JP2003306837A - Collected fiber-producing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a collected fiber-producing apparatus having at least one draw frame for drafting sliver rovings, at least one suction device 4 for collecting the sliver rovings 1 with a suction air flow in a sliver collection region F, at least one twister, and a device 10 for detecting the suction air flow, and to provide a further possibility for monitoring the function of the suction air flow by a simple method. <P>SOLUTION: The small device 10 for detecting the suction air flow is formed as a flap 12 which can be swung on a rotation axis 15 and can be projected in the suction air flow. When the function of the suction air flow is damaged, the position of the flap is appreciably changed. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous machine for drafting at least one sliver roving, a suction device for focusing the sliver roving by a suction air flow in at least one sliver focusing area, An apparatus for producing a focused yarn having at least one twisting device and a miniature device for detecting a suctioned air stream.

[0002]

2. Description of the Prior Art Devices of this type are already known from the prior art (German Patent Publication DE 1985).
6 121)), in the case of this device, for example, a measuring tube is used for the detection of the suctioned air flow, which measuring tube is directly connected to the apron cage which is part of the suction device. It leads into the housing. This prior art also discloses the possibility of using a measurement sensor, for example a thermo linear anemometer.

[0003]

The problem underlying the present invention, in contrast to this known prior art, is therefore the possibility of monitoring the function of the suction air flow in a simple manner. Is to provide.

[0004]

This problem is solved according to the invention by a miniature device for detecting a suctioned air flow according to the features of the exemplary part of claim 1. This device makes it possible, in a simple manner, to immediately recognize a stop or a drop in the suction air flow.

German Patent Publication No. 198 56
A fundamental different feature of the prior art according to the '121 patent is that in the prior art the suction air flow is monitored in a closed (in the tube) flow and in the present invention in an open area. Is Rukoto.

In a device in which a miniature device is connected to the evaluation unit for detecting the suction air flow, according to the invention, in the event of a malfunction of this suction air flow, the changed position of the flap is There is the possibility of being detectable via the coupled probe. The probe is formed as, for example, a photocell, a magnetic sensor, an electrical contact sensor, a hydraulic member, or a mechanical member.

In the device, the suction device has a suction shoe provided above the sliver focusing area, which suction shoe is at least provided by a perforated apron guided around the upper roller of the yarn feed roller pair. In the above partially wound device, the possibility of an advantageous solution is that the flap is
Within the area of this suction shoe, it is provided by being provided below the sliver focusing area.
Optionally, the suction device is located below the focusing area,
And there is also the possibility that the flap is provided above the focusing area.

Furthermore, the axis of rotation is located transversely to, or inclined with respect to, the running direction of the sliver roving or in this running direction. In this case, in one embodiment, the flap is provided with a signal surface for identifying the position of the flap, which makes it easier and likewise for relatively large distances. It is recognizable.

An optional solution consists in that the flap is connected with an electrical contact, which depending on the flap state opens or closes the signal-current circuit.

In a further embodiment of the invention, the flap, which has been swung away from the area of the sliver focusing area in the event of a malfunction of the suction air flow, can be brought into contact with a stop, with which this axis of rotation is The combined stopper is
It is a part of the signal current circuit.

The flap weight, which is the basis for the swiveling movement, is partially equalized by the counterweight according to the invention. In this case, the counterweight is changeable, for example slidable, in order to make it possible to adapt the weight to the size of the suctioned airflow or to the desired sensitivity of monitoring.

In order to prevent the flaps 12 from falling too far downwards and escaping from the area of action of the suction air flow, in the absence of any stoppers in the form of contacts. In addition, other types of stoppers are required.

The flaps are square, rectangular, circular, oval,
Or formed in a suitable manner, however, it is important that the flap is mounted in an easily and swivel manner, so that it can also be swiveled with a slight intake air. Is.

Next, the present invention will be described in detail based on the illustrated embodiment.

[0015]

1 and 2 show at least one not shown detail of a linking machine for drafting a sliver roving 1 and at least one suction air in a sliver focusing area F. A suction device 4 for focusing the sliver roving 1 by a flow,
3 shows in part the apparatus for producing a focused yarn. Behind this suction device 4 in the sliver running direction, a twisting device, which is not shown in detail, is provided, for example a ring spinning device. Furthermore, the device has a miniature device 10 for detecting this suction air flow, which device is connected to the evaluation unit 20.

The suction device 4 includes a sliver focusing area F.
Is equipped with a suction shoe 7, which is guided around the upper roller 8 of the yarn feeding roller pair 26 and has a perforated apron 1.
It is at least partially wound by 6.

From FIG. 2 the perforation of this apron 16 is clear, this perforation coming from small openings which are located one behind the other in the direction of travel of the sliver roving 1, for example in parallel with each other. And / or one after the other.

The suction shoe 7 is a suction conduit 2
It is connected via 8 to a suction unit not shown in detail. With the aid of the suction device 4, a suction air stream is thus obtained which serves to focus the sliver roving 1. After leaving the yarn feed roller pair 26, the sliver rovings thus treated are subsequently treated by the twisting device.

The device 10 for detecting the suctioned air flow comprises:
It is designed as a flap 12 which can be swiveled around an axis of rotation 15 and which activates the evaluation unit 20 in the event of a malfunction of the suction air flow. According to the above circumstances, the flap 12 is provided below the sliver focusing area F in the area of the suction shoe 7, and at this time, the rotation axis 15 is arranged with respect to the traveling direction of the sliver roving 1. It is located laterally.

There is also the possibility that the axis of rotation is provided side by side with the perforation locus in the running direction of the sliver roving 1, which is not shown in detail.

