CN114748969B - Gas-liquid separation filtration equipment is used in domestic fabrics dyeing - Google Patents

Abstract

The invention discloses gas-liquid separation filter equipment for household textile dyeing, which comprises a dyeing box, wherein two moving plates are arranged in the dyeing box through a moving mechanism, a bearing box is fixedly arranged between the two moving plates, two positioning plates are fixedly arranged on the bearing box through a plurality of extrusion spring rods, a plurality of communication holes are formed in the bearing box, sealing discs matched with the communication holes are fixedly arranged in each communication hole through a plurality of reset spring rods, and an elevating arc plate is arranged between the two moving plates through an elevating mechanism. The advantages are that: the invention adopts a dyeing mode of combining soaking and heating, which not only can improve the dyeing efficiency of household textiles, but also can make the dyeing more uniform, and can separate and filter redundant dyeing pigment liquid and harmful gas, and can recycle the redundant dyeing pigment, reduce the harmfulness of the harmful gas, and save more energy and protect the environment.

Description

Gas-liquid separation filtration equipment is used in domestic fabrics dyeing

Technical Field

The invention relates to the technical field of household textiles, in particular to gas-liquid separation and filtration equipment for household textile dyeing.

Background

The household textile is a decorative and practical textile which can beautify and decorate the living environment of residents, and the household textile is usually placed in a dyeing device for dyeing after spinning, so that the aesthetic property of the household textile is improved;

the existing dyeing device still has the following defects when in use:

1. when the existing dyeing device is used for dyeing household textiles, a spray dyeing mode is generally adopted to increase the dyeing efficiency, the dyeing uniformity of the dyeing mode is poor, the household textiles cannot fully and thoroughly adsorb dyeing pigment, and the dyeing effect is poor;

2. when the existing dyeing device is used for dyeing household textiles, the residual dyed pigment and the household textiles after dyeing cannot be separated and filtered, the residual dyed pigment cannot be reused, and the separation and filtration effects of the dyed liquid pigment are poor;

3. certain harmful substances are usually arranged in the existing dyeing pigment, certain harmful gases are generated during dyeing, the existing dyeing device cannot sufficiently filter, adsorb and remove the harmful gases, and certain pollution is caused by directly discharging the harmful gases into the air;

in view of the above, the conventional dyeing apparatus has poor pigment coloring, gas-liquid separation and filtering effects and certain limitations, so it is highly desirable to design a gas-liquid separation and filtering device for dyeing household textiles to solve the above problems.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

Disclosure of Invention

The invention aims to solve the problems that the coloring effect is poor and gas-liquid separation and filtration cannot be completed in the prior art, and provides gas-liquid separation and filtration equipment for household textile dyeing.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a domestic fabrics dyeing is with gas-liquid separation filtration equipment, includes the dyeing case, install two movable plates through moving mechanism in the dyeing case, and fixed mounting has the box that bears between two movable plates, bear and have two locating plates through a plurality of extrusion spring levers fixed mounting on the box, bear and offer a plurality of intercommunicating pore on the box, and all have the sealing disk that cooperates with it through a plurality of reset spring levers fixed mounting in every intercommunicating pore, two install the lift arc board through elevating system between the movable plates, and fixed mounting has a plurality of jacking levers with sealing disk matched with on the lift arc board;

install liquid guide mechanism in the dyeing case, fixed mounting has heat conduction roof, two connecting plates on the dyeing case, and fixed mounting has a plurality of infiltration adsorption membranes between two connecting plates, install the stripper plate through slide mechanism in the dyeing case, and slidable mounting has a plurality of unidirectional gas pipes between heat conduction roof and the stripper plate, fixed mounting has two blast pipes on the dyeing case.

In the above-mentioned gas-liquid separation filtration equipment for domestic fabrics dyeing, moving mechanism includes two fixed curb plates of fixed mounting in the dyeing case, two all install a plurality of removal gyro wheels through removal slot rolling block on the fixed curb plate, and two movable plates rotate respectively and install on a plurality of removal gyro wheels, install location structure between bearing box and the dyeing case, the intercommunication opening has been seted up on the dyeing case, and fixed mounting has with intercommunication opening matched with closing plate on two fixed curb plates.

In the above-mentioned gas-liquid separation filtration equipment for domestic textile dyeing, location structure includes two absorption magnetism section of thick bamboo of fixed mounting on the dyeing incasement wall, fixed mounting has two absorption magnetism poles on the bearing box, and two absorption magnetism poles cooperate with two absorption magnetism section of thick bamboo respectively.

