KR20010027922A - Thread tension auto control apparatus for warping machine - Google Patents

Abstract

PURPOSE: Provided is an automatic controller of a grey yarn-tension on a jet warper which has improved work efficiency, and simple work, and prevents from cutting yarn. CONSTITUTION: The automatic controller of tension is comprised of: a driving roller(2) and a guiding roller(3) formed on the upper part of a main body(1) in the transverse direction; the guiding roller(3) driven on rise-and-fall by a rise-and-fall driving part(4) set on the upper part of a rotating axis(3A); the driving roller(2) connected with a driving motor(5) and an electromotive part(6) set on the lower part of the main body(1); the driving roller(2) and the guiding roller(3) connected by an interlocking part(7); a tension sensing part formed in front of the main body(1); and the tension sensing part and the driving motor(5) connected by an invertor.

Description

THREAD TENSION AUTO CONTROL APPARATUS FOR WARPING MACHINE}

The present invention relates to a yarn tensioning device for an injection jet game, and in particular, to control the yarn tension automatically by mechanical and electrical circuit operation to maintain and satisfy the optimal tension conditions. It relates to a tension automatic control device.

In general, the jetting jet machine is a device for injecting a plurality of strands of yarn from a plurality of yarn bobbins to be sprayed to the desired number of strands to be wound on the beam for the warp, which is a sending device equipped with a plurality of bobbins wound yarn, and It is composed of an injection device for injecting the yarns respectively sent from a plurality of bobbins into a plurality of strands, and a tension control device installed on the front and rear sides of the injection device.

Figure 5 is a perspective view showing the overall configuration of a conventional jet match, which is formed with a drive roller 102 driven by a drive motor 101, the lifting drive means 104 in the lower portion of the drive roller 102 There is a lifting frame 105 which is lifted by), and the lifting frame 105 is formed with a pair of flow rollers 106 and 106A which are engaged with the driving roller 102 and rotated. In addition, a guide rail 103A is attached to the frame 103, a support frame 107 is attached to the lifting frame 105, and the support frame 107 is guided up and down by the guide rail 103A. The lifting guide plate 107A is composed of a tension regulator 100 attached.

And the lifting drive means 104 is provided with a lifting drive motor (104A) on the lower side of the lifting frame 105, the reduction gear 104B is connected to the shaft of the motor (104A), the reduction gear (104B) ) Is composed of a driving screw 104C and a nut 104D engaged with it.

In the conventional jet force control device configured as described above, the driving roller 102 is driven by the driving motor 101, and the flow rollers 106 and 106A meshed with the lower side of the driving roller 102 are also included. Driven together. Then, the tension of the thread is first driven to drive the lifting drive motor 104A to rotate the drive screw 104C, the lifting frame 105 and the support frame 107 by the rotation of the drive screw 104C is raised and lowered. Thus, the flow rollers 106 and 106A formed in the support frame 107 pass between the drive rollers 102 and the flow rollers 106 and 106A by adjusting the contact pressure with respect to the drive rollers 102. The tension of the thread can be adjusted.

On the other hand, the biggest cause of the tension change is that the tension of the first loosening, the intermediate loosening and the end loosening is not constant in a single thread, which causes irregular tension depending on the physical properties and warping conditions of the yarn.

As described above, the yarn tension control device of the conventional jet stabilization device is designed to adjust the tension of the thread depending on the sense of skilled skilled workers, and thus not only satisfy the optimal tension condition (0.1 to 0.2 g / DE), There was a problem that caused a truncation phenomenon, and also that the worker must always reside. In addition, there is a problem in that the worker has always been resident and adjusts the tension of the yarn by hand, thereby causing the inconvenience, inconvenience, and inefficiency of the work.

