CS229490B1 - Woven fabric tension pick-up - Google Patents

Abstract

The invention relates to a fabric-pull meter containing, in the vicinity of the tie-up point 4, a stirrup 5, between the flanges of which there engages a supporting roller 2 mounted on a holder 6. The fabric 3 running through between this roller and the stirrup 5 and at the same time partially winding round the supporting roller 2 changes the position of the holder 1, of the supporting roller 2 or of the stirrup 5. This change of position or shape is detected by a sensor 6 which transmits a proportional signal to the evaluation device 7 of the warp-beam controller, in order to keep the pull of the fabric within predetermined limits. <IMAGE>

Description

The invention relates to a tensile force sensor of a fabric.

In a weaving machine it is necessary for the production of a flawless fabric that the tension of the warp threads in the immediate vicinity of the binding site remains constant at one set value.

The prior art tensile force sensor is designed such that the warp clamp, which is normally subjected to spring-induced direct force and warp tensile forces, is provided with a mechanical-electric transducer which expresses the movement or position of the clamp by a suitable electrical signal. The constant spring tension and the varying tensile forces in the warp always move the clamp to the equilibrium point acting on it. The electrical signal from the mechanical-to-electrical converter indicating the movement or position of the clamp and thus the change or absolute magnitude of the tensile forces in the warp is brought to an evaluation device which actuates the warp controller to ensure the tensile forces change in the warp so that they limits.

Another prior art tensile force sensor is formed such that the breast bar adjacent to the take-off mechanism is provided with an electrical deformation sensor. The fabric moving over the edge of the breast bar or rod is deformed by the tensile force, whereby the electric deformation sensor sends a signal proportional to this deformation and hence the tension oi

229 490 in terms of fabric thickness into an evaluation device that actuates a warp controller that changes the tensile force of the fabric to remain within predetermined limits.

The disadvantage of a fabric tension sensor using a warp clamp is that sensing the movement of the relatively large mass that the warp clamp represents under relatively high weaving cycle frequencies is characterized by considerable inaccuracy, resulting in considerable distortion of the clamp movement amplitude due to the inertia of the warp clamp mass а к Its time delay in relation to the course of the tensile force changes in the warp. In the case of a split warp, the use of a warp clamp is very difficult to use as a warp tension sensor in individual warp rolls, and in the case of unequal warp rolls or multiple warp rolls, the realization of the tensile force sensor of the fabric is very complex.

A drawback of the tensile force sensor of the web utilizing distortion of the breast bar is the considerable distance of the breast bar from the binding site, which deforms the time course of the tensile stress existing at the binding site due to elastic properties and deformation hysteresis of the relatively long stretch of fabric between the binding site and the breast rail. These properties of the fabric also compensate for the tensile forces along the width of the fabric and thereby distort the tensile forces in the individual sections of the split warp corresponding to the individual warp rolls.

These drawbacks are largely avoided by the tensile force sensor of the fabric of the invention, which is formed by a support roller mounted below or above the fabric in the immediate vicinity of the binding site and extending into the yoke positioned above or below the fabric.

229 490 is simultaneously provided with a deformation sensor, usually an output connected to the evaluation device.

Preferably, the deformation sensor is located on the support roller holder or the yoke holder. It is also advantageous if the deformation sensor comprises at least one resistance strain gauge or at least one semiconductor strain gauge or at least one piezoresistive element.

The advantages of the tensile force transducer of the present invention reside in a substantially more accurate agreement with the incoming signal detecting device, with an instantaneous tensile force at a bonding point than that of the prior art tensile force transducers.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail with reference to the accompanying drawings, in which: Figure 1 shows the arrangement of a fabric tension sensor with a sensor mounted on a support roller holder according to the invention; and Fig. 3 shows another arrangement of the fabric tensile force sensor with a sensor mounted on a support roller support.

The tensile force sensor of the fabric shown in FIG. 1 is formed by mounting a support roller 2 on the holder 1, which is located below the fabric in the immediate vicinity of the tie point. Above the fabric is a yoke fastened to the machine frame between its flanges The roller 1 is further provided with a deformation sensor 6, the output of which is connected to the evaluation of the warp controller.

Covaci device ~ '* ^<FIG. 2 shows another provedeí tensile force sensor according to the invention, wherein the deformation sensor 6 disposed on the holder jo-'třmenu overhung fastened to the machine frame. In FIG

229 490 shows another exemplary embodiment of a tensile force sensor according to the invention, wherein the yoke 5 is rigidly connected to the machine frame and the deformation sensor 6 is located on the support 2 of the support roller 6 mounted on the machine frame.

In operation, the fabric progressing from the second binding site to an assembly yoke 4 and £ -opěrného 'roller 2 _t whose mutual position determines the size -částečného wrap support roller, and further to ^a not shown dtahovacímu Glare ^and zenl, ^sensor 6 de ^f ormation scan ^and de ^f ormation holder - or £ follower roller or the bracket 8, caliper caused tensile strength fabric 2 and transmits electric - signal proportional to the tensile strength of the fabric - to the evaluation unit 2 warp regulator who famously on any change in tensile strength responds to actions aimed at increasing or reduce the tensile force to its original value.

The invention is advantageously applicable to the construction of weaving machines.

Claims (6)

SUBJECT OF THE INVENTION 229 490 Tensile force sensor of a fabric, characterized in that it is formed on the holder (i) by a fixed roller (2) placed under the fabric (3) in the immediate vicinity of the binding point (4) and extending into the yoke (5) located above the fabric (3). ) _t being simultaneously provided with a sensor (6) deformation, its output connected to the evaluation device (7). 2. Tensile force sensor according to claim 1, characterized in that the deformation sensor (6) is disposed on the support (1, 9) of the support roller (2). 3 * Tensile force sensor according to claim 1, characterized in that the deformation sensor (6) is located on the bracket (8) of the yoke (5). 4. The tensile force sensor according to claim 2, characterized in that the deformation sensor (6) is formed by at least one resistance tensiometer. The tensile force sensor of one of the items 2 oz 3, characterized in that the deformation sensor (6) is formed by at least one semiconductor strain gauge. 6. The fabric tensile force sensor according to claim 1, wherein the deformation sensor (6) comprises at least one piezoresistive element.