KR930000381Y1 - Yarn stretch controlling system for yarn sizing machine - Google Patents

Abstract

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Description

Stretch Rate Adjuster for Yarn Sizing M / C

1 is the overall configuration of the yarn sized machine.

Figure 2 is a reference schematic showing a partial extract of a conventional stretch rate control device for yarn sizing machine.

3 is a schematic reference diagram showing a drive transmission device of a conventional stretching control device in a yarn sizing machine.

4 and 5 are reference schematic diagrams showing the stretching of the present invention in the yarn sizing machine by extracting the drive transmission device of the regulating device.

5 is an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

11: casing 12: guide roller

13: Feed Roller 18: Sizing Roller

19: press roller 26: stretch gearbox

100: permanent magnet synchronous motor

The present invention relates to a stretch rate adjusting device for a yarn sizing machine, and more particularly, to provide a device for driving a stretch rate adjusting device for a yarn sizing machine.

In general, the yarn sized machine stretches the stretched strands from the creel (not shown) to the warper beam 1 as shown in FIG. Through the adjusting unit 3, the grass is fed to the thread strands drawn from the apparatus unit 3 by the sizing (arc) unit.

After the glued thread strands are dried again in the drying unit (4), (5), and then re-dried in the cylinder drying unit (6), then the surface of the yarn in the waxing roller (7) After waxing or the like, it is wound around the winding roller 9 by passing through the cooling unit 8 to cool the heated chamber while passing through the drying unit 4 and 5 and the cylinder drying unit 6. consist of.

In the yarn sizing machine configured as described above, the conventional expansion rate adjusting device portion and the sizing roller portion corresponding to the expansion rate adjusting device portion 2 and the sizing roller device portion 3 are as shown in detail in FIG. After passing through the guide roller (14) along the feed roller (B) from the guide roller (12), the seal (Y) supplied from the krill in the casing (11), that is, supplied from the wafer beam unit (1), The feed 15 is fed into the seal Y while passing between the sizing roller 18 and the pressing roller 19 through a supply roller 17 driven and driven by the pool 15 embedded in the enclosure 16. The main is to be separated from the separator 20 after the series is finished, and then introduced into the drying device unit 4 to dry the glued yarn (Y).

As described above, in order to drive various roller groups configured in the conventional expansion and contraction rate regulating unit and the sizing unit, a dry cylinder device unit is driven through a belt by driving the DC motor 21 as schematically shown in FIG. Drive the dry cylinder 22 constituting the (6) and at the same time transferred to the stretch gear box (Stretch Gear Box) (23) converted drive force is driven again by driving the miter gear box (Miter Gear Box) (24) Is given.

In this case, when the line shaft 25 coupled to the bevel gear constituting the miter gear box 24 is driven, the aforementioned driving force drives the sizing roller 18 through the bevel gear box 27. The driving force through the bevel gear box 27 was converted in the stretch gear box 26 to drive the feed roller 13.

However, such a conventional driving device may drive the DC motor 21 as a main power source, and thus may be advantageous in reducing power by using the same for each device constituting the yarn sized machine, but for this purpose, the line shaft 25 is driven. There was a disadvantage of using a delivery medium.

The above-mentioned yarn sizing machine has a drawback that requires considerable care and effort in the machining of the main shaft 25, considering that the overall length is about 20 meters or more.

The present invention was created to eliminate the above drawbacks, as shown in FIGS. 4 to 5 of the accompanying drawings, the permanent magnet-type synchronous motor 100 is mounted on the stretch gear box 25 and the permanent magnet. The synchronous motor 100 senses the rotational speed driven by the conventional DC motor 21 from the encoder to adjust the expansion ratio between the sizing roller 18 and the feed roller 13 is characterized.

According to the present invention, the permanent magnet synchronous motor 100 is not permanently mounted to the stretch gear box 26, but directly to the sizing roller 18 and the feed roller 13, respectively. The permanent magnet synchronous motor 100 also detects the number of revolutions driven from the DC motor 21 from the encoder and expands and contracts the sizing roller 18 and the feed roller 13 as described above. You can adjust the rate.

According to the simple device of the present invention, in order to adjust the expansion ratio between the sizing roller 18 and the feed roller 13 in the conventional method as described above, the sizing roller 18 and the feed roller 13 as described above. The tension between the feed roller 13 and the sizing roller 18 can be maintained at a constant tension even without changing the gears constituting the stretch gear box 25 according to the type or work condition table. Will be effective.

In this way, the device of the present invention uses a permanent magnet synchronous motor to drive the sizing roller and the feed roller, which eliminates the necessity of various gear devices as in the prior art, and does not use the line shaft which is extremely difficult to manufacture, and also the main power motor. It is obvious that it is a very useful design that has the effect of maintaining the tension of the thread by controlling the rotation of the sizing roller and the feed roller by applying the rotation speed directly to the permanent magnet type synchronous motor.

※ Note: This is to be disclosed by the original application.

Claims (1)

In the stretch ratio adjusting device constituting the feed roller (13), the sizing roller (18) and the stretch gear box (26) in the yarn sizing machine, the stretch gear box (26) is a permanent magnet type synchronous motor (100). A stretch rate adjusting device for a yarn sized machine, characterized in that for controlling the rate of expansion by rotating the feed roller (13) and the sizing roller (18) by driving.