CN114592340A - Tea fiber yarn making method and yarn making system thereof - Google Patents

Abstract

The invention discloses a tea fiber yarn making method and a yarn making system thereof, wherein the tea fiber yarn making method comprises the following steps: s1: selecting fresh tea leaves and terminal tea stems, washing the selected fresh tea leaves and the selected tea stems with cold water, turning the selected fresh tea leaves and the selected tea stems so that the tea leaves and the tea stems stacked at the middle part and the bottom are washed, and draining water after fully washing the tea leaves and the tea stems. The precipitates are treated in the steps S5 and S6 to obtain a tea fiber mixed solution, the yarn roller is infiltrated, the yarn roller with uniform yarn quantity distribution can be fully implanted with tea fibers, and finally the yarn roller is dried in the step S7, so that the tea fibers in the yarn of the yarn roller are locked and are more durable, the effect of conveniently implanting the tea fibers into the yarn is achieved, the textile processed by spinning after the tea fibers are implanted into the yarn has excellent durability, and the tea fibers can stably and durably obtain the antibacterial and deodorant performance of the tea fibers.

Description

Tea fiber yarn making method and yarn making system thereof

Technical Field

The invention relates to the technical field of spinning, in particular to a tea fiber yarn making method and a tea fiber yarn making system.

Background

The tea fiber is a fiber with the functions of antibiosis and deodorization, which is prepared by extracting a natural antibacterial agent from tea leaves, the antibacterial agent is uniformly distributed in the fiber, so the fiber can continuously resist bacteria and deodorization, the tea fiber fabric is natural and has beige color, the bleaching and dyeing process is avoided, and the pollution to the environment and the potential harm to the human body caused by using chemical synthetic fuel for dyeing are avoided. In the field of textiles, tea fibers are increasingly applied to textile fabrics or fabrics, so that the fabrics and other textiles have the beneficial characteristics of the tea fibers.

In the existing textile industry, a process for implanting tea fibers into yarns is lacked, the tea fibers are difficult to prepare the yarns, and the tea fibers are poor in durability when implanted into fabrics, so that textile products are difficult to obtain performances of antibiosis, deodorization and the like of the tea fibers durably and stably.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a tea fiber yarn making method and a yarn making system thereof.

A tea fiber yarn making method comprises the following steps:

s1: selecting fresh tea leaves and terminal tea stems, washing the selected fresh tea leaves and the selected tea stems with cold water, turning over the selected fresh tea leaves and the selected tea stems to wash the tea leaves and the tea stems accumulated at the middle part and the bottom part, fully washing the tea leaves and the tea stems, and draining water;

s2: pouring the tea leaves and the tea stalks which are cleaned and drained in the step S2 into boiling water, heating the boiling water, stopping heating after the water is boiled again for two minutes, stopping heating, fully soaking, and covering and pressing the tea leaves floating on the water surface by adopting a filtering structure, so that all the tea leaves and the tea stalks are fully soaked for six to eight hours;

s3: fishing out the tea leaves and the tea stalks soaked in the step S3, adding alumina into the filtrate of the left tea leaves and the tea stalks, fully stirring the filtrate of the tea leaves and the tea stalks, and standing for four to eight hours after stirring;

s4: layering the tea filtrate after precipitation, removing water above the precipitate, paying attention to avoid dispersion of the precipitate in the removing process, and collecting the precipitate after removing the water;

s5: carrying out chemical extraction on the collected precipitate, detecting the pH value of the extraction liquid, and adding an acidic reagent or an alkaline reagent if the pH value of the extraction liquid is not alkalescent so as to keep the pH value of the extraction liquid at alkalescence, thereby obtaining an alkalescent tea fiber mixed solution;

s6: fully infiltrating the weakly alkaline tea fiber mixed solution into cotton yarns, winding the cotton yarns on the surface of a yarn roller, wherein the winding thickness is not more than 1.5 cm, so as to ensure that the tea fiber mixed solution is fully infiltrated, putting the tea fiber mixed solution bearing the yarn roller into a pressurizable equipment container for pressurization, and standing for six to eight hours after pressurization to promote the tea fiber mixed solution to be fully immersed into the yarns of the yarn roller;

s7: and taking out the yarn roller soaked with the tea fiber mixed solution, draining the water of the yarn roller wound with the yarn, putting the yarn roller into an oven after draining the water, adjusting the temperature to be 55 ℃, ensuring that the highest temperature does not exceed 60 ℃, and drying for 3.5 hours.

