EP0619391A1 - Insertion system for an air jet loom - Google Patents

Abstract

Insertion system for an air-jet loom, with at least one main blowing nozzle (2, 3) and with means for supplying compressed air to the main blowing nozzles, which contains stationary elements (18, 19) and elements (20, 21) moving together with the main blowing nozzle, the said elements being connected by means of a pressure conduit (22, 23). The stationary elements are arranged in such a way that the outlet (18, 19) of these stationary elements is located above the inlet (20, 21) of the elements moving together with the main blowing nozzle (2, 3) and, moreover, approximately centrally in relation to their end positions (38, 39; 40, 41). <IMAGE>

Description

The invention relates to an entry system for an air-jet weaving machine with at least one main blowing nozzle, which is arranged on a sley, and with means for supplying compressed air to this main blowing nozzle, which contain stationary elements and moving elements with the main blowing nozzle, with an outlet of the stationary elements and an input of a flexible pressure line is provided with the elements moving with the main blowing nozzle.

In an entry system of the type mentioned in the introduction, the pressure line has to deform due to the relative movement between the stationary elements of the means for supplying compressed air and the elements moving with the sley and the main blowing nozzle. In order to keep the stress and wear of the pressure line as low as possible, relatively long pressure lines are provided in the known entry systems. However, the relatively large length of the pressure lines has the disadvantage that correspondingly large pressure losses occur in the pressure line. This can result in the main blowing nozzle being affected. It is possible to reduce these pressure losses by increasing the diameter of the pressure line. Especially when this pressure line is arranged between a switchable valve and the main blowing nozzle, however, there is the disadvantage that due to the large Volume of such a pressure line, the pressure build-up after opening the valve is relatively slow, so that a correspondingly long time passes until the pressure at the main blowing nozzle is built up.

The invention has for its object to improve an entry system for an air jet machine of the type mentioned.

This object is achieved in that the stationary elements are arranged above the main blowing nozzle in such a way that the outlet of the stationary elements is arranged essentially above the input of the elements moving with the main blowing nozzle.

The design according to the invention has the advantage that the pressure line between the stationary elements of the means for supplying compressed air and the elements moving with the main blowing nozzle can be kept relatively short, without the pressure line being exposed to high loads and corresponding wear. Even with lines with a relatively small cross-section that enable rapid pressure build-up, the line losses are kept low.

Fig. 1

zeigt eine Frontansicht eines erfindungsgemäßen Eintragsystems und

Fig. 2

eine Ansicht in Richtung des Pfeiles F2 der Fig. 1.

Further advantages and features of the invention result from the following description of an exemplary embodiment shown in the drawing.

Fig. 1

shows a front view of an entry system according to the invention and

Fig. 2

a view in the direction of arrow F2 of FIG. 1st

The entry system (1) shown in FIGS. 1 and 2 contains two main blowing nozzles (2, 3) which are arranged on a sley (4). The sley (4) has a sley axis (5) on which a sley profile (6) is fastened with screws (7). The The sley profile (6) has an undercut groove (8) running in its longitudinal direction (A) and thus in the direction of the sley axis (5). The main blowing nozzles (2, 3) are each provided with a holder (9, 10) which are fastened to the webs (12) on both sides of the longitudinal groove (8) by means of screwing means (11). This type of attachment makes it possible to adjust the main blowing nozzles (2, 3) in the longitudinal direction (A) (direction of the shutter axis 5). This adjustment is advantageous in order to adapt the position of the main blowing nozzles (2, 3) to different widths of the fabric to be produced.

The entry system (1) also contains switchable valves (13, 14) which are assigned to the main blowing nozzles (2, 3). These valves (13, 14) are attached to lugs (15, 16) of a holder (17). The outputs (18, 19) of the valves (13, 14) are connected to the inputs (20, 21) of the main blowing nozzles (2, 3) by means of pressure lines (22, 23). A reed (45) is also fastened to the weaving profile (6) by means of a clamping part (46) and screwing means (47). The screwing means (47) work together with the longitudinal groove (8) of the weaving profile (6). The reed (45) is not shown in Fig. 2.

