KR102127596B1 - Warp sensing device of loom - Google Patents

Abstract

The present invention relates to a warp tension detection device for a weaving machine, which detects an abnormal tension of a warp before warp breaking to stop the weaving machine. According to the present invention, the warp tension detection device for a weaving machine installed at a predetermined position of a warp moving path during weaving comprises: a body frame including a lower frame having a plus contact through-hole and a minus contact through-hole formed therein and vertical frames upwardly extended from front and rear end parts of the lower frame, respectively, to allow a warp to pass through a warp through-hole; a minus contact disposed in the minus contact through-hole of the lower frame; and a plus contact disposed in the plus contact through-hole of the lower frame. When an abnormal tension occurs in the warp, the plus contact moves downward by the abnormal tension of the warp to come in contact with the minus contact, thereby stopping a weaving process of a weaving machine.

Description

Warp SENSING DEVICE OF LOOM

The present invention relates to an inclined tension sensing device disposed on a loom for weaving a fabric, and more particularly, to an inclined tension sensing device for a loom that senses an abnormal tension of a warp before the warp cutting phenomenon occurs and stops the loom. will be.

In general, an inclined tension sensing device used in a loom is a device that detects the incision of the inclination, and by placing a sensing rod with a brush and a body installed between the end of the loom and the backrest, when the inclination is cut during weaving, the brush is below the inclined line. It is a method to detect the cutting of the slope by winding the thread stretched by and operating the sensing line installed in the sensing port.

The above-described conventional inclination tension detecting device is impossible to detect the inclined cut when the inclination is out of the sensing rod due to the tension during the inclined cutting due to the characteristics of the loom operating while maintaining a constant tension during the weaving operation of the loom. There is a problem that occurs.

In view of the above-mentioned problems, a method of detecting a cut slope by mounting an optical sensor is disclosed, but with the cost problem of installing multiple sensing devices. Occasionally, a case in which a cut slope does not fall and does not detect a case where the side slope and tangled with each other occurs also has been pointed out as a problem in use.

Republic of Korea Registered Utility Model Publication 1995-0002425

The present invention is to solve the conventional problems as described above, and provides an inclined tension sensing device for a loom capable of stopping the loom by detecting an abnormal tension phenomenon of an inclined tension of which an inclined tension increases before weaving is cut when weaving. There is a purpose.

The inclined tension sensing device according to the present invention is an inclined tension sensing device of a loom installed at a predetermined position in a moving path of inclination during weaving. A body frame formed of a vertical frame extending upward from a direction end and penetrating through the inclined passage hole; A negative contact disposed in the negative contact through-hole of the lower frame; and a positive contact disposed in the positive contact through-hole of the lower frame, wherein the positive contact has abnormal elasticity of the inclination when abnormal elasticity occurs in the inclined movement. It is characterized in that by moving in the downward direction by contact with the minus contact to stop the weaving operation of the loom.

The present invention has the effect of stopping the weaving operation of the loom by detecting the abnormal tension generated on the warp before the warp is cut during the weaving operation of the loom, preventing fabric defects due to the warp cutting, and improving the efficiency of the weaving operation. .

1 is an exemplary view showing a position in which the present invention is placed on a loom
Figure 2 is a perspective view illustrating the configuration of the present invention
Figure 3 is an exploded perspective view illustrating the configuration of the present invention
4 is a cross-sectional view taken along line AA of the present invention
Figure 5 is a cross-sectional view taken along line BB of the present invention
Figure 6 is an exemplary view showing a state during the weaving operation of the present invention
Figure 7 is an exemplary view showing a state when weaving of the present invention

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily implement the present invention. However, in the detailed description of a preferred embodiment of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions. In addition, throughout the specification, when a part is connected to another part, this includes not only the case of being directly connected, but also the case of being connected indirectly with another element in between. In addition, the inclusion of any component means that other components may be further included, rather than excluding other components, unless otherwise stated. The drawings attached to the present invention may exaggerate, reduce, or omit each component or a specific part constituting the component for understanding of the invention. In the following description, the front, rear, left, and right directions mean directions shown in FIGS. 1 and 2.

