DE3703826A1 - Electrical thermal bimetallic switch - Google Patents

Abstract

An electrical thermal bimetallic switch having a contact spring 4, operated by a bimetallic snap-action disc 8 which is arranged on the contact spring 4 in holders. One end of the bimetallic snap-action disc 8 is plugged in a holder consisting of two lugs 10 and 11, which are constructed on the sides of the contact spring 4 and are bent inwards, and the other end is pivoted into a slot 13, which is open at one end, in the lug 14, which extends on the contact spring 4, transversely with respect to its longitudinal direction, and is upright. In order to protect the bimetallic snap-connection disc 8 against sliding laterally out of the slot 13 in the lug 14, a further lug 15 (which is constructed on the contact spring 4 and is adjacent to the open end of the slot 13) is raised in order to close said slot 13. <IMAGE>

Description

The invention relates to an electrical thermobi metal switch with the specified in claim 1 Characteristics.

It is known to actuate the contact spring electric bimetallic switch on their upper a bimetallic snap disc. For this are punched out of a metal sheet when the spring is punched out at the same time tabs on the spring to hold the Snap disc trained. After the vertical Raise the tabs and insert the snap between the tabs is done manually bend the tabs using a hand tool, that some play of the snap disk in the Tabs persists. Disadvantage of this manual process is that the shape of the reverse curved tabs from contact spring to contact spring varies. These variations make a difference Lichen switching temperatures of the contact spring, what un is desired.

Starting from known bimetallic switches above type it is an object of the invention the brackets of the bimetallic snap disc on the Redesign contact spring so that it is inside a series is subject to less fluctuation  Have switching temperature.

This task is solved by a contact spring with the features specified in claim 1. Before partial developments of the invention are counter stood the subclaims.

In the contact spring according to the invention, the bi metal snap disc only on both ends held the top of the contact spring. One of these Brackets is a cross to the longitudinal direction of the Contact spring extending in the area of the attachment hochge the contact spring on a carrier plate put tab that parallel to the contact spring, Open slot at one end to receive a End of the bimetallic snap disc has. Because of of this open slot it is possible to get one first End of the bimetallic snap disc in the in speaking distance opposite other Insert bracket and only then the other Swing the end into the open slot. First after that this slot is turned on by the other one the contact spring trained tab, which the open end of the slot is adjacent, ge closed by putting the tab up, so that the end of the bimetallic snap disc isn't there Lich can slide out of the slot.

In this procedure when attaching the bi  metal snap disk in the brackets on the Contact spring is the great advantage of the invention, because of any bending inaccuracies when raising the other tab not the geometry of the both machined with one tool Change the brackets of the bimetallic snap disc and thus without influencing the switching temperature of the Stay in contact.

The tab with the slot open at one end opposite other bracket can differ Lich executed, which affects the shape the bimetallic snap disc can affect, but not on the basic advantage of the invention that affects all variations of the other Bracket is retained. It is conceivable, this too more bracket than one from the contact spring form cut and raised tab and with a parallel to the contact spring, however closed slit for opening at both ends one end of the bimetallic snap disc see. The formation of this tab happens before partly at the same time as training against overlying tab, thereby producing the Contact spring is simplified and accelerated because there is no need for additional operations.

In this version, the two brackets  Bimetallic snap disc has these on both of them It is best to end them symmetrically narrower extension, and the slots of the Brackets that accommodate these extensions have a compared to the width of the bimetal snap disc less clear width. To this Way the bimetallic snap disc cannot Slide lengthways through the slots. The symmetrically designed extensions unite fold and accelerate the insertion of the bi metal snap into the slots because everyone Extension can be inserted into each of the two slots is. Advantageously, these two have fort set sloping flanks towards their ends, whereby the insertion process itself ver simple and therefore faster.

It is also conceivable that the further mounting of the Bimetallic snap disk from two of the long sides the contact spring outgoing tabs is formed, which to form a cable lug-shaped Ge are bent inward. In dependence of the length of the bimetal snap disc to be used can these two side tabs also on the Tip of the contact spring are formed.

Instead of this bracket formed from two tabs  The bimetallic snap disc can also be a tab cut out of the contact spring and into a opposite hooks bent be, which the edge of the snap disc on a Reaches around where it corresponds to the hook Has recess in which it can engage. The out formation of such a hook instead of two since Lichen, inwardly bent tabs simplifies this Method of making the contact spring and he enables the use of a, compared to the other types of brackets Bimetallic snap disc, simpler and therefore cheaper Tool.

Two embodiments of the invention are schematic shown in the attached drawing described below.

Fig. 1 shows the electrical bimetallic switch after removing the top of the housing in plan view;

FIG. 2 shows the longitudinal section through the switch from FIG. 1 along the line AA ;

Fig. 3 shows the cross section through the switch of Fig. 1 along the line BB and

Fig. 4 shows a further embodiment of a contact spring with a bimetallic snap disk arranged on it.