At least one pressure accumulator (24) or buffer is provided in the holder (17) and is connected to the valves (13, 14) via lines (25, 26) created within the projections (15, 16). The pressure accumulator (24) and the lines (25, 26) are shown in FIG. 2 with dashed lines. This arrangement makes it possible to keep pressure losses in the lines (25, 26) low. The holder (17) has side elements (27) which are provided with screwing means (28), by means of which the holder (17) is fastened to a profiled support (29) of the machine frame. The carrier (29) has at least one undercut longitudinal groove (31) delimited by webs (30) and runs in the longitudinal direction (A), ie parallel to the weaving axis (5). This type of attachment allows the holder (17) together with the pressure accumulator (24) and the valves (13, 14) to be simple and quick to adjust lengthways (A). It is also possible to easily replace the valves (13, 14) in the event of a fault.

The sley (4) is provided with a drive (32) shown schematically in FIG. 2. This drive (32) contains, for example, a lever (33) which is attached in a rotationally fixed manner to the weaving axis (5) and which is connected to a drive rod (35) via a pin (34). The lever (33) together with the weaving axis (5) can be moved back and forth about the axis of rotation (48) between the end positions (36, 37) shown in broken lines. Due to this movement, the inlet (20) of the main blowing nozzle (2) between the end positions (38, 39) shown in dashed lines is also moved back and forth about the axis of rotation (48). Likewise, the inlet (21) of the main blowing nozzle (3) is moved back and forth between the end positions (40, 41) shown in broken lines about the axis of rotation (48) of the weaving axis (5).

As can be seen in particular from FIG. 2, the outlets (18, 19) of the two valves (13, 14) are not only arranged above the inlets (20, 21) of the corresponding main blowing nozzles (2, 3), but also in such a way that the outputs (18, 19) of the valves (13, 14) are each arranged almost centrally to the end positions (38, 39; 40, 41) of the inputs (20, 21) of the associated main blowing nozzles (2, 3). The outlet (18) of the valve (13) is approximately - in a view in the longitudinal direction (A) - in the bisector (42) between the end positions (38, 39). Correspondingly, the outlet (19) of the valve (14) is also approximately at the bisector (43) between the end positions (40, 41) of the main blowing nozzle (3) when viewed in the longitudinal direction (A).

As can be seen from FIG. 1, the outputs (18, 19) of the valves (13, 14) are arranged at least approximately mirror-symmetrically to a radial surface (44) which extends radially to the weaving axis (4) through the area of the inputs (20 , 21) of the main blowing nozzles (2, 3) runs. The inlets (20, 21) of the main blowing nozzles (2, 3) are also arranged at least approximately symmetrically to this radial surface (44). This arrangement makes it possible to make the pressure lines (22, 23) at least approximately the same length. This has advantages for the control of the compressed air supply to the main blowing nozzles (2, 3) because the time delays until the pressure at the inputs (20, 21) of the main blowing nozzles (2, 3) are reached. Since the pressure lines (22, 23) move to both sides with respect to the stationary outlets (18, 19) of the valves (13, 14) during operation, they are only subjected to relatively little stress, so that they are also subject to relatively little wear . This makes it possible to make the pressure lines (22, 23) relatively short, for example in the order of 10 cm to 20 cm.

In the exemplary embodiment, the pressure lines (22, 23) have sections (49, 50) running in the longitudinal direction (A) of the sley (4) (parallel to the sley axis 5), which connect to the outputs (18, 19) of the valves (12, 13 ) are connected. They also have sections (51, 52) which run essentially radially to the weaving axis (in direction B perpendicular to direction A) and which are connected to the inlets (20, 21) of the main blowing nozzles (2, 3). With this arrangement, the deformations of the pressure lines (22, 23) during the movement of the sley (4) are relatively small. In a modified embodiment, it can be provided that sections extending in the longitudinal direction (A) connect to the inputs of the main blowing nozzles (2, 3) and sections extending essentially in the radial direction to the outputs (18, 19) of the valves (13, 14) . Combinations of the arrangements described are also possible.

In a modified embodiment, more than two main blowing nozzles (2, 3) are provided, which then cooperate accordingly with more than two switchable valves (13, 14). For this purpose, the lugs (15, 16) of the holder (17) a plurality of valves are attached, all of which are likewise arranged essentially centrally between the end positions of the inlets of the corresponding number of main blowing nozzles. It is also possible to provide several pressure accumulators in the holder (17), for example one pressure accumulator for each line (25, 26).

When adjusting the weaving machine, the main blowing nozzles (2, 3) are pushed close to the weaving reed (45) in the longitudinal groove (8), after which the main blowing nozzles (2, 3) are screwed onto the weaving frame profile (6) using the screwing means (11). be fixed. The holder (17) is also displaced along the carrier (29) until the valves (13, 14) are almost symmetrical to the radial surface (44), after which the holder (17) with the aid of the screwing means (28) on the carrier (29 ) is fixed.