1 and 2, the inclined tension sensing device of the loom according to the present invention is disposed in plural between the krill 120 and the weaving part 130 on which the spool 110 is disposed. The apparatus for detecting the inclined tension of a loom according to the present invention, when a greater elasticity than normal elasticity occurs in an inclination moving from the spool 110 to the weaving unit 130, a positive contact 400 is obtained due to the abnormal elasticity of the inclined 140 ) Is moved in the downward direction and is in contact with the minus contact 300, and as described above, when the plus contact 400 and the minus contact 300 contact, the weaving operation of the loom is stopped. That is, when the elasticity of the inclination increases immediately before the inclination 140 is cut, the weaving operation of the loom is stopped.

Referring to Figures 2 to 5 looks at in detail the inclined tension sensing device of the loom according to the present invention. The device for detecting the inclined tension of a loom according to the present invention includes a vertical frame 220, a minus contact 300 and a plus contact 400 disposed in the vertical frame 220.

In the following description, the detailed shape and action of the dropper 500 disposed on the inclined tension sensing device of the loom according to the invention is a well-known technique, and thus a description thereof is omitted, and the negative terminal 310 and the positive terminal 410 form electrodes. The technology and the technology of stopping the operation of the weaving machine by a short circuit (short circuit) of the minus terminal 310 and the plus terminal 410 are also well-known technologies, and detailed descriptions thereof will be omitted.

The body frame 200 is formed in the front and rear directions, and the lower frame 210 in which the negative contact 300 and the positive contact 400 are disposed, and the upper direction from the front and rear end portions of the lower frame 210. It is formed to extend and includes a vertical frame 220 through which the slope 140 moves through the slope passing hole 221. In the left direction of the lower frame 210, a plus contact through hole 212 in which a plus contact 400 is disposed is formed, and a minus contact through in which a min contact 300 is disposed in the right side of the plus contact through 212. The sphere 211 is formed. The negative contact through hole 211 and the positive contact through hole 212 are formed symmetrically in the right direction of the lower frame 210.

At the left and right ends of the vertical frame 220, a dropper frame 230 supporting the dropper 500 is protruded, and a dropper 500 is formed through the vertical direction in the center of the lower frame 210, and thus the dropper 500 is left and right. A dropper through hole 231 that is arranged to form a predetermined distance in the direction is formed, and a dropper frame connection groove 232 to which a lower portion of the dropper frame 230 is connected is formed at left and right ends of the lower frame 210. . The dropper frame 230 includes a plurality of support rods that support the dropper 500.

The dropper frame 230 and the dropper through hole 231 are configured to place the dropper 500 inside the body frame 200, and the dropper frame connection groove 232 has a dropper frame 230 having a body frame 200. The apparatus for minimizing the warp tension sensing device of the loom according to the present invention is prevented from protruding outside.

The dropper frame 230 and the dropper through-hole 231 act to position the dropper 500 between the inclined through-holes 221 of the body frame 200. This is to prevent a change in the position of the arranged dropper 500 when an abnormal tension occurs in the inclined 140. If an abnormal tension occurs in the inclination while the dropper 500 is disposed above the body frame 200, the position fixing action of the inclination by the inclined passage hole 221 of the body frame 200 disappears and the inclination in which the abnormal tension occurs The arrangement positions of all the droppers 500 arranged by are changed.

The dropper frame connection groove 232 acts such that the lower portion of the dropper frame 230 formed long in the upper and lower directions is located inside the outer edges of the left and right sides of the body frame 200. This is because a lot of strands are used when weaving in a normal loom, and accordingly, the number of warp tension sensing devices of the loom according to the present invention is also used. Because it improves.

The minus contact 300 is disposed on the bottom surface of the vertical frame 220, and the minus terminal control port 320 is arranged to communicate with the minus contact through hole 211 in the up and down direction, and the minus contact through hole 211 ) And includes a negative terminal 310 that penetrates the negative terminal control member 320.

