WO1982000219A1 - Thermostat - Google Patents

Abstract

Thermostat having a heat sensitive body (5) made of ferromagnetic material and a movable magnet (4) cooperating therewith. A pair of contacts (6, 7) are closed or open depending on the position of the magnet, this position in turn depending on the magnetic properties depending on the temperature of the body sensitive to heat. The magnet (4) is exposed to an opposite force which is opposed to the force of attraction, and the force of a spring acting on the pair of contacts performs an action of closing the contacts in a position of the magnet and an action of opening the contacts in another position of the magnet. More particularly, the return force and the force of the spring are exerted by a single spring which acts between the movable contact formed by a contact tongue and the magnet.

Description

Thermostat.

The present invention relates to a thermostat of the kind appearing from the preamble of claim 1.

Due to an aspiration towards a safe and reliable contact making such thermostats have a tendency to obtain a complicated and thereby expensive delicate and/or space requiring structure.

The object of the invention is to provide a thermostat of the kind indicated by way of introduction, which is characterized by a very simple and thereby cheap, reliable and compact structure, while maintaining a very safe and reliable contact making.

This object has been attained particularly by the features of the thermostat stated in claim 1 and further important features appear from the subclaims.

The invention and its advantages shall now be described more closely with reference to the attached drawings on hich Figure 1 shows a plan view of an embodiment of thermostats according to the invention, Figures 2 - 4 show sections in the directions of arrows II-II, III-III, and IV-IV, respectively, in Figure 1, and Figure 5 in perspective shows two different embodiments of a snap spring included in the thermostat. The thermostat has a two part housing 1, 2. The housing contains a magnet holder 3 with a magnet 4. A wall of the housing contains a plate 5 of ferromagnetic material, which at a certain temperature, the so called Curie point, loses its magnetic properties. The housing further contains a movable contact tongue 6 and to the interior of the housing terminal tags 7 and 3 lead. The terminal tag 8 is connected to the contact tongue 6 and the portion of the terminal tag 7 located in the housing forms a contact cooperating with the contact tongue 6.

Between a pin 9, extending downwardly from the magnet holder 3 through an opening 6a in the contact tongue, and the contact tongue 6 a snap spring 10 Is biased. With reference to Figure 5 the snap spring can either form part of the contact tongue 6 or be a separate spring. In the latter case the spring 10 contains a slit 11, that receives a tongue 12 Integral with the contact tongue 6.

The end of the snap spring 10 remote from the contact tongue 6 is biased against the pin 9 so that thereby a pointed edge of the magnet holder 3 is kept pressed into an inner edge of the housing at 13. Thereby the magnet holder 3 will be pivotable around an axis extending through 13 perpendicularly to the plane of Figure 1. The pivoting movement of the magnet holder 3 Is limited upwardly by the sensing body 5 and downwardly by an inner projection 14 in the housing. When the body 5 is cold the magnet 4 is held attracted against it so that the magnet holder 3 takes the position shown with full lines in Figure 1. The snap spring 10 acts against the force of attraction by tending, by means of Its bias between the contact tongue 6 and the pin 9 acting as a lever, to pivot the magnet holder 3 about the pivot axis 13. Due to the fact that the point of bias of the snap spring 10 at the pin 9 lies above the plane of the contact tongue 6, when the magnet is attracted the spring 10 also acts in the contact making direction, i.e. the contact tongue 6 is pressed against the contact spot of the terminal tag 7 within the housing 1, 2. Upon heating of the sensing plate 5 Its magnetic properties are deteriorated so that the force of attraction is reduced and at last is overcome by the force of the spring 10 acting about the axis 13 via the lever 9. When the magnet holder 3 thereby is pivoted clockwise In Figure 1 about the axis 13 the point of bias of the spring 10 at the pin 9 will simultaneously pass the plane of the contact tongue 6. Thereby the snap spring 10 will suddenly pass over to act in contact opening direction on the contact tongue 6. The positions of the magnet holder 23 and of the contact tongue 6 then are shown with broken lines in Figure 2. It will be seen that the contact tongue 6 is pressed against the underside of projection 14 against the upper side of which the magnet holder 3 is simultaneously pressed.

The dimensioning can preferably be such that contact opening appears already at a temperature level below the Curie point. As soon as the temperature of the sensing body 5 when cooling down passes this temperature level the magnet 4 is again attracted against the armature 5 with contact making as a consequence.

From the above description it has appeared that the snap spring 10 has obtained a threefold function, i.e. It secures a safe and reliable contact making and a distinct transition between the two positions of the contact tongue, it exerts the counter force to the attraction force on the magnet, and finally It secures that the magnet holder is kept pivotally journalled without need for further mounting means, such as hinges or the like. By means of the multiple function of the snap spring a number of otherwise necessary structure details are eliminated, this simplifying the structure and allowing a reliable and compact design.

Claims

Claims.

1. Thermostat with a heat sensitive body (5) of ferromagnetic material and a movable magnet (4) cooperating therewith, a spring means (10) acting between a movable first contact (6) designed as a contact tongue and the magnet, being arranged to exert on the contact tongue a force with a contact making action against a second contact (7) in one position of the magnet, and a contact opening action from the second contact in another position of the magnet, said positions depending from the temperature dependent magnetic properties of the sensitive body (5) and thereby its ability of attraction on the magnet (4), c h a r a c t e r i z e d in that the spring means (10) for exerting a counterforce on the magnet (4) consists of a spring tongue (10), which in bent condition is biased between the contact tongue (6) on the one hand, near the contact portion thereof, and the magnet (4) on the other hand, and In apoint of bias between the contact portion and the end of support of the contact tongue and near its plane.

2. Thermostat according to claim 1, c h a r a c t e r i z e d in that said point of bias Is located on a lever element (9) for the movement of the magnet.

3. Theremostat according to claim 2, c h a r a c t e r i z e d in that the magnet (4) is located In a surface of a holder (3) turned towards the sensitive body, said holder being plvotally journalled about an axis (13) extending essentially transversely to the extension of the contact tongue, and of which holder the lever element (9) forms part and extends through an opening In the contact tongue (6).

4. Thermostat according to claim 1, c h a r a c t e r i z e d in that it Includes a housing of which a wall essentially consists of the he sensitive body (5) and on its inside has a support spot (13) for a pivoting movement of a plate shaped magnet holder (3) with essentially the same extent as the said wall and located along it, said holder on its side turned from the sensitive body (5) having a lever projection (9) against which the spring tongue (10) acts for exerting said counter force.

6. Thermostat according to claim 4, c h a r a c t e r i z e d in that said support spot consists of a straight inner edge (13) along said Inside of the wall, and that the holder has a corresponding straight support edge, that encloses an angle more acute than that of said inner edge, into which the support edge of the holder is pressed by action of the spring means (10).

6. Thermostat according to claim 5, c h a r a c t e r i z e d in that the housing at its inner surface opposite to said inner edge has a projection (14), which on one side forms an abutment for the movement of the magnet holder (3) from the sensitive body and on the other side for the movement of the contact tongue (6) from the second contact.