DE29722565U1 - Electric push button - Google Patents

Description

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Dipl.-Phys. WOLFGANG^6V * .:.. _: :>&Agr;&tgr;£^&Tgr;&Agr;&Ngr;\&Lgr;/&Agr;&Igr;_&Tgr;

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Date 19.12.1997

Electric button

The invention relates to an electrical button with a piezo switching element arranged in an outer housing.

Such electric switches using a piezo switching element are known. Piezo switching elements have the advantage that they are very robust and meet the requirements with regard to protection against vandalism and freezing as well as protection against the ingress of liquids. The disadvantage of the known piezo switches, however, is that they have no stroke.

Based on this, the invention is based on the object of creating a piezo button with improved operation.

As a technical solution, the invention proposes that the piezo switching element is assigned a spring element for a mechanical stroke of the button when it is actuated.

The advantage of such a piezo button is that it not only meets the requirements for protection against vandalism, freezing and liquids, it also has a stroke thanks to the additional spring element. This provides the user with improved operating comfort, as when the button is pressed, the user has the impression that he is operating a conventional switch with a conventional trigger mechanism. When the button is pressed through the stroke, the user has the tactile feeling that he is triggering a switching process.

Postbank Karlsruhe (bank code 66010075)
Account Nn 43869-752

A preferred development of the electrical button according to the invention proposes that the mechanical stroke of the piezo switching element can be carried out against the force of the spring element. The idea of the invention lies in installing the piezo switching element at the front, i.e. on the front side, so that a failure of the stroke mechanism has no effect on the function of the piezo switching element and the associated signal output (voltage, opening/closing of a semiconductor contact, etc.).

Preferably, the spring element is a separate component from the piezo switching element. This has the advantage that previously known and commercially available piezo switching elements can be used, since it is only necessary to assign a separate spring element to the piezo switching element to generate the mechanical stroke.

A further development of the electrical button according to the invention proposes that the spring element is arranged behind the piezo switching element when viewed in the direction of actuation of the piezo switching element. Since the piezo switching element is thus mounted on a spring mechanism at the front, this mechanism only takes over the function of the stroke, while the piezo switching element takes over the switching function. If the mechanism for the stroke fails, stroke is no longer possible, but the piezo switching element still switches properly when actuated. This is made possible by the front installation of the piezo switching element. If, in contrast, the piezo switching element were installed at the back and thus operated via the mechanism, a failure of the mechanism would inevitably lead to the failure of the button, since the operation of the piezo switching element requires the mechanism to function. Of course, it is also conceivable to mount the spring element at the front so that the reset is caused by a tensile force.

A further development proposes that a housing for the piezo switching element is arranged in the outer housing so that it can be moved longitudinally, with the spring element being supported between the outer housing and the housing or the piezo switching element located in the housing. This provides a technically simple way of arranging the piezo switching element within the outer housing so that it can move against the force of the spring element for the stroke. The basic idea is that the piezo switching element is fixedly arranged in the housing and thus when the housing is subjected to pressure when the button is pressed, the piezo switching element is simultaneously subjected to the pressure required for the stroke.

generation of the electrical voltage. The housing and the piezo switching element thus form a structural unit which is supported by the spring element in relation to the outer housing. When the housing is actuated by pressing it down, the piezo switching element is also indirectly actuated, namely against the force of the spring responsible for the stroke.

A further development of this proposes that the housing for the piezo switch element is designed in the form of a tube, in particular a cylinder with a closed, upper end wall as an actuating surface, with the piezo switch element being arranged behind the end wall. The piezo switch element is thus safely housed in the tube. The upper end wall of the tube is to be designed to be so flexible that its deformation when actuated deforms the piezo switch element in the same way for the " generation of voltage.

A further development proposes that a stop is provided between the outer housing and the housing for the piezo switching element or between the outer housing and the piezo switching element. The spring presses the housing for the piezo switching element or the piezo switching element against the stop of the outer housing, so that the rest position of the button is defined. At the same time, the stop prevents the housing or the piezo switching element from falling out of the outer housing.

A further development proposes that a sealing element is arranged between the outer surface of the receiving housing and the inner surface of the outer housing or between the outer surface of the piezo switch element and the inner surface of the outer housing. This sealing element can be a sealing ring which seals the space between the outer housing and the receiving housing or the housing for the piezo switch element so that no liquid can penetrate into the interior of the button. The sealing can also be carried out with a membrane as an alternative to the sealing ring.

Finally, in a further development it is proposed that the spring element is a cylindrical coil spring, a conical spring, a compressible mass or another medium that causes a return. The advantage of the conical spring is that it takes up little space when pressed in, so that the button can be designed to be relatively flat.

Two embodiments of a piezo button according to the invention are described below with reference to the drawings. These show:

Fig. 1 is a schematic view of a first embodiment of the

Piezo button to illustrate the basic principle;

Fig. 2 a constructive realization of the piezo button of a second

embodiment.

