NL1015849C1 - Switching element with tactile message for electrical switches and probes. - Google Patents

Description

Switching element with tactile message for electrical switches and probes

The present invention relates to a switch element with tactile indication for electric switches and probes, for example short-stroke key switches or bell key switches, which consists of a housing part, with at least one first switching contact as well as one held on the housing part , by means of a handle or switch rocker actuable spring element, which forms or operates a second switching contact 10, which can be brought into contact with the first switching contact.

In the prior art it is known, for example, with push-button switches to provide switching elements in the form of silicone elements with contact parts, which are arranged in the corner areas, for example, with a brick-shaped, top view square push-button switch. The rocker switch allows individual contacts or two adjacent contacts to be operated. The silicone element ensures that the user 20 receives a tangible (tangible) message when operating the switch rocker, whether or not the switch point has been reached.

Such embodiments are very expensive, because in particular in side-point operation relatively large currents occur, so that the matching contact elements must be formed by gold contacts.

In order to make a cheaper solution for such a switching element available, it has already been proposed to provide a switching element in the form of a spring arm, wherein the spring arm has a deflection which runs against a mountain and valley contour of the housing, so that the desired tangible notification must be obtained. Such an embodiment is extremely expensive with regard to the spring element.

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Based on this prior art, the present invention has for its object to provide a switching element according to the preamble, which can be manufactured inexpensively and is extremely reliable. Furthermore, the element must have a small construction height and, depending on the area of application and according to the user's preference, produce little or no switching noise. Moreover, contacting may only take place after the tangible report. Simple and inexpensive installation must also be possible.

In order to achieve this goal, it is in principle proposed that the spring element consists of a molded part, which is clamped firmly to the housing on one side and which rests on a support part at a distance from the clamping point, so that the molded part is operated when the handle or rocker is operated. about the clamping point and pivoting the support part, the spring force increases to a fracture range, the contact state being set only after reaching the fracture area.

According to the present invention, a spring element in the form of a molded part is provided, which can be activated by actuating the handle or rocker against the spring force. The substantially rod-shaped molded part is supported on a support part during operation. This results in a relatively slow bending of the resilient molded part with a certain actuating force, wherein the actuating force increases. After a certain spring travel, the spring element breaks off, so to speak, so that the spring force decreases and, with the same operating force, a faster bending of the spring element takes place, until the spring element sits on the contact surface.

A preferred embodiment in this respect is seen in the fact that the spring element consists of a spring arm, the first end of which is clamped to the housing part and which has a trench-shaped cross-section, between the first end and the second end of the spring arm. a support part is formed on the housing part, on which the spring arm rests when the handle or rocker is operated.

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It is particularly preferred that the spring arm forms a trench shape open in the direction of the force acting on the handle or rocker, the second end of the spring arm being free and the second switching contact 5 forming or activating.

With such an embodiment of the spring arm in the form of a trench shape open in the direction of the acting force, it is achieved that when the spring element is actuated, a bending of the spring element first takes place while the trench shape slowly widens, so that the gradually increasing spring force is obtained. With a certain spring travel, the trench shape then opens through the support on the support part, so that the open trench shape is, as it were, resiliently flattened, so that under the same actuating force 15 a faster bending of the spring switching element to the contact surface then takes place. This embodiment provides a tangible message for the user, since he first detects the increasing spring force up to the break-off area when actuated and then notices the smooth running of the spring after the break-off point has been exceeded, until the contacting has taken place.

Despite this function, a small construction height of the spring element and thus of the entire construction part is obtained. It is also ensured that contacting only takes place after the tangible (tactile) notification. In addition, the matching spring element can be produced extremely simply and inexpensively and can be mounted just as simply and inexpensively.

An alternative further elaboration is seen in the fact that the spring arm forms a trench shape open towards the support fastening element, the second end rests on a support part of the housing part and between the support part and the support fastening element of the spring arm the second end switching contact forms or operates.

Preferably, it is provided that the trench shape of the spring arm is rounded flat.

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A further elaboration preferred under certain circumstances is seen in the fact that the support mounting element forms a flat bearing part for the spring arm oriented at right angles to the operating direction of the spring arm.

In such an embodiment, the breaking of the spring element in the region of the support fastening element takes place almost silently.

