KR101316481B1 - Knitting method for functional yarn - Google Patents

Abstract

PURPOSE: A knitting method of a functional yarn is provided to prevent deterioration of pertinent clothes caused by repeated washing and use as functionality is given by an original property included in the functional yarn. CONSTITUTION: A knitting method of a functional yarn comprises the following steps. The functional yarn is wound in a first bobbin. The functional yarn wound in the first bobbin is re-r wound in a second bobbin by using a winding intensity controlling unit. The functional yarn re-wound in the second bobbin is line-dye-treated. The line-dye-treated functional yarn is used to perform a knit processing in a predetermined pattern. The functional yarn in step 1 is wound at a speed of 700 m/min to 800 m/min and a tension intensity of 18 g to 22 g at a side of the first bobbin, and the functional yarn in step 2 is re-wound at a speed of 450 m/min to 550 m/min and a tension intensity of 13 g to 17 g at a side of the second bobbin. [Reference numerals] (AA) Start; (BB) First step of winding functional yarn in a first bobbin; (CC) Second step of: re-winding functional yarn wound in the first bobbin in a second bobbin by using a winding intensity controlling unit; (DD) Third step of: line-dye-treating functional yarn re-wound in the second bobbin; (EE) Fourth step of using line-dye-treated functional yarn to perform a knit processing in a predetermined pattern; (FF) End

Description

KNITTING METHOD FOR FUNCTIONAL YARN

The present invention relates to a knitting method of functional yarns, and more particularly, to reduce the strength of the odor of various kinds of functional yarns specially processed to obtain sweat-absorbing quick-drying, thermal insulation, UV protection or elasticity, durability and light weight of clothing. By rewinding from the originally wound bobbin to another bobbin, it is supplied to the knitting machine at a constant speed due to the strong winding strength and its elasticity, thereby minimizing the occurrence of defective rates such as bursting or loosening, and pre-dyed treatment. According to the present invention, the knitted fabric shows excellent fastness, as well as less fading and soft touch, and at the same time it can reduce the amount of chemicals processed compared to post-dyeing, which is eco-friendly and has functional yarns rather than imparting functionality by chemical treatment. As functionality is imparted by its inherent properties, it can The present invention relates to a knitting method of functional yarns to prevent deterioration of the functionalities of the articles.

Recently, due to the increase of outdoor sports activities caused by the development through rapid modernization, the outdoor market such as mountain climbing has grown significantly, and the development of functional yarns used to make clothing suitable for outdoor activities is widely progressed.

In addition to Gore-Tex, a typical functional fabric that releases sweat but blocks moisture, functional yarns with enhanced antibacterial, sweat-discharging and drying functions, or reduced thickness to increase activity by reducing the volume of clothes Is an ultra-light functional yarn that is high in weight, a cold functional yarn that absorbs UV rays and sweat and dries faster than traditional nylon functional yarns, and is used in clothing or bags to maintain the appearance of the product for a long time as well as durability. Various kinds of functional yarns are known, such as elevated functional yarns.

Such conventional functional yarns are usually made of a step in which the functional yarns are first knitted, then dyed in the form of a fabric, and then chemicals such as chemicals are treated to impart various functions.

By the way, such a conventional method is to use a functional yarn strongly bound to the bobbin so that there is no fear of loosening during transportation, at this time, the failure rate such as loosening or bursting the fabric of the knitted fabric due to the functional yarn is not constantly released from the bobbin There was a drawback to this marked increase.

In addition, after the knitting process is a post-dyeing in the form of the fabric, not only the fastness is excellent, but also due to the dyeing for a long time, there is a drawback that the color error occurs as well as the characteristics of the fabric may be changed.

In addition, as the functionality is given by various chemicals after the post-dyeing process, it is not environmentally friendly, there is a problem that the degradation of the corresponding function by the repeated number of washing and use is gradually generated.

Therefore, the present invention is a re-absorbent quick-drying, thermal insulation, UV protection or a variety of functional yarns specially processed for obtaining elasticity, durability and light weight from the bobbin originally wound to reduce the odor strength from another bobbin to another bobbin The object of the present invention is to provide a knitting method of a functional yarn that can be supplied to the side of the knitting machine at a constant speed due to the strong winding strength and its elasticity, thereby minimizing the occurrence of defective rates such as bursting or loosening.

In addition, the present invention, as the dyeing process is pre-dyed, the knitted fabric exhibits excellent fastness, less color fading, soft to the touch, and at the same time can reduce the amount of chemicals treated compared to post-dyeing environment-friendly functional yarn knitting method The purpose is to provide.

In addition, the present invention provides a knitting method of a functional yarn that can prevent the functionality of the garment from deteriorating by repeated washing and use, as the functionality is provided by the original properties of the functional yarn, rather than imparting the functionality by chemical treatment. The purpose is to provide.

