WO2006116959A1

WO2006116959A1 - Loom with detachable connection between a drive means and the warp beam of a loom

Info

Publication number: WO2006116959A1
Application number: PCT/DE2006/000552
Authority: WO
Inventors: Marcus Werner; Daniel Obermayr; Martin Eberle; Peter Schiller
Original assignee: Lindauer Dornier Gesellschaft Mbh
Priority date: 2005-04-29
Filing date: 2006-03-29
Publication date: 2006-11-09
Also published as: BRPI0609901A2; EP1877610A1; CN101166856A; JP2008539335A; DE102005019906B3; US20080314472A1; RU2007144196A

Abstract

The invention relates to a loom (1) with a warp beam (2) and a drive means (3), in particular, a warp beam gear, whereby the warp beam (2) has a warp beam flange (2.2) and a detachable connection is provided between the warp beam flange (2.2) and the drive means (3), said drive means (3) being mounted in a drive-side frame wall (4) of the loom (1) and the warp beam (2), the warp beam flange (2.2) and the drive means (3) are arranged on a common rotational axis (5). The drive means (3) is connected to the warp beam flange (2.2) by means of screws and the frame wall (4) is provided with recesses such that the screws may be screwed through the recesses and drillings in the drive means (3) into the warp beam flange (2.2).

Description

Loom with releasable connection between a drive means and the warp beam of a loom

The invention relates to a loom with a warp beam and a drive means, in particular a Kettbaumzahnrad, therefor, wherein the warp beam a

Kettbaumflansch and a detachable connection between the Kettbaumflansch and the drive means is provided.

Such weaving machines with frontal or shaft-toothed couplings, which are triggered mechanically or hydraulically, are known.

For example, from EP 1 057 912 and DE 197 24 150 solutions are known in which the drive torque is transmitted via front-toothed switchable couplings. A backlash-free, continuous transmission of the high drive torque when weaving with high warp tension is achieved by additional security elements. Both solutions have the disadvantages of a complex construction and a complicated operation. This increases the time required to change the warp beam, and there is a risk of damage to the machine and product due to improper operation.

Known couplings with a shaft toothing for connecting Kettbaumwelle and drive means have the disadvantage that the connection does not work without clearance. This leads to uncontrolled changes in the warp tension during operation and thus to a deterioration of the fabric quality. Although this disadvantage is canceled in the solution described in EP 0 666 345 by means of an additional clamping element which the splines of

Kettbaumwelle and Kettbaumzahnrad braced against each other, but this solution has the disadvantage of a complex construction. Another disadvantage arises from the axial displacement of the warp beam in relation to the driving pinion at each disconnection of the drive connection. This sliding connection between the drive pinion and Kettbaumzahnrad requires a certain initial game in the

Gearing and is also subject to a certain wear. That is, even with the solution according to EP 0 666 345 no permanently play-free transmission of the torque is ensured. All described versions with stim- or shaft-toothed couplings also require a relatively large amount of space. This is contrary to the efforts to minimize the width of the weaving machine.

As a space-saving solution, the Applicant has already realized in weaving machines, the drive means e.g. screw in the form of a gear directly on the Kettbaumwelle or Kettbaumrohr and remove the gear at each Kettbaumwechsel with the warp beam from the loom. However, this complicates the further transport of the warp beam. There is also the risk of damage to the teeth on the warp gear during transport and during the change of the warp gear to a new warp beam. The change of Kettbaumzahnrades from the old to the new warp beam is in addition to the additional work and a further risk of injury to the operator when handling the loose, heavy Kettbaumzahnrad.

The invention is therefore an object of the invention to provide a loom of the type described, which has a compact, sturdy construction, a highly resilient and permanently play-free transmission of torque on the warp tree ensures and allows easy change of the large and heavy warp beam. Furthermore, the invention is intended to prevent personal injury and property damage as a result of operating errors during the warp beam change.

This object is achieved by means of a loom with the features according to claims 1 and 5. Advantageous developments are defined in the respective dependent claims.