The minus terminal adjustment sphere 320 is formed with a female screw on the inner rim, and the minus terminal 310 is formed with a male screw on the outer rim to be mutually fastened, and the minus terminal 310 according to one or the other rotation of the minus terminal 310 The upper part of the upper and lower parts can be elevated.

The plus contact 400 includes a plus terminal control port 420 connected to the plus contact through port 212 and a plus terminal 410 disposed above the plus terminal control port 420. The plus terminal adjusting device 420 is configured to exert elasticity at the lower portion of the plus terminal 410 and support the plus terminal 410 while simultaneously adjusting the height of the plus terminal 410 in the up and down direction. When the normal weaving action of the loom, the positive terminal 410 moves in contact with the upper surface of the positive terminal 410 while the lower surface of the positive terminal 410 moves at a constant distance from the upper end of the negative terminal 310. It is configured to maintain.

The plus terminal 410 includes a plus terminal guide 411 formed in a downward direction from the bottom surface. The plus terminal guide 411 is connected to the inside of the guide hose 421 together with the elastic body 425 disposed under the plus terminal 410 to guide the stable up and down movement of the plus terminal 410.

The plus terminal adjusting device 420 is a guide hose 421 of a tubular shape with a flange formed on the upper part, and a plus terminal height adjusting device 424 connected to the upper direction from the bottom surface of the guide hose 421, and the guide It includes an elastic body 425 disposed from the inside of the hose 421 to the top.

3 to 4, the plus terminal 410 and the plus terminal guide 411 are formed in a'T' shape, and the lower portion of the plus terminal guide 411 is connected to the inside of the guide hose 421. A positive terminal guide 411 and a positive terminal guide connection groove 422 capable of accommodating the elastic body 425 are formed in the upper portion of the guide hose 421, and at the lower portion of the positive terminal guide connection groove 422, a positive terminal A diameter is narrower than that of the guide connecting groove 422, and a positive terminal height adjusting hole fastening hole 423 having a thread formed on the inner rim is formed. The plus terminal height adjusting hole fastening hole 423 and the plus terminal guide connection groove 422 communicate with each other.

The elastic body 425 has a coil spring shape, and the upper end contacts the bottom of the plus terminal 410, and the lower end contacts the bottom of the plus terminal guide connecting groove 422. That is, the positive terminal 410 is guided by the vertical movement by the positive terminal guide 411 and the positive terminal guide connection groove 422, and the elastic body 425 exerts elasticity to the positive terminal 410 It is to form a constant gap between the plus terminal control device 420.

A male screw is formed on the outer rim of the plus terminal height adjusting device 424 and fastened to the plus terminal height adjusting device fastening hole 423. The top surface of the plus terminal height adjusting device 424 is in contact with the bottom surface of the plus terminal guide 411. Therefore, when the plus terminal height adjusting device 424 is rotated to one side or the other side, the plus terminal guide 411 is upper, Ascending and descending, the height of the plus terminal 410 is also elevated and descending.

The elastic body 425 may have an elastic body 425 having a different elastic modulus depending on the thickness of the slope 140. It is preferably adjusted according to the thickness of the warp used for the loom.

The operation of the present invention will be described with reference to FIGS. 6 and 7. Figure 6 is an exemplary view showing the working state of the present invention in the weaving operation. Referring to FIG. 6, the inclination 140 moves toward the weaving part 130 in a state in contact with the upper surface of the plus contact 400, and the elasticity and elastic body 425 in the downward direction generated from the inclined 140 in motion Due to the modulus of elasticity of the bottom of the plus terminal 410 and the upper end of the minus terminal 310 are spaced apart while maintaining a constant distance. That is, the plus terminal 410 and the minus terminal 310 are in a state in which the weaving operation of the loom is normally performed.