In order to achieve the above object, the present invention provides a first step of winding a functional yarn in a first bobbin, a second step of rewinding a functional yarn wound in a first bobbin to a second bobbin using a winding strength adjusting means, and a second step. Provides a knitting method of the functional yarn, characterized in that it comprises three steps of pre-dyed the functional yarn rewound in the bobbin, and four steps of knitting into a predetermined pattern by using the functional yarn that has been pre-dyed.

In the first step, the functional yarn is wound on the first bobbin side at a speed of 700 m / min to 800 m / min and a tension strength of 18 g to 22 g.

In the second step, the functional yarn is rewound on the second bobbin side at a speed of 450 m / min to 550 m / min and a tension strength of 13 g to 17 g.

In the present invention, the winding strength adjusting means includes a first motor connected to the first bobbin to transmit the rotational force, a second motor connected to the second bobbin to transmit the rotational force, and a second bobbin from the first bobbin. And a sensor configured to contact the functional yarn to be rewound to sense tension, and a signal input from the sensor to control rotational speeds of the first motor and the second motor according to the signal.

In the present invention, the sensor has an upper limit value and a lower limit value for the tension strength of the functional yarns which are sequentially released on the first bobbin and rewound with the second bobbin, so that the strength of the tension is increased above the upper limit value or lower than the lower limit value. When the strength of the tension is reduced, a corresponding signal is transmitted to the controller to control the speeds of the first motor and the second motor.

In the present invention, if the tension intensity is detected above the upper limit value, the rotation speed of the first motor and the constant speed of the second motor or the constant speed of the first motor and the rotation speed of the second motor or the second motor may be reduced to reduce the tension intensity. The rotational speed of the first motor and the rotational speed of the second motor are selectively increased. On the contrary, the rotational speed of the first motor and the reduction of the second motor are increased so that the sensor can increase the tension strength below the lower limit. The constant speed or the constant speed of the first motor and the increase of the rotational speed of the second motor or the decrease of the rotational speed of the first motor and the increase of the rotational speed of the second motor are selectively made.

In the present invention, the knitting method of the functional yarn is a bobbin which is naturally wound to reduce the odor strength of various kinds of functional yarns specially processed to obtain sweat drying, cold insulation, UV protection or elasticity, durability and light weight of clothing. By rewinding to another bobbin has a strong winding strength and self-elasticity is supplied to the knitting machine side at a constant speed has the advantage of minimizing the generation of defects such as popping or loosening.

In addition, as the pre-dyed process, the knitted fabric shows excellent fastness, as well as less fading and soft touch, and at the same time can reduce the amount of chemicals compared to the post-dyed has an environmentally friendly advantage.

In addition, the functionality is imparted by the inherent properties of the functional yarn, rather than imparting the functionality by the chemical treatment has the advantage of preventing the functionality of the garment deteriorated by repeated washing and use.

1 is a flow chart for a knitting method of functional yarns according to an embodiment of the present invention.
2 is a conceptual view of the winding strength adjusting means of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the scope of the present invention being limited only by the terms of the appended claims. It is noted that the same reference numerals are used for the same constituent members in the respective embodiments.

1 is a flowchart illustrating a knitting method of a functional yarn according to an embodiment of the present invention, and FIG. 2 is a conceptual diagram of a winding strength adjusting means of the present invention.

In the knitting method of the functional yarn according to the preferred embodiment of the present invention, one step of winding the functional yarn 60 on the first bobbin 20 and the functional yarn 60 wound on the first bobbin 20 are wound. Two steps of rewinding the second bobbin 30 using the strength adjusting means 10, three steps of pre-dyeing the functional yarn 60 rewound in the second bobbin 30, and the pre-dyeing process is completed Four steps of knitting into a predetermined pattern using the functional yarn 60.

Hereinafter, with reference to Figures 1 and 2 will be described in detail each step for the knitting method of the functional clothing according to an embodiment of the present invention.

Here, step 1 is a step of winding the functional yarn 60 to the first bobbin 20 serves to enable the distribution of the functional yarn 60, which can prevent the functional yarn 60 from being released during distribution. It is important that the first bobbin 20 is wound so as to have a tension of a certain strength or more.

For this purpose, the functional yarn 60 in the above-described step 1 is wound around the first bobbin 20 at a speed of 700 m / min to 800 m / min and a tension strength of 18 g to 22 g to freely release the functional yarn 60 during distribution. To prevent them.