An alternative embodiment thereof is seen in the fact that the support mounting element forms a bearing surface for the spring arm, which is adapted to the cross-sectional shape or contact contour of the spring arm respectively.

According to this embodiment, it is achieved that a switching sound is acoustically audible at the interruption point, which is desirable for some applications.

In order to possibly further enhance the sound formation, provision may be made for the width of the bearing surface to be adapted to the width of the spring arm.

Examples of embodiments of the invention are shown in the drawing and described in more detail below.

In the drawing: figure 1 shows a schematic representation of a first embodiment in side view; figure 2 the same in operated condition; figure 3 shows the arrangement according to figure 1 in front view of an important detail; figure 4 shows the function position according to figure 2 in the view according to figure 4; figure 5 shows a variant in the view corresponding to figure 1; Figure 6 shows the variant in the function position according to figure 2; Figures 7 and 8 show the variants in the views according to Figures 3 and 4.

The drawing shows a switching element with tactile indication for electric switches and probes, for example short-stroke push-buttons or bell-push switches, 1015849 5, which consists of an approximately shell-shaped housing part with a first switching contact 3, which is for instance formed by a housing held on the housing , spring element 5 operable by means of a handle 8 or switch rocker 1, which forms a second switch contact or operates such a contact, which can be brought into contact with the first switch contact 3. The spring element consists of a molded part which is attached to a side, on the other side of the end shown in drawing figure 1 on the right, it is clamped securely and rests 10 on the support mounting element 2 'away from the clamping point, so that when the handle 8 or the rocker is actuated, the spring element 1 is pivoted to the clamping point and the edge edge of the support mounting element 21. The spring force thereby increases to a fracture area in which the spring bends against the support point. The spring element 1 can only be resiliently compressed to contact the contact surface 3 after the breaking area has been exceeded. In all embodiments, the spring element consists of a spring steel plate strip.

In the embodiment according to Figs. 1 to 4, the spring element 1 consists of a spring arm, the first end of which is clamped to the housing part and which has a trench-shaped cross section, as is particularly apparent from Fig. 3. Here, between the first end and the free end of the spring arm (spring element 1), the fastening element 2 'is formed on the housing part, on which the spring arm rests when the handle 8 or rocker is actuated.

According to the embodiment according to Figures 1 to 4, the spring arm (spring element 1) has an open channel shape F 'acting on the handle or rocker 8 in the direction of the handle, as shown in particular in Figure 3. The second end of the spring arm (spring element 1) is free and in the exemplary embodiment forms the second switch contact, which comes into contact with the first switch contact 3.

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In the embodiment according to Figs. 5 and 8, the spring arm (the spring element 1) forms an open channel shape in the direction of the fastening element 2 '' and of the first switching contact 3, as is apparent in particular from Fig. 7. The second end of the spring element 1 rests on a support part 9 of the housing part, wherein between the support part 9 and the support fixing element 2 '', the spring arm (the spring element 1) forms or operates the second switching contact, which can be fitted against the first switching contact 3 laid out. Preferably, the trench shape of the spring arm (of the spring element 1) is rounded, as can be seen from the illustrations according to figure 3 and figure 7.

The support mounting element 2 'and 21', respectively, can form a flat bearing part for the spring arm which is oriented at right angles to the operating direction F 'and 15' F '. Alternatively, the support mounting element 2 ', 21' or 9 can also form a bearing surface adapted to the cross-section of the spring arm (spring element 1) for the respective spring arm, wherein the width of the bearing surface can be adapted to the width depending on the desired effect. of the spring arm (spring element 1).

The spring element 1 concave shaped in cross section in figures 1 and 3, which rests on the counter-fastening element 2 ', is loaded by an F' when operated with the handle 8. Corresponding to the free collar length 5, a bending of the spring element 1 takes place, in which the spring force first increases from the position according to Figure 1, namely on the basis of the simultaneously spreading open spring, clarified by the force line arrow F'1. After realizing a force F ', which according to Figures 2 and 4 is equal to or greater than the breaking-off force, a bending of the spring element 1 takes place in the region of the edge side of the support fastening element 211, which in turn produces a softer and faster allows bending of the spring element, if a force increase would correspond to the force F ', until the spring element is placed at the free end on the first switching contact 3.