In the above-mentioned gas-liquid separation filtration equipment for domestic fabrics dyeing, elevating system includes two sliding plates of slidable mounting on two movable plates, and goes up and down arc board fixed mounting between two sliding plates, bear box internal fixation and install two hot plates, two all fixed mounting has the memory alloy pole between sliding plate and the bearing box.

In the above-mentioned gas-liquid separation filtration equipment for domestic fabrics dyeing, liquid guide mechanism includes that fixed mounting is at the filtration swash plate of dyeing incasement, output pump, and filters the swash plate and be located the lower part that bears the box, and the output pump is located the lower part of filtering the swash plate, fixed mounting has a plurality of impurity removal pipes with filtering swash plate matched with on the dyeing case, fixed mounting has the conducting pipe between output of output pump and the dyeing case, through annotating liquid pipe fixed mounting on the conducting pipe a plurality of pipes that diverge.

In the above-mentioned gas-liquid separation filtration equipment for domestic fabrics dyeing, slide mechanism includes two trapezoidal sliders of fixed mounting on the stripper plate, set up in the dyeing case with two trapezoidal slider matched with trapezoidal spout, all fixed mounting has a plurality of compression spring rods between stripper plate and the two connecting plates.

In the above-mentioned gas-liquid separation filtration equipment for domestic textile dyeing, fixed mounting has the pull handle on the closing plate, two equal fixed mounting has the rubber pad on the locating plate, two equal fixed mounting has the pull ring on the locating plate.

In the gas-liquid separation filter equipment for household textile dyeing, each unidirectional upper air pipe is fixedly provided with a limiting ring, and the dyeing box is fixedly provided with a transparent observation window.

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

1: the invention adopts a soaking dyeing mode, and can lead the household textile to be fully and comprehensively contacted with the dyeing pigment, thereby leading the coloring effect of the household textile to be better and the coloring to be more uniform.

2: the invention can dye the household textile while heating the textile, can improve the dyeing efficiency by utilizing the principle of increasing the molecular activity in the dye pigment by heating, can utilize the redundant heat during heating, can finish the automatic filtration of the dye pigment when the textile is heated to a certain degree and temperature, and can realize the automatic separation and drainage of the redundant dye pigment.

3: the invention can screen and filter the superfluous dyeing pigment, thereby filtering capillary impurities of household textiles attached in the superfluous dyeing pigment, recovering the superfluous dyeing pigment after filtering, and carrying out the next dyeing.

4: according to the invention, harmful gas generated by dyeing pigment can be recovered, and the harmful gas is extruded by utilizing the principles of heated expansion and volume increase of air, so that the harmful gas is fully extruded and contacted with the permeable adsorption membranes, and harmful substances in the harmful gas can be reduced under the cooperation of a plurality of permeable adsorption membranes for adsorption and filtration, thus the separation and adsorption operation of the harmful gas can be completed.

In summary, the invention adopts a dyeing mode of combining soaking and heating, which not only can improve the dyeing efficiency of household textiles, but also can make the dyeing more uniform, and can separate and filter the redundant dyeing pigment liquid and harmful gas, and can recycle the redundant dyeing pigment and reduce the harm of the harmful gas, thereby saving more energy and protecting the environment.

Drawings

The invention is described in further detail below with reference to the attached drawing figures, wherein:

fig. 1 is a schematic structural diagram of a gas-liquid separation filter device for dyeing household textiles;

FIG. 2 is a schematic perspective view showing the internal structure of the dyeing tank in FIG. 1;

FIG. 3 is an enlarged view of the two moving plates and the connection structure of the upper parts thereof in FIG. 2;

FIG. 4 is an enlarged view of the carrying case of FIG. 3 with a portion of the connection structure thereon;

FIG. 5 is a cross-sectional view of the interior structure of the carrying case of FIG. 4;

FIG. 6 is an enlarged view of the filter swash plate, output pump and connection structure of the upper portion of the filter swash plate of FIG. 2;

fig. 7 is an enlarged view of the heat conductive top plate, the pressing plate and the part of the connection structure therebetween in fig. 2.

