DE4336564C2 - Temperature monitor - Google Patents

Description

The invention relates to a temperature monitor with a Rear derailleur, a PTC element connected in parallel to this, two connections for an electrical device to be protected, and one between the connectors and in series with the rear derailleur switched and arranged near this heating resistor.

Such a temperature monitor is from DE 84 24 557 U1 known. In the known temperature monitor is about Heating resistor a current dependency as well as via the PTC element realized a self-holding function, but a spatial one Separation of switchgear and thermal part is provided.

With a temperature monitor with formwork parallel to the switchgear PTC element is a self-holding Temperature monitor. The rear derailleur has a bimetal element as an effective part. As long as the rear derailleur is closed, the rear derailleur has only a low electrical resistance on so that the current flow essentially through the switching mechanism he follows. If one to be protected by the temperature monitor and nearby device an overtemperature assumes, the bimetallic switching mechanism switches from its in its open state, so that no more current through the Rear derailleur can flow. A sufficient result is then obtained Current flow through the PTC element, which is caused by the current flow is heated and the bimetallic element of the rear derailleur continues warmed up. So that a switching of the rear derailleur and thus Switching the electrical device to be protected on and off prevents, as would be the case if, after switching off the electrical device by opening the bimetal switchgear, this cools down again, so that the bimetal switch again would get into its closed state without the error is fixed on the device to be protected.  

Furthermore, a temperature monitor is known from DE 36 01 055 A1 known in which a heating resistor in parallel with the switching mechanism is switched, with the derailleur open in the sense of a Self-holding function works. In line with the temperature monitor is connected to a consumer, in parallel with a row circuit consisting of a series resistor and a position or acceleration-dependent switch is arranged. If the position-dependent or acceleration-dependent switch closes the consumer is bridged by the series resistor, which is so tight is arranged on the switchgear and such a large heating output developed that the rear derailleur opens. In this open It then becomes state through the heat development of the heating resistance, which is now in series with the series resistor is held. The consumer is in this switching state de-energized.

To ensure a favorable heat transfer from the resistors to the Switchgear can be reached as thick-film resistors arranged on a ceramic support below the rear derailleur.

Against this background, the invention is based on the object to create a self-holding temperature monitor, in which the switching point of the rear derailleur is adjustable so that a more precise switching can be achieved.

With the temperature monitor mentioned at the beginning, this task solved in that the heating resistor as a thick film resistor is formed on a ceramic carrier, the rear derailleur the ceramic carrier in thermal contact with the heating resistor is arranged, and the PTC element from the ceramic carrier will be carried.  

This arrangement is already with the rear derailleur closed and connected consumers a higher power conversion possible, which makes the switching point adjustable and thus a more precise switching is achievable.  

In a preferred embodiment it is provided that the heating resistor is located below the rear derailleur is and that the rear derailleur on the Wi was the interposition of an insulating layer is present.

By arranging the series resistor under the switching mechanism, very defined switch-off times can be set with only slight deviations from the setpoint. With a thick-film resistor under the switchgear and the good thermal conductivity and heat transfer to the switchgear, an area power of approx. 2 W / mm ² can be implemented until the switchgear is switched off.

According to one embodiment, that solder joints on the carrier for connecting a stranded wire of the PTC element and for fastening and electrical Connection of the rear derailleur are provided.

The specific electrical circuit looks like that Switchgear and heating resistor together in parallel to the PTC Element are switched.

A converted power of up to 2 W per mm ^{2 is} achieved by the temperature monitor according to the invention, as a result of which a higher accuracy of switching off must be ensured.

The ceramic is usually an aluminum oxide ceramic.

The entire item can be insulated, such as be surrounded by a shrink film or a plastic housing.

Further advantages and features of the invention result from the claims and from the description below, in the a preferred embodiment of the invention with reference to the drawings in detail is tert. It shows:

Figure 1 shows a temperature monitor according to the invention in vertical section.

FIG. 2 shows a horizontal section through the temperature monitor of FIG. 1;

Fig. 3 is a circuit diagram of the temperature controller of the invention;

Fig. 4 is a schematic representation of the ceramic plate with its orders and

Fig. 5 is a side view of the coatings with the ceramic plate provided Be of Figure 4 in the direction of arrow V..

The thermal protector 1 of the invention includes a conductive-and insulating coatings Kera mikplatte 2 as carrier. On the ceramic plate 2 is an encapsulated switching mechanism 3 with a bimetallic switching element (not shown). A PTC module 4 is also located next to the switching mechanism 3 .

Switch mechanism 3 and PTC element 4 are electrically connected in parallel. On the housing 6 of the switchgear 3 insulated cover part 7 of the same a first contact wire 8 is soldered, which also leads via the PTC element 4 (at 9 ) and is connected to it there. A second strand 11 is soldered directly onto the carrier 2 and is initially in electrically conductive connection with the underside of the PTC element 4 .

The switching mechanism 3 can be provided with an insulating cap 12 , which on the one hand leaves the connection of the stranded wire 8 to the cover part 7 , and on the other hand also does not isolate a bottom region of the housing 6 of the switching mechanism 3 .

The carrier 2 has, starting from the connection area 11 connected to the stranded wire 11 a, an electrical conductor track 14 which leads approximately centrally below the switching mechanism 3 ( FIG. 3). From there, the track 14 is in contact with a thick-film resistor 16 , which in turn is in contact with a conductor track 17 - so that the thick-film resistor 16 is electrically connected between the conductor track 14 and the conductor track 17 - the conductor track 17 being the soldering point for the switching mechanism 3 trained and connected to this.

The remaining area of the carrier 2 , but in particular the resistor 16 can be covered by an insulating layer, so that the resistor 16 is insulated from the bottom region of the housing 6 of the switching mechanism 3 .

At the solder joint 19 , which is in electrical connection with the conductor 17 , the PTC element 4 is fastened on the carrier 2 , so that it is electrically connected in parallel with the switch 6 .

Due to the configuration of the temperature according to the invention a temperature monitor is created, the one enables high performance conversion, the risk of a Temperature shock is largely excluded.

Claims (5)

1. Temperature monitor with a switching mechanism ( 3 ), a PTC element ( 4 ) connected in parallel to this, two connections ( 9 , 11 ) for an electrical device to be protected, and one between the connections ( 9 , 11 ) and in series the switching mechanism ( 3 ) switched and arranged near the heating resistor ( 16 ), characterized in that the heating resistor ( 16 ) is designed as a thick-film resistor on a ceramic carrier ( 2 ), the switching mechanism ( 3 ) on the ceramic carrier ( 2 ) in thermal contact with the heating resistor ( 16 ) is arranged, and the PTC element ( 4 ) is carried by the ceramic carrier ( 2 ). 2. Temperature monitor according to claim 1, characterized in that the heating resistor ( 16 ) is arranged below the switching mechanism ( 3 ). 3. Temperature monitor according to claim 1 or 2, characterized in that the switching mechanism ( 3 ) rests with its bottom side on the heating resistor ( 16 ) with the interposition of an insulating layer ( 17 ). 4. Temperature monitor according to one of claims 1 to 3, characterized in that on the ceramic carrier ( 2 ) solder joints ( 11 , 17 , 19 ) for connecting a strand ( 11 ) of the PTC element ( 4 ) and for fastening and electrical connection of the Switchgear ( 3 ) are provided. 5. Temperature monitor according to one of the preceding claims, characterized in that the switching mechanism ( 3 ) and the heating resistor ( 16 ) are connected together in parallel to the PTC element ( 4 ).