DE102016101586A1 - Micro Signal Switches - Google Patents

Abstract

The invention relates to an electrical micro signal switch (1), which acts as a make. This microswitch (1) has in a receiving space (11) of the switch housing (10) at least two contact members (40, 50) and an electrically conductive spring contact element (30). The spring contact element (30) is provided as a contact bridge between the two contact members (40, 50), wherein by means of an actuating member (20) of the switching contact can be made. The electrical micro-signal switch (1) according to the invention is characterized by a small number of components with a simple construction of the micro-signal switch (1). Furthermore, it is advantageous that when providing a resistor which can be connected to a contact member (40, 50), a diagnostic function can be accommodated in the smallest possible space.

Description

The invention relates to a micro electrical signal switch, which acts as a make. This microswitch has at least two contact members and an electrically conductive spring contact element in a receiving space of the switch housing. The spring contact element is provided as a contact bridge between two contact members, wherein by means of an actuator, the switching contact can be made. The spring contact element is used after the circuit to reset the actuator.

Microswitches with compression springs are known. These usually serve as a return element after an actuation of the actuator and cause a movement of the actuator back from the operating position to the starting position. For the switching contact between at least two contact members, a separate contact bridge is provided. In addition, from the German patent DE 10 2008 037 312 B3 an electrical micro-switch is known in which is dispensed with an additional contact bridge, namely an electrically conductive coil spring is provided as a contact bridge. Here, the contact members are held one above the other in the direction of movement of the actuator and disposed between the contact members, the spring. Both the contact members and the spring are provided within the actuator in such a way that the spring makes contact between two contact members in the rest position of the actuator. This contact can be interrupted by a movement of the actuator, then the spring is pushed away by a contact member. This microswitch is only used as NC contact.

Object of the present invention is to provide an improved microswitch from a few components and with a simple structure available, with an application as normally open should be possible.

This object is achieved with an electrical microswitch with the features of claim 1. Advantageous embodiments describe the subclaims.

The new electrical microswitch comprises a switch housing with a receiving space in which at least two contact members and an electrically conductive spring contact element, preferably in the form of a compression spring, are arranged. The contact members protrude out of the switch housing as electrical connections. An externally operable actuator can be moved between a rest position and an actuated position. This actuator is guided in the switch housing and causes a switching contact of the spring contact element with one of the contact members. After actuation causes the spring contact element due to its spring force a return of the actuator, namely from the operating position back to the rest position.

The spring contact element is preferably a wound compression spring with two leg ends. One leg end, for example, the lower leg end, is connected to a contact member and the other leg end, for example, the upper leg end cooperates with another contact member.

The actuator is provided on its underside with a receiving body for the upper leg end of the spring contact element, whereby the upper leg end is pre-positioned. The upper end of the leg is located at the microswitch used as a normally open switch in the rest position of the actuator in a defined contact distance from the associated contact member, whereby upon actuation a switching contact is achieved at a defined switching point.

The actuator is guided with its receiving body in the switch housing, so that the upper leg end of the spring contact element is moved in the movement of the actuator in a defined path on a contact member to or from a contact member.

Is the upper leg end in the rest position of the actuator in a contact distance to the associated contact member, so causes a movement of the actuator in the direction of actuation, that this leg end is moved to the contact member and triggers a contact at the switching point. The contact distance between the leg end of the spring contact element and the associated contact member is chosen so that a defined switching point is achieved before completion of the movement of the actuator, the leg end undergoes an overstroke, namely pushed on further movement of the actuating element in a caster along the contact surface of the contact member and pressed securely.

In an advantageous embodiment of the invention, it is provided that the contact member interacting with the upper leg end, the active contact member, has a contact surface oriented obliquely relative to the actuating direction of the actuating member, so that upon movement of the actuating member and a co-movement of the upper leg end of this contact point after a defined switching point slides along the oblique contact surface of the active contact member and despite the turning of the leg end of the tortuous Spring contact element is pressed securely against the contact surface. Since the leg end begins to turn at the first contact pressure on the active contact member, the spring contact element is brought to a secure contact and sufficient contact pressure of the spring contact element on the active contact member already in the rest position of the actuator under a bias, namely the upper leg end twisted held in the receiving body , In the case of the micro-signal switch acting as a make contact, such a bias voltage ensures that the contact is not released again.

The lower leg end is connected to a contact member, the fixed contact, preferably fixed, for example via a non-positive and / or positive and / or material connection.

In an advantageous embodiment, haptic elements can additionally be provided in the switch, for example, on the housing or on the active contact member, which cause that upon actuation of the microswitch, d. H. during the movement of the actuator, the switching point is felt.