The functional yarn 60 wound on the first bobbin 20 has two stages, and the above-described two stages use the functional yarn 60 for the second bobbin 30 using the winding strength adjusting means 10 which will be described later. ) To rewind to the side. At this time, the winding in the second bobbin 30 is made of a lower strength than the winding strength on the first bobbin 20, to minimize the defective rate. The reason for lowering the tension and rewinding the tension through two steps is that a plurality of pores are formed in the functional yarn 60, and the functional yarn 60 has its own elasticity due to the high bobbin strength. This is because if it is wound, it cannot be released constantly due to its own elasticity, which may cause defects such as loosening or popping of the ol.

Therefore, in the above two steps, the functional yarn 60 is rewound on the second bobbin 30 side at a speed of 450 m / min to 550 m / min and a tension strength of 13 g to 17 g.

And the above-described winding strength adjusting means 10, as shown in Figure 2, is connected to the first motor 21 and the second bobbin 30 is connected to the first bobbin 20 to transmit the rotational force A sensor 40 that contacts the second motor 31 for transmitting rotational force, the functional yarn 60 rewound from the first bobbin 20 to the second bobbin 30, and detects tension; The signal transmitted from the () is input and includes a controller 50 for controlling the rotational speed of the first motor 21 and the second motor 31 according to the signal.

The first motor 21 described above allows the drive shaft to be directly connected to the first bobbin 20 so as to release the functional yarn 60 wound on the first bobbin 20 so as to transmit the unwinding rotation force according to whether the drive is performed. The second motor 31 is supplied with a functional yarn 60 released from the first bobbin 20 so that the drive shaft is directly connected to the second bobbin 30 so as to be rewound, thereby winding the rotational force according to whether the drive is performed. Will be delivered.

The sensor 40 described above senses the tension of the functional yarn 60 supplied from the first bobbin 20 to the second bobbin 30, and the controller 50 described above is transmitted from the sensor 40. In response to the signal, the rotational force of the first motor 21 and the second motor 31 is controlled according to a preset method.

That is, in the sensor 40 described above, an upper limit value and a lower limit value of the tension strength of the functional yarn 60 that are sequentially unwound on the first bobbin 20 and rewound into the second bobbin 30 are set, and thus the upper limit value is set. As described above, when the strength of the tension is increased or the tension is decreased below the lower limit value, the signal is transmitted to the controller 50 to control the speeds of the first motor 21 and the second motor 31.

In detail, when the sensor 40 detects a tension strength higher than the upper limit, the rotation speed of the first motor 21 increases and the constant speed rotation of the second motor 31 or the constant speed rotation of the first motor 21 and the second motor. Reduction of the rotational speed of 31 or the rotational speed of the first motor 21 and the reduction of the rotational speed of the second motor 31 are selectively made to reduce the tension strength of the functional yarn 60.

On the contrary, when the sensor 40 senses the tension strength below the lower limit, the rotation speed of the first motor 21 decreases and the constant speed rotation of the second motor 31 or the constant speed rotation of the first motor 21 and the second motor ( The increase in the rotational speed of the 31 or the rotational speed of the first motor 21 and the increase in the rotational speed of the second motor 31 are selectively made to increase the tension strength of the functional yarn 60.

Meanwhile, three steps of the functional yarn 60 rewound in the second bobbin 30 are performed, and the aforementioned three steps are pre-dyed processing of the functional yarn 60 in which the rewound is performed. In the third step, dyeing is performed before knitting is performed, so the color error is small, the color fastness is excellent, the dye penetration rate is good, and the dyeing is excellent.

For example, when the dyeing of the span knitted fabric having a blend ratio of 90% polyester and 10% spandex is poorly dyed, the fastness is not good. This is because dyeing of the polyester is good, but the dyeing of the spandex is difficult to be achieved. This is because dyes, transformations and dropouts occur frequently in dyes. Therefore, after the dye is added in a larger amount than the standard amount is a high temperature and high pressure after a long time the dyeing treatment is made, which causes a problem that the color error of the fabric becomes severe and changes to the characteristics of the fabric.

However, when the functional yarn 60 is pre-dyed, only polyester yarns other than spandex yarns can be selectively dyed to minimize color errors and to prevent changes in the properties of the fabric, as well as dye transfer and transformation. As a result, it is possible to effectively block the dropout, thereby effectively improving the fastness of the fabric.

In this case, the dye used is one selected from the dyes according to the prior art, the detailed description thereof will be omitted for simplicity of the specification.

On the other hand, the functional yarn 60 is completed the pre-dyeing process is carried out in four stages, the above-mentioned four stages is a step of knitting into a predetermined pattern using the yarn. At this time, the functional yarn 60 is rewound in a state in which the winding strength is reduced to the second bobbin 30 through the above-described two steps, and thus it is possible to constantly supply the knitting machine to the knitting machine side. Therefore, it is possible to minimize the defective rate such as loosening or popping oar. At this time, the overall operating relationship in which the knitting machine and the functional yarn 60 used to be knitted work is carried out in the same manner as that according to the prior art, so the detailed description is omitted for the sake of brevity of the specification.