In the figure: the dyeing device comprises a dyeing box 1, a transparent observation window 2, a communication opening 3, a moving plate 4, a pull handle 5, a filtering inclined plate 6, an output pump 7, an impurity removing pipe 8, a conducting pipe 9, a heat conducting top plate 10, an extrusion plate 11, a permeation adsorption film 12, an exhaust pipe 13, a sealing plate 14, a fixed side plate 15, a unidirectional upper air pipe 16, an adsorption magnetic cylinder 17, an adsorption magnetic rod 18, a bearing box 19, a positioning plate 20, a heating plate 21, a sealing plate 22, a moving roller 23, an extrusion spring rod 24, a 25 liter arc falling plate 26, a sliding plate 27, a memory alloy rod 28, a communication hole 29, a lifting rod 30, a reset spring rod 31, a liquid injection pipe 32, a diffusion pipe 33 limiting ring 34 compression spring rod and a 35 connecting plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, a gas-liquid separation filter device for dyeing household textiles comprises a dyeing box 1, wherein two moving plates 4 are arranged in the dyeing box 1 through a moving mechanism, a bearing box 19 is fixedly arranged between the two moving plates 4, and two positioning plates 20 are fixedly arranged on the bearing box 19 through a plurality of extrusion spring rods 24;

the following points are notable:

1. the moving mechanism comprises two fixed side plates 15 fixedly installed in the dyeing box 1, a plurality of moving rollers 23 are installed on the two fixed side plates 15 through moving rolling grooves in a rolling and clamping mode, the two moving plates 4 are respectively and rotatably installed on the plurality of moving rollers 23, the moving rollers 23 can roll in the moving rolling grooves, and therefore the two moving plates 4 can horizontally slide between the fixed side plates 15, and the bearing box 19 between the two moving plates 4 can slide out.

2. The dyeing box 1 is provided with the communication opening 3, the two fixed side plates 15 are fixedly provided with the sealing plates 14 matched with the communication opening 3, an operator pulls the sealing plates 14 to pull the bearing box 19 out of the dyeing box 1, at the moment, the two positioning plates 20 can be pulled up to place household textiles to be dyed on the bearing box 19, the two positioning plates 20 are loosened again, at the moment, the two positioning plates 20 can automatically reset under the action of the extrusion spring rods 24, the household textiles can be extruded and positioned, the household textiles cannot be moved, the bearing box 19 can be pushed back into the dyeing box 1 after the household textiles are positioned, and the sealing plates 14 are clamped with the communication opening 3, so that the communication opening 3 can be sealed.

3. Install location structure between bearing box 19 and dyeing case 1, location structure includes two absorption magnetic cylinder 17 of fixed mounting on dyeing case 1 inner wall, and bearing box 19 is last to be fixed mounting has two absorption magnetic pole 18, and two absorption magnetic pole 18 cooperate with two absorption magnetic cylinder 17 respectively, when bearing box 19 pushes back, two absorption magnetic pole 18 on it can block respectively to two absorption magnetic cylinder 17 in, the two can adsorb each other at this moment, can adsorb the location to bearing box 19.

4. The pull handle 5 is fixedly arranged on the sealing plate 14, rubber pads are fixedly arranged on the two positioning plates 20, and pull rings are fixedly arranged on the two positioning plates 20.

Referring to fig. 1-3 and fig. 6, a liquid guide mechanism is installed in the dyeing tank 1, the liquid guide mechanism comprises a filtering inclined plate 6 and an output pump 7 which are fixedly installed in the dyeing tank 1, the filtering inclined plate 6 is positioned at the lower part of a bearing box 19, the output pump 7 is positioned at the lower part of the filtering inclined plate 6, a conducting pipe 9 is fixedly installed between the output end of the output pump 7 and the dyeing tank 1, and a plurality of dispersing pipes 32 are fixedly installed on the conducting pipe 9 through a liquid injection pipe 31;

the above noted are: the dyeing pigment liquid is initially filled in the lower part of the filtering inclined plate 6 in the dyeing box 1, after the household textile is placed and positioned, the output pump 7 can start to pump the dyeing pigment liquid to the liquid injection pipe 31 through the conducting pipe 9, and the dyeing pigment liquid can be sprayed onto the household textile through the plurality of diverging pipes 32 and can be accumulated in the bearing box 19, so that the household textile can be soaked and dyed, the coloring effect of the household textile is better, and the coloring is more uniform.

Referring to fig. 1-6, a plurality of communication holes 28 are formed in the bearing box 19, a sealing disc 22 matched with each communication hole 28 is fixedly installed in each communication hole 28 through a plurality of reset spring rods 30, a lifting arc plate 25 is installed between two moving plates 4 through a lifting mechanism, and a plurality of lifting rods 29 matched with the sealing disc 22 are fixedly installed on the lifting arc plate 25;

the following points are notable:

1. two heating plates 21 are fixedly arranged in the bearing box 19, the heating plates 21 can synchronously start to heat the dyeing pigment when the household textile is dyed, and the dyeing efficiency can be improved by utilizing the principle that the activity of internal molecules of the dyeing pigment can be increased when the temperature of the dyeing pigment is increased.

