KR20100035126A - Electric switch - Google Patents

Abstract

PURPOSE: By using the guide element having nothing to do with the housing environment the electrical switch multiplies the accuracy of the position setting to tappet in the switching element. CONSTITUTION: An electrical switch(1) comprises the switch housing and actuator. Actuator is formed into the tappet. Functional with the switching element, especially, the micro switch(9), actuator is combined. The guide element is arranged between tappet and switching element. The guide element includes plug pins. The guide element has one guide rail(19). The guide element has one fold over bracket.

Description

ELECTRIC SWITCH {ELECTRIC SWITCH}

The present invention relates to an electrical switch having a switching housing and an actuator, said actuator being formed as a tappet and functionally coupled with the switching element.

The switch is used in electromechanical switching devices. A case will be mentioned, for example, used in position switches or safety switches.

In particular, electromechanical switching devices are also used to supervise the protective devices, for example safety doors or protective grids, or to supervise the operation of mechanical parts. In principle, switches of this type or tappets contained within the switches can be used wherever one or more switching elements can be actuated by an actuating movement, for example by a drive or actuated force. Can be used. Applicable areas will include safety technology, automation technology, building device technology and housing device technology. In addition, it can be considered to be used in vehicles, aircraft or ships.

Substantially such types of switches, in particular position switches and safety switches, consist of a switch housing having an actuator (and also represented as a drive) installed in the switch housing. The actuator is at least partly formed, for example, as a tappet or roller tappet and used for the mechanical manipulation of a switching circuit or switching element which is functionally coupled.

In the case of position switches and safety switches the switch housing is used to protect against environmental influences. At the same time the housing provides a mounting surface for the drive or drive head. The mechanical connection between the drive head and the switching element is realized by a tappet, which is supported to be axially displaceable in most of the housing and has two final positions. The first final position is the starting position or base position. The second final position is the maximum required final position.

Tappets are generally injection molded from plastic, lathed from metal or milled, or made from other materials.

Position switches are usually operated in the form of spring (s), usually by a number of restoring forces. Typically the recoil springs are in the drive head of the position switch, and the recoil springs, for example, move the revolving lever back to the non-operated position after activation. Other springs are generally known for driving the tappet back, which acts on the tappet as a result and thus affects parts of the drive head. Further restoring force is achieved by the back pressure spring, which affects the slide of the switching element. In addition, in some cases, the three resilience forces mentioned above accumulate more and inhibit the operation movement. The tappet, partly provided in the back pressure spring, limits the restoring force due to technical circumstances, and the backlash spring is omitted in the drive head because the structural shape of the back pressure springs of the switching element is required to be small. It is not possible. In addition, power conversion in the drive head continues to be a disadvantage.

In addition, setting the position of the back pressure spring around the tappet appears to be problematic because the back pressure spring can be dislocated from the drive head to mount the drive head. In addition, there is a risk that the drive head back pressure spring will hit the sealing devices, which are designed for the purpose of protecting the switch from environmental influences, in particular moisture, and there is no danger of damaging or even destroying the sealing devices. have. So-called thin films, for example, belong to the sealing devices.

Especially in the case of switching devices, the switching position of the external devices is queried by the tappet. In this case the position of the tappet is transmitted to the micro switch via a connecting link provided on the tappet, which is placed in the housing like the tappet. The electrical signal thus obtained is used for different functions. It is difficult to arrange the switching connecting link without tolerance in the actuator of the switching device. The reason is that the tolerances of the individual members are summed up in the part placement, so that the parts have to be manufactured with correspondingly accurate and high cost to meet the accuracy requirements for the switching points.

It is therefore an object of the present invention to provide an electrical switch which minimizes the series of tolerances between the actuator and the switching element.

This object is achieved by an electrical switch having the features of claim 1. Preferred embodiments and refinements which can be used individually or in combination with each other are the subject of the dependent claims.