It is therefore an object of the present invention to be able to automatically adjust by mechanical and electrical circuit operation without resorting to manual labor. Another object of the present invention is to be able to maintain and satisfy the optimum conditions of thread tension. In order to achieve the object of the present invention, the driving roller and the guide roller are formed on the upper side of the main body in the transverse direction before and after, respectively, and the guide rollers are formed to be elevated and driven by the elevating drive unit provided on the upper side of both the rotating shafts. The driving roller is connected to the driving motor and the electric motor provided on the lower side of the main body, and the driving roller and the guide roller are connected to the interlocking part. The motor is provided with an automatic tension control device of the injection match, characterized in that interconnected by an inverter.

In addition, the elevating drive unit is provided with a pair of supports for rotatably supporting the guide rollers on both sides of the rotation shaft of the guide roller, each support is formed on the rod of a pair of hydraulic cylinders formed vertically downward on both sides of the upper end of the main body It is characterized by the connection.

And the tension sensing unit is provided with a guide support is formed on the front and rear sides of the center axis, respectively, and the lower support is provided with a thread support formed with a pressing projection to protrude downward, the lower support protruding upwards under the pressure projection of the support It is characterized by comprising a load cell having a contact projection.

1 is a perspective view showing the internal configuration of the main body of the present invention.

2 is a front view of FIG. 1;

Figure 3 is a side view showing the overall configuration of the present invention.

Figure 4 is an enlarged view of the main portion showing the configuration of the tension sensing unit of the present invention.

Figure 5 is a perspective view showing a tension control device of a conventional jet match.

* Explanation of symbols for the main parts of the drawings

1: Main body 2: Driving roller

2A, 3A: Shaft 3: Guide roller

4: lift driving part

41, 41A: Support 42, 43: Hydraulic cylinder

42A, 43A: Load

5: drive motor 5A: drive shaft

6: Electric part

61: driven pulley 62: driven pulley

63,73: Belt

7: Interlocking part

71: driving pulley 72: driven pulley

8: tension sensing unit

81: actual support 81A: center shaft

81B, 81C, 81D, 81E: Guide Bar

81F: Pushing protrusion 82: Load cell

82A: Contact Point

9: inverter

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a perspective view showing the internal structure of the present invention, Figure 2 is a front view of Figure 1, 1 is the main body, 2 is a drive roller. The driving roller (2) is formed to be rotatable in the transverse direction on the upper side of the inside of the main body (1), the rear side of the guide roller (3) is formed in the transverse direction, at this time the both sides of the rotating shaft of the guide roller (3) The 3A is not fixed to the main body 1, but is rotatably fixed to the separate supports 41 and 41A.

In addition, the elevating driving unit 4 for elevating and driving the guide roller 3 is formed, which forms a pair of hydraulic cylinders 42 and 43 in the vertical direction downward on both sides of the upper end of the main body 1, Each of the rods 42A and 43A of the hydraulic cylinders 42 and 43 is connected to the upper ends of the supports 41 and 41A, respectively, to operate the guide rollers by the operation of the hydraulic cylinders 42 and 43. It is to be able to drive up and down 3).

As a means for driving the driving roller 2, a driving motor 5 is provided at a lower side of the driving roller 2 inside the main body 1, and a rotation shaft of the driving motor 5 and the driving roller 2 is provided. The transmission part 6 is formed between the 2A parts so that the driving force of the driving motor 5 can be transmitted to the rotation shaft 2A of the driving roller 2 by the transmission part 6. The transmission part 6 forms a motive pulley 61 on the drive shaft 5A of the drive motor 5, and forms a driven pulley 62 on the rotation shaft 2A of the drive roller 2 therebetween. It is made by connecting to the electric belt (63).

In addition, the driving roller 2 and the guide roller 3 and the driving roller 2 and the guide roller 3 are connected to each other by an interlocking portion 7 so that the guide roller 3 can be interlocked with each other. The driving pulley 71 is formed on the rotation shaft 2A of the driving roller 2, and the driven pulley 72 is formed on the rotation shaft 3A of the guide roller 3, and the interlocking belt 73 is connected therebetween. It was made by connecting.

