WO2006079426A1 - Method and device for removing foreign matters from a fibre material, in particular from raw cotton - Google Patents

Abstract

A sensor system (3, 3') for detecting foreign matters and a separation device (4) provided with at least one compressed air nozzle (5) which is perpendicular to a pneumatic fibre conveying conduit are successively mounted in a direction of conveyance (a), wherein said fibre conveying conduit is provided with a removing opening (6) arranged in front of the compressed air nozzle. Contrary to state of the art of actual methods and devices, the foreign matters are not removed to a substantially pressure-tight separation container. According to said invention, the removing opening (6) is connected to a derivation (7, 10) in which a permanent airflow (d, e) for transporting separated foreign matters away is maintained.

Description

Method and device for separating foreign substances into fibrous material, especially in raw cotton

The invention relates to a method for separating foreign substances into fibrous material, in particular raw cotton according to the preamble of claim 1.

Such methods are used, for example, in the blow room to prepare the raw cotton for the spinning process. It will be at a very early stage after opening the cotton bales foreign fibers such. B. Cords, jute etc. , but also plastic films and the like excreted. While previously the contaminated subset was diverted via a flap or diverter into a separation vessel, the excretion today takes place exclusively via a transverse to the fiber transport line compressed air pulse.

A problem with the known methods is that a large amount of air is blown into the separation tank by the compressed air pulse at the moment of excretion during a short period of time. There is the risk that the foreign matter already lying in the separation container can be swirled up as a result of the resulting violent turbulence and thus be able to get back into the fiber transport line. Various efforts have already been made to overcome the problem of backflow or. to solve the reliable separation of foreign substances.

Already in WO 89/01832 attention is drawn to the problem of turbulence in the separation vessel, which is there formed largely pressure-tight with respect to the atmosphere. To avoid Aufwirbelungen is proposed to form the separation vessel so large that with the gas pressure pulse Dissipate triggered flows and turbulence without affecting the flow of material. The foreign material can then be removed at the bottom of the separation vessel via locks. Thus, the problem can not be solved satisfactorily and in the limited space in a blowroom, it is not desirable to install large components without compelling necessity.

In DE-U 296 04 552 it is proposed to redirect the air flow triggered by the compressed air pulse and to feed it back to the fiber transport line. For this purpose, a further opening is arranged at a distance from the separation opening, which connects the separation vessel permanently with the fiber transport line. Again, the separation vessel is sealed airtight to the atmosphere and it is not clear in detail how the foreign matter can be removed from the separation vessel. The return of the flow in the fiber transport line causes j edoch but not readily a safe removal of foreign substances. In particular, with selective blowing out of impurities only over part of the channel width, the displaced air will flow back through the next path, namely via the separation opening into the transport channel.

In EP-A 989 214 is proposed to solve the problem, at least during the duration of the Ausscheideimpulses either increase the volume of the separation vessel or to suck air through an air outlet opening on the separation vessel. Thus, although a backflow of foreign substances in the fiber transport line can be largely prevented because the existing air in the separation vessel need not be displaced by the compressed air pulse. Due to the suction effect at the moment of excretion, however, an interfering movement of the foreign matter in the separation container takes place and they have to follow suit as before taken from time to time via locks the separation vessel.

It is therefore an object of the invention to provide a method of the type mentioned, in which the foreign substances are reliably and permanently eliminated from the fiber transport line. The flow conditions in the fiber transport line should not be affected as much as possible and the disposal of foreign substances should be made possible without much effort. In addition, the method should allow a relatively simple way to adapt to the given pneumatic transport conditions in a spinning mill. This object is achieved according to the invention with a method having the features in claim 1.

Contrary to all previously proposed solutions, it has surprisingly been found that the excreted foreign matter does not necessarily have to be excreted in a largely pressure-tight separation vessel. The precipitation according to the invention in a discharge connected to the separation opening, in which a permanent air flow is maintained, combines two advantages with one another. On the one hand, the disposal of foreign substances takes place permanently and without intermediate storage in a separation vessel and on the other hand, no return flow is triggered by the separation pulse. If the flow conditions are correctly set, the direct connection of the fiber transport line to the discharge does not result in an impermissible pressure drop in the fiber transport line.

Preferably, the air flow in the discharge line is adjusted such that, when the separation device is inactive, there is always a small partial flow from the discharge line into the fiber transport line. This prevents, for example, that off The fiber transport line permanently dust and fine single fibers get into the discharge.

The air flow can be maintained in the discharge by suction of atmospheric air, wherein at least a partial flow prevails, which runs away from the discharge opening in the direction of the flow of the Ausscheideimpulses. This flow is achieved by an impurity only under the influence of the Ausscheideimpulses, whereby even after completion of the Ausscheideimpulses a backflow is no longer possible relative. The prevailing in the derivative continuous flow can run relative to the flow of Ausscheideimpulses in different directions.