The electrical switch according to the invention has a switch housing and an actuator, which is formed as a tappet and functionally coupled with a switching element, in particular a micro switch. The present invention is characterized in that the guide element is arranged in the form of a guide clamp between the tappet and the switching element. As a result, the tappet is not guided through the receptacles in the housing as so far but is additionally guided through a component that is independent of the housing and installed directly on the switching element. Thus, the tappet is guided directly to the actuator of the switching element, thereby reducing the series of tolerances. The material of the guide element, which can also be expressed as a guide clamp, can be specifically tailored to specific conditions such as wear, slip characteristics, size accuracy, stiffness.

If the guide element has at least one plug pin, the advantage is that the plug pin can be plugged into a receiving opening provided for the switching element in the switching element. Thereby the guide element is fixedly connected to the switching element. The fixed positioning of the switching element on the circuit board through the plug pin of the guide element ensures that the switching element always has the same fixed position with respect to the tappet even under external influences such as vibration.

In addition, when the guide element has a guide rail, it is preferable to mount the tappet in the guide rail. The tappets are aligned as defined by the guide rails in the downward motion as well as in the upward motion, so that the external influence does not change the position of the tappet.

It is also preferred that the guide rail has a fold-over bracket. By placing the fold over bracket above the guide rail, the tappet is firmly fixed between the guide rail and the fold over bracket and cannot be disengaged from the guide rail.

Otherwise, the guide element preferably has spacers. The spacers allow the guide element to be securely fixed in the housing of the switch and the fixed positioning is maintained even in vibration.

It is also preferable that the base body of the guide element has a Z shape. The Z-shaped base body prevents the guide element from escaping between the tappet and the switching element.

It is also desirable to implement the guide element flat, since this flat implementation can be installed simply.

The present invention increases the accuracy of the positioning from the switching element to the tappet by using a guide element independent of the housing environment. This leads to simple mounting and low manufacturing costs, since the precise positioning of the parts with each other is only guaranteed through the guide element. In addition, the advantage is that optimal material selection of the friction partners, namely tappet and guide element, can be made independent of the housing.

Further advantages and embodiments of the present invention are described below with reference to the embodiments and the drawings.

1 shows an electrical switch 1 known in the art. The electrical switch 1 has a housing upper section 2, which is secured to the outer housing 4 via a fixing element 3. The guide unit 5 projects from the housing upper section 2 into the housing, in which the tappet 6 is located. The electrical switch 1 is placed on a protective device (not shown), preferably on a cover, in which case the switch 1 and the protective device are snap hooks 7 when the starting process starts. Functionally combine with each other through The snap hook 7 is likewise functionally coupled with the tappet 6, which actuates the microswitch 9 via the spring elements 8 during the actuation process. The transfer from the tappet 6 onto the spring elements 8 takes place via a projection 10 similar to the hook on the tappet 6. The micro switch 9 has connection elements 11 for circuit boards. In addition, a plug connection 12 and further electrical components 13 are arranged in the electrical switch 1.

2 shows an electrical switch 1 with a first embodiment of a guide element 14 according to the invention. The guide element 14 has two support surfaces 15, 16 in its first refinement, and the two support surfaces are connected to each other via a spacer 17, whereby the guide element 14 is entirely Z-shaped. Is formed. The support surface 15 of the guide element 14 is disposed between the tappet 6 and the circuit board 18. The support surface 15 is bounded by a guide rail 19, with the tappet 6 extending long on the guide rail. The spacer 17 disposed adjacent to the guide unit 5 performs an additional guide function. The support surface 16 is disposed across the circuit board 18 and overlies the micro switch 9. Spacers 20 are disposed on the lower surface of the support surface 16.

3 shows an electrical switch 1 with a second embodiment of a guide element 14 according to the invention. The second embodiment has a substantially flat support surface 21 which is again bounded at the tappet 6 by a guide rail 22. The flat support surface 21 is disposed across the circuit board 18 and overlies the micro switch 9. Spacers 22 are disposed on the lower surface of the support surface 21.

