DE3329012C2 - Device for knocking, shaking, loosening and the like. A running textile product web - Google Patents

Abstract

The device for knocking, shaking, loosening and the like. A running textile product web (1) works with the aid of compressed air streams from blowing nozzles (5) which are arranged on both sides of the product web (1) and between which the product web runs. The compressed air flows pulsate and the flow pulses on one side of the web are offset in time compared to the flow pulses on the other side of the web. The direction of flow runs against the material web (1) approximately parallel to a plane which is perpendicular both to the material web (1) and to its running direction (6).

Description

The invention relates to a device for knocking, shaking, loosening and the like. A running textile product web with the help of compressed air streams from air nozzles, which are arranged on both sides of the material web and between which the web runs through.

In a device of this type known from DE-OS 29 29 141, which is used for continuous dedusting is used for running webs, the web is through a flow pipe with in cross-section to the web surface parallel pipe walls and the nozzles are arranged so that the compressed air flows in the Stroke the flow tube along both track surfaces and are so strong that the one in the flow tube essentially free hanging web of material flutters.

Due to the fluttering movements, impurities on the web are loosened from the web loosened and thrown off into the air stream At the outflow end of the flow tube are on both sides the material web the compressed air flows with the impurities entrained in them by suction devices intended. - Such devices are only for use because of the flow tube Suitable for fabric webs that have already been spread out, but not, for example, for cases in which the nrch As a strand of material web lying together, it was only opened, spread out and stripped out in the first place must be and knocking, shaking, loosening and the like facilitate this spreading and stripping process, should support and improve. For these cases, mechanical knocking devices are in the form of known to treat the track surface rackets. However, many sensitive goods can tolerate such as batiste, brooching fabrics in general, knitted fabrics and raschel fabrics, velvet, upholstery plush, etc. no mechanical Knocker. In the case of such goods, the mechanical knocking devices must therefore be switched off and the subsequent stripping device, web guide, etc. works under difficult conditions, esp. the system must be converted to slower web speeds.

The invention is based on the object of designing a device of the type mentioned at the outset in such a way that that the compressed air flows as intensive a knocking, shaking and loosening effect on the Exercise web of goods, even with very sensitive goods, and that in particular the goods easily opened and the unloading process effectively supported without the risk of damaging the goods and can be facilitated.

This object is achieved according to the invention in that the compressed air flows pulsate and the flow pulses on the one side of the railway ropes in relation to the flow pulses on the other side of the railway are offset, and that the direction of flow against the web runs approximately parallel to a plane which is perpendicular to both the web and its direction of travel.

The compressed air streams alternately exerted on the web of material from both sides make the product knocked, shaken and set in motion, which improves the opening and stripping process, without endangering the surface of the goods. The invention can also be used in conjunction with advantage can be used with the dedusting and cleaning of a web if appropriate suction devices be provided which the when knocking. Shaking and the like. The web of dissolved impurities Catch and discharge. In any case, the reciprocal and temporal alternating Pressurization very effective forced oscillatory movements of the ongoing Form web of material, especially when the compressed air flows on one side of the web of material opposite the compressed air flows on the other side of the material web offset in the direction of travel of the material web are, so the compressed air flows on both sides of the web are not locally directed directly against each other are. The compressed air flows can also be variable with regard to their maximum pulse strength, and it is recommended is absent on both sides of the web and in its direction of travel both in front of and behind the compressed air streams Provide limit stops for the material web, soften the propagation of weherer vibratory movements in the direction of the web up and down the web Stop limit stops. The limit stops are with respect to their in the direction of travel Distance from one another expediently adjustable, so that by suitable choice this distance, also the strength of the compressed air flow impulses and the distance between the Druckluitströmen on the one hand and on the other side of the material web, the relationships are dependent on, for example can easily be adjusted according to the type of goods and the pull prevailing in the material line, that in the oscillating movement of the goods generated by the compressed air flows, there are resonance phenomena result, which lead to very intense knocking, shaking and loosening effects.

