CS201616B1 - Push button for contactless switching notably for the push button field - Google Patents

Abstract

A pulse generator for use in keyboards has an inwardly directed source of radiation in a casting and a detector, matched to it, on the side facing it. The shank of the key is not permeable for the radiation and breaks its path to the detector when depressed. This results in contactless switching and requires no mains voltage. It produces no excessive heat and is not affected by external disturbing influences.

Description

BACKGROUND OF THE INVENTION The present invention relates to a button for contactless switching, in particular for button fields, in which a radiation source is arranged on one side wall of the button body and a detecting element is disposed on the opposite side of the button body; .

Buttons are known which, when pressed, switch on or off the electrical contacts. A button has also been proposed in which resistance depending on the intensity of the magnetic field is influenced such that an impulse is generated when the button is pressed (DE-AS 2 242 175). A button (DE-OS 1 537 935) has also been proposed in which, possibly or in the head thereof, a light passage is formed through which the light is guided from the light guide to the photoresistor in the depressed state of the button.

Furthermore, a solution is known (DE-OS 2 034 059) in which a photo-sensitive electronic element is placed in the light path of the electric luminescent element and the light passage is influenced by a rotating or sliding shutter when the button is pressed.

These known solutions have some disadvantages. ^! The use of electrical contacts results in their wear, which adversely affects their operational reliability. In addition, it forms a pit in the pit. electrical disturbing electric fields are generated which act on electrical and electronic circuits located nearby.

The use of resistors dependent on the intensity of the magnetic field requires considerable costs for electronic circuits,. necessary to obtain pulses capable of evaluation.

When using a light-transmitting pushbutton, an additional light source and hence a heat source is required, which adversely affects the thermal balance of the button field.

The proposed solution with a luminescent element requires a current supply which must be carried out from an external source. As a result, the number of solders again increases. joints and hence labor intensive production and operational unreliability, or can lead to the formation of so-called cold joints.

The purpose of the invention is to provide a contactless switch which does not have the disadvantages mentioned.

The basic idea of the invention is to design a pushbutton for contactless switching, in particular for pushbutton fields which would have no electrical contacts and need no power supply or other auxiliary means to operate.

This task is solved by a button of the aforementioned type by the radiation source. it is a source of invisible radiation, and the button stem is impermeable to the radiation.

The development of the invention is that the source of invisible radiation is a β-emitter, for example krypton 85.

A final feature of the invention is that the detection element is a semiconductor detection element.

The advantage of the solution according to the invention is that it has no contact problems. The overall design of the pushbutton remains very simple and there are no great demands on tolerances. The evaluation of the signals provided by the detection element requires only a relatively small cost for the electronic circuitry.

The operating reliability of the button is independent of external voltages or other power supplies.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be explained in more detail below with reference to the accompanying drawings, in which: FIG. 1 shows a button for contactless switching according to the invention; and FIG. 2 shows another embodiment of a button.

On the opposite sides of the button body 1, an invisible radiation source 5 and a detecting element 4 are located. When the button button 2 is pressed, a button shank 3 and / or an aperture 6 fixed thereto is inserted between the invisible radiation source 5 and the detecting element 4. There is no voltage on the detector 4 and a signal O is generated. The button stem 3 is impenetrable for this invisible radiation.

In another embodiment of the pushbutton according to the invention, the invisible radiation source 5 and the detecting element 4 are arranged such that a signal 1 is generated when the pushbutton is pressed. For this, the invisible radiation source 5 and the detecting element 4 are arranged at the top of the button body 1, so that they are outside the screen area upwards when pressing the button shank 3. The arrangement in the button body 1 does not affect the choice of the invisible radiation source 5 and the detector element 4. Here again, the button stem 3 is impenetrable for this radiation.

Advantageously, β-emitters, such as krypton 85, can be used as sources of invisible radiation.

The detection element 4 is formed by an invisible radiation receiver. As detection elements 4, semiconductor detection elements can advantageously be used.

Claims (2)

Button for contactless switching, in particular for button fields, in which a radiation source is arranged on one side wall of the button body and a detection element is disposed on the opposite side of the button body, and a movable button stem is arranged between the radiation source and the detection element. 2. The method of claim 1, wherein the radiation source comprises an invisible radiation source (5) and the detection element (4) is a receiver of the invisible radiation, the button stem (3) being impermeable to the radiation. Contactless switching button according to claim 1, characterized in that the invisible radiation source (5) is an γ-emitter, for example krypton 85. Contactless switching button according to claim 1, characterized in that the detection element (4) of the invisible radiation of the source (5) is formed by a semiconductor detection element. 2 drawings FIXED DESCRIPTION OF THE INVENTION TO AUTHORIZATION CERTIFICATE No. 201 616 (51) Int. Cl. ³ - H 03 К 17/18 In the description of the invention for the author's certificate No. 201 616 it should be in the title - the author of the invention