CN113293555A - Energy-saving emission-reducing fabric dyeing method - Google Patents

Abstract

The invention provides an energy-saving and emission-reducing fabric dyeing method, which belongs to the field of fabric dyeing and comprises the specific steps of fabric preparation and finishing, fabric surface cleaning operation, fabric coloring and dyeing operation, fabric dyeing and drying and storing operation, fabric storage and fabric transportation and processing. The fabric dyeing method is simple in operation method and easy to dye, the fabric dyeing effect is guaranteed through layer-by-layer cleaning operation of the fabric, the dye can be collected through collection and layer-by-layer filtration of the dye, dye waste is avoided, the dye is saved, the dye utilization rate is guaranteed, the dye collection and secondary utilization effects are guaranteed, energy is saved, emission is reduced, no pollution is caused, environmental pollution caused by improper treatment is avoided, the dyeing efficiency is improved, and the dyeing effect is guaranteed.

Description

Energy-saving emission-reducing fabric dyeing method

Technical Field

The invention belongs to the technical field of fabric dyeing, and particularly relates to an energy-saving and emission-reducing fabric dyeing method.

Background

Fabric is the material used to make clothing. As one of the three elements of the garment, the fabric not only can explain the style and the characteristics of the garment, but also directly controls the expression effects of the color and the shape of the garment.

The fabric dyeing in the prior art is a technology, the color change is stepless, the colors of different types of dyes can be distinguished, and the fabric dyeing method is more.

However, the existing fabric dyeing method has the problems of serious dye waste, easy environmental pollution, unclean fabric surface, influence on dyeing effect and inconvenient storage and operation.

Therefore, the invention of the energy-saving and emission-reducing fabric dyeing method is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides an energy-saving and emission-reducing fabric dyeing method, which is realized by the following technical scheme:

the energy-saving emission-reducing fabric dyeing method specifically comprises the following steps:

the method comprises the following steps: preparing and finishing the fabric, preparing a fabric roller, supporting and fixing the fabric roller, finishing the fabric, checking the integrity of the fabric at any time when the fabric is conveyed, timely finishing or suspending dyeing operation if the fabric is damaged, and simultaneously finishing the corners of the fabric to prepare for dyeing operation;

step two: the surface cleaning operation of the fabric comprises the following specific operation processes:

the first step is as follows: fabric cutting operation, namely continuously outputting the trimmed and checked fabric from a fabric roller, cutting redundant thread ends and thread ends of the fabric by using a cutting knife, and enabling the cut fabric to enter a dyeing pool to prepare for dyeing operation;

the second step is that: cleaning the fabric, namely feeding the fabric into a neutral position of a dyeing tank, cleaning the fabric by a cleaning roller to remove dust and fine impurities on the surface of the fabric, tensioning the fabric by a tensioning wheel, and after tensioning, keeping the fabric in a straightened state all the time and starting dyeing;

step three: the fabric coloring and dyeing operation comprises the following specific operation procedures:

the first step is as follows: performing dye mixing treatment operation, namely continuously introducing the dye into a dyeing tank, performing stirring and mixing operation through a stirring rod, starting dyeing operation after determining the consistency of the dye, feeding the fabric into the dyeing tank, performing extrusion operation through an extrusion wheel, continuously dyeing and outputting the fabric, and performing storage operation through a storage roller;

the second step is that: fabric dyeing dropping liquid is collected and returned for utilization, the dyed fabric is continuously output, the dropped dye is collected through a collection box and filtered through a built-in stainless steel filter screen to remove impurities and thread ends in the dropped dye, and the dropped dye is conveyed to a dyeing tank through a circulating pump through a pipeline for secondary utilization dyeing operation;

the third step: performing dye filtration treatment after dyeing, cleaning impurities and thread ends in a dyeing pond by using the dyed residual dye in a fishing and washing mode, and mixing and stirring by using water and dye mixing modes to perform secondary dyeing operation;

