CS197274B2 - Temperature regulator - Google Patents

Abstract

A temperature responsive device such as a thermostat, comprises an insulator having extending in a groove along its entire length electrical connectors, which extend outwardly from opposite ends of the groove, and contact carriers having switching contacts, one contact carrier being fixed and having a predetermined bending point and the other being movable under the control of a transmission pin which extends through the insulator from a bimetallic disc. The disc is disposed in a circular recess in the insulator on the opposite surface to that of the groove, and is retained by a heat conductive base plate secured by lugs to the insulator. A plurality of devices may be provided on a single, common, baseplate. The arrangement facilitates fully automatic manufacture and adjustment of the devices.

Description

The invention relates to a temperature regulator, in particular for household appliances, comprising at least one insulating element, electrical connections, fixed contact carriers with one closing contact each, movable flexible contact carriers with closing contact, with a thermally conductive base plate, with at least one transfer pin and one curved bimetal disc.

Temperature controllers of this kind are known as individual thermostats, consisting essentially of a cup-shaped insulating body with closing contacts arranged inside and with electrical connection means, as well as a cup-shaped closure cap for receiving a thermal bimetallic plate.

Furthermore, a thermal switch of similar construction is known which has a rectangular insulating body for receiving the closing contacts, the closing contacts being housed in the insulating body. Since a cheap price is decisive for the use of these switches, it is expedient to manufacture them almost automatically.

However, this manufacturing process or method is very difficult in the known thermal bimetal switches, particularly when placing components in cup-shaped recesses, and is associated with high costs, since the components must be fed individually.

Another drawback is the adjustment work, especially the adjustment of the contact distance, since this adjustment is not feasible in places without manual or optical intervention of the operator.

For many temperature controllers, or for many household appliances equipped with temperature controllers, it is necessary to incorporate an additional thermostat to increase the reliability of the device.

For example, it is customary to provide a temperature fuse in the coffee grinder which interrupts the power supply below the temperature critical for heating and for the plastic housing. The disadvantage of this fuse is that after the power supply has been interrupted, operation can only be resumed after insertion of a new function capable of thermal fuse. Since these fuses exhibit high tolerances with respect to their reaction temperatures, it may happen that the fuse breaks the circuit too soon as the amount of deposits in the flow heater increases. In order to eliminate the need to replace the fuse, it is known to use a temperature limiter instead of a fuse, which can be switched on again manually after switching off and removing the fault source.

SUMMARY OF THE INVENTION It is an object of the present invention to remedy these drawbacks in a far-reaching manner and to provide a temperature regulator in which assembly and adjustment work can be carried out automatically.

According to the invention, this object is achieved by providing a channel-like recess along the length of the insulating body in which the electrical connections, a fixed contact carrier with a bending and closing contact and a flexible movable contact carrier with a closing contact and on opposite sides are arranged. a side recess to the channel-like recess is formed by an annular recess which engages an annular protrusion located at the temperature of the conductive base plate, wherein a bimetal disc is disposed on the annular protrusion, and a hole is provided in the center of the insulating body , which abuts one end on the bimetal disc and the other end on the flexible movable contact carrier.

It is a further feature of the invention that outside the insulating body region, clips are provided on the thermally conductive base plate on at least one side thereof.

The development of this measure consists in that the clips are provided with openings.

It is also a feature of the invention that a screw is provided in the thermally conductive base plate.

A further feature of the invention is that at least two insulating bodies are arranged side by side on a jointly thermally conductive base plate.

The last feature of the invention is that the common thermally conductive base plate has laterally curved tongues which extend into the recesses of the insulating bodies.

The advantage of the temperature regulator is that it is adapted and suitable for automated assembly, since the parts can be introduced into the insulating body from the outside through a channel-like recess, and the individual contact parts and the electrical connections can be brought to the assembly point in one continuous strip. they can be separated by a shearing device before being placed in the insulating body. Advantageously, the parts carrying the contacts do not have to be unified from the total amount, whereby the contacts can be contaminated by constantly aligning the parts.

A further advantage of the solution according to the invention is that the recess for receiving the bimetallic disc can be designed such that the bimetal plate or the disc can have different dimensions. This makes it possible to provide individual controllers with bimetallic discs of different dimensions for otherwise identical components.

A further advantage of the temperature controller according to the invention is that the adjustment can be carried out automatically at several controllers at the same time.

The invention will be explained in more detail below with reference to the exemplary embodiments shown schematically in the accompanying drawings.

Fig. 1 shows a sectional side view of the temperature controller; Fig. 2 shows a top view of the temperature controller; Fig. 3 shows an example of a side view of the temperature controller; Fig. 4 shows a detail of a thermally conductive base plate; Figure 5 is a top view of the temperature regulator combination and Figure 6 is a side view of the temperature regulator combination.

