DE102014212063A1 - Pressing device for pressing a braided hose to a component core and braiding machine - Google Patents

Abstract

Pressing device (10) for pressing a braided hose (14) along a core axis (17) extending component core (16), with at least one pressure roller (12) in the operation of the device (10) the braided hose (14) against the component core (16) acted upon, characterized in that at least one transversely to the core axis (17) extending pressure roller (12) is provided which is rotatably supported by means of two spaced joint bearings (28) that for adjusting the pressure roller (12) the spherical plain bearings (28) of the pressure roller (12) are adjustable relative to each other.

Description

The invention relates to a pressing device for pressing a braided hose onto a component core extending along a core axis, with at least one pressure roller, which acts on the braided hose against the component core during operation of the device. The invention also relates to an associated braiding machine.

Such Anpresseinrichtungen and associated braiding machines are for example from the JP 2000-178862 previously known. There find pressure rollers use whose longitudinal axes extend parallel to the core axis, wherein the individual pressure rollers are connected to each other via a base so that they can be moved to rotate around the core. Such pressing devices have a comparatively complicated mechanism. In addition, with such pressing devices, in particular braided tubes, which do not have a circular cross section, can only be pressed to a limited extent against a corresponding component core. Also braided tubes can not be pressed satisfactorily against component cores extending along a curved line about the transverse axis of the core (eg tubes with kinks) and in particular have comparatively small radii of curvature.

In certain core geometries, especially those which have a curvature along the central axis, braiding of the braid may occur from the core in the braiding process. This leads to the fact that the braided hose is not applied to the core and thus wrinkles form during further processing (resin injection by injection or infiltration), which significantly deteriorate the component quality or make further processing impossible. This effect is all the more pronounced, the farther the deflection point of the braid is removed from the braid plane in the core withdrawal direction from the core surface.

The invention is therefore based on the object to propose a pressing device which helps to remedy the disadvantages mentioned.

This object is achieved with a pressing device with the features of claim 1. The pressing device according to the invention provides in particular that the pressure roller is mounted by means of two spaced-apart spherical bearings, wherein the spherical plain bearings relative to each other, in particular transversely to the axis of rotation of the roller, are adjustable. The adjustment takes place in such a way that the pressure roller changes its relative position to the core axis. The adjustment may preferably take place in a storage plane and have a directional component which is not in the axis of rotation of the respective pressure roller. However, two pressure rollers may be provided, which are in particular in a common storage level, in which case at least one of the spherical plain bearings is adjustable. The storage level can not only run through the preferably two pressure rollers, but also preferably be aligned perpendicular to the core axis, perpendicular to the direction of movement of the braided hose and / or parallel to a median plane of the pressing device or an associated braiding machine.

It is advantageous that the at least one pressure roller can roll due to their orientation transversely to the direction of movement of the braid tube on movement of the braided tube on the braided tube. By adjusting the respective spherical bearing, the pressure roller can be optimally aligned with the braided hose or the component core, in particular, even if the component cores extend along a curved line and have relatively small radii of curvature. In particular, with such a pressing device braided tubes can be realized, which have a substantially rectangular basic shape. The respective pressure roller can then press the entire surface of the braided hose facing it to the component core. Unlike the prior art according to the JP 2000-178862 Consequently, the pressure rollers are not parallel to the longitudinal axis of the core, but transverse to the core axis. Overall, a relative movement between the braid and the respective roller in the direction of movement of the braid can thereby be avoided. It is possible to unroll the pressure rollers without transverse and / or shear forces on the braided hose.

According to the invention, it is conceivable that not only one or two pressure rollers, but also three or more pressure rollers are provided, in particular in the bearing plane or in successive planes. If several rollers are to be arranged next to one another, for example in order to achieve full contact pressure of the circumference, an arrangement of the rollers in more than one plane is also expedient, preferably in two planes. Thus, the contact lines can overlap and ensure that the mesh is pressed at each point. Preferably, however, two pressure rollers are provided, which are arranged parallel to each other in a basic position.

