EP0325294A2 - Sliver guiding tube - Google Patents

Abstract

The invention relates to a sliver guide channel 4 between the delivery rollers 2 and calender rollers 3 of a spinning preparation machine, especially a drawing unit, with a blowing-air channel 5 opening into the sliver guide channel. According to the invention, the sliver guide channel 4 is made in two parts with a tubular part 6 in the region of the delivery rollers 2, which projects into a channel part 7 possessing, above the end 10 of the tubular part, the blowing-air channel 5 feeding in tangentially. <IMAGE>

Description

The invention relates to a belt guide channel between output rolls and calender rolls of a spinning preparation machine, in particular a draw frame, with a blown air channel opening into the belt guide channel.

With such a construction, it has already been proposed that a housing is arranged above the calender rolls on a spinning preparation machine, in particular a draw frame, in which the cylindrical belt guide channel and a blown air channel opening therein is located (German patent application P 36 12 133.9). The conveying effect of this blown air duct extends only to the area below the mouth of this duct.

The prior art also includes a two-part band guide channel, in which a tube part projects into a channel part (Japanese Laid-Open Publication 59-194976). Even if this known construction is used in a textile machine, this belt guide channel is not used between the exit rollers and the calender rollers of a section for guiding the fiber structure. This well-known construction aims in another direction.

Furthermore, it is known in the processing of filament material, the conical front of a pipe end in to let a conical opening of a subsequent channel part protrude (British patent application 2 079 798). This known construction is used in a thermoplastic continuous thread with fluid delivery, so that there is another type here.

In contrast, the present invention has for its object to form a tape guide channel of the type mentioned so that there is a simple way to improve the conveying effect.

This object is achieved in that the belt guide channel is formed in two parts with a tube part in the area of the exit rollers, which projects into a channel part that has the tangentially opening blowing air channel above the tube part end and that the conveying air flow is rotated by the tangential introduction of the blowing air flow, by means of which a sliver emerging from the exit rollers of the drafting system receives a rotation. This has the advantage that a kind of ring nozzle injector is created with a replanting of the conveying effect up to the area of the exit rollers on the spinning preparation machine.

In the region of the opening of the tube part into the channel part, the latter can have a truncated cone-shaped interior, wherein the end of the tube arranged in the truncated cone-shaped interior of the channel part can also be designed as a truncated cone. This also results in a simple improvement in the injector effect and thus the delivery rate through the air duct.

In a further embodiment of the invention, a cylindrical channel leading to the calender rolls can be connected to the frustoconical interior of the channel part, the channel part ending with the tangentially opening Blown air duct can be formed in one piece. This construction simplifies manufacture and construction.

• Fig. 1 eine schematische Seitenansicht des Bandführungska­nals im Schnitt;
• Fig. 2 einen Schnitt nach der Linie II-II in Fig. 1.

The invention is described below with reference to an embodiment shown in the drawing. The drawing shows:

• Figure 1 is a schematic side view of the tape guide channel in section.
• 2 shows a section along the line II-II in Fig. 1st

1, a belt guide channel 4 is arranged between the output rollers 2 of a drafting system 1 and the calender rollers 3 of a route. This band guide channel 4 is formed in two parts and consists of a tube part 6 in the area of the output rollers 2 of the drafting unit 1 and a channel part 7 into which the tube part 6 opens. Furthermore, the band guide duct 4 has a blown air duct 5 opening into it, which is designed and placed in such a way that it opens tangentially into the duct part 7 above the pipe part end 10.

In the region of the opening 8 of the tubular part 6 into the duct part 7, the latter has a frustoconical interior 9, it being apparent from FIG. 1 that the blast air duct 5 also opens into this frustoconical interior 9. Furthermore, the end 10 of the tubular part 6 arranged in the frustoconical interior 9 of the channel part 7 is frustoconical.

A cylindrical duct 11 leading to the calender rolls 3 adjoins this frustoconical interior 9 of the duct part 7.

As can be seen, the two-part construction of the belt guide channel 4 with the tube part 6 and the channel part 7 and the frustoconical interior 9 results in an annular nozzle injector, which results in an improvement in the conveying effect up to a belt funnel 14 in the area of the outlet rollers 2 of the drafting unit 1 .

In order to guide the line, for example after a belt break, the fleece supplied by the delivery rollers 2 through the belt guide channel 4 and into the calender rollers 3, an injector effect is generated by introducing compressed air into the connecting pipe 12 in the area 9/11 of the belt guide channel 4 the fleece 15 sucks in the hopper 14, pulls through the tube part 6 and blows through the cylindrical channel 11 into the clamping line of the pair of calender rolls 4.

The tangential introduction of the blown air flow into the chamber 9 causes the conveying air flow to rotate in the cylindrical channel 11, by means of which the sliver is advantageously rotated and thereby combined. This results in an improvement in the adherence of the sliver, as a result of which the introduction of the sliver into the pair of rollers 3 is improved.

The compressed air can be introduced into the connecting pipe 12 by manually opening a valve (not shown in more detail) in this connecting pipe. It is envisaged that this blown air flow is switched on only for drawing in the tape; after the sliver is drawn in, it is interrupted again.

The blown air duct 5 merges into FIGS. 1 and 2 in a connecting pipe 12 which is connected to a supply duct, not shown. In the construction shown in FIGS. 1 and 2, the channel part 7 is formed in one piece with the tangentially opening blowing air channel 5, 2 it can be seen that the outlet opening 13 of the blown air duct 5 opens into the frustoconical interior 9 above the frustoconical tube part end 10. By the interaction of the air flow flowing through the blown air duct 5 with the design of the interior 9 and the pipe part end 10 projecting into it, an injector effect is achieved which considerably improves the conveying effect of the fiber structure 15 from the output rollers 2 via the belt funnel 14 to the calender rollers 3 improved.

There is the possibility of directing the blown air flow towards an open or closed pair of rolls 3: When the pair of rolls 3 is open, the blown air flow can convey the fiber structure unhindered beyond the clamping line of the pair of rolls. When the pair of rollers 3 is closed, it can be achieved that the fiber structure is immediately detected when the nip line is reached and is subsequently pulled off.

Claims (5)

1. belt guide channel between output rolls and calender rolls of a spinning preparation machine, in particular a draw frame, with a blown air channel opening into the belt guide channel,
characterized in that
the band guide channel (4) is formed in two parts with a tube part (6) in the area of the output rollers (2), which projects into a channel part (7) which has the tangentially opening blowing air channel (5) above the tube part end (10) and
that the tangential introduction of the blown air stream causes a rotation of the conveying air stream, through which a sliver (15) emerging from the exit rollers (2) of the drafting system (1) receives a rotation. 2. Band guide channel according to claim 1, characterized in that in the region of the mouth (8) of the tubular part (6) in the channel part (7) it has a frustoconical interior (9). 3. Band guide channel according to claim 1 and 2, characterized in that on the frustoconical interior (9) the channel part (7) is connected to the calender rolls (3) leading cylindrical channel (11). 4. Band guide channel according to one of the preceding claims, characterized in that the in the frustoconical interior (9) of the channel part (7) arranged end (10) of the tubular part (6) is frustoconical. 5. Band guide channel according to one of the preceding claims, characterized in that the channel part (7) with the tangentially opening blowing air channel (5) is integrally formed.

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