AT307770B - Thermal switch in miniature design - Google Patents

Description

  

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   The invention relates to a thermal switch in miniature design, in particular for installation in windings of electrical machines and devices, which has a thermobimetallic snap-action disk as a temperature sensor, a metallic housing, a movable and a fixed switch contact and an insulating body for supporting the latter, the movable one having Contact at the free end of a frame arranged inside a preferably circular ring, with the end opposite the free end firmly connected to the frame, in particular punched from one piece with the frame, over a protrusion, dome or.

   Like. With the thermo-bimetallic snap disk in frictional connection contact tongue made of resilient, electrically conductive material is arranged, the frame being held between a shoulder of the insulating body and a shoulder of the housing and the fixed switching contact in the plane approximately parallel to the frame one the assembly tolerances having sensing contact surface, according to Patent No. 295190.



   In the patent specification of the parent patent, two methods of adjustment by bending the fixed switch contact are required, whereby, due to the dimensions and tolerances of the individual parts, the contact spacing before bending is basically too large and the insulating body advantageously has at least one opening in the direction of movement of the movable contact. On the other hand, an adjustment by mechanical deformation of the housing is described, with the distance between the shoulder of the housing receiving the thermobimetallic snap disk and the shoulder of the housing receiving the frame carrying the contact tongue being reduced.



   The object of the invention is to create an embodiment that better enables rapid adjustment.



   According to the invention, for adjusting the housing, it is axially deformable and an axially deformable support is arranged between the frame and the shoulder of the insulating body.



   An adjusting ring is advantageously provided as an axially deformable support.



   The adjusting ring expediently has a flange directed radially inward for support on the insulating body and a flange directed radially outward for support on the frame.



   According to an advantageous development, the frame has at least three extensions on its outer circumference, which are bent out of the plane of the frame for support on the insulating body and have radially inwardly directed bends.



   The invention offers the advantage that the thermal switch can be completely assembled before the adjustment and the adjustment itself can be carried out in an automatically controlled pressing tool. This results in a significant rationalization compared to the known embodiments. An improvement in quality is also achieved by assembling and locking in immediately successive operations, since there is now no risk of contamination when stored in the semi-finished state.



   Further details of the invention emerge from the drawings, in which two exemplary embodiments are shown. Fig. 1 shows in section a thermal switch according to the invention in the not yet adjusted state, Fig. 2 shows the same switch after the contact spacing has been adjusted, Fig. 3 shows an individual part of Figs. 1 and 2 in plan view, Fig. 4 shows another embodiment of this part and FIG. 5 shows a section along line VV in FIG. 4.
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 1 - for receiving the thermal bimetallic snap disk - 6 - and a further shoulder - 7 - for receiving the circular frame --8--. With the circular frame --8-- punched from one piece is the contact tongue - 9--, onto which the movable switching contact --10-- is welded
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   The subgroup - 8 to 11 - was shown in Fig. 3 in plan view, otherwise the thermal switch is rotationally symmetrical. The fixed switching contact - 2 - is designed as a rivet contact and is not shown in section in FIGS.
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    Frame-8-including-contact - 2 - placed in the housing --4-- which has not yet been flanged at the point --13--, for example by shaking it in, whereby all parts or subgroups can be rotated against each other at any angle, which enables automation of the assembly with little effort.

   Then the protruding edge of the housing - 13 - is flanged so that the thermal switch is closed and there is no risk of contamination during intermediate storage until the contact distance is adjusted.



   Fig. 1 shows the thermal switch in a not yet adjusted state. The dimensions of the individual parts, including their tolerances, are chosen so that, despite the convex position of the thermal bimetallic snap disk --6 - the two switching contacts - 2, 10 - do not come into contact. The contact distance is basically too large from the start. If pressure is now exerted in the direction of the arrows - 14 -, they bend

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   Adjusting ring - 3 - and housing jacket - 4 -, as shown in FIG. 2, and the contact distance is reduced. A certain amount of pressure must be exerted from the moment contact is made in order to effectively counter the crawl path that every thermo-bimetallic snap disk has next to the snap stroke.

   This can easily be controlled automatically, since the moment of contact can be used to generate an electrical signal from which, for example, 0.03 mm deformation path has to be applied. This can easily be solved with the known methods of control technology.



   With regard to the function of the thermal switch, it should also be said that FIG. 2 shows the switch in the switched-on state, ie. i. usually the cold one, shows. The switch is built into a motor winding, for example, with contact rivets - 2 - and housing - 4 - serving as power connections. At
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 shortly before an inadmissibly high temperature rise into the concave position, immediately followed by the contact tongue which is in engagement with it under pretensioning, whereby the circuit is interrupted and the winding is protected from destruction.



   In order to reduce the number of items, it is, as shown in Fig. 4 and 5, also possible that
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Of course, the invention is not limited to the exemplary embodiments shown. The deformable support can thus also be implemented in that tongue-shaped bends that are formed out of the housing are provided.



   PATENT CLAIMS:
1.Thermal switch in miniature design, especially for installation in windings of electrical machines and devices, which has a thermal bimetallic snap-action disk as a temperature sensor, a metallic housing, a movable and a fixed switch contact and an insulating body for carrying the latter, the movable contact on free end of a arranged inside a preferably circular frame, with the end opposite the free end firmly connected to the frame, in particular punched from one piece with the frame, od over a wart, dome.

   with the thermo-bimetallic snap disk in frictional connection is arranged contact tongue made of resilient, electrically conductive material, the frame being held between a shoulder of the insulating body and a shoulder of the housing and the fixed switching contact in the plane approximately parallel to the frame having a contact surface that detects the assembly tolerances , according to Patent No. 295190,
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Claims (1)

has a flange directed radially inward for support on the insulating body (1) and a flange directed radially outward for support on the frame (8). EMI2.4 its outer circumference has at least three extensions (15) which are bent out of the plane of the frame (8) for support on the insulating body (1) and have radially inwardly directed bends (17).