7 is an exemplary view showing an operating state of the present invention when the weaving operation is stopped. As shown in FIG. 7, when an abnormality occurs in an inclination moving toward the weaving unit 130 and a situation occurs immediately before cutting occurs in the inclination 140, the tension of the inclination 140 becomes stronger than usual. Due to the abnormal tension of the inclined 140, the plus terminal 410 is pressed downward by the inclined 140, the elastic body 425 contracts, and the bottom of the plus terminal 410 contacts the upper end of the minus terminal 310 do. That is, the weaving operation is stopped in a short circuit (short circuit) state in which two poles are directly connected without a load among the electrical circuits due to the contact between the positive terminal 410 and the negative terminal 310.

As illustrated in FIG. 7, when an abnormal tension is generated in the inclined 140, the inclined 140 in which the abnormal tension has occurred penetrates both inclined through holes 221 of the body frame 200 in a state that is not broken. It is in a state. Therefore, the arrangement of the dropper 500 is prevented from being disturbed due to the inclined abnormal tension.

The present invention adjusts the elastic modulus of the elastic body 425 according to the thickness of the inclined 140 used when weaving, and the positive terminal 410 and the negative terminal 310 before the cutting phenomenon of the inclined 140 occurs during weaving. It can be adjusted so that the contact of the can be applied to the thickness of various looms and various inclined 140.

In addition, the present invention is possible to adjust the space between the plus terminal 410 and the minus terminal 310 by the rotation of the plus terminal adjustment sphere 420 and the minus terminal adjustment sphere 320, the plus terminal 410 and the minus terminal ( 310) can be applied to various looms and thicknesses of various inclinations 140 as the contact sensitivity can be adjusted.

As described above, only the specific examples of the present invention have been described in detail, but it is obvious to those skilled in the art to which the present invention pertains that various changes or modifications can be made within the spirit and scope of the present invention. Should be within the scope of the appended claims.

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110: spool 120: krill
130: weaving department 140: slope
200: body frame 210: lower frame
220: vertical frame 221: slope pass
211: Minus contact through 212: Plus contact through
230: Dropper frame 231: Dropper penetration
232: Dropper frame connection groove 300:: Minus contact
310: minus terminal 320: minus terminal control
400: plus contact 410: plus terminal
411: plus terminal guide 420: plus terminal adjustment
421: Guide hose 422: Height adjustment tube
423: Guide entry groove 424: Plus terminal height adjuster
425: Elastic body

Claims (3)

In the weaving tension sensing device of the loom installed in a predetermined position of the movement path of the inclined during weaving,
The lower frame 210 in which the positive contact through hole 212 and the negative contact through hole 211 are formed, and extending in the upward direction from the front and rear end portions of the lower frame 210 to the inclined pass hole 221 A body frame 200 made of a vertical frame 220 through which the slope 140 passes;
A negative contact 300 disposed at a negative contact through hole 211 of the lower frame 210;
It includes a positive contact 400 disposed in the positive contact through hole 212 of the lower frame 210,
The plus contact 400 is moved to the downward direction by the abnormal elasticity of the inclined 140 when abnormal elasticity occurs in the inclined 140 to be moved is in contact with the negative contact 300 to stop the weaving work of the loom A device for detecting the inclined tension of a loom.
The method according to claim 1
The minus contact 300 is disposed on the bottom surface of the lower frame 210, and the minus terminal control port 320 is arranged to communicate with the minus contact through hole 211 in the up and down direction,
An inclined tension sensing device for a loom, characterized by including a minus terminal (310) that penetrates through the minus contact through (211) and is combined with the minus terminal control (320), and is capable of moving the upper position in the up and down direction .
The method according to claim 1,
The plus contact 400 is a plus terminal adjustment port 420 connected to the plus contact through port 212,
It includes a positive terminal 410 disposed on the upper portion of the positive terminal adjustment tool 420,
The plus terminal adjusting device 420 comprises an elastic body 425 elastically supporting the plus terminal 410 under the plus terminal 410, the device for detecting the inclined tension of a loom.

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