In FIG. 4, the Z-shaped guide element 14 is shown in plan view and in FIG. 5 is rotated about 180 °. In addition, the Z-shaped guide element 14 having the support surfaces 15, 16 and the spacers 17 as connecting elements preferably has two plug pins 23, the two plug pins being the micro switch 9. By connecting into hole elements provided for the plug pins in the guide element 14, the guide element 14 is fixedly connected to the micro element 9.

In FIG. 6, a flat guide element 14 is shown in plan view and in FIG. 7 in a view rotated about 180 °. In addition, the flat guide element 14 with the flat support surface 21 and the guide rail 22 preferably has two plug pins 25, the two plug pins being the plug pins in the micro switch 9. By inserting into the hole elements provided for the purpose, the guide element 14 is fixedly connected to the micro element 9. The flat guide element 14 also has a guide bridge 26 opposite the guide rail 22, which guides the tappet 6 securely between the guide rail 22 and the guide bridge 26. Used for

FIG. 8 shows the Z-shaped guide element 14 in the embodiment of FIG. 4 or 5, in which case the guide rail 19 preferably has an L-shape with a stop pin 28. A fold over bracket 27 is arranged and the stop pin is located in a latching unit 29. The latching unit 29 is provided below the support surface 16.

9 likewise shows the Z-shaped guide element 14 in the embodiment of FIG. 4 or 5, in which case the guide rail 19 preferably has a fold-over bracket 27 with a stop pin 28. And the stop pin is located in the latching unit 29. The latching unit 29 is arranged in the lug 30 between the spacers 17.

In Fig. 10 a flat guide element 14 is shown without a guide rail 22, where the pin 31 performs the guide function. The guide element 14 has a triangular base, in which case one pin 31 is arranged on one side and two plug pins 25 for the microswitch 9 on the other. .

11 shows a guide element 14 with a guide rail 22, which has two plug pins 25 for the microswitch 9 opposite the guide rail 22.

The present invention increases the accuracy of the positioning from the switching element to the tappet by using a guide element independent of the housing environment. This leads to simple mounting and low manufacturing costs, since the precise positioning of the parts with each other is only guaranteed through the guide element. In addition, the advantage is that optimal material selection of the friction partners, namely tappet and guide element, can be made independent of the housing.

1 is a schematic cross-sectional view of an electrical switch known in the prior art,

2 is a view schematically showing a perspective view of an electric switch having a first embodiment of a guide element according to the present invention,

3 is a view schematically showing a perspective view of an electric switch having a second embodiment of a guide element according to the present invention;

4 is a schematic view showing a perspective view of a Z-shaped guide element in a plan view,

5 is a view schematically showing the perspective view of the guide element according to Figure 4 by rotating about 180 °,

6 is a schematic illustration of a perspective view of a flat guide element in a plan view,

7 is a view schematically showing the perspective view of the guide element according to Figure 6 by rotating about 180 °,

8 is a schematic perspective view of a Z-shaped guide element having a fold-over bracket,

9 is a schematic illustration of a perspective view of a second embodiment of a Z-shaped guide element with a fold-over bracket,

10 is a schematic illustration of a perspective view of a flat guide element without a guide bridge,

11 is a schematic illustration of a perspective view of a flat guide element with a guide bridge.

Claims (7)

Electrical switch 1 having a switch housing and an actuator, The actuator is formed of a tappet 6 and is functionally coupled with a switching element, in particular a micro switch 9, Characterized in that the guide element 14 is disposed between the tappet 6 and the switching element, Electrical switch. The method of claim 1, Characterized in that the guide element 14 has plug pins 24, 25, Electrical switch. The method according to claim 1 or 2, The guide element 14 is characterized in that it has one guide rail (19, 22), Electrical switch. 4. The method according to any one of claims 1 to 3, The guide element 14 is characterized in that it has one fold over bracket 27, Electrical switch. The method according to any one of claims 1 to 4, The guide element 14 is characterized in that it has spacers 17, 23, Electrical switch. 6. The method according to any one of claims 1 to 5, The guide element 14 is characterized in that it has a Z-shape, Electrical switch. 7. The method according to any one of claims 1 to 6, The guide element 14 is characterized in that it is formed flat, Electrical switch.

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