As shown in FIG. 1, the insulating body 1 is provided with a channel-like recess 2 extending along the entire length of the insulating body 1 and in which the electrical connections 3 and 4, respectively, a fixed contact carrier 5 with the desired bending point 5a and The insulating body 1 has, on the opposite side with respect to the channel recess 2, an annular recess 9. The annular projection 10 on the thermally conductive base plate 11 extends into the annular recess 9. The bimetal bimetal disk 12 is mounted in the recess 9 on the annular protrusion 10.

A transfer pin 14 is displaceably disposed in the opening 13 formed in the center of the insulating body 1, which bears on one end on the bimetal disc 12 and on the other end on the flexible movable contact carrier 6. The thermally conductive base plate 11 is provided on its sides with tongues 15 which are folded into recesses 16 of the insulating body

1.

In FIG. 2, the same components as in FIG. 1 are shown. In addition, it can be seen from this figure that outside the area of the insulating body 1, clips 17 and 18, respectively, are arranged which are rigidly connected to the thermally conductive base plate The clips 17 and 18 respectively have openings 19 and 20, respectively.

Giant. 3 shows clearly a channel-like depression 2 in the insulating body 1 with the electrical connections 3 and 4 respectively arranged therein.

In the thermally conductive base plate 11 there is a screw 21 for fastening to the surface or the device where the temperature is to be controlled or regulated.

In Fig. 4, the clips 22 and 23 are respectively provided with slots 24 and 25. An annular projection 10 is provided on the thermally conductive base plate 11.

From Fig. 5, which shows a combination of several temperature controllers viewed from above, the arrangement of the temperature controller 26, which is only indicated here, can be seen next to the temperature controller 30 on a common temperature conductive base plate 27. In the insulating body 1 of the temperature controller 30 The electrical connections 3, 4, the fixed support 5 (the contact with the movable flexible contact support 6) are disposed. By folding these clips 15, two adjacent temperature controllers 26 and 30 are each held in the recesses 1.G of the insulating bodies 1, 31.

This arrangement is particularly evident in Fig. 6, in which the combination of temperature controllers is shown from the side. Here again, temperature regulators 26 and 30 are arranged directly on top of each other on the thermally conductive base plate 27. The clamps 15 curved laterally on the thermally conductive base plate 27 which extend into the recesses 16 of the insulating bodies 1 and 31 are shown here. from the front.

Another embodiment of the invention is shown in FIG.

Claims (6)

in which the two temperature regulators 26 and 30 are not arranged directly adjacent to each other on the thermally conductive base plate 27, but at a distance 28, which may be differently large. The combination of temperature controllers can be fixed in a home appliance, for example, by means of an aperture 29. At the same time, it should be noted that for the sake of simplicity the combination with only two temperature controllers has been shown here. Further expansion to more temperature controllers is of course possible. In the combination of temperature regulators according to the invention, the individual regulators may be provided with bimetallic disks reacting at different temperatures. This makes it possible to combine various temperature monitors, temperature limiters and the like, depending on the intended use. VYNALEZU Temperature controller, in particular for household appliances, consisting of at least one insulating element, electrical connections, fixed contact carriers with one make contact each, movable flexible contact carriers with make contact and a thermally conductive base plate, with at least one transfer pin and one bent a thermal bimetal disc, characterized in that a channel-like recess (2) is provided in the insulating body (1) along the entire length of the insulating body (1), in which the electrical connections (3, 4), a fixed contact carrier (5) with a bending point (5a) and a make contact (7) and a flexible movable contact carrier (6) with a make contact (8), and on the opposite side with respect to the channel depression (2) an annular recess (9) receiving an annular protrusion (10) located on the thermally conductive base plate (11), wherein a bimetal bimetal disc (12) is disposed on the annular protrusion (10), and in the center of the insulating body (1) an aperture (13) is formed in which a transfer pin (14) is displaceably disposed which abuts one end on the bimetal disc (12) and the other end on the flexible movable contact carrier (6). Temperature regulator according to claim 1, characterized in that outside the area of the insulating element (1), clips (17, 22, 18, 23) are arranged on at least one side of the thermally conductive plate (11). Temperature controller according to Claims 1 and 2, characterized in that the clips (17, 18) are provided with openings (19, 20). Temperature controller according to Claims 1 to 3, characterized in that a screw (21) is arranged in the base thermally conductive plate (11). Temperature controller according to Claims 1 to 4, characterized in that at least two insulating bodies (i) are arranged side by side on a common thermally conductive base plate (27). Temperature controller according to one of Claims 1 to 5, characterized in that the common thermally conductive base plate (27) has curved tongues (15) on the side which extend into recesses (16) of the insulating body (1).