It is also advantageous if the at least one joint bearing, and preferably when all joint bearings are floating. The floating bearing in particular axial direction serves in particular to compensate for the difference in length between the horizontal and inclined position of the rollers. The resilience of the rollers is ensured by the separate and rotational bearing at both ends of the shaft by means of the joint bearings, which can be designed as a ball joint. The floating bearing could therefore be replaced by another arrangement that allows adjustment of the length in the axial direction of the shaft, for example via mutually displaceable elements (keyword "telescopic rod") or springs.

To be able to adapt the spherical plain bearings to the respective core, adjusting means for adjusting the spherical plain bearings are advantageously provided.

Furthermore, it is advantageous if biasing means are provided for acting on the at least one spherical bearing such that the respective pressure roller acts by means of a biasing force against the component core. The biasing means are advantageously designed so that they cause a uniform contact pressure of the braid tube to the core, even if the core should have different cross-sections over the longitudinal extent.

The biasing means and / or the adjusting means may be formed as acting on the spherical plain bearings pneumatic pressure cylinder. Such pressure cylinders are relatively easy to implement and can provide a constant pressure rate.

Advantageously, both joint bearings of a pressure roller are independently adjustable. This can be done an optimal adjustment of the rollers to the component core.

Preferably, the spherical plain bearings are arranged adjustable on parallel to each other arranged guide means. Rods or rails, which are preferably arranged in the bearing plane or parallel thereto, come into consideration as guide means. By an independent adjustability of the respective spherical bearings so that the respective pressure roller can be aligned even at a different angle of 90 ° to the guide means. In the event that, for example, two pressure rollers are provided, and both pressure rollers are adjustably arranged on the same guide means, the two pressure rollers can be arranged to extend parallel to each other in a basic position or in a displaced position along two axes having an intersection. In this respect, an optimal alignment of the pressure rollers can be achieved here depending on the geometry and in particular curvature of the component core for optimal and uniform contact pressure of the braid to the core. This is particularly important because, for example, in robotic braiding, perfect alignment of the core with respect to the braiding ring can not be ensured; a skewing possibility of the rollers can compensate for this inaccuracy.

Furthermore, it is advantageous if the at least one pressure roller and preferably all pressure rollers are arranged such that they form an abutment for stabilizing and / or supporting the component core. With long, curved components, there are sometimes great buckling loads on the core during the braiding process. So that this does not take damage with increasing leverage (the farther the robot guide is away from the center of weaving, the greater the forces and moments on the core), according to the state of the art the concept of an additional guidance by means of robots "catching up" the core and This problem can be circumvented by the fact that the rolls stabilize the core, in particular near the center of the braid. By skillful arrangement of the rollers and choice of forces, the core can be stably guided and it can be dispensed with elaborate guides in particular by means of robots.

The pressing device can have a support structure which can be arranged on a braiding machine, so that the pressing device can be arranged within a braiding machine, in particular in or immediately after the braiding process. Such a pressing device has the advantage that it can be arranged as a retrofit kit to an existing braiding machine. The support structure may in particular be attached to a braiding ring provided on the braiding machine or to a braided ring holder. The support structure may be formed as a frame which forms the bearing plane or on which the pressure rollers are arranged adjustably in the bearing plane.

On the other hand, it is also conceivable that an abovementioned pressing device is provided as part of a braiding machine, in particular a radial braiding machine, a horizontal braiding machine or a 3D braiding machine, so that ultimately the braiding machine comprises a pressing device according to the invention.

Further details and advantageous embodiments of the invention will become apparent from the following description, with reference to which the embodiment shown in the figures will be described and explained in more detail.

Show it:

1 a longitudinal section through a arranged on a braiding machine pressing device;

2 a front view of the pressing device according to 1 ;

3 a longitudinal section through a pressure roller according to 1 in unrestricted camps and

4 the pressure roller according to 3 in an entangled position.