An unintentional backflow of foreign substances into the fiber transport line can be further prevented by the fact that the flow of Ausscheideimpulses is supplied approximately tangentially with the aid of a guide element of a take-off flow, which runs approximately transversely to the flow of Ausscheideimpulses. Under the action of this guide element takes a foreign matter, for example, a helical course, with a return flow is reliably prevented.

The precipitation can be based on the width of the fiber transport line or. the ejection opening by a compressed air pulse selectively take place only in that section in which the sensor system has detected an impurity. Even with simultaneous operation of multiple compressed air nozzles on different sections no turbulence, which cause a backflow of foreign substances.

The invention also relates to a device for separating foreign substances into fibrous material having the features of claim 6. The foreign substances excreted by the device can be disposed of that the discharge is connected to a waste container or a waste sack. This can be replaced from time to time. Alternatively, however, the derivative could also be connected directly to a disposal device, which disposed of the foreign matter continuously. However, it would also be conceivable that the discharge is open to the atmosphere and that the foreign substances fall into an open container. For maintenance work on the device or for example for the replacement of waste containers, it may be advantageous to install a slide, with which the derivative is temporarily separated from the separation opening.

Further advantages and individual features of the invention will become apparent from the following description of exemplary embodiments and from the drawings. Show it :

FIG. 1 shows a greatly simplified perspective view of a separating device,

FIG. 2 shows the device according to FIG. 1 in a perspective overall view,

Figure 3: a cross section through the derivative in Figures 1 and 2, and

Figure 4: a schematic representation of another

Embodiment of the invention.

As can be seen from FIGS. 1 and 2, a device designated as a whole by 1 has a fiber transport line 2 in which cotton fibers or fibers are loosely disposed. cotton flakes are transported. The device is integrated in a per se known manner in a cleaning line and for example after a bale removal machine or. arranged after a first coarse cleaner. The pneumatic transport are known in the art and not shown here. In the present embodiment, the cotton fibers from bottom to top with a tendency to vertical on the sensor system or. passed by the separation device. This direction could, however, be changed as desired. In the area of detection of foreign substances resp. the precipitate has the fiber transport line (2) has a rectangular cross section, which is then converted back into a circular or any other cross section.

The sensor system consists in known manner of two cameras, such as CCD cameras 3, 3 ', whose optical axes are directed via deflecting mirrors 13, 13' from both sides to the fiber transport line. In the field of exposure by means of the cameras, the fiber transport line is transparent and there is illumination by means of luminaires 14 shown here only schematically. Alternatively or in addition to the cameras 3, 3 ', the sensor system could also have sensors which have a foreign substance with other physical parameters can recognize, such as B. Ultrasonic sensors or sensors that respond to electromagnetic field changes.

In the direction of the transport flow a, after being acted upon by the sensor system, a separating device designated overall by 4 is arranged on the fiber transport line 2. This has on one side a plurality of compressed air nozzles 5, which are selectively controllable, depending on in which section the sensor system has detected a foreign substance. Opposite the compressed air nozzles 5 in the wall of the fiber transport arranged a discharge opening 6, through which a foreign substance by means of a Ausscheideimpulses b can be excreted. This separation opening is connected via a connecting channel 10 with a transverse to the fiber transport line 2 extending discharge channel 7. Connecting channel and outlet channel form a total discharge for the excreted foreign matter.

The connecting channel 10 likewise has an approximately rectangular cross-section of the same width as the separating opening 6. The connecting channel thereby leads tangentially into the withdrawal channel 7, which can be seen in particular from FIG. A curved baffle 15 causes a snail shell-like configuration in the area of the merge. Above the connecting channel 10, a suction slot 9 is also provided, the cross section of which can be changed by means of an adjustable flow aperture 19 and which extends over the entire channel width. Instead of the fixed flow restrictor, a sensor-controlled slide could also be provided which controls the inflow at the intake slot as a function of the pressure conditions. The intake slot 9 causes a flow e against the discharge channel 7. The intake slot could also be arranged relatively close to the discharge opening 6. It would also be conceivable to have an additional slot on the underside of the connection channel 10.

The approximately horizontally extending discharge channel 7 is connected at one end to the suction side of a fan 8 and from there to a waste bag 12. Alternatively, the discharge could also lead to a waste disposal facility. The other end of the discharge channel 7 opens at the end face of the housing 17 in a suction port 11, the opening cross-section can be adjusted in a similar manner with a flow aperture. For the observation of the processes in the outlet channel 7, viewing windows 18 can be orders be. The entire device rests on a rack 16 at a working height which facilitates installation and handling.