Thereafter, the drive means, preferably a warp gear, according to claims 1 and 5 by means of one or more screws connected to the warp beam, wherein the screws are to be operated through recesses in the frame wall. Holes and openings of any shape and size as well as lateral cuts in the frame wall are understood here as recesses. The screws are designed in number and dimensions so that a safe and backlash-free transmission of torque from the drive means is ensured on the Kettbaumflansch. The operation of the screws through the recesses in the frame wall allows a very close arrangement of the drive means to the frame wall and thus a compact design. The compact design saves to a space and on the other hand increases the stability of the drive. In particular, in high-speed looms so that the tendency to vibrate is advantageously minimized. The fixing and unscrewing of the warp beam can be done from the outside of the frame wall, which is much easier and safer than an operation from the inside.

The drive means is mounted in a drive-side frame wall. About the drive means and the warp beam can be stored on the drive side in the frame wall, as long as it is bolted to the drive means. For a stable, durable storage of the drive means in the frame wall, the described close arrangement is advantageous because with a small axial distance between the drive means and the bearing and the forces to be absorbed by the bearing are relatively low, especially if the drive means is unscrewed from the warp beam ,

According to the present invention, when using a gear as a drive means, the drive-side engagement of the gears remains unchanged even when Kettbaumwechsel. This allows close tolerances in the teeth, and the teeth are subject to low wear, which in turn ensures a permanent almost backlash-free transmission of torque even at this point. In the production no complex manufacturing measures are necessary, which allow axial displacement of the gears against each other, but minimize the game in the circumferential direction.

In the embodiment with only one screw, this is accommodated in an eccentrically arranged bore in the drive means, wherein the Kettbaumflansch is centered and fixed by at least one further, with the Kettbaumflansch and the drive means operatively connected element in the common axis of rotation. This element is e.g. a passport or a dowel pin.

In order to make a warp beam change easy, in a preferred embodiment of the invention, a support kettbaumseitig on the drive means with this mitbewegend arranged. The support may for example be designed as a pair of support bearings on which the warp beam is supported both during installation and removal, as long as it is not connected to the drive means. This intermediate storage facilitates, especially when installing the warp beam, the alignment of the threaded holes in the Kettbaumflansch on the holes in the drive means and then screwing the screws. Despite the high weight of the warp beam can be this rotate on rotatable support bearings with little effort. An additional intermediate storage device, for example in the form of a separate storage rack is thus no longer required.

For a simple and safe operation of the warp beam changes are advantageously marks on the drive means and on the drive-side frame wall provided, which indicate to the operator when said support occupies a position holding the warp beam. For support roller bearings this would e.g. a lower position in which the warp beam rests on the support rollers. The markers may be both visually detectable markers and electronic markers which may be e.g. be detected by signals transmitted to a controller of the loom connected sensors. The sensors signal the controller when the drive means is in a suitable position for installation and removal of the warp beam. The controller may then provide the operator with e.g. Generate a corresponding display on a control panel. A mark to be visually detected is advantageously attached to the loom so that it is clearly recognizable from various positions when the drive means is in a suitable position for installation and removal of the warp beam.

In order to further safeguard the warp beam change against operating errors, it is provided according to a further advantageous embodiment that the connection can be released and screwed only in an angular position of the drive element arranged around the common axis of rotation for the warp beam change. The appropriate angular position is again given by the arrangement of the support.

A preferred possibility of this protection can be achieved by a drilling pattern with an asymmetrical arrangement of the through holes in the drive means, a corresponding arrangement of the recesses in the frame wall and by a small distance between the drive means and the frame wall. If the recesses in the frame wall are designed, for example, as through holes which have only a slightly larger diameter than the screw heads, and if these through holes are arranged in the frame wall according to the same hole pattern as the holes in the drive means, the screws can only be screwed in and out when the drilling pattern in the drive means is in the angular position in which it is congruent with the drilling pattern in the frame wall. In this angular position, the support is in a position holding the warp beam. As an asymmetrical arrangement, various types of asymmetry are understood here. For example, the arrangements in which the holes are all arranged at the same distance from the central axis of rotation, but at different angles to each other, or there are, for example bores which are arranged at different distances from the central axis of rotation, but at the same angle to each other or For example, holes that are arranged at different distances from the central axis of rotation and at different angles to each other. In the inventive design with only one screw, which is arranged eccentrically, the described protection is advantageously realized by the screwing and unscrewing of the screw through the frame wall and the closely arranged drive means in and out of the Kettbaumflansch is preferably only possible if the Hole in the drive element is exactly opposite a correspondingly shaped recess in the frame wall.