The basic version of a piezo button is shown in Fig. 1. The piezo button has an outer housing 1 that is essentially cylindrical in shape. Inside this housing 1 there is a housing 2 that is also cylindrical in shape. This housing 2* is arranged so that it can be moved lengthwise inside the housing 1. The lower end of the housing 2 together with the inner wall of the housing 1 defines a stop 3. While the inner end of the housing 2 is open, the outer end of the housing 2 is closed off by an end wall 4 and is flush with the top of the housing 1. Inside the housing 2, behind the front wall 4, there is a piezo switching element 5. Between a rear wall 6 of the piezo switching element 5 and a base 7 of the housing 1, a spring element 8 in the form of a helical spring is supported in such a way that this spring element 8 presses the housing 2 against the stop 3. Finally, a sealing element 9 in the form of a sealing ring is arranged between the inner surface of the housing 1 and the outer surface of the housing 2.

The functionality of this piezo button in Fig. 1 is as follows:

The basic position of the piezo button is shown in Fig. 1. To operate the piezo button, press on the outer front wall 4 of the housing 2. This causes the front wall 4 to deform slightly, so that the piezo switching element 5 is also slightly bent and generates the desired electrical voltage. At the same time, the housing 2 is moved into the interior of the housing 1 against the force of the spring element 8, thus generating a mechanical stroke. Should the spring mechanism with the spring element 8 fail, so that the housing 2 can no longer be pressed in, the piezo button is still functional, since the piezo switching element 5 continues to switch through perfectly.

A specific technical implementation of the piezo button is shown in Fig. 2. Here too, an outer, cylindrical housing 1 is provided, on the lower opening end of which a base 7 is placed. This base 7 has a central opening 10 for the connecting lines 11. The receiving housing 2 is also cylindrical and has the fixed piezo switching element 5 behind its upper end wall 4. In the area of the end wall 4, the receiving housing 2 has a circumferential annular groove for the sealing element 9. Here too, a stop 3 is provided between the housing 1 and the receiving housing 2. A conical spring with the tip pointing downwards serves as the spring element 8. This conical spring rests on the upper side on the peripheral edge of the receiving housing 2, while at the bottom the conical spring surrounds a sleeve 12 of the base 7.

The functionality of this embodiment of the piezo button is exactly the same as the " basic version in Fig. 1, i.e. when the front wall 4 of the housing 2 is actuated, on the one hand a switching function of the piezo switching element 5 occurs and on the other hand the housing 2 experiences a stroke against the force of the conical spring. The conical spring has the advantage that it takes up very little space when pressed in.

In the exemplary embodiments shown, the piezo switching element 5 is arranged in a receiving housing 2. However, this is not mandatory. It is also conceivable in principle to mount the piezo switching element 5 directly in the housing 1 in a movable manner.

The advantage of the piezo button according to the invention is not only that it has a stroke, it is also vandal-proof and partially freeze-proof and liquid-proof. The stroke is lost when it freezes or sticks, but the button's function is not.

List of reference symbols

1 Housing 2 Housing 3 attack 4 Front wall 5 Piezo switching element 6 Back wall 7 Floor 8th Spring element 9 Sealing element 10 opening 11 Connection cable 12 Sleeve

Claims (9)

Expectations 1. Electric button with a piezo switching element (5) arranged in an outer housing (1), characterized in that that the piezo switching element (5) is assigned a spring element (8) for a mechanical stroke of the button when it is actuated. 2. Electrical button according to the preceding claim, characterized in that the mechanical stroke of the piezo switching element (5) can be carried out against the force of the spring element (8). 3. Electrical button according to one of the preceding claims, characterized in that the spring element (8) is a separate component from the piezo switching element (5). 4. Electrical button according to one of the preceding claims, characterized in that the spring element (8) is arranged behind the piezo switching element (5) as seen in the actuation direction of the piezo switching element (5). 5. Electrical button according to claim 4,
characterized, that a receiving housing (2) for the piezo switching element (5) is arranged in the outer housing (1) so as to be longitudinally displaceable, wherein the spring element (8) is supported between the outer housing (1) and the receiving housing (2) or the piezo switching element (5) located in the receiving housing (2). 6. Electrical button according to claim 5,
characterized, that the housing (2) for the piezo switching element (5) is designed in the manner of a tube with a closed upper end wall (4) as an actuating surface, whereby the piezo switching element (5) is arranged behind the end wall (4). 7. Electrical button according to one of the preceding claims, characterized in that a stop (3) is provided between the outer housing (1) and the receiving housing (2) for the piezo switching element (5) or between the outer housing (1) and the piezo switching element (5). 8. Electrical button according to one of the preceding claims, characterized in that a sealing element (9) is arranged between the outer surface of the receiving housing (2) and the inner surface of the outer housing (1) or between the outer surface of the piezo switching element (5) and the inner surface of the outer housing (1). 9. Electrical button according to one of the preceding claims, characterized in that the spring element is a cylindrical coil spring, a conical spring, a compressible mass or another medium that causes a return.