around the 1 sets of dyeing rollers 11 positioned at the right side of the dyeing cavity 2, and the number of the dyeing rollers 11 in each set is 2 and the dyeing rollers are arranged in parallel up and down.

Further, the liquid supply pipe 7 comprises a liquid delivery pipe 13 and a liquid distribution pipe 14, two ends of the liquid delivery pipe 13 are respectively communicated with the liquid suction pump 6 and the liquid distribution pipe 14, two ends of the liquid distribution pipe 14 are respectively communicated with 2 groups of dyeing rollers 11, a plurality of liquid outlets 15 are formed in the 4 dyeing rollers 11, and a sponge layer 16 is wrapped on the surface of the 4 dyeing rollers 11.

Further, 2 electric telescopic rods 17 are fixed on the top wall of the dyeing cavity 2,2 electric telescopic rods 17 are respectively located above 2 squeeze rolls 12, supports 18 are respectively fixed on the bottom ends of the 2 electric telescopic rods 17, the 2 squeeze rolls 12 are respectively and rotatably arranged on the 2 supports 18, and auxiliary rolls 19 for squeezing stress are respectively and rotatably arranged below the 2 dyeing rolls 11 in the dyeing cavity 2.

Further, the air outlet assembly 8 includes an air outlet pipe 20 and an air outlet disk 21, the air outlet pipes 20 are symmetrically fixed on the front and rear side walls in the drying cavity 3, a plurality of air outlet disks 21 are installed on the 2 air outlet pipes 20, the air outlet disks 21 are semicircular, and a plurality of air outlets 22 are formed in the arc-shaped side surfaces of the air outlet disks 21.

Preferably, the air supply member 10 includes a hot air box 23, an air supply pipe 24 and a shunt tube 25, the hot air box 23 is fixed at the top of the box body 1, two ends of the air supply pipe 24 are respectively communicated with the hot air box 23 and the shunt tube 25, and two ends of the shunt tube 25 are respectively communicated with 2 air outlet pipes 20 in the drying cavity 3.

Further, a feeding port 26 communicated with the dyeing cavity 2 and a discharging port 27 communicated with the drying cavity 3 are respectively formed in the left side wall and the right side wall of the box body 1, a passing port 28 used for communicating the dyeing cavity 2 and the drying cavity 3 is formed in the partition plate 4, and cloth guide rollers 29 are respectively and rotatably arranged on the feeding port 26, the discharging port 27 and the passing port 28.

The principle of the utility model is as follows:

when the dyeing machine is used, the liquid pump 6 sends the dyeing in the dyeing cavity 2 into the dyeing roller 11 through the liquid supply pipe 7, the dyeing flows out from the liquid outlet 15 of the dyeing roller 11 and is adsorbed by the sponge layer 16 wrapped on the surface of the dyeing roller 11, when the cloth 30 to be dyed passes through the space between the 2 dyeing rollers 11 of the first group, the sponge layer 16 is extruded, the dyeing in the sponge layer 16 is extruded and then permeates into the cloth 30 to enable the inside of the cloth to be dyed, the dyed cloth 30 passes through the space between the first extruding roller 12 and the auxiliary roller 19, the electric telescopic rod 17 pushes the extruding roller 12 to extrude the dyed cloth 30, and the dyeing liquid in the cloth 30 passes through the space between the 2 dyeing rollers 11 of the second group after being extruded, and then the dyeing and the extruding steps are repeated.

The cloth after dyeing gets into the stoving intracavity from the feed inlet and dries, and the hot-blast air that the hot-blast case blown out blows out from the air outlet on the air-out dish behind air supply pipe, shunt tubes and play tuber pipe in proper order and gets into the stoving intracavity and dry the cloth, because the air-out dish is semicircle form, and the air outlet on its side cambered surface is semi-annular distribution, hot-blast multi-angle level blows out, can not directly blow the surface of cloth again when evenly drying the cloth, has avoided the damage that the high temperature caused the cloth.

Finally, it should be noted that the above embodiments are merely representative examples of the present utility model. Obviously, the utility model is not limited to the above-described embodiments, but many variations are possible. Any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model should be considered to be within the scope of the present utility model.