In a preferred embodiment, the blow nozzles are designed as nozzle openings on a nozzle tube, which extends over the web in the direction of the web width. The nozzle openings can be used as nozzle channels be formed in the wall of the nozzle tube. It can be particularly advantageous if the Change the diameter and / or the inclination of the nozzle channels from the center to the sides of the nozzle tube. The arrangement will preferably be chosen so that the diameter of the nozzle channels is from the center decreases towards the side of the nozzle tube and / or the outward inclination towards the edge of the material web the nozzle channels increases. As a result, a total of one on the web can move outwards to the edge of the web Directed flow components of the compressed air arise, which the opening process of the material web support very effectively and can help ensure that, for example, longitudinal pinch folds are also safe be opened. In addition, there is the possibility of using the individual nozzle channels or in the nozzle tube - Provide guide plates assigned to channel groups to influence the air distribution. Instead of nozzle channels or in addition to them, a nozzle opening along the nozzle tube can also be used as a nozzle opening Wall extending nozzle slot may be provided. - As in detail, however, the design of the nozzle openings In any case, there is the very advantageous possibility of an adjustable one in the nozzle tube Provide driven slide that the air outlet controls from the nozzle opening or from the nozzle openings in time and space. Preferably will this sequence of movements of the slide is controlled in such a way that the compressed air outlet from the nozzle tube is timed periodically shifted from the center of the nozzle tube to its ends. The blasts of compressed air then run in Direction of the web width, as it were, wave-like over the material web, which also improves the opening process. The slide can be used as a cover that changes over time over the nozzle opening or openings be trained. Is it specifically a nozzle opening in the form of a nozzle extending along the nozzle tube extending slot, the slide is expediently designed as a rotary slide coaxial to the pipe axis, which extends over the length of the slot and a slide surface which is at least one thread wound around the axis of rotation has, so that the compressed air outlet from the slot only in one given by the slide free Window takes place, which moves according to the slide rotation in the longitudinal direction of the slot. Of the However, the slide can also have at least one air outlet opening and this air outlet opening can move along with the slide movement

move at least one of the nozzle openings designed for this purpose in the manner of a gate.

In principle, there is the possibility of using such sliders by means of suitable slider controls also to achieve the time shift of the compressed air pulses on both sides of the material web. However, it is for timing, setting optimal rise and decay times, and for the setting of the maximum value of the compressed air pulses easier and better to provide a pulse valve, the input of which can be connected periodically in opposite directions to two valve outputs via a moving valve body is, of which one exit to the blower nozzles on one side of the web and the other exit is connected to the air nozzles on the other side of the web. So that the compressed air generator in the time between successive compressed air pulses is not overloaded, it is advisable to switch between Provide a compressed air storage tank for the pulse valve and the compressed air generator. Particularly beneficial it is, the impulse behavior with open valve input within the directly to the compressed air generator connected compressed air storage tank to be arranged and the two valve outputs by means of opposite the Lead compressed air storage tank closed lines out of the boiler. In this case it is also the motor driving the valve body under the pressure in the storage tank and there is no air flow through the gearbox into the engine. A seal on the transmission shaft between the motor and the impulse valve is thus dispensable. In addition, the type and design of the valve body and its drive the timing of the compressed air pulses can be selected as required. In particular, the valve body also have a design through which the periodic connections of the two valve outlets slightly overlap with the input at the beginning and end of the connection phases, so that the A compressed air pulse already sets in on one side of the web, while on the other side of the Web still fades away.

In the following, the invention is explained in more detail with reference to the exemplary embodiments shown in the drawing explained; it shows

F i g. 1 shows the front view of a device according to the invention in a merely schematic representation and FIG only with the parts essential for understanding the invention,

F i g. 2 shows a side view of the device according to FIG. 1.