A further preferred embodiment of the invention provides that in the Kettbaumflansch more threaded holes are arranged as holes in the drive means. By a corresponding arrangement of the threaded holes of Kettbaumflansch and thus the warp beam can be installed even with asymmetrically arranged holes in the drive means in a plurality of angular positions, based on the common axis of rotation. Thus, the new, heavy warp beam must be turned during installation less far in a suitable angular position.

The same relief can be achieved in the invention with an eccentrically arranged bore in the drive means by a plurality of threaded holes in the Kettbaumflansch.

For centering the warp beam in relation to the common axis of rotation, one or more screws are preferably designed as fitting screws.

Possible damage due to operating errors during the warp beam change on a loom of the type described are avoided by a further advantageous embodiment of the invention. Thereafter, the head of the at least one screw is smaller than the recess in the frame wall. The drive means with the screws is arranged so close to the frame wall, that any screw not screwed with its screw head forcibly into the recess of the frame wall protrudes. Thus, any screw not screwed far enough protrudes into the corresponding recess to block any further rotational movement of the drive means in each case, is on each screw operatively connected to the screw energy storage means, in particular a compression spring arranged. The compression spring pushes the screw against its screwing in the recesses of the frame wall. For this purpose, the compression spring is supported on a shoulder on the inner surface of the bore in the drive means. However, in order to prevent the screw not screwed in from being completely pushed out of the bore in the drive means by the pressure spring, it is secured by means of a securing element, for example a securing ring. The securing element cooperates with an end limit provided on the drive means, for example a fitting bush arranged on the inner circumference of the respective bore in the drive means, and holds the at least one screw in a predetermined end position. Each unscrewed screw is thus pressed by the energy-storing means against the end limit and held in this predetermined position.

Each screw is dimensioned to withstand the torque of a driving motor. This means that a screw not screwed in drives the drive

Kettbaumes blocked, characterized in that it is present on the inside of the respective recess in the frame wall.

A preferably provided shutdown protection on the engine switches this at a

Blocking off. In this way, damage to the weaving machine and the product are avoided, which could otherwise result from operation with not screwed screws and only partially attached warp beam.

The invention and further resulting advantages are explained below with reference to an embodiment.

In the attached drawings show:

Figure 1: a side view of the drive side of the warp beam;

Figure 2 is a view of the drive side of the warp beam with the drive elements;

Figure 3: a sectional view of the drive elements of the warp beam according to

Section C-C in Figure 1; and

FIG. 4 shows a detail enlargement D from FIG. 3. 1 shows a side view of the drive side of the warp beam 2 with four screws 6 and four recesses 4.1 in the frame wall 4 is shown. On a weaving machine 1 of the type described, a warp beam 2 is provided with a motor 7 driving the warp beam. The recesses 4.1 and the screws 6 are arranged according to an asymmetrical hole pattern. Through the recesses 4.1 in the frame wall 4 through the heads of the screws 6 can be seen in the drive means 3. In the illustrated angular position of the drive means 3, all screws 6 are screwed in and out. In any other angular position of the drive means 3, this is not possible, because then not all or no screws 6 can go in and out through the recesses 4.1 in the frame wall 4.