As can be seen from FIGS. 1 and 2, the flap 12 is provided with a counterweight 24, which advantageously has a flap weight of 12.
Can be varied, eg slidable, to suit the size of the suctioned air flow.

In the working state illustrated in FIG.
The flap 12 is in contact with a stopper 23, and the stopper 23 serves as a flap swirl restriction portion in the area of the sliver focusing area F.

From FIG. 1, still another stopper 22 is provided.
However, it is recognized that this further stop is connected to the axis of rotation 15 via a signal current circuit 18. In this signal current circuit 18, a warning and / or stop device 20 is provided.

The signal surface is formed on the flap 12 as a lateral flag. The signal surface is juxtaposed to the side of the front bottom roller and protrudes forward, and
In the case of a flap that is largely swung, it is easily visible from the front.

The flap 12 is made lightweight,
It is mounted on the axis of rotation 15 so that it can swivel easily, so that this flap can swivel with a slight air flow as well. The swivel stroke of this flap, ie the angle α, is determined by the two stoppers 22 and 2
In order to not impede the inflow of the compressed air flow, i.e. the suction air flow, by means of 3, this flap is, in other words, on the one hand the flap-the region-from this flap, the suction air flow. After removal of the dysfunction of the suctioned by new inhalation-in the swiveled-off state for holding in (shown in broken lines) and, on the other hand, in the state shown in FIG. It is restricted.

Alternatively, it is also possible that the suction device 4 is provided below the sliver focusing area F and the flap 12 above this sliver focusing area F. The moment exerted by the counterweight 24 is again greater than the mass of the flap 12, so that the flap 12 is arranged to try and disengage upwards, the intake air But then pulls this flap 12 downwards.

The flaps are square, rectangular, circular, oval,
Or it has been given a shape in other ways, at that time,
In each case, it must be ensured that this miniature device works functionally and reliably for the detection of the suction air flow.

In the position shown in FIG. 1, the flap 12 is held in the pulled-out state. If a suction airflow obstruction occurs, for example this suction airflow is reduced or the obstruction disappears, this flap 12 moves downwards, as opposed to clockwise,
Moreover, it is mounted on the stopper 22, whereby a unit, for example formed as a warning device 20, emits a signal via the signal current circuit 18. If the defect has been removed, i.e. a functionally reliable suction air flow has been reached, the flap 12 is moved clockwise in the retracted position shown in FIG. Turn to occupy.

The device according to the invention is of simple construction and is nevertheless in a state in which the suction air flow is functionally and precisely controlled.

[Brief description of drawings]

1 is a schematic side view of an apparatus of the present invention.

2 is a bottom view of the device according to FIG. 1 in the plane of travel of the sliver roving.

[Explanation of symbols]

1 Sliver roving 4 Suction device 7 Suction shoe 8 Upper roller 10 Device for detecting suction air flow 12 flaps 15 axis of rotation 16 aprons 18 Signal current circuit 20 Evaluation unit, warning and / or stop device 22 Stopper 23 Stopper 24 counterweight 26 Pair of yarn feeding rollers F Sliver focusing area α angle

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Claims (11)

[Claims] 1. A linking machine for drafting at least one sliver roving (1), for focusing this sliver roving (1) by means of suction air flow in at least one sliver focusing area (F). In a device for producing a focused yarn having a suction device (4), at least one twisting device and a device (10) for detecting the suction air flow, a small size for detecting the suction air flow The device (10) is formed as a flap (12) which can be swiveled around an axis of rotation (15) and which projects into this suctioned air stream, which flap is
An apparatus, characterized in that it is arranged to evaluatably change the position of the flap in the event of a malfunction of the suctioned air flow. 2. The device according to claim 1, wherein the miniature device (10) is combined with an evaluation unit (20) for detecting the suction air flow. The modified position of the flap (12) is configured to be detectable via a probe coupled to the evaluation unit (20) in the event of a suction airflow malfunction. Characterized device. 3. The device according to claim 1 or 2,
In this device, the suction device (4) has a suction shoe (7) provided above the sliver focusing area, which suction shoe was guided around the upper roller (8) of the yarn feeding roller pair. Flap (12) in the above device in a manner at least partially wrapped by a perforated apron (16)
In the area of the suction shoe (7) below the sliver focusing area (F). 4. The axis of rotation (15) is transverse or inclined with respect to the running direction of the sliver roving (1),
Or the device according to claim 3, characterized in that it is located in this direction of travel. 5. Device according to claim 1, characterized in that the flap (12) comprises a signal surface for identifying the position of the flap. 6. The flap (12) is in operative connection with the probe such that the probe opens or closes the signal current circuit (18) depending on the flap condition. The device of claim 2, wherein the device is configured. 7. A flap (1) which is swung away from the area of the sliver focusing area (F) in the event of a malfunction of the suction air flow.
2) dissociates from the stopper (23) and electrically, with the axis of rotation (15) and this flap (1
7. A stopper (22) formed as a probe connectable by 2) is configured to be part of a signal current circuit (18). Device. 8. The device according to claim 1, wherein the flap (12) comprises a counterweight (24). 9. The counterweight (24) is adapted to be changeable in order to adapt the flap (12) to the size of the suctioned air flow. The device according to. 10. The device according to claim 1, further comprising a further stop (23) in the region of the sliver focusing region (F) for limiting flap swiveling. The above device. 11. The flap (12) is square, rectangular,
Device according to any one of claims 1 to 10, characterized in that it is formed in a circular shape, an elliptical shape or in any suitable manner.