DE3711666A1 - TEMPERATURE SWITCH - Google Patents

Abstract

The invention proposes a thermostat having a support supporting at least two connections, a moving contact (supported by an elastic connecting member operated by a bimetallic strip) being electrically connected to one connection and a stationary mating contact being electrically connected to the other connection, and it being possible to connect a low-resistance connection of the contact to the mating contact, under the influence of a small bimetallic plate, in which a block-shaped retaining part (19) rests with a resting surface (21) on at least one side of the support, in that a switching member (24), supporting the contacts or a contact (16), rests on the surface opposite the resting surface, at a distance from the support (2) and in that rivet structures (9, 27), for solid riveting of at least one contact (14, 16) or the switching member (24), are constructed on the retaining part (19). <IMAGE>

Description

The invention relates to a temperature switch with a min at least two connectors carrying carriers, with one to include a bimetallic elastic connector the movable contact and with the other Connection a stationary counter contact is electrically connected and the contact under the action of a bimetallic plate with the mating contact to close a low-resistance connector can be brought into contact.  

Such so-called open switches are in various ways design known. So that can support the moving contact de elastic connector itself made of bi-material or, as is even more the case with younger designs is, and a separate bimetallic plate is present that the Link for switching the movable switch contact acted upon. Furthermore, the switch cannot be a so-called clocking switch to be formed in parallel to the switch baren electrical connection from a connection via a Contact, the counter contact to the other connection is a high-resistance, heat generating resistance is provided, for example in Form of a thick film resistor, a PTC element or the like, which is subsequently applied to the carrier or in another way on an existing scarf ter is provided or attached as an additional part. The known carriers have complicated shapes, on the one hand to carry the circuit diagram in a suitable manner, on the other hand ge if necessary, recesses or other configurations for to provide the additional high-resistance. If the Carrier is a ceramic part, so this must first as such formed by pressing and then sintered. this leads to that these individually shaped and sintered compli graced carrier parts are quite imprecise and large tolerances require either post-processing or adjustments required are. For example, such ceramics Carrier parts reworked with diamond discs, which in turn are expensive. Alternatively, the carrier parts from ge suitable thermosets exist. Then they are true to size producible, but do not have the disadvantage more sufficient thermal resistance. In addition, these show Duro inflated a bad expansion behavior, which is due to Be fortifications and rivets acts in such a way that damage can occur. Switches with carrier parts made of thermoset therefore only usable at low temperatures. In both before Cases mentioned are connections and contacts, in particular  the connecting part for the moving contact directly with Rivets riveted to the carrier part. If the rivet is stationary Forming counter contact to a moving contact loosens the rivet due to the different temperature expansion behavior of the carrier and the rivet, this in turn can higher contact resistances from the contact surface of the con Tact rivets to the connection tab riveted through this lead, which in turn leads to an additional stronger Er warming results.

The invention has for its object a switch Generic type to create the aforementioned problems avoids and in particular a precise attachment of the switch works, especially coordination of mobile contact and ge gene contact, the movable contact-carrying link and possibly additional active switching element without after machining and readjustments for high temperature resistant Switch enabled.

According to the invention, the stated object is achieved with a switch of the type mentioned in that at least one side of the carrier a block-shaped holding part with a Contact surface rests that against that on the contact surface overlying area of one of the contacts or a contact load-bearing switching element rests at a distance from the carrier and that on the holding part integral rivet designs for fixed riveting least a contact or the switching element are formed. From the fact that from the entire design according to the invention it follows that the block-shaped holding part the corresponding Connects contact with the associated connecting element, follows that the holding part itself is electrically conductive. It therefore preferably consists of a suitable metal and is formed as a rotating part on which the mounting pins for Attachment of connector, contact or such a tra the connecting part are formed by means of rivets. He  According to the invention, there is therefore a separate one in addition to the carrier Pre-holding part for the corresponding elements of the switch see, but with the rivets and one piece directions for fixing the elements mentioned using rivets are trained. With the holding part according to the invention therefore, the accuracy requirements are removed from the wearer while the holding part used according to the invention is dimensionally high temperature-resistant part.

The object of the invention designed in this way now offers advantageously the ability to wear the carrier in one completely rectangular and therefore simple outer contour to build. The carrier can consist of a carrier plate or several stacked carrier plates cuboid Form be formed. In any case, such cuboid configuration of the carrier during its manufacture made of alumina ceramic in the following way who den: It becomes a large-area plate made of aluminum oxide kera mik pre-pressed, from which the cuboid carrier parts punched out and sintered. This process is expensive worth it, it doesn't have to be the individual parts in their complicated Form are pressed, as is the case with the prior art is, but simple flat plates are made that can be manufactured much more dimensionally. These cuboid or plate-shaped parts also have one Shrinkage, but this can be taken into account with sufficient accuracy. In particular, there are no curvatures as with complicated shapes men with surveys and in-depths that are in the prior art be used on. Carrier parts made of aluminum oxide ceramic are hard and have good thermal conductivity.