The embodiment shown in FIGS. 1 to 3 shows a bimetallic switch 1 , in the housing 2 on a support plate 3, a contact spring 4 is fixed to the electrical tab 5 in the areas 6 and 7 . On the contact spring 4 there is a bimetallic snap disk 8 with its one narrow extension 9 provided with inclined flanks in a holder at the tip of the contact spring 4 . The holder is formed from two lugs 10 and 11 bent in the shape of a cable lug. With its other, narrower extension 12 provided with inclined flanks, the bimetallic snap disk 8 is pivoted into a slot 13 open at one end of a tab 14 serving as a holder. Against the side of the extension 12 of the bimetallic snap disk 8 sliding out of the slot 13 , the latter is closed by a tab 15 which is raised to this end, as shown in FIG. 3. In Fig. 1 and 2, the tab 15 is not hochge provides for reasons of better understanding, but shown flat with the contact spring 4 .

The marked by hatching, applied on the underside of the carrier plate 3 and extending up to the top in the region 16 under the contact spring 4 electrical contact surface 17 has the be fixed to the carrier plate 3 in the region 18 be electrical contact tab 19th

As can be seen from Fig. 2, the contact spring 4 has a contact rivet 20 and a convex dent 21 , which strengthens the snap function of the bimetallic snap disk 8 for the jump of the contact spring 4 from the closed to the open position.

As a precaution, it should be mentioned that the housing 2 has no significance that is essential to the invention. The invention is equally applicable to bimetallic switches without a housing.

In the modified exemplary embodiment shown in FIG. 4, identical or mutually corresponding parts are designated by corresponding reference numbers.

Shown are a contact spring 4 'and a bimetallic snap disk 8 ', which can be arranged in the same way as in the first embodiment on a support and in a housing. Also in this embodiment, the raised tab 14 holds in the open at one end 13 the narrow extension provided with inclined flanks 12 of the bimetallic snap disk 8 'and likewise against the lateral sliding out of the extension 12 from the slot 13 this is closed by the raised tab 15 . The other end of the bimetallic snap disk 8 'is inserted with a recess 23 under a further tab 24 formed as a hook.

Claims (7)

1. Electrical thermal bimetallic switch with a contact spring, which is fastened at one end to an electrically insulating support and by an elongated bimetal snap disk, which is attached to its side facing away from the support and held on opposite edges with little play in the transverse and longitudinal directions of the spring is carried out, characterized in that

• a) for holding the snap disc ( 8 ; 8 ') on the contact spring ( 4 ; 4 ') extending transversely to the longitudinal direction of the contact spring ( 4 ; 4 '), raised tab ( 14 ) is formed, which is a contact spring ( 4 ; 4 ') has parallel, open at one end slot ( 13 ) for receiving one end of the snap disc ( 8 ; 8 ');
• b) that this tab ( 14 ), at a distance from each other, a further holder ( 10 , 11 ; 24 ) on the contact spring ( 4 ; 4 ') is formed, in which the opposite end of the snap disc ( 8 ; 8 ') is playable;
• c) that the one end of the snap disc ( 8 ; 8 ') against lateral sliding out of the slot ( 13 ) of the tab ( 14 ) by a further, on the contact spring ( 4 ; 4 ') formed and raised tab ( 15 ) which is adjacent to the open end of the slot ( 13 ) is secured.

2. Bimetallic switch according to claim 1, characterized in that the bimetallic snap disc ( 8 ) has a narrower extension ( 9 , 12 ) at each of its two ends, and that the slot ( 13 ) of the tab ( 14 ) receiving the extension ( 12 ) and the clear width of the holder ( 10 , 11 ) receiving the opposite extension ( 9 ) is smaller than the width of the snap disk ( 8 ). 3. bimetallic switch according to claim 2, characterized characterized that the extensions of the bimetal snap disk have inclined flanks. 4. Bimetallic switch according to one of claims 1 to 3, characterized in that the further mounting of the snap disk is a cut out of the contact spring ( 4 ) and raised tab with a parallel to the contact spring slot for receiving the relevant end of the snap disk. 5. Bimetallic switch according to one of claims 1 to 3, characterized in that the further mounting of the snap disc ( 8 ) by two from the long sides of the contact spring ( 4 ) outgoing tabs ( 10 , 11 ) is formed, which forms a cable lug-shaped structure inwards are bent. 6. Bimetallic switch according to claim 5, characterized in that the tabs ( 10 , 11 ) are at the tip of the contact spring. 7. bimetallic switch according to claim 1, characterized in that the bimetallic snap disc ( 8 ') has at one end a narrower extension ( 12 ) in the slot ( 13 ) of the bracket ( 14 ) forming a bracket that this slot ( 13 ) is smaller than the width of the snap disc ( 8 ') and that this tab ( 14 ) opposite from the contact spring ( 4 ') cut out another tab ( 24 ) and bent to a hook facing the opposite tab ( 14 ), which engages around the edge of the snap disc ( 8 ') at a point where it has a recess ( 23 ) into which the hook engages.