In a further advantageous embodiment, for safe contacting of the active contact member, the upper leg end of the spring contact element may be configured such that it has at least two contact points or two contact surfaces with the contact surface of the active contact member.

The electrical microswitch according to the invention is characterized by a small number of components with a simple design of the microswitch. It can be used as a make contact for various applications. In addition, it is advantageous that with the same components and an opener or changeover switch can be realized, only later during use of the microswitch switch by selecting the corresponding active contact elements. In an advantageous manner, a microswitch switch which can be used as a make contact makes contact after a short stroke of the actuating member and leads to a long overrun to secure contacting. The contact members can be simple stamped or bent parts.

The invention will be described below with reference to embodiments and the drawing. The invention is not limited to the embodiments. Show it:

1 a perspective view of a microswitch without two side walls of the switch housing,

2 a sectional view through the microswitch according to 1 .

3 a perspective view of the microswitch of 1 without housing,

4 a perspective side view of the microswitch according to 3 .

5a a perspective view of a spring contact element,

5b a perspective view of another spring contact element,

5c a perspective view of another spring contact element,

6 a perspective view of another microswitch without two side walls,

7a a perspective section of another microswitch with a haptic element,

7b a perspective section of another microswitch with a haptic element,

8th a perspective view of another microswitch without housing,

9 a perspective side view of another microswitch without housing,

10a a perspective view of another microswitch without housing with integrated resistor,

10b Circuit diagram for the execution according to 10a ,

The drawing shows different microswitches in the figures shown 1 , These are for the sake of clarity, each provided with the same reference numerals, as far as the same components, even if the components have different configurations.

The microswitches 1 Although not always shown, a switch housing 10 which is divided into two parts in these embodiments and a pedestal 13 as well as a top 12 includes with the side walls and the housing top. The housing top is from an actuator 20 in the form of a plunger, which from a bellows 25 is surrounded. Inside the switch housing 10 is a recording room 11 for the contact members 40 and 50 ,

The 1 shows a microswitch 1 that acts as a contactor. Here are in the recording room 11 two contact links 40 . 50 , namely the fixed contact 40 and the active contact member 50 this microswitch 1 intended. Both contact members 40 . 50 protrude from the switch housing 10 down as electrical connections 41 . 51 out. In these contact members 40 . 50 These are simple stampings in the base 13 of the switch housing 10 are stored. As a contact bridge between the contact members 40 . 50 an electrically conductive spring contact element acts 30 in the form of a compression spring. This spring contact element 30 owns, how better off 3 to see a lower leg 34 that with the solid contact 40 is firmly connected. In this case by a crimp connection. A solder joint would be possible in the same way. The upper part of the spring contact element 30 , in particular the upper leg end 33 , is made by one at the bottom of the actuator 20 provided receiving body 21 kept in position. How out 2 can be seen, the upper part of the spring contact element 30 in a direction of actuation X aligned receiving channel 22 of the recording body 21 added. The upper leg end 33 protrudes from the receiving body 21 laterally through a slot 23 out and will look like 4 can be seen at a contact distance A from the contact surface 52 of the active contact member 50 held. Advantageously, the upper leg end 33 of the spring contact element 30 not only in the actuator 20 prepositioned, but is guided by a guided movement of the actuator 20 in the direction of actuation X, shown in FIG 1 and 4 shifted along a predetermined path, namely in this case perpendicular to the active contact member 50 to, where already after a short distance a defined switching point is achieved. Because the actuator 20 a compared to this contact distance A much longer actuation path from the rest position to its operating position, ie in its end position, covers, learns the upper leg end 33 a caster and slides on the contact surface 52 of the active contact member 50 along. This is the upper leg end 33 of the spring-loaded spring contact element 30 screwed. For a secure contact and a sufficient contact pressure of the upper leg end 33 to ensure the active contact member is the upper leg end 33 already in the receiving body 21 of the actuator 20 pre-positioned under preload. In this example, the receiving body 21 at a predetermined location a slot 23 in its side wall, that of the upper leg end 33 is penetrated. In this way, the upper leg end 33 twisted against its spring force in this receiving body 21 of the actuator 20 positioned and a bias voltage can be achieved which is sufficiently large to actuate the actuator 20 for a safe contact with the active contact member 50 lead and sufficient contact pressure on the contact surface 52 this active contact member 50 exercise. After an operation, the actuator is 20 by the spring force of the spring contact element 30 moved back to the rest position. This provision is additionally provided by the provided bellows 25 supported.

