DE2427455A1 - Fibre tow carding device - with feeder formed by oppositely disposed endless belts followed by pneumatic nozzle - Google Patents

Abstract

Fibre two carding device associated with an open-end spinning cup is provided with a number of jets directed towards the ibres to feed them into a feeder duct of the cup as in the parent specification. In this Adn. Patent the feeding device of the fibres is formed by a pai of oppositely disposed endless belts which discharge the fibres into a pneumatic nozzle in which the fibres are carded by jets making an acute angle with the direction of feed of the fibres. Fibres are fed at a faster speed and in parallel relationship w.r.t. each other.

Description

Re: Patent and utility model aid application D 4660 device for breaking up a sliver I) The invention relates to a device for breaking up of a sliver according to the preamble of claim 1, in particular according to Patent ......... (patent application P 21 08 254; 2).

The main patent opens up the possibility of a sliver pneumatically dissolve with the help of a multitude of air currents.

This avoids the damage caused by using it the previously common opening rollers provided with a set of needles or teeth may occur.

The invention is based on the object, the Zutihveinrichtung and the opening device of a device for the pneumatic opening of a sliver to train so that the parallel position of the dissolved fibers is improved. These The object is achieved by the invention specified in claim 1.

The use of a known Doppelriemchenaggregates represents sure that already the feeding of the sliver with a good parallel guidance he follows. The special design of the dissolving channel and the arrangement of the air channels for the compressed air also ensure that the parallel position of the fiber ribbon Loosened fibers are retained while the fibers accelerate the spinning rotor are fed. The offset arrangement of the channels for the compressed air causes the sliver in the area of the opening process with practically over its entire length Compressed air is applied.

Advantageous further developments of the invention emerge from the subclaims.

The embodiment according to claim 2 is achieved that the the fibers further transporting air flow is accelerated. The design according to claim 4 enables a very compact design of the device. Through further training according to claim 5 is also achieved that an air jet directly the sliver bar detected after leaving the double apron unit and attached to the sliver hugs.

The embodiment according to claim 7 ensures that the sliver compressed air is applied largely continuously in the area of the dissolving channel will.

Further features and advantages of the invention emerge from the following Description of several embodiments shown in the drawings.

Fig. 1 shows a partially sectioned device according to the invention, 2 shows partial sections through a dissolving channel belonging to the device in FIGS. 1 and 3 at points located at a distance from one another, FIG. 4 partial sections of one of the dissolving channels of the device and body containing 5 according to FIG. 1, FIG. 6 shows a partial section through a further embodiment in the area of a dissolving channel and FIG. 7 shows a partial section by a device in the area of their dissolving channel with controls for the Compressed air supply.

The device according to the invention shown in FIG. 1 contains a Sliver opening device 1 and a feed device 2 for a sliver 3. The sliver 3 is fed via a compressor 13 by a pair of draw-in rollers 14a, 14b fed and passed on to a slightly faster running double belt unit, of which only the driven rollers 15a, 15b, the aprons 16a, 16b and the deflection guides 17a and 17b are shown. The sliver is in the area 4 slightly pre-stretched and reaches the opening device 1 and from there into a Discharge channel 7, which leads to a spinning rotor 8.

The spinning rotor 8 is housed in a housing 9, which with further adjacent housings 9a and 9b is arranged in a row, each one Spinning rotor 8 included. The front of the spinning rotor 8 is covered by a cover 10 covered, which contains the discharge channel 7. The lid 10 is provided with a pivot lever 11 mounted on a stationary axle 12 and can be folded away from the spinning rotor will.

The disintegration device 1 contains an annular body which consists of two parts 18a and t18b is assembled. These two parts 18a and 18b close a subsequent to the Doppelriemchenaggregat opening channel 6, which leads to the AbSuhrkanal 7 leads.

Compressed air chambers 19a and 19b are provided in parts 18a and 18b, which are connected to compressed air lines 20a and 20b.

A large number of channels lead from the compressed air chambers 19a and 19b 21a and 21b to the dissolving channel. The channels 21a and 21b are in parts 18a and 18b arranged so that they open offset to the opposite channel. They are directed so that they make an acute angle to the axis of the dissolving channel 6, this angle should not be less than 45 ° (Fig. 7). Of the The cross section of the dissolving channel in the area 24 (FIG. 3) is approximately the exit cross section of the double apron unit. It then tapers to its mouth on the cross section of the discharge channel 7 of the cover 10. The mouth area 23 is can also be seen from FIG.

From Fig. 1 it can also be seen that the annular body from the two parts 18a and 18b has a recess into which the double apron unit is fitted. It is further provided that the apron is a channel 22 for Compressed air is assigned, which opens, for example, the apron 16b opposite: This Channel 22 is continued by a groove-shaped recess 25 of part 18b, which, together with the opposite apron 16b, forms an extension of the channel 22 forms (Fig. 5). According to FIG. 4, the groove-shaped recess can also be a Contain series of individual grooves 22 'which form a series of individual channels, by which the parallel guidance of the butt is further improved.

In the embodiment according to FIG. 6, the channels 21c and 21d open the parts 18c and 18d in the dissolving channel 6 on a circumferential spiral 27. This enables the continuous processing of the sliver to be broken into the dissolving channel 5 is still improved.

In Fig. 7 an embodiment is shown in which the parts 18e and 18f of an, for example, annular body with control elements 28e and 28 are provided for the individual channels 21e and 21f. The controls can open and close intermittently, so that the compressed air intermittently is fed to the sliver to be broken up in the opening channel 6.

In certain cases this can lead to an accelerated dissolution to lead. It is possible to alternate channels 21e with channels 21f To apply compressed air or the compressed air intermittently on both sides to feed at the same time.

Claims (9)

Patent and protection claims 1. Device for breaking up a sliver coming from a feed device Exits into a -tflöseraum, especially for the spinning of the dissolved fibers in rotating spinning chambers, with a multitude of directed air currents Dissolve the sliver and pass the dissolved fibers into a discharge channel, in particular according to patent ............ (patent application P 21 08 254.2), characterized in that that the feed device (2) contains a double apron unit to which a dissolving channel (6) connects, in which pressurized air channels (21) open, which in run at an acute angle to the direction of transport. 2. Apparatus according to claim 1, characterized in that the opening channel (6) tapers in the direction of transport of the sliver. 3. Apparatus according to claim 1 or 2, characterized in that the angle (<) of the channels 21) to the center of the dissolving channel (6) is less than 450 is. 4. Device according to at least one of claims 1 to 5 thereby characterized in that the Doppelriemchenaggregat adapted in one of its shape Recess of one containing the dissolving channel (6) and the channels (21) for the compressed air Body (18a, b) is used 5. Apparatus according to claim 4, characterized in that that in the returning run of the odor (16a, b) opposite walls the recess of the body (18a, 18b) at least one air duct each (22) opens, which is continued by a groove-shaped recess (25, 26). 6. Apparatus according to claim 5, characterized in that in the Groove-shaped recesses (26) tuftleitrillen (22) are incorporated. 7. Device according to at least one of claims 1 to 6, characterized characterized in that the mouths of the on opposite sides of the sliver located channels (21a, 21b) are arranged offset to one another. 8. Device according to at least one of claims 1 to 6, characterized characterized in that the mouths of the channels (21c, 21d) for the compressed air, the dissolving channel (6) surrounded by a spiral. 9. Device according to at least one of claims 1 to 8, characterized characterized in that the channels (21e, 21f) control elements (28e, 28f) for an intermittent blow out the compressed air are assigned. L e r s e i t e