SU955281A1 - Fuse - Google Patents

Description

Figure 1 shows the proposed fuse; Fig. 2 shows a pickup indicator with a piston; on fig.Z - t, with a groove; Fig. 4 is an embodiment of the fuse. The fuse (Fig. 1) contains an insulating body 1 with contact caps 2 (the second cap is not shown in the drawing), fusible elements 3 designed for flow of the rated current of the fuse, disconnecting the fusible element 4 connected in series with the contact 5 of the operation indicator, which includes also the insulating cylinder 6, the metal rod 7 with the piston 8, on which the sealing ring 9 is fixed, fixed to the cap 2 of the clamp 10, the seal 11 and the nut 12, which serves as a travel stop of the bolt 7 and provides it There is an electrical contact with the cap 10, the volume between the piston 8 and the contact 5 of the filling fluid 13, which contains an additional fusible element 14, which closes the electrical circuit between the porgan 8 and the contact 5 and the impeller Joule integral of a lower value than the joule fuse element 4. The actuation indicator, shown in figure 2, is characterized in that the rod 7 is structurally aligned with porgan 8, and the latter is made with a diameter greater than the internal diameter of the cylinder; The deformations of cylinders a-b and pistons 8 in the assembly do not exceed their limits of elastic deformations, which makes it possible to deviate from a special sealing ring. In the actuation indicator shown in FIG. 3, the piston part of the cylinder b is made with a groove 15. The safety device shown in FIG. 4 is characterized by the presence of an additional casing 16 fixed to the nut 12 and also a cover 17 connected to the casing 16 by a cord 18 and a distance from the end of the rod 7 at a distance that, when the pointer is triggered, provides a blow sufficient for breaking ice of normalized thickness. The fuse works as follows. After a burnout, due to overload or current KODOTKoro of the closing of the fusible elements 3 (Fig. 1), an additional fusible element 14 melts to form an electrical one, as a result of which a hydraulic shock occurs and the piston with the rod moves to the stop, thus providing a safety signal. After switching off the fuse of the circuit with the disconnecting plate 4, the arc in the indicator circuit goes out. In addition to the hydraulic shock, the piston is also affected by the pressure arising in the chamber due to the thermal decomposition of the liquid filling the chamber by the electric arc. The magnitude of this effect is determined by the specified arc duration and the value of the current to be switched off by the fuse. The operation of the fuse with the trigger indicator shown in Fig. 2 is the same as the fuse of Fig. 1, and the one depicted in Fig. 3 is characterized by the fact that after the portin 8 goes into the groove 15, the pointer chamber depressurizes and gases are emitted from it . In the safety device shown in Fig. 4, STOCK 7 knocks Krivtka 17 together with bluff ice on it while moving. Hanging on the cord 18, the crank 17 is an additional feature that provides a visual indication of the operation of the fuse over a large distance from it. In the specified fuse, the integral is exceeded. A joule of the disconnecting fusible element relative to the value of the integral Joule of melting the additional fusible element ensures the required order of operation of these fusible elements, in which the additional fusible element has time to melt and form an electric arc in the chamber before disconnecting the circuit with the disconnecting fusible element. The use of a liquid or paste removes all restrictions imposed by the use of explosive charges in the design of preservatives. The proposed construction does not contain any parts that are destructible when the fuse is triggered, with the exception of fusible elements, which makes it possible for the rail to come out of the fuse. The pre-cooler is suitable for the rated voltage range in both high-voltage and low-voltage networks. The power of his pointer. triggers can be easily varied by varying the length of the additional fusible element (i.e., by correspondingly changing the length of the electric arc at the moment it occurs), as well as by varying the difference between the Joule integral of melting the additional fusible element and the Joule integral of turning off the disconnecting fusible element (i.e. arc time in the chamber).

Claims (3)

Claim 1, A fuse containing fusible elements, one of which is connected to a trigger indicator, having a chamber with a grinder, characterized in that, in order to increase reliability, it is provided with an additional fusible element, the chamber is sealed and filled with a liquid OR paste, an additional fusible element; placed inside said sealed chamber and connected in series with a fusible element connected to the trigger indicator, the additional fusible element having a Joule integral less than the Joule integral of disconnecting the disconnecting fusible element. 2. A safety device according to claim 1, characterized in that the chamber is designed as a cylinder, the ttrroK is equipped with a piston, and the piston diameter exceeds the internal diameter of the cylinder by an amount at which the deformations of the piston and cylinder in the side do not exceed the limits of their elastic de-photomath. 3. Fuse box according to claim 2, wherein the cylinder part, which is located under the piston, is made with a groove. Sources of information taken into account tt expertise five 1. USSR author's certificate number 427421, cl. H 01 B 85/30, 1971. 2.Patent of France 135992: 2,; cl. H 01 H, 1966 .. "Pwaf Phie. $