2. The lifting mechanism comprises two sliding plates 26 which are slidably arranged on the two moving plates 4, a lifting arc plate 25 is fixedly arranged between the two sliding plates 26, a memory alloy rod 27 is fixedly arranged between the two sliding plates 26 and the bearing box 19, part of heat is conducted to the memory alloy rod 27 through the bearing box 19 when the heating plate 21 is started to heat, and the memory alloy rod 27 automatically contracts when the temperature of the memory alloy rod 27 rises to a certain degree, so that the bearing box 19 is driven to descend;

3. when the bearing box 19 descends, the lifting rods 29 on the lifting arc plate 25 enter the communicating holes 28 therein and jack up the sealing disc 22, so that the household textile is dyed, the communicating holes 28 are in a communicating state, and the redundant dyeing pigment on the bearing box 19 automatically flows down and discharges liquid through the communicating holes 28, so that the automatic separation of the redundant dyeing pigment and the household textile can be completed.

4. The dyeing box 1 is fixedly provided with a plurality of impurity discharging pipes 8 which are matched with the filtering inclined plate 6, the residual dyeing pigment in the bearing box 19 falls onto the filtering inclined plate 6 when flowing down and discharging liquid, the filtering inclined plate 6 can filter and discharge impurities to the residual dyeing pigment at the moment, capillary impurities of household textiles attached to the residual dyeing pigment can be filtered, the impurity discharging pipes 8 can be used for collecting the capillary impurities, the residual dyeing pigment after the filtering is completely fallen onto the bottom of the dyeing box 1 through the filtering inclined plate 6 to be recovered, the next dyeing can be performed, and waste can be avoided.

Referring to fig. 1-2 and 7, a heat conducting top plate 10 and two connecting plates 35 are fixedly installed on a dyeing box 1, a plurality of permeable and absorbent membranes 12 are fixedly installed between the two connecting plates 35, an extrusion plate 11 is installed in the dyeing box 1 through a sliding mechanism, a plurality of unidirectional upper air pipes 16 are slidably installed between the heat conducting top plate 10 and the extrusion plate 11, and two exhaust pipes 13 are fixedly installed on the dyeing box 1;

the following points are notable:

1. the harmful gas with a certain amount of heat generated when the dyeing pigment dyes the home textiles is conducted between the extrusion plate 11 and the permeable and absorbent membrane 12 through the plurality of unidirectional air pipes 16, and gradually contacts the permeable and absorbent membrane 12 to be absorbed and filtered.

2. The sliding mechanism comprises two trapezoidal sliding blocks fixedly installed on the extrusion plate 11, a trapezoidal sliding groove matched with the two trapezoidal sliding blocks is formed in the dyeing box 1, a plurality of compression spring rods 34 are fixedly installed between the extrusion plate 11 and the two connecting plates 35, and the sliding mechanism is used for enabling the extrusion plate 11 to vertically slide up and down in the dyeing box 1 and automatically reset.

3. The harmful gas with certain heat can contact with the heat conduction roof 10 when going up, and the heat conduction roof 10 can gradually absorb the heat and conduct to the cold air department between heat conduction roof 10 and the stripper plate 11 this moment, can expand gradually when the cold air between heat conduction roof 10 and the stripper plate 11 is heated and increase the volume to can promote the stripper plate 11 to shift up, the harmful gas between the stripper plate 11 and the infiltration adsorption membrane 12 can be extruded when shifting up, thereby provide an upper pressure for the harmful gas, make abundant extrusion contact between harmful gas and the infiltration adsorption membrane 12, can increase infiltration adsorption membrane 12 and adsorb the efficiency of filtering harmful gas, further improve the efficiency of handling harmful gas.

4. Each unidirectional upper air pipe 16 is fixedly provided with a limiting ring 33, and the limiting rings 33 are used for limiting the ascending position of the extrusion plate 11, so that the extrusion plate 11 can be prevented from moving to be separated from the unidirectional upper air pipe 16.

5. The transparent observation window 2 is fixedly arranged on the dyeing box 1, and an operator can observe the dyeing degree and gas-liquid separation process of the household textiles in the dyeing box 1 through the transparent observation window 2, so that the dyeing process can be conveniently controlled, and the dyeing process is more visual and convenient.