step four: drying and storing operation after fabric dyeing, wherein the specific operation flow comprises the following steps:

the first step is as follows: dyeing and drying the fabric, wherein when the dyed fabric is output, the dyed fabric can be dried through a drying box, the fabric continuously enters the drying box, the fabric is dried through a built-in drying sheet, and after the dye is fully contacted and attached to the fabric, a primary drying operation procedure is completed;

the second step is that: carrying out storage treatment operation after drying, continuously leading out the dried fabric, carrying out storage through a storage roller, cutting the fabric in real time according to the thickness of the rolled fabric during rolling, and carrying out storage operation;

step five: storing the fabric, wherein the storage temperature of the fabric is not more than 25 ℃, keeping ventilation and drying, and the storage stacking height is not more than 3 meters, paying attention to long-time storage, checking whether the phenomena of mildewing or collapse and span exist in real time, and processing in time;

step six: the fabric transportation processing, during the transportation, the mode through the collection dress of container carries out the transportation operation to concentrate processing treatment operation through processing machine equipment, carry out finished product or semi-manufactured goods processing transportation operation according to the demand.

Preferably, in step one, the conveying speed is not more than 1 m/s.

Preferably, in the second step, the cutting knife in the first step is a stainless steel long knife, and the cutting process is performed in a one-time vertical cutting manner.

Preferably, in the second step, the cleaning roller in the second step is a nylon brush roller.

Preferably, in the third step, the pressing wheel in the first step performs pressing and holding operation on the fabric in a top-down manner, and the pressing wheel is a long cylindrical rubber wheel.

Preferably, in the third step, the impurity is fished out by adopting a stainless steel net bag, the impurity is fished out by freely moving, and the residual dye is fished out by washing to remove the impurity.

Preferably, in step five, the ventilation mode adopts an exhaust fan to perform a ventilation treatment mode.

Compared with the prior art, the invention has the following beneficial effects: the energy-saving emission-reducing fabric dyeing method is widely applied to the technical field of fabric dyeing. The fabric dyeing method is simple in operation method and easy to dye, the fabric dyeing effect is guaranteed through layer-by-layer cleaning operation of the fabric, the dye can be collected through collection and layer-by-layer filtration of the dye, dye waste is avoided, the dye is saved, the dye utilization rate is guaranteed, the dye collection and secondary utilization effects are guaranteed, energy is saved, emission is reduced, no pollution is caused, environmental pollution caused by improper treatment is avoided, the dyeing efficiency is improved, and the dyeing effect is guaranteed.

Drawings

FIG. 1 is a flow chart of a fabric dyeing method with energy conservation and emission reduction.

FIG. 2 is a flow chart of the operation of cleaning the surface of the fabric.

Fig. 3 is a flow chart of the fabric coloring and dyeing operation.

FIG. 4 is a flow chart of the drying and storing operation after fabric dyeing.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

in the figure:

as shown in figure 1

The energy-saving emission-reducing fabric dyeing method specifically comprises the following steps:

s101: preparing and finishing the fabric, preparing a fabric roller, supporting and fixing the fabric roller, finishing the fabric, checking the integrity of the fabric at any time when the fabric is conveyed, timely finishing or suspending dyeing operation if the fabric is damaged, and simultaneously finishing the corners of the fabric to prepare for dyeing operation;

s102: fabric surface cleaning operation, as shown in the attached figure 2, the specific operation flow comprises the following steps:

s201: fabric cutting operation, namely continuously outputting the trimmed and checked fabric from a fabric roller, cutting redundant thread ends and thread ends of the fabric by using a cutting knife, and enabling the cut fabric to enter a dyeing pool to prepare for dyeing operation;

s202: cleaning the fabric, namely feeding the fabric into a neutral position of a dyeing tank, cleaning the fabric by a cleaning roller to remove dust and fine impurities on the surface of the fabric, tensioning the fabric by a tensioning wheel, and after tensioning, keeping the fabric in a straightened state all the time and starting dyeing;

