DE3733800A1 - Electrical switch, especially a snap-action switch - Google Patents

Abstract

A snap-action switch has a guide, which is arranged in a switch housing, for a push rod which can be moved in order to operate the switch, and has at least one switching tongue whose end facing associated contacts is held in a bearing and which can be moved to bear against an associated contact by the tension of a spring, which pulls approximately in the longitudinal axis of the switching tongue and the direction of whose tension effect changes during movement of the push rod. One bearing is arranged on each of the two sides of the guide, the bearings being electrically isolated from one another. Mutually isolated armatures (anchors) are arranged on the push rod as opposing bearings (abutments) for in each case one spring of a switching tongue. Two circuits can be switched independently of one another by means of a snap-action switch constructed in such a manner.

Description

The invention relates to a snap switch, with in one Switch housing arranged guide for a purpose switch actuation movable push rod and with at least one Switch tongue, whose assigned contacts have the opposite end in a camp is held and by the tension of about spring pulling in the switch tongue longitudinal axis, the tension effect direction changes with movements of the push rod, to the on can be brought to an assigned contact.

Snap-action switches of the type described above can be small Most dimensions are produced and are known as Microswitches known, of which despite the slightest structural Ab measurements high operational reliability and precise and quick Switching movements of the shift tongue is required. Doing so the arrangement of the switching tongues and springs as well as the guides for the push rod to maintain certain minimum dimensions conditions that can hardly be undercut.

At acquaintances Snap switches, the switching tongues two switching positions take and depending on the connection of the contacts with the circuits of electrical devices the desired radio switch positions. For this purpose, the microswitches have contacts that  with solder tabs, pins led out of the switch housing or the like connections are connected. Everyone knew te snap switches, which are dimensioned as Mi microswitches are designed, switch on when the switch is actuated ne power supply to one or more power outlets. Consequently only one circuit is possible.

The invention has for its object one as a so-called so called microswitch insertable snap switch form that without affecting operational safety and Switching precision the switching of two separate circuits is possible with a single switch actuator.

This object is achieved in that on the other hand, a bearing for an assigned shift tongue is arranged, the bearings electrically from each other are separated and that on the push rod separate from each other Anchor as abutment for one spring of a shift tongue are arranged.

Due to the mutual electrical separation of the bearings each switch tongue of the snap switch according to the invention as Switching element in a respective assigned circuit be set. Each of the camps can be supplied with a corresponding arranged connecting tongue in a circuit where at, depending on the switch position, the current over the bearing and over the shift tongue on one of the shift tongue assigned Contacts can be placed. When the switch is actuated by Movement of the push rod can thus completely switch two circuits  can be switched independently.

According to a further training it is provided that each camp as a notch in a protruding from the switch housing final tongue is formed. This will decrease of the components achieved because of special measures for connection of the switch tongue bearing with the corresponding connection not to connect to the appropriate circuit are required.

Furthermore, the snap scarf according to the invention is distinguished ter characterized in that the connecting tongues parallel to each other are ordered, and that facing surfaces of the im Switch housing received sections of the connecting tongues Form the side walls of the guide. The connecting tongues meet there with advantageously both the function of the bearings for the switching tongues as well as the function of a guide for the Push rod, the flyover when the switch is actuated of the switching tongues from one switching position to the other works. This is without affecting operational safety and switching precision, the design effort of the snap scarf ters further reduced.

To cause the switching movements of the switching tongues Change in the direction of tension of the springs during a movement to reach the push rod, that is from the shift tongues end of each spring is articulated on the push rod. These The arrangement corresponds to that of known snap switches chen construction. The circuits for separate circuits  necessary electrical separation of the switching tongues is invented achieved in accordance with the fact that each switching tongue has its own Spring is associated with each spring individually on the thrust rod is to be hinged. To implement this measure is after a development of the snap scarf according to the invention ters provided that the push rod has an opening and that each anchor for a spring is transverse to the longitudinal axis of the Push rod arranged to extend through the opening the bolt is. The opening is slit-shaped with the particular advantage that side diaphragm walls too contribute to a safe guiding of the spring, whereby by the special orientation of extending across the breakthrough extending bolt on which the springs are articulated full rotation of the springs around their bolts Anchor when the push rod moves in the guide preserved.

Measures are taken to ensure electrical isolation men to isolate the anchors, which consist in that the push rod at least in the guided on the connecting tongues Area and in the area of the breakthrough from electrical not conductive material. The total is expediently connecting rod made of non-conductive material, e.g. Plastic, produced. Plastics can be particularly advantageous are used, which are characterized by improved sliding properties for the push rod within the guide nen.  

To improve the switching precision is still pre see that each bearing the assigned foot area of the th switching tongue between the receiving guide pieces.

In order to achieve that when the switch is actuated, i.e. when ver push the push rod a defined switching with the Switch tongues occur, that is, at a certain sliding position of the push rod only a certain Schaltzun ge of the switching tongues executes the switching movements is after Another training provided that the camp in Bewe direction of the push rod offset from each other are not. This is a function of the invention Switch possible as a so-called sequential switch.