Further, the above-described fixed connection is to be understood in a broad sense, unless explicitly stated and defined otherwise, as being, for example, welded, glued, or integrally formed, as is well known to those skilled in the art.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a domestic fabrics dyeing is with gas-liquid separation filtration equipment, includes dyeing case (1), its characterized in that, install two movable plates (4) through moving mechanism in dyeing case (1), and fixed mounting has to bear box (19) between two movable plates (4), bear box (19) on through a plurality of extrusion spring bars (24) fixed mounting have two locating plates (20), bear box (19) on offer a plurality of intercommunicating pores (28), and all install through a plurality of reset spring bars (30) in every intercommunicating pore (28) and cooperate sealing disk (22) with it, install lifting arc board (25) through elevating system between two movable plates (4), and fixed mounting has a plurality of jacking bars (29) that cooperate with sealing disk (22) on lifting arc board (25);

the dyeing box (1) is internally provided with a liquid guide mechanism, the dyeing box (1) is fixedly provided with a heat conduction top plate (10) and two connecting plates (35), a plurality of permeation adsorption membranes (12) are fixedly arranged between the two connecting plates (35), the dyeing box (1) is internally provided with a squeeze plate (11) through a sliding mechanism, a plurality of unidirectional upper air pipes (16) are slidably arranged between the heat conduction top plate (10) and the squeeze plate (11), and the dyeing box (1) is fixedly provided with two exhaust pipes (13);

the lifting mechanism comprises two sliding plates (26) which are slidably arranged on the two moving plates (4), a lifting arc plate (25) is fixedly arranged between the two sliding plates (26), two heating plates (21) are fixedly arranged in the bearing box (19), and memory alloy rods (27) are fixedly arranged between the two sliding plates (26) and the bearing box (19);

the liquid guide mechanism comprises a filtering inclined plate (6) and an output pump (7) which are fixedly arranged in the dyeing box (1), the filtering inclined plate (6) is positioned at the lower part of the bearing box (19), the output pump (7) is positioned at the lower part of the filtering inclined plate (6), a plurality of impurity discharging pipes (8) matched with the filtering inclined plate (6) are fixedly arranged on the dyeing box (1), a conducting pipe (9) is fixedly arranged between the output end of the output pump (7) and the dyeing box (1), and a plurality of dispersing pipes (32) are fixedly arranged on the conducting pipe (9) through a liquid injection pipe (31);

the dyeing pigment can be heated by the heat generated by the operation of the heating plate (21), and the dyeing efficiency can be improved by utilizing the principle that the activity of the internal molecules of the dyeing pigment can be increased when the temperature of the dyeing pigment is raised; meanwhile, when the heating plate (21) heats, part of heat is conducted to the memory alloy rod (27) through the bearing box (19), and when the memory alloy rod (27) heats to a certain degree, the memory alloy rod automatically contracts, so that the bearing box (19) is driven to descend;

at this time, the residual dyeing pigment in the bearing box (19) flows downwards to fall onto the filtering inclined plate (6), the filtering inclined plate (6) can filter and remove impurities from the residual dyeing pigment, capillary impurities of household textiles attached to the residual dyeing pigment can be filtered, and the capillary impurities are collected through the impurity removing pipe (8).

2. The gas-liquid separation filter device for household textile dyeing according to claim 1, wherein the moving mechanism comprises two fixed side plates (15) fixedly installed in the dyeing box (1), a plurality of moving rollers (23) are installed on the two fixed side plates (15) through moving rolling grooves and rolling clamping, the two moving plates (4) are respectively and rotatably installed on the plurality of moving rollers (23), a positioning structure is installed between the bearing box (19) and the dyeing box (1), a communication opening (3) is formed in the dyeing box (1), and sealing plates (14) matched with the communication opening (3) are fixedly installed on the two fixed side plates (15).

3. A gas-liquid separation filter device for dyeing household textiles according to claim 2, characterized in that the positioning structure comprises two adsorption magnetic cylinders (17) fixedly mounted on the inner wall of the dyeing box (1), two adsorption magnetic rods (18) are fixedly mounted on the bearing box (19), and the two adsorption magnetic rods (18) are respectively matched with the two adsorption magnetic cylinders (17).

4. The gas-liquid separation filter device for household textile dyeing according to claim 1, wherein the sliding mechanism comprises two trapezoidal sliding blocks fixedly mounted on the extrusion plate (11), a trapezoidal sliding groove matched with the two trapezoidal sliding blocks is formed in the dyeing box (1), and a plurality of compression spring rods (34) are fixedly mounted between the extrusion plate (11) and the two connecting plates (35).

5. The gas-liquid separation filter device for household textile dyeing according to claim 2, wherein a pull handle (5) is fixedly installed on the sealing plate (14), rubber pads are fixedly installed on the two positioning plates (20), and pull rings are fixedly installed on the two positioning plates (20).

6. A gas-liquid separation filter device for dyeing household textiles according to claim 1, characterized in that a limiting ring (33) is fixedly arranged on each unidirectional upper air pipe (16), and a transparent observation window (2) is fixedly arranged on the dyeing box (1).

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