s103: fabric coloring and dyeing operation, as shown in the attached figure 3, the specific operation flow comprises the following steps:

s301: performing dye mixing treatment operation, namely continuously introducing the dye into a dyeing tank, performing stirring and mixing operation through a stirring rod, starting dyeing operation after determining the consistency of the dye, feeding the fabric into the dyeing tank, performing extrusion operation through an extrusion wheel, continuously dyeing and outputting the fabric, and performing storage operation through a storage roller;

s302: fabric dyeing dropping liquid is collected and returned for utilization, the dyed fabric is continuously output, the dropped dye is collected through a collection box and filtered through a built-in stainless steel filter screen to remove impurities and thread ends in the dropped dye, and the dropped dye is conveyed to a dyeing tank through a circulating pump through a pipeline for secondary utilization dyeing operation;

s303: performing dye filtration treatment after dyeing, cleaning impurities and thread ends in a dyeing pond by using the dyed residual dye in a fishing and washing mode, and mixing and stirring by using water and dye mixing modes to perform secondary dyeing operation;

s104: the operation of drying and storing the dyed fabric is shown in the attached figure 4, and the specific operation flow comprises the following steps:

s401: dyeing and drying the fabric, wherein when the dyed fabric is output, the dyed fabric can be dried through a drying box, the fabric continuously enters the drying box, the fabric is dried through a built-in drying sheet, and after the dye is fully contacted and attached to the fabric, a primary drying operation procedure is completed;

s402: carrying out storage treatment operation after drying, continuously leading out the dried fabric, carrying out storage through a storage roller, cutting the fabric in real time according to the thickness of the rolled fabric during rolling, and carrying out storage operation;

s105: storing the fabric, wherein the storage temperature of the fabric is not more than 25 ℃, keeping ventilation and drying, and the storage stacking height is not more than 3 meters, paying attention to long-time storage, checking whether the phenomena of mildewing or collapse and span exist in real time, and processing in time;

s106: the fabric transportation processing, during the transportation, the mode through the collection dress of container carries out the transportation operation to concentrate processing treatment operation through processing machine equipment, carry out finished product or semi-manufactured goods processing transportation operation according to the demand.

Preferably, in S101, the conveying speed is not more than 1 m/S.

Preferably, in S102, the cutting blade in S201 is a stainless steel long blade, and the cutting process is performed in a one-time vertical cutting manner.

Preferably, in S102, the cleaning roller in S202 is a nylon brush roller.

Preferably, in S103, the pressing wheel in S301 performs pressing and holding operation on the fabric from top to bottom, and the pressing wheel is an elongated cylindrical rubber wheel.

Preferably, in S103, the fishing and washing in S301 adopts a stainless steel net to fish out impurities, and the impurities are fished out by freely moving, and the residual dye is fished and washed by water to remove the impurities.

Preferably, in S105, the ventilation mode is a ventilation processing mode performed by an exhaust fan.

Detailed description of the preferred embodiment

1. Preparing and finishing the fabric, preparing a fabric roller, supporting and fixing the fabric roller, finishing the fabric, checking the integrity of the fabric at any time when the fabric is conveyed, timely finishing or suspending dyeing operation if the fabric is damaged, and simultaneously finishing the corners of the fabric to prepare for dyeing operation;

2. the surface cleaning operation of the fabric comprises the following specific operation processes:

the first step is as follows: fabric cutting operation, namely continuously outputting the trimmed and checked fabric from a fabric roller, cutting redundant thread ends and thread ends of the fabric by using a cutting knife, and enabling the cut fabric to enter a dyeing pool to prepare for dyeing operation;

the second step is that: cleaning the fabric, namely feeding the fabric into a neutral position of a dyeing tank, cleaning the fabric by a cleaning roller to remove dust and fine impurities on the surface of the fabric, tensioning the fabric by a tensioning wheel, and after tensioning, keeping the fabric in a straightened state all the time and starting dyeing;