F i g. 3 shows a pneumatic arrangement for operating the device according to FIGS. 1 and 2, also in only schematic representation,

F i g. 4 shows a section through the compressed air storage tank with the pulse valve shown in FIG pneumatic arrangement,

F i g. 5 shows another exemplary embodiment of the pneumatic arrangement for the device according to FIGS. 1 and 2,

Fi g. 6 in the Teilfig. 6.1 to 6.5 working examples for different nozzle pipes,

F i g. 7 shows a further exemplary embodiment for a nozzle tube.

F i g. 8 in the Teilfig. 8.1 and 8.2 view and section of a nozzle tube in a further embodiment.

The running web, generally designated 1, which is shown in FIGS. 1 and 2 at 1.1 as a strand over a role 2 is supplied, is opened and spread out in a substantially vertical web section, for which purpose the web stripper 3 is provided in both edge areas of the web 1 and the deflection roller 4 are connected upstream, which ends the vertically running web section and the fully spread Train diverts. In order to support and improve the opening and stripping process, the current Web 1 knocked, shaken and loosened with the help of compressed air streams. These compressed air flows proceed from air nozzles 5, which are arranged on both sides of the material web 1 and between which the material web 1 runs through it essentially vertically. These streams of compressed air pulsate. The flow impulses on one side of the track are offset in time with respect to the flow pulses on the other side of the track, see above that the goods are driven back and forth across the web surface by the compressed air currents. The Direction of flow against the web 1 and approximately parallel to a plane that is perpendicular to both the Web 1 as well as on its running direction 6 in FIGS. 1 and 2 are perpendicular to the plane of the drawing * The Compressed air flows on one side of the web 1 are opposite to the compressed air flows on the other Side of the web is slightly offset in the running direction 6 of the web, which is shown in FIGS. 1 and 2 means that the Blowing nozzles 5 on the front of the web 1 are slightly above the blowing nozzles behind the web. On both sides of the web 1 and in its running direction 6 both in front of and behind the compressed air flows are limit stops 7 provided for the web 1. These limit stops 7 are in terms of their in Running direction 6 of the web 1 seen distance 8 from one another adjustable and adjustable. By choosing this Distance 8, also the frequency with which the flow pulses on both sides of the web, and the pulse strength can vary depending on Goods quality and the tension prevailing in the material web 1, resonance phenomena in the in FIG. 2 at 1.2 Deflection and oscillation movements of the web 1 indicated by dashed lines in the area between the limit stops 7 are generated, which are especially designed for easy opening and unraveling of the web 1 are effective and also at 9 in FIG. 1 indicated longitudinal pinch folds can open. Here can the web tension can be very small due to the essentially vertical web guide, namely under certain circumstances only from the The weight of the suspended web 1 is created.

The blow nozzles 5 are designed as nozzle openings on a nozzle tube 10, which extends over the web 1 extends in the direction of the web width and to which the compressed air is supplied via lines 11. These nozzle openings can as in FIG. 6 be designed as nozzle channels 5.1 in the wall 10.1 of the nozzle tube OK.

In the simplest case, the nozzle channels 5.1 are vertical directed against the web 1 (Fig.6.1), what a results in a powerful impulse impact on the goods. The nozzle channels 5.1 can, however, as in Fig. 6.2, 6.3 outwards be inclined towards the edge of the web 1, whereby the goods are additionally stretched in the width direction and their opening is supported. There is also the possibility that the diameter of the nozzle channels 5.1 as in FIGS. 6.4. 6.5 decreases from the center to the side of the nozzle tube 10, which results in

b5 has that the goods are in the middle of the web during of the compressed air pulse is accelerated more strongly than in the web edge area, i.e. it increases with each compressed air pulse arched through. The nozzle channels 5.1 can in the;