By changing the free support length 5, the lever arm changes, which in turn leads to a change in the force component F '. By changing the trench shape of the spring element 1 in accordance with the representation of the arrow 4 in Figure 3, the shearing force changes almost in the direction of the arrow F'1, which leads to a change in the acting force F '. This, and also by the design of the 10 support 2, makes it possible to carry out the switching process (termination process) silently or also with a lot of noise, so that, if desired, an acoustic signal accompanies the switching process.

In Figs. 5 to 8, the spring element 1 in cross-section 2 is formed quasi convex, as appears in particular from Fig. 7, wherein the free spring arm rests on the support mounting elements 2 '' and 9. When the spring element 1 is activated by means of the handle 8 or toggle rocker with a force F '' ', a bending of the spring element 1 takes place between the two support fastening elements 21' and 20, which first takes place slowly with an increase in the spring force, which again results from the transformation in the direction of the arrow F ''. This increase in force has ended when the spring element 1 bends on the support mounting element 2 ''. By further activation in the direction of the force arrow F '' 1, a bending of the spring element 1 takes place, until the spring element is in contact with the first switching contact 3.

The switching path is indicated at 7 in the figures. It has been found that an extremely flat constructed part with only a small switching path is provided.

Although the drawing shows an embodiment with only one spring element in the form of a spring arm, it goes without saying that a multiple arrangement can also be provided to a single element. The spring element may, for example, have a center part as fixed clamping possibility 1015849 8, from which several spring arms protrude, for example four spring arms in a direction offset by 90 ° from each other. This makes it possible to activate, for example, a switch or the like equipped with four switching contacts by means of a switching rocker, so that either the switching contacts alternatively or the adjacent switching contacts can be operated simultaneously. The operating principle according to the above description is maintained.

All features of the invention, as far as they are described or shown in the drawing, are considered essential to the invention.

For the rest, the spring element 1 can consist of any material, i.e., for example, of metal, steel, stainless steel, plastic or similar resilient material.

The trench shape can also be designed differently, for example U-shaped, W-shaped, V-shaped or the like.

- conclusions - 1015849

Claims (8)

1. Switch element with tactile indication for electrical switches and buttons, for example short-stroke key switches or bell button switches, which consists of a 5 housing part, with at least one first switching contact (3) as well as one held on the housing part by by means of a handle (8) or rocker-operated spring element (1), which forms or operates a second switch contact, which can be brought into contact with the first switch contact 10 (3), characterized in that the spring element (1) consists of a molded part, which is clamped to the housing on one side and rests on a support fastening element (2) at a distance from the clamping point, so that when the handle (8) or switching rocker is actuated, the molded part around the clamping point and the support fastening element ( 2) pivoted, the spring force increases to a fracture range, the contact state being set only after reaching the fracture region. Switching element according to claim 1, characterized in that the spring element (1) consists of a spring arm, the first end of which is clamped to the housing part and which is channel-shaped in cross-section, with between the first end and the second end of the spring arm is provided with a support fastening element (2) on the housing part, on which the spring arm rests when operating the handle (8) or switch rocker. Switch element according to claim 1 or 2, characterized in that the spring arm forms a trench shape open in the direction of the force (F ') acting on the handle (8) or switch rocker, the second end of the spring arm being free and the second switching contact forms or activates. Switch element according to claim 1 or 2, characterized in that the spring arm forms a trench shape open towards the support fastening element (2), the second end rests on a support part (9) of the housing part and between the 1015849 support part (2 ) and the spring arm support mounting element (9) forms or operates the second switch contact. Switching element according to any one of claims 1 to 4, characterized in that the trench shape of the spring arm is flat rounded. Switching element according to any one of claims 1 to 5, characterized in that the support mounting element (2, 9) forms a flat bearing part for the spring arm, which is oriented at right angles to the operating direction of the spring arm. Switching element according to any one of claims 1 to 5, characterized in that the support mounting element (2, 9) forms a bearing surface for the spring arm which is adapted to the cross-sectional shape or contact contour of the spring arm. Switching element according to claim 7, characterized in that the width of the bearing surface is adapted to the width of the spring arm. 1015849