KR200227554Y1 - A driving device of Twisting machine - Google Patents

Abstract

The present invention relates to a drive device for a compound twister which is composed of hundreds (usually 256 weights) and each spindle located in the upper and lower parts can easily change the rotational direction (S, Z) of the upper and lower spindles using one driving motor. will be.

The drive device 1 of the conventional compound twister uses a means such as a belt B connected to each of the spindles 3 and 3 'composed of hundreds of upper and lower parts and connected to the driving motors 2 and 2' of upper and lower parts. The spring 5 is provided on the screw thread 4 to transmit the power and rotate while maintaining contact with the spindle shaft 3 ', and to adjust the tension of the belt B in the lower driving motor 2'. It is connected to both sides of the wound rod (6) is installed in a sliding manner to move the drive motor (2 ') to control the tension of the belt (B).

However, the driving device of the twisting machine configured as described above has a difference in the rotational speed of the upper and lower spindles in the driving device of two driving motors installed separately in the upper and lower sides, and its structure is so complicated that the repair cost is increased due to the problem of frequent failure. Not only did it act as a major factor to increase the manufacturing cost of, but also the cost of operation was high, and the driving motor located in the lower part had to be moved one by one to adjust the tension. Not only is the operation quite cumbersome, there is a problem that a lot of time is lost.

Therefore, the present invention installs a drive shaft up and down in one drive motor and connects the belt to the pulley so that the spindle composed of hundreds (usually 256 weights) located at the top and bottom is rotated in the rotational direction (S, Z) and the upper and lower spindles. In addition to the easy to switch the direction of rotation (S, Z), at the same time the lower part of the tension spring to install a compression spring is installed in the roller to adjust the tension of the belt by installing the spring to push the roller, the structure It is simple and does not cause frequent failures, and also eliminates the trouble of having to move the driving motor located at the bottom in order to reduce cost and adjust tension by using one motor.

Description

A driving device of Twisting machine

The present invention relates to a drive device for a compound twister, and is composed of hundreds (usually 256 weights), each of which is located in the upper and lower parts by using a single drive motor to drive the upper and lower spindles and at the same time the direction of rotation of the spindles. (S, Z) It is easy to switch, and the structure is simple, so that the frequent failure does not occur, and the driving device of the compound twister that can reduce the manufacturing cost.

As shown in FIG. 3, the drive device 1 of the conventional compound twister has a belt in which each spindle 3, 3 'composed of hundreds of upper and lower parts is connected to a driving motor 2, 2' of upper and lower parts. Power is transmitted by means of (B) or the like, and rotates while maintaining contact with the spindle shaft 3 '. Also, the driving motor 2' installed at the lower portion is provided with a screw thread 4 to adjust the tension of the belt B. The spring (5) is connected to both sides of the rod (6) wound and installed in a slide manner to move the drive motor (2 ') to adjust the tension of the belt (B).

However, the driving device of the twisting machine configured as described above has a difference in the rotational speed of the upper and lower spindles in the driving device of two driving motors installed separately in the upper and lower sides, and its structure is so complicated that the repair cost is increased due to the problem of frequent failure. Not only did it act as a major factor in raising the cost of manufacturing, but it also cost a lot of money to operate.

In addition, since the drive motor located at the bottom to adjust the tension must be moved one by one, because of this, the projector must be stopped, so that the operation is not only cumbersome, but also has a problem such as a lot of time loss.

Therefore, the present invention is to solve the problems of the conventional compound twister drive device by installing a drive shaft in the upper and lower parts in one drive motor by connecting the belt to the pulley, the spindle consisting of hundreds (usually 256 weights) located in the upper and lower parts It is easy to rotate in the rotational direction (S, Z) and switch the rotational direction (S, Z) of the upper and lower spindles, and at the same time, the lower part is provided with a tension adjusting device with a compression spring inserted in the roller to adjust the tension of the belt. By installing the spring to push the rollers at all times, the structure is simple and frequent failure does not occur. Also, the trouble of having to move the driving motor located at the bottom to reduce the cost and adjust the tension by using one motor. The purpose is to solve the problem.