3. the fabric coloring and dyeing operation comprises the following specific operation procedures:

the first step is as follows: performing dye mixing treatment operation, namely continuously introducing the dye into a dyeing tank, performing stirring and mixing operation through a stirring rod, starting dyeing operation after determining the consistency of the dye, feeding the fabric into the dyeing tank, performing extrusion operation through an extrusion wheel, continuously dyeing and outputting the fabric, and performing storage operation through a storage roller;

the second step is that: fabric dyeing dropping liquid is collected and returned for utilization, the dyed fabric is continuously output, the dropped dye is collected through a collection box and filtered through a built-in stainless steel filter screen to remove impurities and thread ends in the dropped dye, and the dropped dye is conveyed to a dyeing tank through a circulating pump through a pipeline for secondary utilization dyeing operation;

the third step: performing dye filtration treatment after dyeing, cleaning impurities and thread ends in a dyeing pond by using the dyed residual dye in a fishing and washing mode, and mixing and stirring by using water and dye mixing modes to perform secondary dyeing operation;

4. drying and storing operation after fabric dyeing, wherein the specific operation flow comprises the following steps:

the first step is as follows: dyeing and drying the fabric, wherein when the dyed fabric is output, the dyed fabric can be dried through a drying box, the fabric continuously enters the drying box, the fabric is dried through a built-in drying sheet, and after the dye is fully contacted and attached to the fabric, a primary drying operation procedure is completed;

the second step is that: carrying out storage treatment operation after drying, continuously leading out the dried fabric, carrying out storage through a storage roller, cutting the fabric in real time according to the thickness of the rolled fabric during rolling, and carrying out storage operation;

5. storing the fabric, wherein the storage temperature of the fabric is not more than 25 ℃, keeping ventilation and drying, and the storage stacking height is not more than 3 meters, paying attention to long-time storage, checking whether the phenomena of mildewing or collapse and span exist in real time, and processing in time;

6. the fabric transportation processing, during the transportation, the mode through the collection dress of container carries out the transportation operation to concentrate processing treatment operation through processing machine equipment, carry out finished product or semi-manufactured goods processing transportation operation according to the demand.

In conclusion, the fabric dyeing method is simple in operation method and easy to dye, the fabric dyeing effect is guaranteed through layer-by-layer cleaning operation of the fabric, the dye can be collected through collection and layer-by-layer filtration of the dye, dye waste is avoided, the dye is saved, the dye utilization rate is guaranteed, the dye collection and secondary utilization effects are guaranteed, energy is saved, emission is reduced, no pollution is caused, environmental pollution caused by improper treatment is avoided, the dyeing efficiency is improved, and the dyeing effect is guaranteed.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The energy-saving emission-reducing fabric dyeing method is characterized by comprising the following steps:

the method comprises the following steps: preparing and finishing the fabric, preparing a fabric roller, supporting and fixing the fabric roller, finishing the fabric, checking the integrity of the fabric at any time when the fabric is conveyed, timely finishing or suspending dyeing operation if the fabric is damaged, and simultaneously finishing the corners of the fabric to prepare for dyeing operation;

step two: cleaning the surface of the fabric;

step three: coloring and dyeing the fabric;

step four: drying and storing the dyed fabric;

step five: storing the fabric, wherein the storage temperature of the fabric is not more than 25 ℃, keeping ventilation and drying, and the storage stacking height is not more than 3 meters, paying attention to long-time storage, checking whether the phenomena of mildewing or collapse and span exist in real time, and processing in time;

step six: the fabric transportation processing, during the transportation, the mode through the collection dress of container carries out the transportation operation to concentrate processing treatment operation through processing machine equipment, carry out finished product or semi-manufactured goods processing transportation operation according to the demand.