When operating the microswitch 1 overcomes the upper leg end 33 of the spring contact element 30 in a planned path the contact distance A. For this purpose, a guide of the actuator 20 in the switch housing 10 intended. In the embodiment shown, the guide, as best of 2 to remove, with guide ribs 24 on the outside of the receiving body 21 realized. These guide ribs 24 each engage in a groove on two opposite sides of the switch housing 10 is provided and each of two vertically extending, ie aligned in the direction of actuation X, guide webs 15 are formed. Through the interaction of the guide ribs 24 on the receiving body 21 of the actuator 20 and the guide bars 15 of the switch housing 10 is the movement of the actuator 20 Predetermined in the direction of actuation X and thus also the web, which in the receiving body 21 held leg end 33 to overcome the contact distance A travels. In addition, the lower part of the spring contact element 30 from one at the base 13 of the switch housing 10 shaped dome 14 held from below into the spring contact element 30 intervenes. Advantageously, a microswitch is achieved with a symmetrical compression spring, which manages with a small number of components and a small contact distance A of the spring contact element 30 to the active contact element 40 has, switches at a defined switching point and by the overstroke and the sliding of the upper leg end 33 at the contact surface 52 ensures a secure contact. The large tail of the upper leg end 33 at the contact surface 52 is due to the obliquely aligned in relation to the operating direction X contact surface 52 achieved. Such an obliquely aligned contact surface 52 can easily in this stamped contact member 50 be achieved.

The 5a . 5b . 5c show further embodiments of a spring contact element 30 , The upper leg 33 has two contact points through appropriate turns 331 . 332 , please refer 5a , or three contact points 331 . 332 . 333 . please refer 5b , for a switching contact with the contact surface 52 of the active contact member 50 , so that a secure contact to the contact member 50 will be produced. In a further embodiment according to 5c can at the upper leg end 33 of the spring contact element 30 also be welded to a contact plate, so that two or more contact surfaces 334 . 335 of the spring contact element 30 with the contact member 50 result.

A lower leg end 34 is either fixed to the contact member 40 connected, as in 3 shown or integral with the contact member 40 trained, as in the 5a . 5b . 5c shown. In this case, the lower leg end protrudes 34 from the switch housing 10 out and the free end of the lower thigh 34 forms the electrical connection 41 ,

The 6 shows a further embodiment of a microswitch 1 , In this case are also in the switch housing 10 the contact members 40 . 50 housed and via a spring contact element 30 electrically connectable with each other. An actuation is effected by the actuator 20 in the actuating direction X. Again, the switching contact between the spring contact element 30 and the active contact member 50 by the movement of the actuator 20 causes, with the upper leg end 33 of the spring contact element 30 by the interaction of the actuator 20 and the switch housing 10 forcibly guided to the contact surface 52 of the active contact member 50 is moved to and along a designated path. In this case, the contact surface 52 of the active contact member 50 also obliquely to the confirmation direction X of the actuator 20 aligned. This oblique contact surface 52 is different from the first embodiment of 1 formed where a side wall of the contact member 50 was cut accordingly. In this example, turning is the contact element 50 achieved. Here forms the broad front surface of the contact member 50 the contact surface 52 , which from the upper leg end 33 of the spring contact element 30 is contacted and at which the leg end 33 along the trail, see the arrow. Also in this case is the microswitch 1 designed as a closer, ie upon actuation of the actuator 20 becomes the contact between the contact members 40 . 50 via the spring contact element functioning as a contact bridge 30 closed.

In most known micro signal switches is an actuation by means of the actuator 20 made to open or close a contact, without that such contact is perceived haptically when actuated. For microswitch applications where such sensing of contact is desired, haptic elements may be provided. These are on the switch housing 10 or on the active contact member 50 , preferably on the active contact member 50 arranged. The 7a shows for example a projection 53 at the obliquely aligned contact surface 52 of the active contact member 50 , Upon actuation, ie the movement of the actuator 20 , the upper leg end becomes 23 that in the slot 23 of the recording body 21 of the actuator 20 is prepositioned to this projection 23 the contact surface 52 moved and slides during the movement of the actuator 20 from the rest position in the actuating point on this projection 53 away at the contact surface 52 along, with the slide over the projection 53 is tangible. In the same way, instead of a projection 53 also a hollow 54 in the contact area 52 be provided as in 7b is shown. Such projections and troughs may also be on an active contact member 50 , as in 6 be shown provided.

