JPH01183546A - Apparatus for heat-treatment of yarn - Google Patents

Abstract

PURPOSE:To facilitate the threading of yarn through the title apparatus while preventing the variation of heat-treatment temperature and increase in energy consumption, by forming a plurality of yarn-passing grooves to a heat-conductive member and placing a heat-insulation material to form a yarn-insertion slit having a specific dimension corresponding to the yarn-passing groove in front of the grooves. CONSTITUTION:Yarns passing through yarn-passing grooves 4, 4' of a yarn- heating apparatus are heated with a heater 1. In the above heating apparatus, heat-insulation materials 5, 5', 5'' are placed in front of the yarn-passing grooves 4, 4'. The yarn insertion slits 8, 8' formed by the heat-insulation materials 5, 5', 5'' have a width W of <=5mm and a depth D of >=60mm.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an apparatus for heat-treating running yarn in a non-contact state.

(Prior Art) A device in which a heating body is provided with a plurality of thread running grooves and the thread is run in the thread running grooves to perform heat treatment without contact has been well known. .

In such devices, the temperature within the yarn running groove tends to drop or fluctuate due to the influence of the external environment, making it impossible to perform uniform heat treatment, increasing energy consumption, and causing uneven heating (uneven heating). ) may occur.

In order to solve such problems, for example,
As described in Publication No. 83549 and Japanese Utility Model Application Publication No. 50-30019, a cover body that can be opened and closed or detached is provided on the front surface of the thread running groove to prevent outside air from affecting the inside of the thread running groove. A heating device has been proposed.

(Problems to be Solved by the Invention) However, in such a heating device, each time the thread is passed through the thread running groove, the lid must be opened/closed or attached/detached, which significantly reduces work efficiency. There is a problem.

The purpose of the present invention is to solve the problems of such conventional devices, and to create a thread that does not cause fluctuations in heat treatment temperature or increase energy consumption (in addition, allows threading work to be carried out efficiently). An object of the present invention is to provide a heat treatment device.

(Means for Solving the Problems) The present invention has been made to achieve the above object, and includes a non-contact yarn heating device having a plurality of yarn running grooves. This yarn heat treatment apparatus is characterized in that a heat insulating material is provided on the front surface of the apparatus to form a yarn insertion slit having a width of 5 mm or less and a depth of 60 mm or more corresponding to the traveling groove.

(Example) Hereinafter, an example of the present invention will be described based on the drawings. 1st
The figure is a perspective view showing an example of the device of the present invention, in which 1 is a heating element such as a sheathed heater, 2.3 is a heat transfer body, and 4.4' is a plurality of threads formed on the heat transfer body 3. Running groove, 5.5', 5
" is a heat insulating material provided on the front surface of the thread running groove 4.4'.

The heat insulators 5.5', 5# are fixed to the heating element 3 by tightening bolts 6.6', 6', and the mounting parts 7.7', 7#
In this case, a convex portion is formed on one side and a concave portion is formed on the other side so that they engage with each other to prevent the heat insulating material 5 from swinging laterally.

Instead of tightening bolts 6.6' and 6'', springs (plate springs) provided on the upper and lower covers of the heating device (not shown) are used to press the heat insulators 5.5' and 5# against the heat transfer body 3. You may also use tightening bolts 6.6', 6#
It may also be fixed by combining and a spring (plate spring). In addition, one outside of the heat transfer body 2.3 is covered with a heat insulating material and a sand cover (
Both are kept warm by (not shown).

The thread insertion slit 8.8' formed by the heat insulating materials 5.5' and 5# needs to have a width W of 5 fins or less and a depth D of 60 fins or more. When the width W exceeds 5 mm or the depth D is less than 6011 mm, the inside of the yarn running groove 4.4' cannot be protected from external disturbances, and the temperature inside the yarn running groove 4.4' decreases. It is not possible to prevent changes and temperature drops.

The heat insulating materials 5.5', 5'' are made of materials commonly used as heat insulating materials, such as calcium silicate heat insulating material, heat insulating brick, perlite heat insulating material, and the like.

In the present invention, in order to maintain the same temperature in each of the plurality of yarn running grooves 4.4', the distance from the heating element 1 to the yarn running groove 4.4' and the distance from the heating element 1' to the yarn running groove 4.4' are determined. Running 14
．． It is desirable to arrange them so that the distances to 4' are the same.

For example, in FIG. 2, the distance MJt from the heating element 1 to the thread running groove 4 is equal to the distance 1.1 from the heating element 1' to the thread running 14', and Distance to groove 4! 1111 t and the distance g and I from the heating element l to the thread running groove 4' are set equal.
, 1' and yarn running grooves 4.4' are arranged. Further, as shown in FIG. 3, yarn running grooves 4.4', 4', and 41 can be provided on the heat transfer elements 3.3' on both sides of the heating element 1.1'. In this case, the yarn running grooves 4.4', 4#, and 4' are arranged so that the distances from the heating element 1.1' are equal to each other.

Further, by arranging the yarns in this manner, it is possible to heat-treat a large number of spindles with a small number of heating elements, and the power consumption per spindle is reduced, resulting in improved energy efficiency.

Furthermore, as illustrated, if the heating elements 1 and 1' are sandwiched between two heat transfer elements 2.3 or 3.3', the heating elements can be replaced easily and conveniently.

Examples 1 to 3, Comparative Example 1.2 Using the apparatus shown in FIG. Various changes were made to set the temperature at 450℃ in a 25℃ room.
The temperature inside the thread running groove 4.4' was measured when heated.

On the other hand, the front surface of the yarn insertion slit 8.8' was covered with a lid to completely isolate it from the outside air, and the temperature inside the yarn running groove 4.4' was measured. The results are shown in the table below.

" [- As is clear from the above results, the slit width W is 5n
Below, when the slit depth D is 60 or more (Example 1 to
In case 3), the temperature inside the yarn running groove is almost the same as when the front surface of the slit is shielded, and it can be seen that the inside of the yarn running groove is protected from external disturbances by forming the slit with the heat insulating material. On the other hand, when the slit width W exceeds 5+n (Comparative Example 2) and when the slit depth D is less than 6011 (Comparative Example 1), the inside of the yarn running groove is lower than when the front surface of the slit is shielded. The temperature dropped by nearly 4 degrees Celsius, indicating that it was affected by the external environment.

(Effects of the Invention) According to the present invention, the temperature in the yarn running groove does not fluctuate or decrease due to the influence of the external environment, and moreover, the yarn can be passed through the yarn insertion slit formed of a heat insulating material. Since the thread can be easily inserted into the thread running groove, threading work can be carried out efficiently.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an example of the apparatus of the present invention, and FIGS. 2 and 3 are plan views illustrating the arrangement of a heating element and a heat transfer element. 4.4'... Yarn running groove, 5.5', 5''... Insulation material, 8.8'... Yarn insertion slit.

Claims (1)

[Claims] 1. In a non-contact yarn heating device having a plurality of yarn running grooves, a yarn insertion slit with a width of 5 mm or less and a depth of 60 mm or more is provided on the front surface of the yarn running groove, corresponding to the running groove. 1. A heat treatment device for yarn, characterized in that it is provided with a heat insulating material.