2. The energy-saving emission-reducing fabric dyeing method according to claim 1, wherein in the second step, the fabric surface cleaning operation, the specific operation flow, comprises the following steps:

the first step is as follows: fabric cutting operation, namely continuously outputting the trimmed and checked fabric from a fabric roller, cutting redundant thread ends and thread ends of the fabric by using a cutting knife, and enabling the cut fabric to enter a dyeing pool to prepare for dyeing operation;

the second step is that: and (3) fabric cleaning operation, wherein the fabric enters the neutral position of the dyeing tank again, is cleaned by a cleaning roller, removes dust and fine impurities on the surface of the fabric, is tensioned by a tensioning wheel, and is always in a straightened state after being tensioned, and starts to be dyed.

3. The energy-saving emission-reducing fabric dyeing method according to claim 1, characterized in that in the third step, the fabric dyeing operation comprises the following steps:

the first step is as follows: performing dye mixing treatment operation, namely continuously introducing the dye into a dyeing tank, performing stirring and mixing operation through a stirring rod, starting dyeing operation after determining the consistency of the dye, feeding the fabric into the dyeing tank, performing extrusion operation through an extrusion wheel, continuously dyeing and outputting the fabric, and performing storage operation through a storage roller;

the second step is that: fabric dyeing dropping liquid is collected and returned for utilization, the dyed fabric is continuously output, the dropped dye is collected through a collection box and filtered through a built-in stainless steel filter screen to remove impurities and thread ends in the dropped dye, and the dropped dye is conveyed to a dyeing tank through a circulating pump through a pipeline for secondary utilization dyeing operation;

the third step: and (3) performing dye filtration treatment operation after dyeing, cleaning impurities and thread ends in the dyeing pond by using the dyed residual dye in a fishing and washing mode, and mixing and stirring by using a water and dye mixing mode to perform secondary dyeing operation.

4. The energy-saving emission-reducing fabric dyeing method according to claim 1, wherein in the fourth step, the fabric is dried after being dyed and is stored, and the specific operation flow comprises the following steps:

the first step is as follows: dyeing and drying the fabric, wherein when the dyed fabric is output, the dyed fabric can be dried through a drying box, the fabric continuously enters the drying box, the fabric is dried through a built-in drying sheet, and after the dye is fully contacted and attached to the fabric, a primary drying operation procedure is completed;

the second step is that: accomodate the processing operation after the stoving, the surface fabric after the stoving is constantly derived to accomodate through accomodating the roller and store, during the rolling, decide the surface fabric in real time according to the thickness of rolling, can accomodate and store the operation.

5. The energy-saving and emission-reducing fabric dyeing method according to claim 1, characterized in that in the first step, the conveying speed is not more than 1 m/s.

6. The energy-saving and emission-reducing fabric dyeing method according to claim 2, characterized in that in the second step, the cutting knife in the first step is a stainless steel long knife, and the cutting treatment is performed in a one-time vertical cutting manner.

7. The energy-saving and emission-reducing fabric dyeing method according to claim 2, characterized in that in the second step, the cleaning roller in the second step is a nylon brush roller.

8. The energy-saving and emission-reducing fabric dyeing method according to claim 3, characterized in that in the third step, the extrusion wheel in the first step performs extrusion pressing operation on the fabric from top to bottom, and the extrusion wheel is a long cylindrical rubber wheel.

9. The energy-saving and emission-reducing fabric dyeing method according to claim 3, characterized in that in step three, the fishing in step three uses a stainless steel net pocket to fish out impurities, and fish out the impurities by freely moving and fishing out the impurities, and the fishing out treatment operation is performed on the remaining dyes by washing to remove the impurities.

10. The energy-saving and emission-reducing fabric dyeing method according to claim 1, characterized in that in the fifth step, the ventilation mode adopts an exhaust fan for ventilation treatment.

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