DE1785439B2 - Method and device for inserting a locally heavier weft thread - Google Patents

Description

The invention relates to a method and a ^{device for inserting} a locally heavier weft thread. This method is important in looms where the thread is shot into the shed at high speed.

In a known method, the thread ^{h5 is} acted upon by means of a compressed air stream from a chamber. This air flow acts on a bead which is applied to the thread by means of extrusion (BE-PS 6 88 775).

However, there are disadvantages here, which result in particular from the different quality and different properties of the threads, e.g. B. in that certain types of thread are easier to take away from the air than others. ^p errier there are differences in the grip of the threads, depending on from which they are made and how fibers is their smooth surface.

In another known method in which water is used as the raising medium, is not It is satisfactory that the fabric produced is completely wet with this procedure.

The object of the invention is to create a method and a device for entering a locally heavier weft thread by means of a drive medium, only during a fraction the entire duration of the entry acts on the thread and the disadvantages of the known methods of this type and avoids devices and also brings a cheaper operation with it.

The object is achieved by the method described in claims 1 to 6 or by the Claims 7 to 10 described devices solved.

The method according to the invention and the apparatus for carrying it out are then described explained with reference to the drawings.

In the drawings, FIGS. 1 to 5 show schematically a weft thread, which by means of a Propulsion medium is entered. Here shows

F i g. 1 and 2 the known method and the

F i g. 3 to 5 the method according to the invention.

F i g. 6 shows an apparatus for carrying out the method according to the invention.

According to FIG. 1, a thread 1 is inserted by a water jet 2 that completely envelops it. With this one known methods so the whole thread is wet. The water is not only used for enlargement the mass of the thread, but at the same time as the instinctual medium.

In the known method according to Figure 2 is the Thread 1 is completely surrounded by a driving medium, namely air, shown by the dashed lines 3. In this known method, the weft thread is not made locally heavier.

In the method according to the invention (Fig. 3 to 5) the local increase in mass of the thread is indicated schematically by the lines 4. as Propulsion medium 2 is one that is heavier than air.

In Fig. 3, the propulsion medium 3 is under pressure.

In FIG. 4, the driving medium 2 is followed by a medium 5 under pressure that gradually moves from a liquid medium 6 through a mixture of liquid medium and gaseous medium 7 merges into a gaseous medium 8.

In Fig. 5 there is no propulsion medium under pressure.

The device shown in Fig.6 consists of a nozzle generally designated 10. A core 12 is located in the stationary housing 13 a bore 11 through which the thread 1 passes. The core 12 is in the housing 13 movable. The housing has an opening 14. This encloses the opening 15 of the core 12 the orifices 14 and 15 have an annular chamber 16 which narrows towards the front to form an annular gap 17.

In the annular chamber 16 is the propulsion medium, which is under pressure and for a short time

Zeilraumes through the annular gap 17 in front of the bore 11 is expelled. The annular gap 17 is delimited by the annular surfaces 18, 19. These areas are like this inclined that from the annular gap 17 exits a directed jet, which the thread 1 to the tight limited point 20 hits, so that the mass of the thread is locally increased at this point. The medium in the annular chamber 16 thus serves as a driving medium and at the same time as a means of increasing the mass of the Thread.

As long as the pressure in the annular chamber 16 is normal, the annular gap 17 is closed. Through one in the Line 21 opening into the annular chamber 16, the pressure on the liquid in the annular chamber can be increased. As a result, the core 12 moves against the: ■; Action of the spring 22 to the left. The spring 22 extends axially between a collar 23 of the core 12 and an externally threaded sleeve 24, in which the collar can move. The sleeve 24 is inserted into the internal thread 25 of the housing 13 screwed in. As soon as the core 12 moves to the left, the spring 22 is tightened. These When normal pressure prevails again in the annular chamber 16, tension is transferred to the collar 23, see above that this is pressed to the right and thereby the core 12 is again in its starting position to the right moved back, whereby the annular gap 17 is closed.

A heating coil 26 can be arranged on the outer circumference of the core 16 in the vicinity of its mouth 15. This makes it possible to spray the liquid in the annular chamber 16 as a vapor, so that the Propulsion medium flows as expansive vapor through the annular gap 17, condenses or sublimates on the thread and thereby increases the mass of the thread.

Furthermore, a cap 27 with a mixing tube 27a is arranged on the front side of the housing 13. the Bore 28 in cap 27 is coaxial with bore 11 in the core 12.

Cooling gas can pass through a line 29 into the bore 28 of the mixing tube 27a, so that the steam is displaced is reflected on the thread 11. A special effect is here the formation of a gas jacket around the bundle of steam, so that it easily rests on the thread condenses or sublimates and does not deposit liquid on the inner walls of the bore 28.

Control devices can be connected to lines 21 and 29 to monitor the duration of the injection or to control cooling. Furthermore, another propellant medium can enter the bore 11 from the left to be introduced.

The back and forth movement of the core 12 and thus the opening and closing of the annular gap 17 can also be effected in another way, for example by a cam mechanism, instead of by the spring 22 will. To connect such a cam mechanism, the core 12 can, for example, with a Annular groove 30 be provided.

1 sheet of drawings

Claims (10)

Patent claims: 1. Method for inserting a locally heavier weft thread by means of a drive medium, which only acts on the thread for a fraction of the entire duration of the entry, d a through characterized in that a medium is used as the propulsion medium which is heavier than air, and that the increase in mass of the Thread from the material of the thread itself and / or ι ο from the material of the drive medium is generated. 2. The method according to claim 1, characterized in that the means for increasing the Mass of thread used a liquid. 3. The method according to claim 1, characterized in that that a condensable or sublimable agent is deposited on the thread. 4. The method according to claim 1, characterized in that one as such a binary system condensable or sublimable agent used, which is in a phase other than the vapor phase in brings it close to the thread and then turns into an expansive steam through heating leaves. 5. The method according to any one of claims 1 to 4, characterized in that in addition to the driving medium there is still a supporting medium which, after the end of the effect of the instinctual medium on the The thread acts. 6. The method according to claim 5, characterized in that the same medium is used as the support medium used to drive the thread. 7. Device for performing the method according to one of claims 1 to 6, characterized through a space (16) which contains the mass-increasing medium and in connection with a Passage (17) for driving the thread (1) and for applying the mass-increasing medium a part (20) of the presented thread (1) stands, where middle! are present to the mass-enlarged Bernde Inject medium onto the thread only for a short period of time. 8. Apparatus according to claim 7, characterized in that the nozzle (10) is provided with an additional nozzle, one being used to dispense the ⁴ ' ⁵ propulsion medium and the other is used to dispense the mass-increasing medium. 9. Device according to one of claims 7 and 8, characterized in that the means for Precipitation of the mass-increasing medium galvanic, electrostatic, magnetic or of any other kind. 10. Device according to one of claims 7 to 9, characterized by means (26) for heating a volatile substance serving as a driving medium. "> ⁵