Figure 3 is a side view showing the overall configuration of the present invention, as shown in the present invention, the tension sensing unit (8) for sensing the tension of the thread at the front of the main body 1 is formed, the tension sensing unit 8 is configured to adjust the rotational speed of the drive motor 5 in accordance with the detected signal is connected to the inverter (9) or DC motor controller (not shown) that is electrically connected to the drive motor (5) According to the rotational speed of the driving motor 5, the tension of the thread can be adjusted by the rotational speed of the driving roller 2 through the electric motor 6.

4 is a side view showing the configuration of the tension adjusting unit of the present invention, as shown in the tension sensing unit 8 is composed of a thread support 81 and the load cell 82, the thread support 81 is a front The guide rollers 81B and 81C are formed in the rear side, and the pressing protrusion 81F in contact with the contact protrusion 82A of the load cell 82 protruding upward is protruded downward from the rear lower end.

The following describes the operating process of the present invention configured as described above.

First, the operator operates the hydraulic cylinders 42 and 43 of the elevating driving unit 4 during the initial setting to raise and lower the guide roller 3 together with the supports 41 and 41A to set initial yarn tension. In this state, power is applied to the driving motor 5, and the driving force thereof is driven on the rotation shaft 2A of the driving roller 2 by the driving pulley 61 through the transmission belt 63 of the transmission unit 6. It is transmitted to the pulley 62 to be able to drive the drive roller (2).

In addition, the driving force of the driving roller 2 is the guide roller 3 at the driving pulley 71 through the interlocking belt 73 of the linking unit 7 which connects the driving roller 2 and the guide roller 3 again. It is transmitted to the driven pulley 72 formed on the rotation shaft 3A of the guide roller 3 to be interlocked.

In this state, the thread is continuously supplied, and the thread supplied is constantly passed through the thread support base 81 of the tension sensing unit 8 and the tension is sensed by the lower load cell 82 thereof. When the detected value exceeds the optimum tension condition of 0.1 to 0.2 g / DE, the drive motor 5 is decelerated by the operation of the inverter 9 to regulate the tension. When the tension falls below the above condition, the inverter 9 The driving motor 5 is accelerated by the operation of) to automatically adjust the appropriate tension.

As described above, the present invention can increase the simplicity and efficiency of the work by automatically adjusting by mechanical and electrical circuit operation without resorting to manual work, and also reduces labor costs because there is no need for permanent workers to reside. It has the effect of increasing the efficiency of manpower utilization. In addition, it is possible to prevent the cutting phenomenon in advance by maintaining and satisfying the tension of the thread optimally, and have an effect of further increasing the export competitiveness by producing high-quality and high-quality yarns.

Claims (3)

Drive rollers 2 and guide rollers 3 are formed on the upper side of the main body 1 in the transverse direction before and after, respectively, and the guide rollers 3 are provided at the upper and lower driving shafts provided on the upper sides of the rotating shafts 3A. It is formed to be elevated by the drive 4, the drive roller 2 is connected to the drive motor 5 and the electric drive (6) provided on the lower side of the main body 1, the guide with the drive roller (2) The rollers 3 are interconnected to the linkage unit 7, and a tension sensing unit 8 is formed at the front side of the main body 1, and the tension sensing unit 8 and the driving motor 5 are inverters 9. Tension automatic control device of the jet match, characterized in that interconnected with). According to claim 1, The lifting drive unit 4 is a pair of supports (41, 41A) for rotatably supporting the guide roller (3) on both sides of the rotation shaft (3A) of the guide roller (3) is formed Each of the supporting members 41 and 41A is connected to the rods 42A and 43A of the pair of hydraulic cylinders 42 and 43 which are formed vertically downward on both sides of the upper end of the main body 1. Tension automatic control device of spraying game. According to claim 1, The tension sensing unit 8 is formed with guide rollers (81B, 81C) on the front and rear sides of the center axis (81A), respectively, and the pressing projection (81F) to protrude downward on the rear lower side. ) Is provided with a thread support (81), characterized in that it is provided with a load cell (82) having a contact protrusion (82A) to project upwardly under the pressing projection (81F) of the thread support (81) Tension automatic control device of spraying game.