In the exemplary embodiment shown, the means for supplying compressed air to the main blowing nozzles (2, 3) (apart from compressed air supply devices for the pressure accumulator 24, not shown) contain the pressure accumulator (24) and the valves (13, 14) with the outputs ( 18, 19). The elements which move with the main blowing nozzles (2, 3) in this case are only the entrances (20, 21) to the main blowing nozzles (2, 3). In modified embodiments it is provided that the switchable valves (13, 14) are attached directly to the holders (9, 10) of the main blowing nozzles (2, 3) or directly to the main blowing nozzles (2, 3) or to the sley (4) , so that these valves then belong with their inputs to the elements moving with the main blowing nozzles (2, 3).

The carrier (29), which belongs to the machine frame, is arranged such that it lies outside a shedding mechanism and does not impair its work. It does not matter whether a jacquard, a dobbie, a cam system, an eccentric system or any other system is provided as the shedding mechanism.

Claims (11)

Entry system (1) for an air weaving machine with at least one main blowing nozzle (2, 3), which is arranged on a sley (4), and with means (24, 25, 26, 13, 14, 18, 19, 20, 21) for Supply of compressed air to this main blowing nozzle (2, 3), which contain stationary elements (24, 25, 26 13, 14, 18, 19) and elements (20, 21) moving with the main blowing nozzle (2, 3), wherein between an outlet (18, 19) of the stationary elements and an inlet (20, 21) of which a flexible pressure line (22, 23) is provided with the elements moving with the main blowing nozzle, characterized in that the stationary elements above the main blowing nozzle (2, 3) are arranged such that the outlet (18, 19) of the stationary elements is arranged substantially above the inlet (20, 21) of the elements which move with the main blowing nozzle. Entry system according to claim 1, characterized in that the stationary elements (18, 19) are arranged approximately centrally between two end positions (38, 39; 40, 41), between which the elements (2, 3) moving with the main blowing nozzle (2, 3) 20, 21). Entry system according to claim 2, characterized in that the stationary elements (18, 19) on an angle bisector (42, 43) of one of the end positions (38,39; 40,41) of the elements moving with the main blowing nozzle (2, 3) (20, 21) defined angle are arranged. Entry system according to one of claims 1 to 3, characterized in that the stationary elements (13, 14, 18, 19, 24, 25, 26) of the means for supplying compressed air to the main blowing nozzle (2, 3) on a parallel to the weaving axis ( 5) extending support (29) of the machine frame are attached. Entry system according to claim 4, characterized in that the stationary elements (13, 14, 18, 19, 24, 25, 26) on the support by means of a fastening device (28, 30, 31) permitting a longitudinal displacement in the direction of the support (29) are attached. Entry system according to one of Claims 1 to 5, characterized in that the stationary elements for supplying compressed air to the main blowing nozzle (2, 3) contain a pressure accumulator (24) which is accommodated in a holder (17) by means of which the stationary elements are attached to the carrier (29). Entry system according to one of claims 1 to 6, characterized in that the stationary elements contain a switchable valve (13, 14), the outlet (18, 19) of which via the pressure line (22, 23) with the inlet (20, 21) Main blowing nozzle (2, 3) is connected. Entry system according to one of Claims 1 to 6, characterized in that the elements which move with the main blowing nozzle (2, 3) contain a switchable valve, the inlet of which is connected to the outlet of a stationary pressure accumulator. Entry system according to one of Claims 1 to 8, characterized in that the stationary elements are arranged on the carrier (29) in such a way that their exit (18, 19) in the axial direction of the sley (4) to the entrance (20, 21) of the moving elements with the main blowing nozzle (2, 3). Entry system according to claim 9, characterized in that the pressure line (22, 23) has a section (51, 52) which extends approximately radially to the weaving axis (5) and a section (49, 50) which runs approximately parallel to the weaving axis. Entry system according to one of claims 1 to 10, characterized in that two main blowing nozzles (2, 3) are attached to the sley (4) in such a way that the inlets (20, 21) of the elements moving with the main blowing nozzles are at least approximately in a common one Radial surface (44), and that the stationary elements (13, 18, 25) of the means for supplying compressed air to a main blowing nozzle (2) on one side of this radial surface (44) and the stationary elements (14, 19, 26) are attached to the carrier (29) for supplying compressed air to the other main blowing nozzle (3) on the other side of this radial surface (44).

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