Remaining single row or as in F i g. 6.5 arranged in several rows be. There is also the possibility of using the nozzle tube 10 in accordance with FIG. 6.3 to be designed in a fan shape and to obtain a uniform air distribution with the aid of guide plates 10.2 provided in the nozzle pipe 10. - In the embodiment according to FIG. 7, a nozzle opening along the nozzle tube 10 serves as the nozzle opening Wall 10.1 extending nozzle slot 5.2. In the nozzle tube 10 an adjustable driven slide 112 is provided, which the air outlet from the nozzle slot 5.2 controls in time and space. For this purpose, the slide 12 is designed as a rotary slide valve coaxial with the pipe axis formed which extends over the length of the slot and a two-start coiled around the axis of rotation 13 Has slide surface 12.1, 12.2. The air outlet from the nozzle contactor 5.2 takes place only in one of the slide surface 12.1, 12.2 each left free window of the • nozzle slot instead, with this window and thus the exit area of the compressed air blast wave-like according to the slide rotation along the slot 5.2 shifts. In the exemplary embodiment according to FIG. 8, however, the slide 12 itself has air outlet openings 14 provided, which during the slide movement along a gate-like nozzle opening 5.3 moves. The slide 12 is a disk-shaped rotary slide that is mounted in the nozzle pipe 10 on a supporting structure 15 is mounted and is driven via a bevel gear 16 by a motor, not shown.

In the F i g. 3 and 5, the compressed air generator is designated by 20 in each case. It consists of a drive motor 20.1, a blower driven by it 20.2 with suction filter 20.3 and a bypass valve 20.4. For controlling the compressed air pulses, a pulse valve 21 is provided, the valve body 21.1 of a gear motor 21.2 is driven. With 21.3 in FIG. 3 denotes a regulating device which controls the motor 21.2. Between A compressed air storage tank 22 is switched on to the pulse valve 21 and the compressed air generator 20. In the example according to the F i g. 3 and 4 is the pressure input 21.4 of the impulse valve 21 via the moving valve body 21.1 periodically in opposite directions with two Valve outputs 21.5 can be connected, one of which Exit to the blower nozzles 5 on one side of the web 1 and the other exit to the blower nozzles is connected on the other side of the web. The pulse valve 21 has an open valve inlet 21.4 arranged within the compressed air storage tank 22 connected directly to the compressed air generator 20 at 22.1. The two valve outputs 21.5 are by means of lines closed towards the compressed air storage tank 22 21.6 brought out from the compressed air storage tank to connections ■ 21.7 depending on the output of the motor 21.2 driven rotating valve body 21.1 can be achieved that the periodic connections of both outputs 21.5 with input 21.4 at the beginning and end of the connection phases. :; cut what in the embodiment according to Fig. 4 in easily done by a suitable choice of the size of the wall opening 21.8 in the hollow valve body 21.1 can. Due to the arrangement of the pulse valve 21 directly In the compressed air storage tank 22, the valve can be operated without radial seals. The gap 21.9 between the valve housing 21.10 and the rotating valve body 21.1 should be so large that the fan 20.2 is not overloaded. In addition, by installing the pulse valve 21 in the compressed air storage tank 22 no air flow through the gearbox into the motor 21.2 driving the valve, so that a Sealing of the gear shaft 21.11 is unnecessary. - In the embodiment according to FIG. 5 is between the outputs 21.5 of the pulse valve 21, which here is not necessarily the basis of FIG. 4 have the structure described must, and the nozzle pipes 10 on both sides of the web 1 each have a further valve 30 arranged so that there is the possibility of only applying the compressed air pulses to one of the nozzle tubes 10, if for example, the other side of the goods, such as in the case of pile goods, should be very sensitive and practical does not tolerate any stress.