Preferably, in step S4, the step of removing the water above the precipitate to collect the precipitate includes two operations, the first operation is to remove most of the water, and when the precipitate is slightly dispersed, the carrier is replaced, and the operation is continued until the precipitate is obviously layered, and the water is removed

Preferably, in step S5, the PH of the extract is detected by a PH test paper.

Preferably, in the step S1, for the turning of the tea leaves and the tea stems, the turning device or equipment should be passivated with a contact end structure to minimize the cutting of the tea leaves and the tea stems.

A yarn making system of a tea fiber yarn making method comprises the following modules: the yarn winding device comprises a spindle winding module, a yarn roller winding module, a winding thickness detection module, a control module, a twisting module and a storage module;

the spindle winding and collecting module supports spindles and drives the spindles to rotate for winding or unwinding, the spindle winding and collecting module supports a plurality of spindles and drives the spindles to rotate so as to wind yarns discharged by the spindles or reversely convey the yarns to the spindles, the winding thickness detection module detects the thicknesses of the spindles supported by the spindle winding and collecting module and the thicknesses of the yarns on the surfaces of the spindles and the spindles, the detected electric signals are conveyed to the control module, when the thickness reaches a preset threshold value of the control module, the control module controls the spindle winding and collecting module to brake, the twisting module is used for jointing the yarns of the plurality of spindles when the yarns are concentrated to the spindles, and the storage module is used for storing the spindles which are wound in a concentrated mode.

Preferably, the thickness threshold of the yarn on the surfaces of the spindle and the yarn roller preset by the control module is 1.5 cm, and a drying agent is arranged in a wall body for storing the spindle by the storage module.

According to the tea fiber yarn making method and the tea fiber yarn making system, tea leaves are cleaned, boiled and soaked in the steps S1 and S2, the tea leaves are taken out in the steps S3 and S4, liquid materials are padded and separated, precipitates are treated in the steps S5 and S6 to obtain a tea fiber mixed solution, a yarn roller is infiltrated, so that the yarn roller with uniform yarn quantity distribution can be fully implanted with tea fibers, and finally the yarn roller is dried in the step S7, so that the tea fibers in the yarn of the yarn roller are locked and are more durable, the effect of conveniently implanting the tea fibers into the yarn is achieved, the textile processed after the tea fibers are implanted into the yarn is excellent in durability, and the textile is stably and durably or has the antibacterial and deodorant performances of the tea fibers.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

The invention provides a tea fiber yarn making method, which comprises the following steps: s1: selecting fresh tea leaves and terminal tea stems, washing the selected fresh tea leaves and the selected tea stems with cold water, turning over the selected fresh tea leaves and the selected tea stems to wash the tea leaves and the tea stems accumulated at the middle part and the bottom part, fully washing the tea leaves and the tea stems, and draining water; s2: pouring the tea leaves and the tea stalks which are cleaned and drained in the step S2 into boiling water, heating the boiling water, stopping heating after the water is boiled again for two minutes, stopping heating, fully soaking, and covering and pressing the tea leaves floating on the water surface by adopting a filtering structure, so that all the tea leaves and the tea stalks are fully soaked for six to eight hours; s3: fishing out the tea leaves and the tea stalks soaked in the step S3, adding alumina into the filtrate of the left tea leaves and the tea stalks, fully stirring the filtrate of the tea leaves and the tea stalks, and standing for four to eight hours after stirring; s4: layering the tea filtrate after precipitation, removing water above the precipitate, paying attention to avoid dispersion of the precipitate in the removing process, and collecting the precipitate after removing the water; s5: carrying out chemical extraction on the collected precipitate, detecting the pH value of the extraction liquid, and adding an acidic reagent or an alkaline reagent if the pH value of the extraction liquid is not alkalescent so as to keep the pH value of the extraction liquid at alkalescence, thereby obtaining an alkalescent tea fiber mixed solution; s6: fully infiltrating the weakly alkaline tea fiber mixed solution into cotton yarns, winding the cotton yarns on the surface of a yarn roller, wherein the winding thickness is not more than 1.5 cm, so as to ensure that the tea fiber mixed solution is fully infiltrated, putting the tea fiber mixed solution bearing the yarn roller into a pressurizable equipment container for pressurization, and standing for six to eight hours after pressurization to promote the tea fiber mixed solution to be fully immersed into the yarns of the yarn roller; s7: and taking out the yarn roller soaked with the tea fiber mixed solution, draining the water of the yarn roller wound with the yarn, putting the yarn roller into an oven after draining the water, adjusting the temperature to be 55 ℃, ensuring that the highest temperature does not exceed 60 ℃, and drying for 3.5 hours.