Claims (7)

1. The utility model provides an energy-conserving dyeing apparatus of fabric, includes box (1), its characterized in that: the dyeing device is characterized in that a dyeing cavity (2) and a drying cavity (3) are arranged in the box body (1), a partition plate (4) used for separating the dyeing cavity (2) and the drying cavity (3) is arranged between the dyeing cavity (2) and the drying cavity (3) in the box body (1), a dyeing mechanism (5) and a liquid pump (6) are arranged in the dyeing cavity (2), a liquid supply pipe (7) is connected between the dyeing mechanism (5) and the liquid pump (6), an air outlet component (8) and a plurality of guide rollers (9) which are arranged in a staggered mode are arranged in the drying cavity (3), and an air supply piece (10) communicated with the air outlet component (8) is arranged at the top of the box body (1);

the air outlet assembly (8) comprises air outlet pipes (20) and air outlet discs (21), the air outlet pipes (20) are symmetrically fixed on the front side wall and the rear side wall in the drying cavity (3), a plurality of air outlet discs (21) are arranged on 2 air outlet pipes (20), the air outlet discs (21) are semicircular, and a plurality of air outlets (22) are formed in the arc-shaped side faces of the air outlet discs (21).

2. An energy-saving dyeing apparatus for fabrics according to claim 1, wherein: the dyeing mechanism (5) comprises 2 groups of dyeing rollers (11) and 2 squeeze rollers (12), the 2 groups of dyeing rollers (11) are respectively arranged on the left side and the right side in the dyeing cavity (2), the 2 squeeze rollers (12) are symmetrically arranged in the dyeing cavity (2) left and right by taking the 1 groups of dyeing rollers (11) positioned on the right side of the dyeing cavity (2) as the center, and the number of each group of dyeing rollers (11) is 2 and the dyeing rollers are arranged in parallel up and down.

3. A fabric energy saving dyeing apparatus according to claim 2 and characterized in that: the liquid supply pipe (7) comprises a liquid delivery pipe (13) and a liquid separation pipe (14), two ends of the liquid delivery pipe (13) are respectively communicated with the liquid suction pump (6) and the liquid separation pipe (14), and two ends of the liquid separation pipe (14) are respectively communicated with 2 groups of dyeing rollers (11).

4. A fabric energy saving dyeing apparatus according to claim 3 and characterized further in that: a plurality of liquid outlets (15) are formed in the dyeing roller (11), and a sponge layer (16) is wrapped on the surface of the dyeing roller (11).

5. The energy-saving dyeing apparatus for fabrics according to claim 4, wherein: be fixed with 2 electric telescopic handle (17) on the roof of dyeing chamber (2), 2 electric telescopic handle (17) are located the top of 2 squeeze rolls (12) respectively, all are fixed with support (18) on the bottom of 2 electric telescopic handle (17), and 2 squeeze rolls (12) rotate respectively and set up on 2 support (18), the below that is located 2 dye rolls (11) in dyeing chamber (2) is all rotated and is equipped with auxiliary roller (19) that are used for the extrusion atress.

6. An energy-saving dyeing apparatus for fabrics according to claim 1, wherein: the air supply piece (10) comprises a hot air box (23), an air supply pipe (24) and a shunt tube (25), wherein the hot air box (23) is fixed at the top of the box body (1), two ends of the air supply pipe (24) are respectively communicated with the hot air box (23) and the shunt tube (25), and two ends of the shunt tube (25) are respectively communicated with 2 air outlet pipes (20) in the drying cavity (3).

7. An energy-saving dyeing apparatus for fabrics according to claim 1, wherein: the dyeing machine is characterized in that a feed inlet (26) communicated with the dyeing cavity (2) and a discharge outlet (27) communicated with the drying cavity (3) are respectively formed in the left side wall and the right side wall of the box body (1), a material passing opening (28) used for communicating the dyeing cavity (2) and the drying cavity (3) is formed in the partition plate (4), and cloth guide rollers (29) are rotatably arranged on the feed inlet (26), the discharge outlet (27) and the material passing opening (28).