According to Figure 2, the warp beam 2 consists essentially of a warp beam 2.1, a Kettbaumflansch 2.2 and arranged on the warp beam Kettbaumscheiben 2.3, which as a lateral boundary for the not shown

Serve warp threads. In Figure 2, only the drive-side Kettbaumscheibe 2.3 is shown. The Kettbaumflansch 2.2 can be made in one piece with the Kettbaumrohr 2.1 or be connected as a separately manufactured element rigidly connected to the Kettbaumrohr. Separately manufactured Kettbaumflansche 2.2 allow the use of differently shaped Kettbaumrohren 2.1, wherein a respective Kettbaumrohr adapted Kettbaumflansch 2.2 is advantageously used as an adapter element. FIG. 2 further shows a motor 7 which is rigidly connected to a drive-side frame wall 4 and which drives a drive means 3 designed as a gear wheel via a motor pinion, not shown. The drive means 3 is screwed to the Kettbaumflansch 2.2, wherein the Kettbaumflansch 2.2 in turn is rigidly connected to the Kettbaumrohr 2.1.

In the embodiment according to FIG. 2, a support 8 is designed in the form of support bearings, which are fastened laterally on the drive means 3. In this view, only one of two support bearings is visible. The second support bearing is fixed at the same distance from the axis of rotation 5 behind the visible support bearing on the drive means 3. The two support bearings together form a support for the Kettbaumflansch 2.2. While the warp beam 2 is in an installation and removal position, but not bolted to the drive means 3, it is held by the support 8. Especially when installing the warp beam 2, the intermediate storage on Stützlagem 8 is advantageous because the warp beam 2 can be rotated so with little effort around its axis of rotation and placed in a suitable angular position for screwing the screws 6. Figure 3 shows the assembled parts of the warp beam drive in a sectional view along CC in Figure 1. The drive means 3 is connected by screws 6 with the Kettbaumflansch 2.2. The Kettbaumflansch 2.2 is in this embodiment, a separately manufactured element which is rigidly bolted to the Kettbaumrohr 2.1. The drive means 3, the Kettbaumflansch 2.2 and the Kettbaumrohr 2.1 are arranged around the common axis of rotation 5.

Figure 3 also shows the close, space-saving arrangement of the Kettbaumflansches 2.2, the drive means 3 and the frame wall 4 to each other, which is only possible through the recesses 4.1 in the frame wall for screwing and unscrewing the screws 6.

FIG. 4 shows, in an enlarged detail, one of the screw connections between drive means 3 and warp beam flange 2.2. Through the recesses 4.1 in the frame wall 4 and through the holes 3.1 in the drive means 3 through the screws 6 with the Kettbaumflansch 2.2 are screwed. Thus, the warp beam 2 is rigidly connected to the drive means 3 and separated. In the illustrated embodiment, each of the screws 6 is operatively connected via a arranged on the circumference of the screw shank compression spring 9 with the drive means 3. The compression spring 9 is supported on a shoulder 3.3 on the inner surface of the bore 3.1 and moves the screwed-in screw 6 against the screwing and thus further into the recess 4.1 of the frame wall 4 inside. So that the screw 6 is not completely pushed out of the compression spring 9 from the bore 3.1 in the drive means 3, it is secured by means of a securing ring 10.

The arranged on the shank circumference of the screw 6 circlip 10 limits the displacement of the screw 6 by being supported against a fitting bushing 11 as the end limit, which is pressed into the bore 3.1 in the drive means 3. This arrangement of the locking ring 10 and the fitting bushing 11 also prevent the screw 6, which has not been screwed in, from falling out, e.g. through vibrations.

Claims

claims

1. loom (1) with a warp beam (2) and a drive means (3), in particular a warp beam, therefor, wherein the warp beam (2) has a Kettbaumflansch (2.2) and a detachable connection between the

Kettbaumflansch (2.2) and the drive means (3) is provided, wherein the drive means (3) in a drive-side frame wall (4) of the loom (1) is mounted and the warp beam (2), the Kettbaumflansch (2.2) and the drive means (3 ) are arranged on a common axis of rotation (5), wherein at least two holes (3.1) in the drive means (3) and at least two threaded holes (2.4) in the Kettbaumflansch (2.2) are arranged such that the drive means (3) by means of at least two Screws (6) with the Kettbaumflansch (2.2) is connectable, characterized in that the frame wall (4) is provided with recesses (4.1) that the

Screws (6) through the recesses (4.1) and the drive means (3) into the Kettbaumflansch (2.2) on and are unscrewed.