The in the 1 and 2 illustrated pressing device 10 includes two pressure rollers 12 for pressing a braided hose 14 to a component core 16 , The central longitudinal axis of the component core 16 is with the reference numeral 17 characterized. The braided hose 14 becomes of braid 18 formed immediately before entering the pressing device 10 is braided.

The pressing device 20 is arranged inside a braiding machine. She is on a braid ring 20 the braiding machine, over which usually the braided mesh 18 is running, fixed. Another fixation, for example, on a braided ring holder 22 the braiding machine done.

The pressing device 10 comprises a support structure in the form of a frame 24 on the braiding ring 20 or on the braided ring holder 22 is attached.

In operation of the braiding machine and the pressing device 10 thus becomes the mesh 18 over the two pressure rollers 12 on the by the braiding machine or the pressing device 10 guided core 16 pressed. Before pressing the braid 18 by means of the rollers 18 can the braided hose over a plate 25 with rounded edges to be deflected by about 90 ° in the withdrawal direction. The plate 25 is thus the first contact point of the mesh 18 with the pressing unit 10 , Such plates 25 are often used in radial braiding and usually have a special to the core 16 customized geometry. Originally, the weaving ring was used for the diversion of the mesh 20 provided, which serves here only as a holder. The baffle is in 2 not shown because it largely obscures the view of the interior of the unit. The core 16 is going along through the arrow 26 indicated movement direction by the pressing device 10 guided. In the event that the core 16 along the arrow 28 indicated direction is performed by the braiding machine, it is conceivable that another pressing device 50 mirror-symmetrical to the center plane 52 the braiding machine is provided.

How out 1 becomes clear, tension the two pressure rollers 12 a storage level 27 on, within which, as will be explained below, the individual pressure rollers 12 can be adjusted. The storage level 27 in particular runs parallel to that of the braiding ring 20 spanned level 29 , When providing a component core 16 who, unlike in 1 , runs straight, runs the storage level 27 perpendicular to the central longitudinal axis 17 of the component core 16 or to the direction of movement 26 of the core 16 ,

How out 2 becomes clear, are the two pressure rollers 12 between at the free ends of the pressure rollers 12 provided for joint warehouses 28 arranged.

How out 3 and 4 becomes clear, have the pressure rollers 12 one around the longitudinal axis 30 the rollers 12 extending roller body 32 on, by means of pivot bearings 34 on a central body 36 are arranged. The rod-shaped central body 36 is with its free ends 48 about receiving elements 38 in housing bodies 40 the joint bearing 28 stored. Due to the provision of the elastically resilient receiving elements 38 can the two spherical bearings 28 independently along the lines 42 be moved in parallel.

The free ends 48 the central body 36 are at least partially within the recording elements 38 axially displaceable, so that a change in distance of the joint bearings 28 that occurs when the pivot bearings 28 be moved away in the opposite direction, can be compensated. Between the joint warehouses 28 and the pivot bearings 34 are spacers 49 intended.

How out 2 becomes clear, are for parallel displacement of the joint bearings 28 these by means of guide bodies 44 on guide means in the form of guide rods 46 adjustable. The guide body 44 are stuck at the joint warehouses 28 arranged. By adjusting the guide body 44 or the pivot bearing 28 along the guide rods 46 can therefore, as in 2 is shown an adaptation of the pressure rollers 12 to a surface of the core 16 who in 2 is square, can be achieved.

Like also out 2 becomes clear, are the guide rods 46 about the in 3 shown receiving elements 38 as part of 24 attached. There is also a base plate 54 at the frame 24 provided, which has a central opening 56 through which ultimately the core 16 round picks.

The frame 24 is preferably also within the storage level 27 or is arranged parallel to it.

For adjustment of the joint bearings 28 along the guide rods 46 or within the storage level 27 , are in 1 shown pneumatic actuating cylinder 60 intended. Between the adjusting cylinders 60 and the swivel joints 28 are coupling elements 62 provided the stroke of the actuating cylinder 60 on the joint bearings 28 transfer. In the 2 are the actuating cylinders 60 and the coupling elements 62 at the joint warehouses 28 attack, not shown.