In this embodiment, in step S4, the water solution above the precipitate is removed to collect the precipitate, which is divided into two operations, wherein the first operation is to remove most of the water solution, and when the precipitate is slightly dispersed, the carrier is replaced, and the operation is performed again after the precipitate is deposited until the layer is obviously layered, and the water solution is discharged. Through subdividing twice operation for when the water liquid of precipitate top discharges again, greatly avoided the discharge of bottom precipitate, and change the household utensils between twice operation, and fully stand, make dispersed precipitate appear after the operation of discharging for the first time sink once more, thereby reached and carried out the effect of separating more high-efficiently, operated and got up to avoid the loss and the waste of precipitate.

In this embodiment, in step S5, the PH of the extraction solution is detected by using a PH test paper. Carry out the detection operation to the PH of extraction liquid through the PH test paper, make the operation degree of difficulty reduce, only can observe the pH valve through the color comparison, even the inconvenient workman that does not receive education of operating equipment also can operate, reduced the technical threshold of operation.

In this embodiment, in step S1, for the turning of the tea leaves and the tea stalks, the turning device or equipment should be passivated with a contact end structure to minimize the cutting of the tea leaves and the tea stalks. The tea leaf and tea stalk are turned by adopting equipment or an appliance with a contact end structure fully passivated, so that the quality of liquid materials after tea leaves are soaked is guaranteed, the operation is convenient in the process of separating the tea leaves and the tea stalk, the tea leaves and the tea stalk dregs are filtered by the filter screen with smaller holes due to the generation of smaller and smaller tea leaf powder dregs, the flow of the operation is increased by filtering the tea leaves and the tea stalk dregs by the filter screen with smaller holes, the operation is more complicated, the filtering efficiency is very low, the filter holes are easily blocked, the time of the flow is increased, the crushing of the tea leaves and the tea stalks is avoided, and the processing efficiency is greatly guaranteed.

A yarn making system of a tea fiber yarn making method comprises the following modules: the yarn winding device comprises a spindle winding module, a yarn roller winding module, a winding thickness detection module, a control module, a twisting module and a storage module;

the spindle winding and collecting module supports and drives spindles to rotate for winding or unwinding, the spindle winding and collecting module supports a plurality of spindles and drives the spindles to rotate for winding yarns discharged by the spindles or reversely conveying the yarns to the spindles, the winding thickness detection module detects the thicknesses of the spindles supported by the spindle winding and collecting module and the thicknesses of the yarns on the surfaces of the spindles and the spindles respectively, the detected electric signals are conveyed to the control module, when the thickness reaches a preset threshold value of the control module, the control module controls the spindle winding and collecting module and the spindle winding and collecting module to brake, the twisting module is used for jointing the yarns when the yarns of the plurality of spindles are concentrated to the spindles, and the storage module is used for storing the centrally wound spindles.

The yarn winding and collecting module and the yarn roller winding and collecting module are arranged, so that yarns can be conveniently dispersed to a plurality of yarn rollers from spindles, the yarns can be conveniently infiltrated into liquid materials, the yarn spindles can be conveniently wound and concentrated after infiltration and drying processing, the completeness of a yarn material unit can be conveniently maintained, and subsequent processing procedures can be conveniently developed.

In this embodiment, the thickness threshold of the yarn on the surfaces of the spindle and the yarn roller preset by the control module is 1.5 cm, and a drying agent is arranged in a wall body for storing the spindle by the storage module. Through set up the drier in the storage spindle cavity to in the storage module, the spindle after making the storage preserves the environment more excellent, avoids mildening and rot.

The invention provides a tea fiber yarn making method and a tea fiber yarn making system, wherein tea leaves are cleaned, boiled and soaked in steps S1 and S2, the tea leaves are taken out in steps S3 and S4, liquid materials are padded and separated, precipitates are treated in steps S5 and S6 to obtain a tea fiber mixed solution, a yarn roller is infiltrated, so that the yarn roller with uniform yarn quantity distribution can be fully implanted with tea fibers, and finally the yarn roller is dried in step S7, so that the tea fibers in the yarns of the yarn roller are locked and are more durable, the effect of conveniently implanting the tea fibers into the yarns is achieved, the textile which is subjected to textile processing after the tea fibers are implanted into the yarns has excellent durability, the textile has stable and durable antibacterial and deodorant performances or tea fiber antibacterial and deodorant performances, the problem that the prior textile industry is lack of a process for implanting the tea fibers into the yarns is solved, the tea fiber is difficult to be used for yarn making, the tea fiber is poor in durability when being implanted into the fabric, and the antibacterial and deodorant performances of the tea fiber are difficult to be obtained for textile products.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The tea fiber yarn making method is characterized by comprising the following steps:

s1: selecting fresh tea leaves and terminal tea stems, washing the selected fresh tea leaves and the selected tea stems with cold water, turning over the selected fresh tea leaves and the selected tea stems to wash the tea leaves and the tea stems accumulated at the middle part and the bottom part, fully washing the tea leaves and the tea stems, and draining water;

s2: pouring the tea leaves and the tea stalks which are cleaned and drained in the step S2 into boiling water, heating the boiling water, stopping heating after the water is boiled again for two minutes, stopping heating, fully soaking, and covering and pressing the tea leaves floating on the water surface by adopting a filtering structure, so that all the tea leaves and the tea stalks are fully soaked for six to eight hours;

s3: fishing out the tea leaves and the tea stems soaked in the step S3, putting alumina into the filtrate of the left tea leaves and the tea stems, fully stirring the filtrate of the tea leaves and the tea stems, and standing for four to eight hours after stirring;

s4: layering the tea filtrate after precipitation, removing water above the precipitate, paying attention to avoid dispersion of the precipitate in the removing process, and collecting the precipitate after removing the water;

s5: carrying out chemical extraction on the collected precipitate, detecting the pH value of the extraction liquid, and adding an acidic reagent or an alkaline reagent if the pH value of the extraction liquid is not alkalescent so as to keep the pH value of the extraction liquid at alkalescence, thereby obtaining an alkalescent tea fiber mixed solution;

s6: fully infiltrating the weakly alkaline tea fiber mixed solution into cotton yarns, winding the cotton yarns on the surface of a yarn roller, wherein the winding thickness is not more than 1.5 cm, so as to ensure that the tea fiber mixed solution is fully infiltrated, putting the tea fiber mixed solution bearing the yarn roller into a pressurizable equipment container for pressurization, and standing for six to eight hours after pressurization to promote the tea fiber mixed solution to be fully immersed into the yarns of the yarn roller;

s7: and taking out the yarn roller soaked with the tea fiber mixed solution, draining the moisture of the yarn roller wound with the yarn, putting the yarn roller into an oven after draining the moisture, adjusting the temperature to 55 ℃, ensuring that the highest temperature does not exceed 60 ℃, and drying for 3.5 hours.

2. The method for manufacturing yarn according to claim 1, wherein in step S4, the water solution above the precipitate is removed to collect the precipitate, and the operation is divided into two steps, wherein the first step is to remove most of the water solution, and when the precipitate is slightly dispersed, the carrier is replaced, and the operation is performed again after the precipitation is continued until the layering is obvious, and the water solution is removed.

3. The method for manufacturing the yarn according to claim 1, wherein the pH value of the extraction solution in the step S5 is detected by a pH test paper.

4. The tea fiber yarn-making method according to claim 1, wherein in the step S1, for the turning of the tea leaves and the tea stalks, the turning tool or equipment is passivated by adopting a contact end structure, so as to minimize the cutting of the tea leaves and the tea stalks.

5. A yarn making system of a tea fiber yarn making method is characterized by comprising the following modules: the yarn winding device comprises a spindle winding module, a yarn roller winding module, a winding thickness detection module, a control module, a twisting module and a storage module;

the spindle winding and collecting module supports spindles and drives the spindles to rotate for winding or unwinding, the spindle winding and collecting module supports a plurality of spindles and drives the spindles to rotate so as to wind yarns discharged by the spindles or reversely convey the yarns to the spindles, the winding thickness detection module detects the thicknesses of the spindles supported by the spindle winding and collecting module and the thicknesses of the yarns on the surfaces of the spindles and the spindles, the detected electric signals are conveyed to the control module, when the thickness reaches a preset threshold value of the control module, the control module controls the spindle winding and collecting module to brake, the twisting module is used for jointing the yarns of the plurality of spindles when the yarns are concentrated to the spindles, and the storage module is used for storing the spindles which are wound in a concentrated mode.

6. The system of claim 5, wherein the control module presets a spindle and roller surface yarn thickness threshold of 1.5 cm, and the storage module stores the spindle with a desiccant in a wall.