2. Weaving machine according to claim 1, characterized in that markings (3.2, 4.2) on the drive means (3) and on the frame wall (4) are provided which indicate when a support (8) which kettbaumseitig on the drive means (3) this is arranged mitbewegend, a the warp beam (2) holding position occupies.

3. Weaving machine according to claim 1, characterized in that the screws (6) only on and be unscrewed when a support (8), which kettbaumseitig on the drive means (3) is arranged mitbewegend with this, a warp beam (2 ) holding position.

4. Weaving machine according to claim 1, characterized in that the bores

(3.1) are arranged in the drive means (3) according to an asymmetrical hole pattern, that the recesses (4.1) in the frame wall (4) are arranged according to said drilling pattern and that the drive means (3) so close to the frame wall (4) is arranged that the screws (6) can only be screwed in and out, when the drive means (3) is in an angular position in which the bores (3.1) in the drive means (3) relative to the recesses (4.1) standing in the frame wall (4) and the support (8) occupies a warp beam (2) holding position.

5. weaving machine (1) with a warp beam (2) and a drive means (3), in particular a warp gear, for, wherein the warp beam (2) a

Kettbaumflansch (2.2) and a detachable connection between the Kettbaumflansch (2.2) and the drive means (3) is provided, wherein the drive means (3) in a drive-side frame wall (4) of the loom is mounted and the warp beam (2), the Kettbaumflansch (2.2) and the drive means (3) on a common axis of rotation (5) are arranged, wherein in the drive means (3) has a bore (3.1) and in the Kettbaumflansch at least one threaded bore (2.4) eccentrically to the rotation axis (5) is arranged in that the drive means (3) can be connected to the Kettbaumflansch (2.2) by means of a screw (6), characterized in that the frame wall (4) is provided with at least one recess (4.1) such that the screw (6) passes through the Recess (4.1) and the drive means (3) through in the Kettbaumflansch (2.2) on and are unscrewed.

6. loom according to claim 5, characterized in that markings on the drive means (3) and on the frame wall (4) are provided, which indicate when a support (8), which kettbaumseitig on the drive means (3) is arranged mitbewegend with this , a position holding the warp beam (2) occupies.

7. loom according to claim 5, characterized in that the screw (6) only one and is screwed, when a support (8) which kettbaumseitig on the drive means (3) is arranged mitbewegend with this, a warp beam (2 ) holding position.

8. Weaving machine according to claim 5, characterized in that the drive means

(3) is arranged so close to the frame wall (4) that the screw (6) can only be screwed in and out when the drive means (3) is in an angular position in which the bore (3.1) in the drive means (3 ) with respect to a recess (4.1) in the frame wall (4) and the support (8) occupies a warp beam (2) holding position.

9. loom according to one or more of claims 1 to 8, characterized in that so many threaded holes (2.4) in the Kettbaumflansch (2.2) are arranged, that the warp beam (2) in several angular positions between the drive means (3) and the Kettbaumflansch (2.3), relative to the common axis of rotation (5), with the drive means (3) can be screwed.

10. loom according to one or more of claims 1 to 9, characterized in that at least one screw (6) is designed as a dowel screw.

11. loom according to one of claims 1 to 10, characterized in that the recesses (4.1) in the frame wall (4) are formed and that the distance between the drive means (3) and the frame wall (4) is designed and that at least one screw (6) is acted upon in the non-screwed state by means of an energy-storing means (9) such that the at least one screw (6) projects so far into the recesses (4.1) of the frame wall (4) that a certain rotational angle bordering Rotary movement of the drive means (3) about the common axis of rotation (5) is blocked.

12. Weaving machine according to claim 11, characterized in that on the at least one screw (6) a securing element (10) and on the drive means (4) an end boundary (11) are arranged such that the at least one screw (6) only until is displaceable to a predetermined end position against its screwing.

Weaving machine according to claim 12, characterized in that each screw (6) is dimensioned to withstand, in the case of blocking, the torque of a driving motor (7).

14. Loom according to claim 13, characterized in that the motor (7) is provided with a shutdown protection, by means of which the motor (7) in the case of blocking can be switched off.