When installing the device in the line, the flow conditions using the flow restrictors are adjusted so that virtually equilibrium between the transport flow a in the fiber transport line 2 and the discharge flow d prevails in the discharge channel 7 in the region of entry of the connecting channel 10 in the discharge channel 7. Advantageously, the flow is adjusted so that, starting from the intake slot 9, even a small return flow c in the direction of the discharge opening 6 prevails. As soon as the sensor system 3, 3 'detects an impurity, the compressed-air nozzle 5 is activated in the corresponding section, with an intensive excretion flow b being built up transversely to the transport flow a for a short time. This excretion flow tears a foreign substance 20 into the connecting channel 10 (FIG. 3), so that it is supplied to the flow e or, respectively, to it. is transferred from this in the suction flow in the discharge. The foreign matter passes under the curved guide plate 15 and can obviously no longer flow back into the connecting channel 10 when the excretion flow b has been suspended. The foreign substance remains now in the withdrawal flow d and is disposed of immediately. The diameter of the discharge channel 7 could increase, starting from the intake opening 11, in order to create equal pressure ratios over the entire width of the connecting channel. to compensate for a resulting pressure drop.

In the alternative embodiment according to FIG. 4, the flow a in the pneumatic transport line 2 runs from top to bottom. The connecting channel 10, starting from the separating opening 6, does not open into a transverse thereto. channel, but goes slightly curved directly into the discharge channel 7, which then tapers in cross section again to a tube in which a delivery fan 8 is arranged. Evidently, only a single suction opening in the form of a suction slot 9 is provided here. Its suction cross section could also be adjustable.

Claims

claims 1. A method for separating foreign substances into fiber material, in particular in raw cotton, wherein the fiber material in a pneumatic fiber transport line (1) in succession to a sensor system (3) and an exhuffling device (4) is passed, and wherein the detection of foreign substances by the sensor system these are excreted by means of a compressed air pulse directed transversely to the fiber transport line through a separation opening (6) in the fiber transport line, characterized in that the foreign substances are discharged into a discharge (7, 10) connected to the separation opening (6), wherein in the discharge a permanent air flow is maintained for the transport away of foreign matter. 2. The method according to claim 1, characterized in that the air flow in the discharge line (7) is set such that at inactive separation continuously a small partial flow (c) from the discharge line (7) in the fiber transport line (2) prevails. 3. The method according to claim 1 or 2, characterized in that the air flow is maintained in the discharge by suction of atmospheric air, wherein at least one flow (e) prevails, which extends from the discharge opening (6) away in the direction of the Ausscheideimpulses. 4. The method according to any one of claims 1 to 3, characterized in that the flow of the Ausscheideimpulses with the aid of a guide element (15) is supplied approximately tangentially to another, running transversely to this flow withdrawal flow. 5. The method according to any one of claims 1 to 4, characterized in that based on the width of the fiber transport line (2) or. the excretion opening (6), the excretion by a compressed air pulse is selectively carried out only in thatj section, in which the sensor system has detected a foreign substance. 6. Apparatus for separating foreign substances into fibrous material, in particular in raw cotton, with a pneumatic fiber transport line (2) in succession in the transport direction a sensor system (3) for detecting foreign substances and a separation device (4) with at least one compressed air nozzle acting transversely to the fiber transport line ( 5) are arranged, wherein the fiber transport line relative to the compressed air nozzle has a separation opening (6), characterized in that the separation opening (6) with a discharge line (7, 10) is connected, wherein in the discharge a permanent air flow for the transport away of the excreted Foreign substances can be maintained. 7. The device according to claim 6, characterized in that the air flow in the discharge by means of adjusting means is adjustable so that at inactive separation continuously a small partial flow (c) of the derivative (7) in the fiber transport line (2) is maintained upright. 8. Apparatus according to claim 6 or 7, characterized in that the discharge line (7) to a suction device (8) is connected, wherein from the atmosphere at least partially such air via a suction port, preferably via a suction port (9) is sucked, that a flow (e) acting away from the separation opening in the direction of the separation pulse can be generated. 9. Device according to one of claims 6 to 8, characterized in that the discharge has a to the discharge opening (6) adjoining connecting channel (10) and a transverse thereto extending discharge channel (7). 10. Apparatus according to claim 8 and claim 9, characterized in that the connecting channel (10) preferably enters tangentially into the discharge channel (7) and that the suction opening (9) is arranged in the region of the inlet. 11. The device according to claim 9 or 10, characterized in that in the region of the inlet of the connecting channel (10) in the discharge channel (7), a guide element (15) is arranged, which extends in the longitudinal direction of the discharge channel and the flow of the Ausscheideimpulses about tangentially to another exhaust flow in the flue duct feeds or. which prevents backflow into the connection channel. 12. Device according to one of claims 6 to 11, characterized in that the discharge line (7, 10) to a suction device (8) is connected, preferably through a plurality of suction openings (9, 11) air from the atmosphere is sucked and that the Cross sections of the suction openings are adjustable. 13. Device according to one of claims 6 to 12, characterized in that a plurality of selectively activatable compressed air nozzles on the fiber transport line (2) are arranged. 14. Device according to one of claims 6 to 13, characterized in that the discharge line (7, 10) to a waste container or to a waste bag (12) is connected. 5. Device according to one of claims 6 to 13, characterized in that the discharge line (7, 10) is connected to a disposal device.