SU262018A1 - THERMAL RELAY - Google Patents

Description

Thermal relays are known that contain two bimetallic plates, one of which bears the heating winding and the other is a compensation winding, fixed with its ends on an insulating block rotating on a non-iodine shaft, rigidly connected with an insulation panel and bimetallic , carrying the winding, at the other end is fixed to the installation bolt, and the compensating plsgin acts on the switching contacts. It is proposed to provide the relay with an additional contact (Plate connected to the free terminal A compensation plate with a cross over mechanism in the form of a curved tongue, which is integral with the contact plate and connected to the compensation hinge plate. The additional contact plate is fixed firmly on the insulation panel using a metal bracket, which is integral with the discharge clamp, and the heating winding connected to the photoresistance, which, in turn, is placed on the other side of the insulation panel, as well as the output terminals. These tools allow to catch the vibration resistance of the relay and make it more compact.

The proposed thermal relay is mainly intended for switching on and off street lighting lamps.

FIG. Figure 1 shows a side view of the relay (the bimetallic strip carrying the heating winding is at rest); in fig. 2 is the same (bimetallic strip is bent); FIG. 3 and 4 relays, top view and side view; FIG. 5 - embodiment of thermal

relay, side view.

The relay has an insulating plate / on which all the details of the relay are fixed.

At the right end of the insulation plate, a metal bracket 2 is bent;

made at the same time with the output clamp 3, which can be in the form of a plug contact, with a rivet 4 used in turning the insulating block 5 in the trunnions of the ukreilen clamp, the latter can

consist of two parts that have additional slots 6 or 7 inside, into which the right ends of the heated bimetallic strip 8 and the compensation bimetallic strip 9 are inserted. For rigid connection of both halves of the block 5 and firmly fastening the strips 8 and 9, a hollow rivet can be used , passing through the corresponding coaxial holes of both halves of the unit 5. The strip 8 is equipped with an insulating sleeve W, on which a heating winding 11 is mounted, connected to the outlet clip 12. The right end of the heating winding and 11 is electrically connected to bracket i. At the point 13 of the bracket, a contact plate 14 is fixed, provided with a contact 15 on the left side, which can interact with the contacts 16 and 17 installed at the output terminals / 6 and 19, made in the form of plug contacts. All output clamps (3, 12, 18, 19) are vertical with respect to the insulation board. All clips are made in the form of stamped parts and have a middle part attached to the plate 1 with a hollow rivet 20. The left end of the strip 8 is suspended in the annular groove 21 of the installation screw screwed into the square 22, fastened to the plate /. The spring 14 has a relatively wide slotted hole in the region of the strip 9 into which the strip 9 leaves when the bimetallic strip 8 is folded. At the left end of this aperture, the plate 14 is provided with a curved spring tongue 23, which is integral with it, and the free end of this tongue is hinged with the end of the strip 9 at point 24. In this case, the tongue 23 may have a hole into which the shifted end of the strip 9 enters. The bimetallic plate may have a hole into which in this case the shifted end of the spring tab 23 enters. Pa fi . 1, the bimetal strip 8 is in a rectified cold state. If both lanes 5 and P are heated by an ambient temperature of more than 20 ° C, then they deflect (Fig. 2). In this case, however, the hinge point 24 does not change its position and the switching time does not decrease. At a low temperature of less than 20 ° C, both bands 5 and 5 bend in the opposite direction. The position of the hinge current 24 also does not change. If the strip 8 is heated by the winding 11, then it: bends as shown in FIG. 2, wherein the hinge point 24 passes through its tipping point and, through the strip 9, rotates the plate 14 in a counterclockwise direction with the help of the tilting part 25 and transfers it to the position of abutment to pin 16 (Fig. 2). When cooling loses 8, the relay returns to its previous position. The relay shown “and FIG. 4, it is different that the right end of the heating winding 11 is connected to the connecting terminal 25. With the relay shown in FIG. 5, the strip 8 of the point 26 is mechanically connected and electrically auxiliary contact plate 27, the contact 28 of which is adjacent to the fixed contact 29 attached to the connecting clip 12. A pair of contacts 28 and 29 are connected in series with the iK of the bimetallic strip 8 and the winding 11, left end which is attached to the strip 8 at point 30. The photoresistance (not shown) is connected in series with the winding V / and, depending on the illumination, turns the heating winding on or off. In this case, it is possible to provide a compensation bimetallic strip 9 with a heating winding. In this case, with the help of current pulses, one or another heating winding can be selectively switched on. The subject of the invention is a thermal relay containing two bimetallic nlaccins, one of which carries the heating winding and the other is a compensation winding, fixed at its ends on an insulating block rotating on a stationary shaft rigidly connected to the insulating panel. The bimetallic plate carrying the winding is fastened on the other end to the mounting bolt, and the compensation plate acts on the switching contacts, characterized in that, in order to provide vibration resistance, there is an additional on the contact plate connected to the free end of the compensation plate by means of a flip mechanism in the form of a curved tongue made integral with the contact plate and connected hingedly to the compensation plate, the additional contact plate is rigidly fixed on the insulation panel using a metal envelope made in conjunction with a lead clamp, the heating winding is electrically connected to a current source, for example, a photoresistance placed on the other side of the insulation panel, t As well as terminal clamps.

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