DE4408722A1 - Wire fabric measuring appliance - Google Patents

Abstract

A fabric measuring device is for determining the mesh size and/or the number of meshes per defined length unit in the warp and/or weft direction of a knitted wire fabric. The device features two measured value emitters (11, 12) which move across the fabric (10) and are coupled to each other. The first emitter (11) records the covered stretch or measures the speed, while the second unit (12) is activated by the threads or wires lying on the measuring path. The values are fed into an evaluator (13) and processed.

Description

The present invention relates to a tissue measuring device for loading matching the mesh size and / or the number of meshes per defined unit of length in the warp and / or weft direction of the Fabric, in particular a wire mesh. To make a warp and transverse weft threads or wires to be there are two different ways. At which he The greatest possibility is the mesh size in the warp and in the weft direction and the diameter of the thread or Called wire. It is assumed that usually the threads or wires are circular in cross section. The Ma is the distance between two successive threads the or wires in the warp and in the weft direction. At The second option is the number of stitches in one specified unit of length. In addition, the Diameter of the wire or thread can be specified. When The unit of length is usually an English inch (25.4 mm) used. The number of stitches is also in the industry referred to as mesh.

Tissue measuring devices are available in various for the determination of tissues which versions known. So-called Screen analyzers, but they are not portable. As a result, they can be process the fabric, not be used. Besides, can production is not directly monitored in production plants become. The known devices also require special knowledge nisse from the operators so that they are not from everyone are to be used.

The present invention is based on the object To create tissue measuring device, which ge in the simplest way can be handled, which is portable and with the Measurement results are achieved for the incoming goods inspection in the processing of fabrics and as a production control can be used in the manufacture of fabrics.

The task is solved by the tissue measuring device two circuitry that can be moved across the fabric Coupled transducers includes, with means of the first transducer the distance traveled acceptable or the speed is measurable that the second Transducer of the threads or in the measuring section Wires is excitable, and that the measured values in a Auswertge advises feed and are processable such that the number of the stitches in the measuring section and / or upon entry the diameter or width of the wires or threads the mesh size can be determined.

The tissue measuring device according to the invention can be used as a mobile measuring device device in a compact design. It is therefore universally applicable. Regardless of the design and the the resulting function of the tissue measuring device is only necessary that the two sensors over the wire webe be moved away. If the mesh size also then the wire diameter would have to be or for cross sections deviating from a round cross section the width of the wire or thread can be entered. The Tissue measuring device can be designed in various ways, such as will be explained later. In a first embodiment, at he the first transmitter the distance covered averages, it is provided that the second transmitter as Clock generator for determining the number of be in the measuring section sensitive wires or threads is formed. By means of the the second sensor then the number of wires or Threads counted. In this embodiment, it is provided that  After entering the diameter, enter the mesh size shows. If desired, only the number of stitches can be used are displayed per unit of length (English inches). At this first embodiment, it is also possible that the second Sensor as working according to the light-dark principle Light sensor is formed. A beam of light is then under broken if a cross during the movement of the tissue measuring device the thread or wire standing over it is run over. Because of who formed the count pulses that can be saved. Of the The clock in the first embodiment is an accelerator gauges, which when scanning the lever surface of the Wires or threads is excited. The acceleration impulses can then be evaluated as counts.

In the second version, in which the first transmitter the speed determined is the second according to the invention Transducer designed as a frequency measuring device. The Fre quenzmeßeinrichtung is again an accelerometer mer, which excites by the run over wires or threads becomes. By means of the evaluation device is then over time frequency. The speed and the fre are calculated mathematically so that the number of Stitches per unit length (mesh) or after entering the through knife of the wire or thread determines the mesh size becomes.

A structurally simple solution is achieved if he Most sensors are a thread or a wire of the tissue bes contacting contact roller and a friction gear hold. Such sensors are known in the art so that you can assume operational safety. For one reading the values to be determined, it is advisable if the signal conditioning instrument is equipped with a display. At the electronic evaluation devices are so-called liquid cri stall advertisements common today.

Based on the accompanying drawing, the invention is still na ago explained. It shows:

Fig. 1 designed for measuring wire mesh tissue measuring device, purely schematically.

