DE878528C - Small thermostat - Google Patents

Description

Small thermostat The invention relates to a small thermostat with a curved circular tilting membrane made of resilient bimetal, which is so in a Lenticular closed capsule made of metal is built in that the central part: the Tilting membrane in the rest position against the capsule base or one in the capsule lid insulated built-in fixed contact presses while the edge of the membrane in the capsule lid rests freely.

This type of thermostat is known to be very suitable for protecting electrical machines, transformers and the like. Against overheating, as a result the metallic casing and the extraordinarily small dimensions of the thermostat can be installed directly in the winding to be protected. The movement or that Tilting of the switching membrane takes place with a very short time delay as a function on the temperature of the directly in contact with the mechanically solid capsule lying winding, so that a very precise and reliable response of the thermostat is guaranteed. The thermostat can be used as a make or break contact will.

To improve the effect of these small thermostats is already it has been proposed to install a spring contact in the metallic casing, which is movable in the direction of the axis of the Thermositaten and in the end position of the Tilting membrane against the same: presses. The stroke of movement of this generated by spring pressure Spring contacts are dimensioned so that the contact extends beyond the tilted position : the membrane moved out. When using the thermostat as a Closing or make contact, the membrane is not on the at normal operating temperature Spring contact, but replaces when the unstable central position is exceeded as a result If an overtemperature occurs, the contact is suddenly closed. Against it, in the case of use as a break or break contact, the process is exactly the opposite, d. H. at normal temperature the membrane presses against the spring contact, and during the opening process the movable contact remains in contact with the membrane until it is exceeded the middle layer overturns. The spring contact creates a much more sudden interruption achieved, and at the same time the switching capacity can be increased.

The purpose of the invention is now to provide a small thermostat with in the capsule lid, to create insulated, built-in fixed contact that can be operated without the aid of an in the sheath movably arranged spring contact also favorable switching properties. like one with spring contact. In accordance with the invention, this is how achieved that the tilting membrane is provided with a protruding resilient part, which acts as a pre-contact '.

Exemplary embodiments of the subject matter of the invention are based on the drawing explained in more detail. Fig. I shows a Klein @ thermostat in section, which as Normally open contact is used, while that shown in Fig. 2 is also shown in section Embodiment serves as an opening contact. In Fig.3 is a curved tilting membrane shown in plan.

In FIGS. I and 2, i denotes the capsule base and 2 denotes the capsule lid the lenticular metallic casing: the thermostat. In. this capsule eats the arched tilting membrane 3 made of bimetal inserted, which also has a protruding Has resilient part .4, which serves as a pre-contact and on different, still can be produced in a more detailed manner. - In the center of the capsule lid 2 an electrically insulated built-in fixed contact 5 is provided. To switch on in a; Control circuits serve the two derivatives 6 and 7, of which the line 6 is connected to the capsule i, 2 and the line 7 to the fixed contact 5.

In: the embodiment shown in Fig. I, where the thermostat acts as a closing contact and the membrane in the rest position against the capsule base r presses, the pre-contact 4 prevents the membrane from bouncing on the solid Contact 5, if the thermostat responds in the event of excess temperature. In case of Embodiment according to Fig. 2, where the thermostat is used as an opening contact, the membrane 3 or the protruding resilient part 4 lies on the fixed contact 5 on. As the machine to be protected heats up, the membrane bends 3 slowly through, but due to the resilient effect of the pre-contact 4 remains the Circuit still closed. Only when the membrane 3 has performed a certain movement has: the contact is broken, and so quickly that relatively large Switching performance can be managed.

In the described exemplary embodiments, the tilting membrane 3 and the pre-contact 4 made of one and .the same bimetal. The resilient protruding one Part 4 is, as can be seen from Fig. 3, by punching a separating cut 8 into the circular membrane 3 and the subsequent out-bending of the resilient. Part 4 formed.

The pre-contact 4 can also be fastened on one side on the membrane 3 resilient bimetal part are made or - consist of a bridge made of bimetal, which eats attached to the membrane at both ends. With these. both variants it is advantageous if the thermal flexural property of the attached bimetal piece -that counteracts the tilting membrane: This has the consequence that during the closing movement the membrane 3, the risk of rollover is reduced, while in the event of a The opening contact of the pre-contact 4 is in contact with the fixed contact 5 for a longer period of time remains, d. H. the interruption only takes place in the tilted position of the membrane.

It is also used to increase the resilience of the pre-contact still possible between the membrane 3 and the protruding contact part q. a prestressed To install spring.

Claims (7)

PATENT CLAIMS: i. Small thermostat with an arched circular Tilting membrane made of resilient bimetal, which is closed in this way in a lens-shaped The metal capsule is installed so that the central part of the tilting diaphragm is in the rest position against the capsule base or a fixed contact built into the capsule wall and insulated presses while the edge of the membrane rests freely on the capsule lid, characterized in that that the tilting membrane is provided with a protruding resilient part, which as Pre-contact works. 2. Small thermostat according to claim i, characterized in that the pre-contact of the tilting membrane eats an integral part of the same by formed by punching a separating cut and bending a resilient tongue will. 3. Small thermostat according to claim i, characterized in that; that the previous contract the tilting membrane from a resilient cranked one attached to the same on one side Bimetal piece consists. . 4. Small thermostat according to claim 3, characterized in that da3 the thermal deflection of the attached bimetal piece is opposite to that the tilting membrane is. 5. Small thermostat according to claim i, characterized in that @ that the pre-contact of the tilting membrane from one attached to two points of the membrane Bridge piece made of bimetal consists which one of the membrane opposite having thermal deflection. 6. Small thermostat according to claim r, characterized in that that between the membrane and the pre-contact a pre-tensioned compression spring is installed is. 7. Small thermostat according to claim r as an opening contact, characterized in that that the pre-contact has such a spring pressure that it lasts at least as long remains closed until the tilting membrane its tilting template caused by the rise in temperature achieved.