DE1435653C2 - Device for the continuous crimping of thermoplastic threads - Google Patents

Description

The invention relates to a device according to the preamble of claim 1.

Such a device is known from DD-PS 17 786. The thread material blown in by an injector is collected there by a rear wall of the chamber and held in the accumulated form in the stuffer box, with a vent opening which is narrowed in relation to the cross section of the chamber and is provided in the rear wall of the chamber, through which the crimped thread is withdrawn from the stuffer box by means of a withdrawal device. The gaseous pressure medium blown by the injector into the initially conically widened fitting chamber, which has a temperature sufficient to fix the thread material, escapes laterally through the permeable chamber wall after it hits the collected thread material. Before being drawn off, the thread must be cooled by introducing a cooling medium through the permeable chamber wall so that the crimp is not broken up by the pull of the drawing device. The disadvantage of this device is that the amount of thread accumulated in the stuffer box is determined both by the speed of pulling the thread out of the stuffer box and by the speed of the feeding of the thread into the chamber. At high thread speeds of about 1000 m per minute, as is desirable for economical processes, the result is that if there are fluctuations in the withdrawal speed or the feed speed of the thread, for example, if there are fluctuations in the pressure of the medium, the compression will Further, accumulated thread material can either be completely withdrawn from the stuffer box so that crimping no longer occurs, or the entire stuffer box can be filled with accumulated _{flatbread (} so that the thread passage is clogged and the system is blocked. In addition, such changes in the amount of in The accumulated thread of the stuffer box has a different length of stay of the thread material in the chamber and thus a different fixation of the crimp.

From DD-PS 20 597 a device for the continuous crimping of endless threads is also made synthetic high polymers by means of a stuffer box known, in which the stuffer box by a endless, at least partially perforated belt is formed, which in the course of its movement on a a predetermined distance is rolled up as a hose. In this moving hose that becomes curling material by means of a gas flow through a

π injector blown in and compressed, whereupon the compressed thread material is fixed during the movement by the action of heat and than then is withdrawn after leaving the hose, with the unwinding device provided for this purpose Deduction of the supplied amount of thread is set. This known device is constantly changing moving walls of the Stauchkräuseikammer very expensive.

From GB-PS 8 41 665 a tubular, vertically arranged compression ruff chamber is also known, into which the thread is introduced at the bottom by means of opposing rollers and at the top through take-off rollers is withdrawn under tension, a sleeve provided with a relatively wide extraction opening with

jo her edge on the end of the stuffer box formed Fadsnpfropfens rests. To initiate a Treatment fluids are provided with openings on the circumference at certain points in the stuffer box. With this known device are only limited

$ 5 thread speeds achievable. In addition, the withdrawal speed must be in a certain Ratio to the thread feed speed can be set, whereby the change in the position of the in the The sleeve used at the open end of the stuffer box serves as a control sensor.

From DE-AS 10 04 337 it is finally to open and crimp an endless synthetic fiber strand known, the fiber strand with a compressed gas in an injector-like device with a tube constant cross-section and to introduce the open end over the cross-section, whereupon the threads and the Gas at the outlet of the tube in a zone with a pressure much lower than that in that Injector arrive, the sudden expansion of the gas then causing the threads to separate. A noticeable ripple is therefore not possible within this tube. The one from the separated Single threads existing strand is deposited on an area relatively close below the end of the Injector is passed and its speed is matched to the thread feed speed must become.

The invention is based on the object of designing a device of the type specified at the outset in such a way that that thermoplastic threads at high speed of 1000 m per minute and more and with a very simple device can be crimped, none mechanically moved during operation part contains.

According to the invention, this object is achieved by Features of claim 1 solved.

The injector feeds the thread material through the laterally through the openings in the chamber wall

escaping pressure medium attached to the side wall of the chamber and accumulated, wherein a compression crimping of the thread impinging on this thread accumulation takes place since the crimped thread is not pulled off at the end of the crimping chamber, more and more thread collects in the chamber, whereby the openings in the side wall of the chamber are progressively closed by the accumulated suture will. This reduces the amount of gas that escapes laterally through the chamber wall, and the amount of gas increases which the accumulated thread material exits through the crimping chamber to the chamber and pushes out through it.This creates more openings in the side wall further exposed so that again a larger amount of the pressure medium escape laterally from the chamber can. In this way, the amount of thread material accumulated in the crimping chamber always becomes self-regulating kept constant, so that the device is insensitive to fluctuations in the thread feed speed The device also works at high thread speeds of 100 m per minute and more properly and without the risk of the crimping chamber clogging because of the accumulated thread material at the end of the crimping chamber that is open over the entire cross section by the pressure of the Print medium is ejected. There is also no risk of the thread not being crimped completely, because there is no thread take-off device The length of time the crimped thread stays in the Curling chamber remains essentially the same due to the self-regulation described, so that also one Uniform fixation is guaranteed The amount of thread on which the piling up in the crimping chamber regulates, is essentially determined by the size and arrangement of the side openings. Any Moving parts to be matched to the thread feed speed are included in this device does not exist, so that, apart from simple manufacture, also a very simple operation of the Device is also possible with changing thread feed speeds.

Appropriate refinements of this device are given in the subclaims.