In Fig. 1, the tissue measuring device is used to determine the sizes of a wire mesh. A wire mesh mat to be determined is identified by reference number 10 . The mesh size in warp and weft direction is relatively large for clarification. The tissue measuring device in question is also suitable for fine fabrics and braids. The tissue measuring device is equipped with a first sensor 11 and a second sensor 12 . To determine the sizes, the transducers 11 and 12 are moved over a defined measuring distance over the wire mesh mat 10 . In the exemplary embodiment shown, the sensor 11 is a sensing roller that rolls on a wire. The sensor 11 also contains a friction gear, not yet shown. The second sensor 12 is a button that is excited as soon as a wire running across the direction of movement is run over. The two transducers 11 and 12 are coupled to one another in terms of circuitry in a manner which is not explained in more detail. The measured values are fed into an evaluation device 13 . The size to be determined can be displayed in a display (not shown) of the evaluation device 13 . The tissue measuring device can work according to two different methods. According to the first method, it is designed as a hand-held device which can be used in the incoming goods inspection of a processing company and wire mesh mats 10 lying thereon. The sensing roller of the first transducer 11 is a displacement sensor that determines the length of the measuring section. The second transmitter 12 is a clock, preferably an accelerometer, which is excited when scanning the wires transverse to the direction of loading Be excited. The acceleration impulses can be evaluated as counting impulses.

Through the circuitry linking the two transducers 11 , 12 , the number of wires over the measuring distance is counted. The number of wires, based on a length of, for example, an English inch, is obtained by simple mathematical conversion. If the wire diameter is entered into the evaluation 13 , the mesh size is obtained instead of the division. The pitch is the distance between the center lines of two adjacent wires. The mesh size is the clear distance between two wires. Accordingly, the pitch can also be calculated by adding the wire diameter to the mesh size.

According to the second method, the number of stitches per unit length is determined. The unit of length is usually an English inch. Accordingly, the number of meshes (mesh) is obtained by dividing the value by 25.4 mm by the division. The sensing roller of the first sensor 11 is a speedometer in this embodiment. The second transmitter 12 is a frequency meter in the form of a Be accelerometer. If the accelerometer acts excited on the transverse wires over which it is moved, the frequency can be determined by means of the evaluation unit over the time unit. In the evaluation device 13 , the speed and the frequency is calculated mathematically, so that the number of stitches per unit length is output or the mesh size is output after entering the wire diameter.

In a further embodiment of the invention, the evaluation devices 13 can be equipped with a memory in both embodiments in order to document the measurement data.

Claims (9)

1. Tissue measuring device for determining the mesh size and / or number of stitches per defined length unit in the warp and / or weft direction of the fabric, in particular a wire mesh, characterized in that the Ge webemeßgerät two movable over the fabric ( 10 ), coupled with each other in terms of circuitry Includes transducer ( 11 , 12 ), the first measuring value ( 11 ) being able to record the distance traveled or the speed being measurable, that the second measuring transducer ( 12 ) can be excited by the threads or wires lying in the measuring line, and that Measured values can be fed into an evaluation device ( 13 ) and can be processed in such a way that the number of meshes lying in the measuring section and / or the mesh size can be determined when the diameter or the width of the wires or threads is entered. 2. tissue measuring device, in which the distance covered can be recorded by the first sensor, according to claim 1, characterized in that the second sensor ( 12 ) is designed as a clock for determining the number of wires or threads in the measuring section. 3. tissue measuring device according to claim 2, characterized in that that the clock is trained as an accelerometer det. 4. tissue measuring device according to claim 2, characterized in that that the second transmitter as after the light-dark Principle working light sensor to detect the in the Wires or threads located in the measuring section is.   5. tissue measuring device, in which the speed can be measured by the first transmitter, according to claim 1, characterized in that the second transmitter ( 12 ) is designed as a frequency measuring device. 6. tissue measuring device according to claim 5, characterized in that the frequency measuring device as an acceleration is trained. 7. tissue measuring device according to one or more of the preceding claims 1 to 6, characterized in that the first transducer ( 11 ) includes a thread or a wire of the tissue ( 10 ) contacting roller and a friction gear. 8. tissue measuring device according to one or more of the preceding claims 1 to 7, characterized in that the evaluation device ( 13 ) is equipped with a display. 9. tissue measuring device according to one or more of the preceding claims 1 to 8, characterized in that the evaluation device ( 13 ) is assigned a memory for the documentation of the measured values.