On the other hand, a haptic element can also be found on the switch housing 10 be provided, for example in the form of a projection 16 , shown in 6 , Upon actuation of the actuator 20 jumps the upper leg end 33 from this housing-side projection 16 What is felt by the user.

As already described, the upper leg end is 33 of the spring contact element 30 in the receiving body 21 pre-positioned and twisted against its spring force and held under prestress. Upon actuation of the actuator 20 in the direction of actuation X is the upper leg end 33 further turned on. This means that the spring contact element 30 subject to bending and torsional stress at each actuation. By a special embodiment of the contact surface 52 of the contact member 50 can the stress of the spring contact element 30 be reduced. The 8th and the 9 show contact members 50 with a contact surface 52 , each in an obliquely oriented to the operating direction X area 52.1 and in a direction extending in the direction of actuation, that is oriented vertically in these figures, area 52.2 divided. Upon actuation, the spring contact element contacts 30 the sloping area 52.1 the contact surface, the grinding path of the upper leg end extends along this oblique region 52.1 , wherein the spring contact element 30 continues to be turned on. Shortly after the switching point, the grinding path then runs vertically, ie without an increase in the spring load. In embodiments of the microswitch 1 where the contact links 50 Such an embodiment of the contact surface 52 own, show the spring contact elements 30 a longer life.

Further particularly advantageous embodiment of a microswitch 1 show the 10a , Here is the switch housing for a better overview again 10 been omitted. In the execution of the microswitch 1 according to 10a it is a closer comparable to the version according to 6 , Again, the switching contact between the upper leg end 33 the spring contact element 30 and the active contact member 50 by the movement of the actuator 20 causes. In addition, there is a resistance in the circuit 70 provided in series, as the circuit diagram in 10b can be seen. This resistance 70 , z. As an SMD resistor is connected to the fixed contact 40 connected, for example via a solder joint or a welded joint, preferably by means of a laser, or via a clamping connection. By measuring the circuit, namely in particular a measurement of the size of the resistor, it can be determined whether a switching contact is present or not. In 10b the circuit diagram is shown where there is still no switching contact. The resistance is infinite. Thus, without a switching contact, a maximum value for the resistance is measured. If a switching contact is made, ie the circuit is closed, a resistance value corresponding to the resistance used is used 70 measured. The switching contact between the upper leg end 33 the spring contact element 30 and the active contact member 50 So, by measuring the resistance of the resistor 70 approved. These externally measurable resistance values can be used for a diagnosis and, for example, integrated into a software query. The use of SMD resistors enables a compact design of the microswitch 1 , ie a housing of a diagnostic function in the smallest space. The resistance 70 is in the examples shown on the fixed contact 40 intended. Conceivable are also embodiments in which the resistor connected in series 70 on active contact 50 is provided.

In all embodiments shown is a microswitch 1 made easy from just a few components. It is a compression spring as a spring contact element 30 used. Furthermore, it is particularly advantageous that only during assembly of the microswitch 1 must be decided on the contact, namely whether the microswitch 1 is to be used as a make contact, since only the active contact members 50 must be bent and mounted according to the application. In an advantageous manner, microswitches can also be realized as openers or switches, since such microswitches are connected to the previously described microswitches acting as make contacts 1 only differ by the number and design of the contact members. Therefore, it is advantageously possible in the assembly of the microswitch to decide whether the microswitch is to be used as normally open or normally closed or switch to mount the corresponding active contact members.

LIST OF REFERENCE NUMBERS

1

Micro Signal Switches

10

switch housing

11

accommodation space

12

top

13

base

14

Dom to the bracket 30

15

guide web

16

Projection on the housing,

20

Actuator, plunger

21

receiving body

22

Receiving channel for 30

23

Slot for 33

24

guide ribs

25

bellows

30

Spring contact element

33

leg end

331,332, 333

Contact points

334, 335

contact area

34

leg end

40

Contact member, fixed contact

41

connection

42

terminal receiving

50

Contact element, active contact / switching contact

51

connection

52

contact area

52.1

oblique area of 52

52.2

straight range of 52

53

head Start

54

trough

70

resistance

A

Contact spacing

X

operating direction

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008037312 B3 [0002]

Claims (13)