An embodiment of the invention from which knows tere inventive features are shown in the drawing posed. Show it:

Fig. 1 is a side view of the snap switch in section and

FIG. 2 shows a detail of the snap switch according to FIG. 1 in section along the line II-II in FIG. 1.

In Fig. 1, a snap switch is shown in a side view in section. The switch housing 1 consists of egg ner housing base 2 and a housing cover 3rd In the housing base 1 Upper contacts 4 and 5 and gegenüberste rising bottom terminals are each held 6 and 7, from out of the switch housing 1 led out in a conventional construction parts terminals 8, 9, 10 and 11 are the connection of the electrical Ver to corresponding Serve circuits in electrical devices. Approximately in the middle of the switch housing 1 , an actuating plunger 12 is held on the housing cover 3 with a plunger bellows 13 made of flexible material, which engages positively with a plunger foot 14 located on its underside te in a blind opening 15 on the upper end face of a push rod 16 . The push rod is guided vertically in a guide 17 which is formed by corresponding surface areas 18 (see also FIG. 2), which are worked into the housing cover 3 and the housing base 2 , and is formed by connecting tongues 19 and 20 which are held in the housing base and project downwards . With 21 and 20 bearings are designated, which are formed here as notches 122 and 123 formed in the connecting tongues. With 23 and 24 switching tongues are designated, which are freely rotatably supported with the edges of their rear ends 25 and 26 in the notches, the switching tongues being drawn into the bearings 21 and 22 by prestressed springs 27 and 28 . The push rod has a slot-shaped opening 29 through which serving as an anchor for the springs 27 and 28 Bol zen 30 and 31 extend.

In the guide 17 there is a spiral compression spring 32 below the free end of the push rod, which is deflected when the plunger 12 is pressed from above, by means of which a pushing movement of the push rod 16 in the guide 17 downwards is effected. In this case, the bolts 30 and 31 serving as anchors for the feet 27 and 28 move downward, where the springs 27 and 28 are deflected at the same time. As soon as the bolts 30 and 31 serving as an anchor for the springs have come under the position of the bearings 21 and 22 for the switching tongues 23 and 24 , the switching tongues are pulled downwards, in the bearings in a second indicated here by dashed lines Switch position are transferred, in which the thickened end head of each switching tongue is brought from its previous system to the upper contacts 4 and 5 to the system to the sub contacts 6 and 7 .

Since the bearings 21 and 22 are offset from one another with respect to the displacement path of the push rod 16 , as shown in FIG. 1, when the plunger 12 is depressed, there is first a switching movement of the switching tongue 23 and then after white depression, only a switching movement of the switching tongue 24th

With 33 and 34 on both sides of the bearings 21 and 22 angeord designated guide pieces that between the Fußbe rich record the associated switching tongues and which serve an improved lateral guidance of the switching tongues during their switching movements.

FIG. 2 shows a partial view of the snap switch according to FIG. 1 in a sectional view along the line II-II in FIG. 1. The same components are provided with the same reference numbers. Fig. 2 shows in particular the slot-shaped configuration of the opening 29 and the arrangement of the bolts serving as an anchor for the spring, of which the bolt 31 is visible here.

Claims (7)

1. Snap-action switch, with a guide arranged in a switch housing for a push rod that can be moved to actuate the switch, and with at least one switching tongue, the associated contacts of which are held in a bearing and the spring pulling the voltage in the longitudinal axis of the switching tongue, the direction of the tension action changed when the push rod moves, can be brought into contact with an associated contact, characterized in that a bearing ( 21 , 22 ) is arranged on each side of the guide ( 17 ), the bearings ( 21 , 22 ) being electrically separated from one another, and that on the push rod ( 16 ) from each other separated armature as an abutment for each spring ( 27 , 28 ) of a switching tongue ( 23 , 24 ) are arranged. 2. Snap-action switch according to claim 1, characterized in that each bearing ( 21 , 22 ) is designed as a notch ( 122 , 123 ) in a connecting tongue ( 19 , 20 ) projecting from the switch housing ( 1 ). 3. Snap-action switch according to claim 1 and / or 2, characterized in that the connecting tongues ( 19 , 20 ) are arranged parallel to one another, and that mutually facing surfaces of the sections of the connecting tongues received in the switch housing ( 1 ) have side walls of the guide ( 17 ) form. 4. Snap-action switch according to one of claims 1 to 3, characterized in that the push rod ( 16 ) has a breakthrough ( 29 ) and that each anchor is arranged transversely to the longitudinal axis of the push rod ( 16 ), through the breakthrough ( 29 ) extending bolt ( 30 , 31 ). 5. Snap-action switch according to claim 4, characterized in that the push rod ( 16 ), at least in the tongues at the connection ( 19 , 20 ) and in the area of the opening ( 29 ) made of electrically non-conductive material. 6. snap switch according to one of the preceding Ansprü surface, characterized in that each bearing ( 21 , 22 ) has the ge-stored foot area of the associated switching tongue ( 23 , 24 ) since Lich between receiving guide pieces ( 33 , 34 ). 7. Snap-action switch according to one of the preceding claims, characterized in that the bearings ( 21 , 22 ) are arranged offset from one another in the direction of movement of the push rod ( 16 ).