DE4101842C2 - Detector device - Google Patents

Description

The invention relates to a detector device for Acquisition of the x and y coordinates of input points, with one first group lying parallel to each other, ver running electrodes and a second group in parallel other electrodes running in the y direction, the by pressurization in the area of this pressure application in electrically conductive contact with one of the respective groups assigned, electrically conductive layer can be brought.

In a known detector device of this type (DE-PS 30 13 129) the electrodes of each group consist of one common level traces, each of these Group of conductor tracks assigned a pressure-conducting rubber layer is net, d. H. a layer of a material that is normally stand insulated and becomes conductive under pressure. In this way can be trained at some point when pressure is applied Layer structure can be achieved that in the area of Druckauf bring lying section of the electrode of the respective elec trodengruppe on the conductive in this area Rubber layer closes a circuit from the total of which stood on the location of the point of pressure application within  the overall arrangement, d. H. the location of this point in the x direction and can be closed in the y direction.

The known detector device has a relatively com plicated structure and especially requires training dete layers, namely the pressure-conducting rubber layers, the only when pressure is applied and then only when pressure is applied affected area become conductive.

It is an object of the invention, on the other hand, more simply built detector device to create.

To solve this problem, a detector device initially mentioned type designed according to the invention such that the electrodes of each of the two groups the warp or the Form weft threads of a fabric, its weft or warp threads consist of electrically insulating material and towards the pressure application have larger cross-sectional dimensions than that Electrodes. Each fabric preferably has a canvas binding.

The detector device according to the invention is particularly used easy to manufacture groups of electrodes, namely electrodes the in the form of conductive wires with in perpendicular to your Insulate parallel threads from electrical insulation the material, such as polyester, are woven, with the cross cutting dimensions of the threads of insulating material in the Direction of pressure application, d. H. normal to tissue level, size are larger than that of the electrodes. This ensures that the Electrodes when the tissue is placed on an electrically conductive layer usually does not come into contact with it hen, but from the threads of electrically insulating material are kept above the electrically conductive layer. Pressure is only applied in the area by applying pressure loading such a deformation that the one located there Area of the respective electrode or the Be located there  range of the electrically conductive layer so elastic It is gert that there is a contact between the electrode and elek tric conductive layer and thus for closing a current circle comes from its resistance to the location of the point the pressurization can be closed.

The two ent and the second group of electrodes ent holding tissue can be arranged in one configuration be that below each of these tissues there is an elec troden associated, electrically conductive layer and the electrically conductive layer of a fabric above the other tissue. When pressure is applied from above the upper tissue deformed and an electrical contact to it electrically conductive layer, whereby by the so Deformation generated also exerted pressure on the lower tissue and touching its corresponding electrode with the associated electrically conductive layer is generated.

A particularly favorable structure results, however, if the electrically conductive layers on opposite surfaces an elastically deformable plastic film are provided, the is arranged between the two fabrics. With such a Arrangement, the electrically conductive layers are between the two tissues, and the electrical contact is under pressure application on the side of the pressure application by relocation of the associated tissue area in the direction of the associated electrically conductive layer and on the opposite Side by shifting the electrically conductive layer in Direction on the electrodes adjacent to the associated tissue area causes.

The invention is based on the schematic and ver simply shows a figure showing an embodiment tert.  

It should be noted that the type of evaluation he generated signals and the circuitry required for this orders described for example in DE-PS 30 13 129 so that a description of this part of the detector device tion is not required.

The part shown shows sections of the two groups of Electrodes and the electrically conductive co-operating with them capable layers. These electrodes and the conductive layer For example, according to the type of arrangement according to DE-PS 30 13 129 wired.

The electrodes 2 , which run in the x direction, consist of copper wires with a circular cross section, the surface of which is not insulated. The copper wires 2 are the warp or weft threads of a fabric 1 with plain weave, and the perpendicular weft or warp threads 3 consist of an electrically insulating material, such as polyester. You have just circular cross section, but a larger diameter than the copper wires 3rd

A second woven fabric 10 with a plain weave contains copper wires 12 running in the y direction with a circular cross section and non-insulated surfaces which form the warp or weft threads of the woven fabric 10 . The weft or warp threads 13 of the fabric 10 are in turn made of electrically insulating material, such as polyester, and have a circular cross section, their diameter being larger than that of the copper wires 12 .

The fabrics 1 and 10 are on opposite sides of an elastically deformable, electrically insulating material, such as plastic film 5 , which carries an electrically conductive layer 4 on the top and an electrically conductive layer 14 on the bottom, so that the fabric 1st rests on the electrically conductive layer 4 and, in the orientation shown, the electrically conductive layer 14 lies on the fabric 10 . Since, as mentioned above, the threads 3 and 13 made of electrically insulating material have a larger diameter than the copper wires 2 , 12 , in the normal case shown there is only a touch of the threads 3 , 13 made of insulating material with the electrically conductive layers 4 , 14 while keeping the copper wires 2 , 12 spaced from these conductive layers.

The arrangement of fabrics 1 and 10 and the intermediate layer in the form of film 5 with conductive layers 4 , 14 rests on a star, schematically indicated base 16 made of electrically insulating material and is covered with an elastically deformable, electrically insulating protective layer 6 .

Is applied to the top of the protective layer 6 at a defined point pressure, compression of the entire assembly through which a copper wire 2 is brought a portion of the tissue bes 1 in contact with the conductive layer 4 and in addition takes place the conductive layers 4 and 14 carrying Fo lie 5 is deformed so that its conductive layer 14 in contact with part of a copper wire 12 of the fabric 10 ge reaches. In this way, a circuit is closed by a copper wire 2 of the fabric 1 and the associated conductive layer 4 and by a copper wire 12 of the fabric 10 and the associated conductive layer 14 , and the size of the resistance of the respective circuit is a measure of that Location of the pressure application in the direction of the x coordinate (tissue 1 ) and in the direction of the y coordinate (tissue 10 ).

Claims (5)

1. Detector device for detecting the x and y coordinates of input points, with a first group of electrodes ( 2 ) lying parallel to one another in the x direction and a second group of electrodes lying parallel to one another in the y direction ( 12 ) , The pressure applied in the area of this pressure application in electrically conductive contact with an associated with the respective group, electrically conductive layer ( 4 ; 14 ) bring bar, characterized in that the electrodes ( 2 ; 12 ) of each of the two groups the warp - Or form the weft threads of a fabric ( 1 ; 10 ), whose weft or warp threads ( 3 ; 13 ) consist of electrically insulating material and have a larger cross-sectional dimension than the electrodes ( 2 ; 12 ) in the direction of pressure application. 2. Detector device according to claim 1, characterized in that each fabric ( 1 ; 10 ) has a plain weave. 3. Detector device according to claim 1 or 2, characterized in that the electrodes ( 2 ; 12 ) hen best of copper wire. 4. Detector device according to one of claims 1 to 3, there characterized in that the electrically insulating materi is polyester. 5. Detector device according to one of claims 1 to 4, characterized in that the electrically conductive layers th ( 4 ; 14 ) are provided on opposite surfaces of an elastically deformable, electrically insulating film ( 5 ) and that the film ( 5 ) between the two fabrics ( 1 ; 10 ) is arranged.