PTC elements are oxide ceramic resistance elements that are used in the Are usually designed as cuboid plates. The invent Solution according to the invention therefore creates the possibility of the carrier to be made from PTC material, or, if more than one  Layers are present, one of the layers of PTC material to manufacture. It is avoided that if the two Connections next to the actual rear derailleur by a high ohmic resistance can be bridged, separate here additional complicated devices with clamping devices or the like must be provided. It turned out posed that when using PTC material as a carrier a plate thickness of 2 mm is completely sufficient for one to form a sufficiently stable support. It can be invented inventive design of the switch also previously gene that be alumina ceramic with PTC material be layers and sintered together as well as suitable metal Listings are provided.

In a further preferred embodiment it is provided that the Bimetal plate directly on the surface of the holding part lies and from a wider section of a rivet attachment is penetrated, the height of the wider portion of the Rivet attachment is penetrated, the height of the wider Ab Cut the rivet attachment at least the thickness of the bimetal disc matches, while the connecting link on the porridge lower heel of the rivet attachment and a thinner ab cut surrounding it. This ensures that Bimetallic papers directly with a separate one elastic connector are fixed and riveted can without it adversely affecting its attachment is jammed, which affects its switching behavior would be pregnant (for example, DE-GM 86 25 990). To avoid This last disadvantage has already been proposed that small on the connecting links carrying the contact Tabs are provided under which the bimetal plates can be arranged (for example EP-OS 58 372). This Ausge Events had the disadvantage that the complicated Hooks had to be provided, which are easily damaged. In a further training it is provided that the connections  Carrier and possibly the holding part laterally by means of At least partially grasp the tabs. This will create a relative definition of the individual parts before the final one Attachment achieved by riveting and thus this easier.

Further advantages and features of the invention result from the claims and from the following description in which an embodiment of the switch according to the invention Reference to the drawing is explained in detail. Here shows

Figure 1 is a side view of the preferred embodiment form of the switch.

Fig. 2 is a plan view of the switch of Fig. 1;

Fig. 3 is an end view corresponding to the arrows III-III; and

Fig. 4 is an end view corresponding to the arrows III and IV in Figs. 1 and 2.

The illustrated embodiment of the scarf age 1 according to the invention has a flat cuboid carrier 3 made of insulating material or high-resistance material. Preferably, the carrier 2 is made of hard aluminum oxide ceramic, which has good thermal conductivity. If the switch is to be designed as a non-clocking switch, the carrier 2 can itself consist of a suitable PTC material.

In the illustrated embodiment, the carrier consists of two carrier plates 2 a and 2 b , one of which ( 2 b) has a fastening attachment 2 c since having union openings 3 . Instead, the carrier 2 could also be formed in one piece in the form of a one-piece cuboid. In addition, the attachment lug 2 c on the carrier 2 can be omitted if in a suitable manner to fix the switch 1, ge is taken care of, for example by suitable, the opening 3 corresponding fastening openings at the terminals 4, 6 of the switch (not shown here).

At both ends 7, 8 , the connections 4, 6 are fixed by rivets 9, 11 protruding through the carrier 2 . The terminal 6 monitors the rivet 11 and carries on its end 12 facing the end 13 a stationary counter contact 14 for a movable contact 16 of the switch 1 . The connection 6 also has lateral, at least partially around the carrier 2 tabs 17 , through which a certain fixation before the riveting is effected by means of the rivet 11 , so that the riveting process is facilitated. The terminal 6 is flat from the counter contact to its terminal end 12 , but could instead be crimped, similar to how the other terminal 4 is crimped by means of a crimping upwards. In any case, it is desirable that the two connections 4, 6 lie in one plane. The connection 4 is basically fixed on the support 2 via the rivet pin 9 projecting through the support 2 in the same way as the connection 6 . The rivet pin 9 is integrally formed on a block-shaped holding part 19 which rests on the side 2 of the carrier on which the stationary counter contact 14 is also arranged. In the present case, this is the top of the carrier 2 , the side of the carrier 2 opposite the rivet area of the connection 4 . The block-shaped holding part 19 lies with its lower bearing surface 21 on the support 2 and carries on its surface 21 opposite the bearing surface 22 a bimetal plate 23 and above this an elastic, the movable contact 16 carrying link 24 in the form of a flat spring. Bimetal plate 23 and connecting member 24 are riveted to the pot-shaped holding part 19 by a rivet head 26 .