The device can be used with all thermoplastic threads that have sufficient resistance so that they can be exposed to the action of the print medium without breaking. Such Threads exist z. B. from polyamides, polyesters, polyolefins, polyacrylonitrile, polyvinyl derivatives and the like. The working conditions such as temperature and pressure of the printing medium depend of course on the nature of the Fadens, on its titer and on the speed, the temperature used being a Fixation of the thread must allow under the prevailing operating conditions. If the feed rate of the thread is sufficiently high, then temperatures above the melting point of the thread can be used.

This device can be used at speeds of 100 m / Mia and higher speeds work, so that with synthetic threads e.g. a continuous crimping after the stretch * ken, which is normally done during manufacture.

As a medium, for example, hot air or preferably pressurized steam can be used.

The injector is a simple device for introducing the thread, and any one can be used Use the model that does not require particularly careful adjustment The tubular chamber, in which the thread is then guided can consist of a simple guide tube with solid walls and one with The coil spring connected to the chamber consists of the dimensions of the openings by pulling them out can be adjusted through which the heated

in print medium leaks laterally If the end of the If a lateral force is exerted at the outlet, this end can then be bent slightly in the desired manner so that the most favorable accumulation is obtained

π In the drawing, FIGS. 1 and 2 show exemplary embodiments of devices according to the invention.

1 with the injector is designated in Fig. 1, in which the thread F is guided through the channel 2, while the pressure medium, for. B. Steam V, through the pipe 3 is introduced. The thread is guided by the mechanical action of the medium in the V- shaped tube 4 and then enters the inner c: r metal spring 5. This spring is curved at the outlet end along an arc with a radius of curvature R, the length / and the central angle

D? 'Medium emerges from this spring for the most part through the spaces 6 between the Turns are present. The permeable wall 7 allows the medium to be guided through the first spirals of the pipe, which increases their temperature.

The thread collects in the spring in a compact mass 8, which emerges as such and which one, as it is, can collect.

In the device according to FIG. 2, the thread F comes from a stretching device, not shown in the drawing, and is then fed into the injector 1, as described above. Through the line 3, a medium, for. B. Steam V, blown in. The thread collects in the tubular chamber 5, which consists of a metal spring, and emerges in the form of a mass C which is collected on the conveyor belt 13.

Experiments with the device of FIG. 1 are given in the following table, the Temperature and pressure of the medium (water vapor) introduced into the injector, as well as the The speed at which the thread was fed has been changed.

In all of these examples, an injector 1 was used in which the introduction tube 3 for the Steam had an internal diameter of 5 mm. The thread guide channel 2 had an inside diameter of 10 mm at the inlet and of 2 mm at the downstream part where the outer wall is in shape of a truncated cone with an apex angle of 53 ° C, van

The outlet opening of the injector had an inner diameter of 3 mm, and the inner wall of the Injectors had the form in the downstream part

bo of a truncated cone with an apex angle of 66 °. The length of the guide tube 4 was 10 mm,

In Examples 1 to 8 and 11 to 16, the guide 4 and the spring 5 had an inner diameter of 10 mm and the spring was 110 mm long. The in F i g. 1 indicated angle was about 40 °.

In Examples 9 and 10, the guide tube and the spring had an inner diameter of 8 mm, where the spring was about to open and the first

Spirals were drawn out so that the total length was about 103 mm.

In Examples 17 to 19, the inner diameter of the guide tube and the spring was 8 mm, and the spring was 100 mm long. The angle α was approximately 45 °.

The following abbreviations have been introduced to denote the material of the treated threads:

Tabel

Pa = polyhexaemethylene adipamide, PE = polyethylene terephthalate, PP = polypropylene!

(The numbers after these abbreviations mean the titer of the thread and the number of individual threads,)

example Nature of the thread For this Fast pressure temperature production No. speed of the thread of the medium of the medium g / h
Tube (m / min.) (kg / cm *) ro 1120 1 PA Trilobo 840/60 200 7th 168 1120 2 PA Trilobo 840/60 200 2 165 1120 3 PA Trilobe 840/60 200 2 215 ι i on LJ η λ T-: including QAi \ tan onn O QIC
β IU 1120 4th PA Trilobö 840/60 200 2 270 2800 5 PA Trilobe 840/60 500 8th 175 3360 6th PA Trilobf 840/60 600 6th 166 1120 7th PA round cross-section 840/60 200 3 205 7000 8th PA Trilobe 1050/60 1000 10 195 1400 9 PA Trilobe 1050/60 200 5 160 1400 10 PA Trilobe 1050/60 200 2 225 896 11th PA round cross-section 840/140 160 7th 170 2915 12th PA round cross-section 840/140 520 8th 175 5600 13th PA round cross-section 840/140 1000 9 177 690 14th PA round cross section 900/276 115 6th 165 2400 15th PA round cross section 900/276 400 7th 168 800 16 PE 600/195 200 2 280 2130 17th PE 640/208 500 4th 210 2000 18th PP 600/40 500 2 175 4000 19th PP 600/40 1000 3 185 2 BIaU drawings

Claims (3)

Patent claims: 1. Device for the continuous crimping of thermoplastic threads with a tubular, stationary side walls having, at the outlet end lockless chamber, which with a Injector for feeding the thread and a warm gaseous pressure medium is provided and at least in its central part openings for the passage of the pressure medium into the Having side walls, characterized in that that the crimping chamber has a constant cross section over its entire length and is open over the entire cross-section at the downstream end 2. Device according to claim 1, characterized in that that the tubular chamber is curved at the downstream part 3. Device according to claims 1 and 2, characterized in that the tubular Chamber is formed at least at the downstream part by a helical spring