1 is a front view showing the present invention the composite twister drive device.

Figure 2 (a) is an exemplary plan view showing a state installed on the top of the present invention the composite twister drive device.

Figure 2 (b) is a plan view showing a state installed in the lower portion of the present invention is a composite twister drive device.

Figure 2 (c) is a plan view showing another embodiment of the present invention installed in the lower state in the compound twister drive device.

Figure 3 is a front view showing a drive device of a conventional compound twister.

Hereinafter, the present invention will be described based on the accompanying drawings.

1 is a front view showing the present invention is a compound twister drive device, Figure 2 (a) is a plan view showing a state installed on the top of the present invention is a compound twister drive device, Figure 2 (b) The invention is a plan view showing the state installed in the lower part of the compound twister drive device.

As shown in FIGS. 1 to 2 (a) and (b), each spindle composed of hundreds (usually 256 weights) located in the upper and lower parts transmits power by means of a belt or the like connected to a drive motor to rotate the spindle. In the driving device of the twisting machine,

The drive motor 10 is driven as one, and the drive shafts 11 and 11 'are respectively provided on the upper and lower sides, and the belt B is connected to the drive shafts 11 and 11' and the belt pulleys B and P. To rotate each spindle (S) consisting of hundreds of upper and lower parts,

In addition, a screw thread is formed on the roller 12 to adjust the tension of the belt B between the drive shaft 11 'positioned below the belt pulley B and P. 'It is a structure in which the tension adjusting device 15 formed by inserting the compression spring 14 after being inserted into the support 13 is installed.

According to the present invention configured as described above, first, a drive motor 10 having drive shafts 11 and 11 'installed at upper and lower portions is installed, and the belt B is mounted on the drive shafts 11 and 11' and the belt pulleys B and P. It is possible to rotate each spindle (S) consisting of hundreds of upper and lower by connecting one drive motor 10 by connecting the installed and easy to change the rotation direction (S, Z) of the spindle,

In addition, a screw thread is formed on the roller 12 to adjust the tension of the belt B between the drive shaft 11 'located below and the belt pulley BP. 'After inserting into the support 13, by installing the tension adjusting device 15 formed by inserting the compression spring 14 is installed so that the spring always push the roller.

Then, as shown in another embodiment, it is possible to install not only one but two tension adjusting devices 15 provided between the drive shaft 11 'and the belt pulleys B and P in the lower part of the lower spindle. Tension can be adjusted.

Like this, it is easy to switch the spindle rotation direction (S, Z) at the same time by rotating each spindle composed of hundreds of upper and lower parts with one motor, and also reduce the cost, 'Because the supporting body is always pushed by the tension adjusting device installed with the compression spring, it can eliminate the trouble of having to move the driving motor located at the bottom to adjust the tension.

As described above, the present invention installs a drive shaft up and down in one drive motor, and then connects a belt to the pulley to install a spindle composed of hundreds (usually 256 weights) of the upper and lower parts, and rotates in the rotational direction (S, Z). It is easy to switch the direction of rotation (S, Z) of the upper and lower spindles, and at the same time, a tension adjusting device with a compression spring inserted in the roller is installed at the bottom to adjust the tension of the belt so that the spring always pushes the roller. By installing, the structure is simple and does not cause frequent breakdowns, and it also eliminates the trouble of having to move the driving motor located at the bottom in order to reduce cost and adjust tension by using one motor.

Claims (1)

In the driving device of the compound twister that rotates the spindle by transmitting power by means of a belt or the like connected to the drive motor by each spindle composed of hundreds (usually 256 weights) located at the top and bottom, The drive motor 10 is installed as one, but drive shafts 11 and 11 'are respectively installed on the upper and lower sides, and the belt B is connected to the drive shafts 11 and 11' and the belt pulleys B and P. To rotate each spindle (S) consisting of hundreds of upper and lower parts, In addition, a screw thread is formed on the roller 12 to adjust the tension of the belt B between the drive shaft 11 'positioned below the belt pulley B and P. 'Driver of the compound twister, characterized in that the structure is installed after the support (13), the tension adjusting device (15) formed by inserting the compression spring (14).