In particular, the bimetallic disk 23 is not firmly clamped and clamped between the block 19 and the connecting member 24 , but is only adequately fixed, as can be seen from FIG. 5. A bimetallic plate 23 and the connecting member 24 protruding pin projection 27 of the holding part 19 is graduated with sections larger and smaller diameter. The bimetallic plate 23 has a breakthrough, which corresponds to the larger diameter portion of the pin 27 , and encloses this. This section with a larger diameter is just as high or slightly higher than the thickness of the bimetallic plate 23 , so that this, as I said, is not jammed between the surface 22 of the holding part 19 and the connecting member 24 , but can freely exercise its switching function without it is too loose or rattles.

The connection 4 has the carrier 2 and here also the holding part 19 laterally encompassing tabs 28 for better fixing of the parts before final fixing by rivets. The movable contact 16 itself is welded to the connecting member 24 , since riveting is problematic here.

The connections 4, 6 also have tapers 31 , which serve as predetermined bending points, in order to avoid disadvantageous force transmission to the rivet points of the switch 1 and thus damage the same in the event of voltages or the like. The switch itself works in the usual way. It is shown in its low temperature position, in which contact 16 and mating contact 14 are pressed against each other under the action of the elastic connecting element and are in contact, so that there is a low-resistance electrical connection between terminals 4 and 6 . The bimetallic plate 23 is bent in a low temperature position with its free end 29 downward from the connecting member 24 and in particular largely relieved due to the clamping described. If the temperature rises above the changeover temperature of the bimetallic plate 23 , it folds upward, so that its convex side is directed downward toward the carrier 2 . The bimetallic plate 23 is supported on the surface 22 of the holding part 19 and lifts with its free end 29 the connecting link 24 and thus the movable contacts 16 from the stationary counter contact 14 , so that the low-impedance connection between the connections 4 and 6 is interrupted becomes. In the event that the carrier 2 consists of PTC material, or has such (for example in the form of one of the two carrier parts 2 a , 2 b), there is still a high-resistance electrical connection between the connections 4, 6 , which leads to the fact that with a very low current flow, the PTC part heats up and thus generates a heat which acts on the bimetal plate 23 by radiation and conduction via the relatively massive holding part 19 , so that it is held in its high temperature position and the switch thus remains open until externally the power supply is interrupted.

Claims (10)

1. Temperature switch with a carrier carrying at least two connections, with one connection a movable contact carried by a bi metal-controlled elastic connecting element and with the other connection a stationary counter contact is electrically connected and under the action of a bimetallic plate the contact with the counter contact for closing a low-resistance connection can be brought into contact, characterized in that on at least one side of the carrier ( 2 ) a block-shaped holding part ( 19 ) with a support surface ( 21 ) rests on the opposite surface on the support surface of one of the contacts or a a contact ( 16 ) carrying the switching element ( 24 ) rests at a distance from the carrier ( 2 ) and that rivet designs ( 9, 27 ) for riveting at least one contact ( 14, 16 ) or the switching element ( 24 ) are integrally formed on the holding part ( 19 ) . 2. Switch according to claim 1, wherein the movable contact ( 16 ) is attached to a separate from the bimetallic plate ( 23 ) connecting member ( 24 ), characterized in that the bimetallic plate ( 23 ) directly on the surface ( 22 ) of the holding part ( 19 ) rests and is penetrated by a wider section of a rivet attachment ( 27 ), the height of the wider section of the rivet attachment ( 27 ) corresponding at least to the thickness of the bimetallic disc ( 23 ), while the connecting member ( 24 ) on the wider shoulder of the The rivet attachment ( 27 ) rests and surrounds a thinner section of the same. 3. Switch according to claim 1 or 2, characterized in that the connections ( 4, 6 ) at least partially embrace the support ( 3 ) and, if appropriate, the holding part ( 19 ) laterally by means of tabs ( 17, 28 ). 4. Switch according to the preamble of claim 1 and in particular special according to one of claims 1 to 3, characterized in that the outer contour of the carrier ( 2 ) forms a fully constantly flat cuboid. 5. Switch according to claim 4, characterized in that the Carrier at least one supporting part made of light metal oxide, ins has special alumina ceramics. 6. Switch according to one of the preceding claims, characterized in that the carrier ( 2 ) has at least one support part made of PTC material. 7. Switch according to one of the preceding claims, characterized in that the movable contact ( 16 ) on the elastic connecting member ( 24 ) is welded. 8. Switch according to one of the preceding claims, characterized in that the carrier ( 2 ) consists of at least two superposed supporting parts ( 2 a , 2 b) . 9. Switch according to one of the preceding claims, characterized in that the connections ( 4, 6 ) weakening, tapering or the like ( 31 ) as such have points. 10. Switch according to one of the preceding claims, characterized in that at least with a part ( 2 b) of the carrier ( 2 ), a connecting part ( 2 c) is integrally formed.