Electrical microswitch having a switch housing ( 10 ) with a receiving space ( 11 ), - with at least two contact members ( 40 . 50 ) in the recording room ( 11 ), each as electrical connections ( 41 . 51 ) from the recording room ( 11 protrude), - with an electrically conductive spring contact element ( 30 ) with two leg ends ( 33 . 34 ), wherein the spring contact element ( 30 ) as a contact bridge between two contact members ( 40 . 50 ) is provided, - with a movable between a rest position and an actuating position in an actuating direction (X) and in the switch housing ( 10 ) guided actuator ( 20 ), wherein the spring contact element ( 30 ) due to its spring force, a return movement of the actuator ( 20 ) causes from the operating position to the rest position, characterized in that - the actuating member ( 20 ) on its underside one in the switch housing ( 10 ) guided receiving body ( 21 ), which has the one, upper leg end ( 33 ) and in which this upper leg end ( 33 ) of the spring contact element ( 30 ) is held up biased, this prepositioning of the upper leg end ( 33 ) upon actuation of the actuator ( 20 ) a further tightening, unscrewing the spring contact element ( 30 ), that - the other, lower leg end ( 34 ) of the spring contact element ( 30 ) with a contact member ( 40 ) and - that the upper leg end ( 33 ) of the spring contact element ( 30 ) with another contact member ( 50 ) and in the rest position of the actuator ( 20 ) at a contact distance (A) from the active contact member (A) 50 ) is arranged. Microswitch switch according to claim 1, characterized in that for safe guidance of the actuating member ( 20 ) on the one hand the receiving body ( 21 ) on its outer side in the actuating direction (X) aligned guide ribs ( 24 ), which with several in the actuating direction (X) extending guide webs ( 15 ) which act on the walls of the switch housing ( 10 ), preferably on two opposite walls of the upper housing part ( 12 ) are provided. Microswitch switch according to claim 1 or 2, characterized in that the spring contact element ( 30 ) is provided in the form of a compression spring and the receiving body ( 21 ) a in the actuation direction (X) aligned receiving channel ( 22 ) for the upper part of the spring contact element ( 30 ) and preferably on the receiving body ( 21 ) a slot ( 23 ) for the prepositioning of the upper leg end ( 33 ) of the spring contact element ( 30 ) owns. Microswitch switch according to one of claims 1 to 3, characterized in that the spring contact element ( 30 ) is a wound compression spring and the lower part of the spring contact element ( 30 ) additionally from one in the base ( 13 ) of the switch housing provided dome ( 14 ) is held in position. Microswitch switch according to one of claims 1 to 4, characterized in that the lower leg end ( 34 ) with the fixed contact contact element ( 40 ) is firmly connected via a non-positive and / or positive and / or material-locking connection or of the same material as the fixed contact contact element ( 40 ) is trained. Microswitch switch according to one of claims 1 to 5, characterized in that the contact distance (A) to the active contact member ( 50 ) arranged upper leg end ( 33 ) of the spring contact element ( 30 ) by actuation of the actuator ( 20 ) in the actuating direction (X) in switching contact with this active contact member ( 50 ) can be brought, wherein the displacement of the actuator ( 20 ) is greater than the aforementioned contact distance (A). Microswitch switch according to one of claims 1 to 6, characterized in that the active contact member ( 50 ) is a stamped or bent metal part which has a contact surface ( 52 ), which is aligned obliquely to the actuating direction (X). Microswitch switch according to one of claims 1 to 7, characterized in that the spring contact element ( 30 ) with haptic elements on the housing or on the contact member ( 50 ), preferably the oblique contact surface ( 52 ) a haptic element in the form of a projection ( 53 ) on the contact surface ( 52 ) or a trough ( 54 ) in the contact area ( 52 ) owns. Microswitch switch according to claim 8, characterized in that the switch housing ( 10 ) a lead ( 16 ), from which the upper leg end ( 33 ) of the spring contact element ( 30 ) upon actuation of the actuator ( 20 ) is moved down noticeably. Microswitch switch according to one of claims 1 to 9, characterized in that the contact surface ( 52 ) an obliquely oriented to the actuation direction (X) area ( 52.1 ) and behind the possible switching point with the upper leg end ( 33 ) another area ( 52.2 ), which extends in the actuating direction (X). Microswitch switch according to one of claims 1 to 10, characterized in that the upper leg end ( 33 ) with several contact points ( 331 . 332 . 333 ) or contact surfaces ( 334 . 335 ) is formed so that it the contact surface ( 52 ) of the active contact member ( 50 ) contacted safely. Microswitch switch according to one of claims 1 to 11, characterized in that at a switching contact between two contact members ( 40 . 50 ), namely, when the circuit is closed, a resistance of a series resistor ( 70 ) is measurable, this resistance ( 70 ) preferably with a contact member ( 40 . 50 ) connected is. Microswitch switch according to claim 12, characterized in that the resistor ( 70 ) is an SMD resistor.

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