In addition 6 sheets of drawings

Claims (20)

Patent claims: 1. Device for knocking, shaking, loosening and the like of a running textile fabric (1) with the aid of compressed air streams from blowing nozzles (5) which are arranged on both sides of the material web (1) between soft the web runs through, characterized in that the compressed air flows pulsate and the flow impulses on one side of the track in time compared to the flow impulses are offset on the other side of the web, and that the direction of flow is against the web (1) runs roughly parallel to a plane that is perpendicular both to the web of material and to their running direction (6). 2. Device according to claim I. dadujxh characterized that the compressed air flows on one side of the web (1) opposite the compressed air flows are offset on the other side of the web in the running direction (6) of the web (1). 3. Apparatus according to claim 1 or 2, characterized in that the compressed air flows with respect to their maximum pulse strength are changeable. 4. Device according to one of claims 1 to 3, characterized in that both sides of the web (1) and in its direction of travel (6) both in front of and behind the compressed air flow limitation connections (7) are provided for the web (1). 5. Apparatus according to claim 4, characterized in that that the limit stops (7) with respect to their seen in the running direction (6) of the web (1) Distance from each other are adjustable. 6. Device according to one of claims 1 to 5, characterized in that the blow nozzles (5) ais Nozzle openings are formed on a nozzle tube (10) which extends over the material web (1) in the direction the web width extends. 7. Apparatus according to claim 6, characterized in that the nozzle openings as nozzle channels (5.1) formed in the wall (10.1) of the nozzle tube (10) are. 8. Apparatus according to claim 7, characterized in that the diameter and / or the Change the inclination of the nozzle channels (5.1) from the center to the sides of the nozzle tube (10). 9. Apparatus according to claim 8, characterized in that the diameter of the nozzle channels (5.1) decreases from the center to the side of the nozzle tube (10) and / or outwards to the edge of the material web (1) towards the inclination of the nozzle channels (5.1) increases. 10. Device according to one of claims 7 to 9, characterized in that the nozzle tube (10) guide plates (10.2) assigned to individual nozzle channels (5.1) or channel groups for influencing the Air distribution are provided. 11. The device according to claim 6, characterized in that dab a nozzle opening extending along the nozzle tube (10) in its wall (10.1) Nozzle slot (5.2) is provided. 12. Device according to one of claims 6 to 11, characterized in that in the nozzle tube (10) an adjustable driven slide (12) is provided, which the air outlet from the nozzle openings (5.11,5.2) or the nozzle opening timed. 13. The device according to claim 12, characterized in that that the movement of the slide bers (12) is controlled so that the compressed air outlet from the nozzle tube (10) periodically from the center of the nozzle tube (10) to its ends relocated 14. Apparatus according to claim 12 or 13, characterized characterized in that the slide (12) as a nozzle opening (5.1, 5.2) or openings in time variable covering aperture is formed 15. The device according to claim 14, characterized in that in the formation of the nozzle opening as a slot (5.2) extending along the nozzle tube (10) of the slide (12) than to the tube axis coaxial rotary valve is formed which extends over the length of the slot and at least one catchy Has slide surface (12.1, 12.2) coiled around the axis of rotation (13). 16. The device according to claim 12, characterized in that the slide (12) has at least one Has air outlet opening (14) and this during the slide movement along at least one of the Nozzle openings (5.3) formed like a link moves. 17. The device according to one or more of claims 1 to 16, characterized in that for Control of the compressed air pulses a pulse valve (21) is provided, the input (21.4) of which rotates periodically in opposite directions via a moving valve body (21.1) can be connected to two valve outputs (21.5), one of which is connected to the blower nozzle (5) one side of the web and the other exit to the blower nozzles (5) on the other side of the Material line is connected 18. The device according to claim 17, characterized in that between the pulse valve (21) and a compressed air storage tank (22) is provided for the compressed air generator (20) 19. Device according to claims 17 and 18, characterized in that the pulse valve (21) with open valve inlet (21.4) within the directly connected to the compressed air generator (20) Compressed air storage tank is arranged and the two valve outputs (21.5) by means of closed Lines (21.6) from the compressed air storage tank (22) are brought out. 20. Device according to one of claims 17 to 19, characterized in that the valve body (21.1) has a design through which the periodic connections of both outputs (21.5) with the input (21.4) at the beginning and at the end of the connection phases overlap.