The provision of pneumatic actuator cylinders 60 has the advantage that the pressure rollers 12 with a largely constant contact force and yet resilient, against the core 16 can be applied. Especially with cross-sectional changes of the core 16 An axial compliance can be realized with a largely constant contact force. In addition, the contact pressure of the rollers 12 against the component core 16 about changes in pressure in the actuator cylinder 60 be set.

In particular, this can be an entangled arrangement of the rollers 12 as they are in 2 is shown achieved. The longitudinal axes 30 the rollers 12 can therefore be either parallel to each other or as in 2 is shown to be set in a cutting manner. Overall, this allows optimal adaptation to the core 16 take place, the braid 18 or the finished hose 14 , optimally immediately after the braiding process to the core 16 can be pressed. Because the rollers 12 transverse to the direction of movement 26 extend, act on the mesh 18 no transverse or shear forces. Overall, this can result in a defect-free tubular braid, which has favorable properties for further processing.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• JP 2000-178862 [0002, 0006]

Claims (12)

Pressing device ( 10 ) for pressing a braided hose ( 14 ) to one along a core axis ( 17 ) extending component core ( 16 ), with pressure rollers ( 12 ) operating in the facility ( 10 ) the braided hose ( 14 ) against the component core ( 16 ), characterized in that at least one transverse to the core axis ( 17 ) extending pressure roller ( 12 ) provided by means of two spaced joint bearings ( 28 ) is rotatably mounted so that for adjusting the pressure roller ( 12 ) the spherical plain bearings ( 28 ) of the pressure roller ( 12 ) are adjustable relative to each other. Pressing device ( 10 ) according to claim 1, characterized in that the spherical plain bearings ( 28 ) are floating. Pressing device ( 10 ) according to claim 1 or 2, characterized in that adjusting means ( 60 . 62 ) for adjusting at least one hinge bearing ( 28 ) are provided. Pressing device ( 10 ) according to one of the preceding claims, characterized in that biasing means ( 60 . 62 ) for applying at least one joint bearing ( 28 ) are provided such that the pressure roller ( 12 ) by means of a biasing force against the component core ( 16 ) acts. Pressing device ( 10 ) according to one of the preceding claims, characterized in that the biasing means and / or the adjusting means ( 60 . 62 ) are formed as acting on the spherical plain bearings pneumatic pressure cylinder. Pressing device ( 10 ) according to one of the preceding claims, characterized in that both joint bearings ( 28 ) are arranged independently adjustable. Pressing device ( 10 ) according to one of the preceding claims, characterized in that both joint bearings ( 28 ) act with different bias against the component core. Pressing device ( 10 ) according to one of the preceding claims, characterized in that the spherical plain bearings ( 28 ) at parallel to each other arranged guide means ( 46 ) are arranged adjustable. Pressing device ( 10 ) according to one of the preceding claims, characterized in that two transverse to the core axis ( 17 ) extending pressure rollers ( 12 ) are provided at a storage level ( 27 ), wherein two mutually parallel arranged guide means ( 46 ) are provided and wherein in each case a joint bearing ( 28 ) a pressure roller ( 12 ) on a guide means ( 46 ) is arranged adjustable. Pressing device ( 10 ) according to one of the preceding claims, characterized in that the at least one pressure roller ( 12 ) and preferably all pressure rollers ( 12 ) are arranged such that they abutment for stabilizing and / or supporting the component core ( 16 ) form. Pressing device ( 10 ) according to one of the preceding claims, characterized in that the pressing device ( 10 ) can be arranged on a braiding machine support structure ( 24 ) such that the pressing device ( 10 ) within a braiding machine in or immediately after the braiding process can be arranged. Braiding machine, in particular radial braiding machine, horizontal braiding machine or 3D braiding machine, comprising a pressing device ( 10 ) according to any one of the preceding claims.

Images