Hereinafter will be described in detail the overall processing step of the knitting method of functional yarns according to an embodiment of the present invention.

First, the functional yarn 60 in a state of being wound at a speed of 750 m / min and a tension strength of 20 g on the first bobbin 20 using a winding strength adjusting means 10 to a speed of 400 m / min on the second bobbin 30. And rewind at a tension strength of 15 g.

When rewinding, the sensor 40 is in contact with the functional yarn 10 supplied from the first bobbin 20 to the second bobbin 30, so that the value of the tension during the rewinding of the functional yarn 10 in real time is obtained. Measure

That is, when the winding strength is lowered below the lower limit value, the sensor 40 detects this and transmits the corresponding signal to the controller 50, and the controller 50 receiving the signal receives the rotation speed of the first motor 21. And the tension of the functional yarn 10 is increased by allowing the second motor 31 to rotate at a constant speed.

On the contrary, when the odor intensity increases above the upper limit value, the sensor 40 detects this and transmits the corresponding signal to the controller 50, and the controller 50 receiving the signal decreases the rotation speed of the first motor 21. The second motor 31 is rotated at constant speed so that the tension of the functional yarn 10 is reduced.

Then, the functional yarn 60 rewound in the second bobbin 30 is pre-dyed with a selected dye and then knitted through a knitting machine.

At this time, by rewinding the functional yarn 60 to another bobbin from the bobbin originally wound to reduce the curling strength, it is supplied to the knitting machine side at a constant speed by the strong winding strength and its own elasticity, thereby causing the rupture or loosening. It is possible to minimize the occurrence of the defective rate.

In addition, as the pre-dyed is processed, the knitted fabric exhibits excellent fastness, less color fading, softer touch, and at the same time, it can reduce the amount of chemicals treated compared to post-dyeing, which is environmentally friendly.

In addition, the functionality is imparted by the inherent properties of the functional yarn 60, rather than imparting functionality by chemical treatment, it can be prevented that the functionality of the garment deteriorated by repeated washing and use.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention, It is therefore intended that the above-described embodiments be considered as illustrative rather than restrictive, and that all implementations within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

10: winding strength adjusting means
20: first bobbin
21: the first motor
30: second bobbin
31: second motor
40: sensor
50: Controller
60: functional yarn

Claims (6)

1 step of winding the functional yarn 60 in the first bobbin 20;
Rewinding the functional yarn 60 wound on the first bobbin 20 to the second bobbin 30 using the winding strength adjusting means 10;
Three steps of pre-dyed the functional yarn 60 rewound in the second bobbin (30); And
Including the four steps of knitting in a predetermined pattern using the functional yarn 60, the line dyeing process is completed,
In the first step, the functional yarn 60 is wound at a speed of 700 m / min to 800 m / min and a tension strength of 18 g to 22 g on the first bobbin 20 side, and in the second step, the functional yarn 60 is a second one. A method of knitting functional yarns, characterized in that rewinding at a speed of 450m / min to 550m / min and a tension strength of 13g to 17g on the bobbin (30) side. The method according to claim 1,
The winding strength adjusting means 10, the first motor 21 is connected to the first bobbin 20 to transmit the rotational force, and the second motor is connected to the second bobbin 30 to transmit the rotational force ( 31), a sensor 40 which is in contact with the functional yarn 60 rewound from the first bobbin 20 to the second bobbin 30 and detects a tension, and a signal transmitted from the sensor 40 And a controller (50) input and controlling a rotation speed of the first motor (21) and the second motor (31) according to the signal. The method according to claim 2,
The sensor 40 is set to an upper limit value and a lower limit value for the tension strength of the functional yarn 60 that is sequentially unwound on the first bobbin 20 and rewound with the second bobbin 30, so that the tension is higher than the upper limit value. When the strength of the tension is increased or the strength of the tension is reduced below the lower limit value, the corresponding signal is transmitted to the controller 50 to control the speeds of the first motor 21 and the second motor 31. How to knit functional yarns. The method according to claim 3,
When the sensor 40 detects a tension strength higher than the upper limit, the rotation speed of the first motor and the constant speed of the second motor or the constant speed of the first motor and the rotation speed of the second motor or The increase in the rotational speed of the first motor and the decrease in the rotational speed of the second motor are selectively performed. On the contrary, when the sensor 40 senses the tension strength below the lower limit, the rotational speed of the first motor can be increased and decreased. 2 Constant speed rotation of the motor or constant speed rotation of the first motor and increasing the rotational speed of the second motor or the rotational speed of the first motor and increasing the rotational speed of the second motor is selectively made. delete delete

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