SU902099A1 - Automatic switch - Google Patents

Description

one

The invention relates to electrical engineering, in particular to protective circuit breakers, intended for automatic disconnection of electrical circuits during short circuits and current overloads and can be used mainly to protect semiconductor converter plants.

A circuit breaker with an electrodynamic tripping mechanism is known, which comprises an insulating body, a rod connected to moving contacts and held in the on position by balls entering its groove, an aluminum disk and a coil l.

However, the value of short-circuit current for semiconductor devices, at which contact opening begins, and also the dependence of the response time on the magnitude of the limited current short

who closes limits the use of this device.

Closest to the proposed technical essence and reach-. My effect is a circuit breaker that contains a housing, an arcing chamber, a switching mechanism in the form of a rod, one end of which interacts with a latch, a contact system in the form of moving

10 and inactive contacts and electromagnetic release 2.

Claims (2)

The rejection of a slow-moving contact in the process of shutting down allows one to reduce the time it takes to work. the switch is up to 4 ms, and the moment of opening of the contacts does not depend on the magnitude of the short current behind the cable due to the use of the electromagnetic trip unit of independent excitation. Such a circuit breaker is applicable for limiting the shock wave of a short circuit current; however, for reliable protection of semiconductor converters both at short circuits and in case of various current overloads, circuit breakers are required to ensure a shutdown time of not more than 2 ms. The purpose of the invention is to increase the speed of the circuit breaker. This goal is achieved by the fact that in the automatic switch the latch is made in the form of a plate fixed pivotally on the axis and simultaneously serves as a bark of the electromagnet fastener, said plate is made with an opening in which the switching mechanism shaft is located, which is provided with a movable sleeve placed on a rod; and a hinged-lever mechanism, by means of which the movable contacts are connected to said movable sleeve. FIG. Figure 1 shows the switch in the switched-on state; in fig. 2 is the same in the enabled state. The circuit breaker comprises a housing 1, an arcing chamber 2, a locking mechanism, an electromagnetic release and a contact system. The activation mechanism consists of a rod 3, at one end of which a shut-off spring i is located, and on the other - a latch made in the form of a plate 5 with an opening for passage and fixation of the rod, a fixed support 6 and a spring 7- Support sleeve 8 belonging to the body, limits stroke 3 when shut off. In addition, there are fixed 9 on the rod, 10 bushings 10 and a movable sleeve 11 connected by means of a hinge-lever mechanism 12 with moving contacts 13 of one contact circuit, equipped with contract elements. Movable contacts are equipped with springs 15 contact. The contact system, besides the movable contacts 13, includes a slow-moving contact 16 with contact elements, equipped with arc-horn horns 17- The contact 16 moves in the guides 18 of the housing 1. The electromagnetic release device provides an independent electromagnet 19, the measles of which at the same time, it is the latch plate 5. The conductor to the movable contacts is carried out using tires 20. The circuit breaker operates as follows. When the contacts 13 are open (Fig. 1), the rod 3 is in the lowest position fixed by the support sleeve 8, the opening spring 4 is in the free state. When the stem 3 moves straight from any actuator in the direction indicated in the drawing by the arrow, using the sleeve 9 fixedly mounted on it, the breaking spring 4 is compressed and the gap L between the stop 10 and the movable sleeve 11 is simultaneously selected, as well as the gap between the fixed seat The sleeve 9 on the rod 3 and the movable sleeve 11. As a result of the movement of the rod 3, the stop sleeve 10 shifts the movable sleeve 11, which moves the levers 12 and transfers them through the neutral position. The subsequent movement of the movable contacts 13, the levers 12 and the movable sleeve 11 occurs under the action of the moments created by the springs of the contact 15 with increasing speed. During the movement of the stock 3, the plate 5 rotates around the fixed support 6 under the action of the spring 7. The rotation is carried out due to friction forces between the surface of the rod 3 and the adjacent edges of the plate 5. With the mutually perpendicular position of the rod 3 and plate 5, the friction forces are minimal and do not interfere with the movement of the rod; when the rod stops or reverses, the stem takes up the dead plate by the plate 5 under the action of the spring 7. With the contacts closed (Fig. 2), the rod 3 is in the extreme upper position fixed by the plate 5, the latch, which disconnects the spring k, is compressed, the force of the compressed spring being balanced by the latching force. Any excess allowable increase in the current in the circuit to be protected leads to the appearance of a signal from the circuit, following the change in current. The signal is supplied to an electromagnet 19 of independent excitation. The armature of the electromagnet, which is simultaneously the latch plate 5, is rotated and the stem 3 is released. The release spring k opens. 5 strikes a movable sleeve 11, the movement of which through the levers 12 acts on the sliding contacts 13, which open at the required speed. Changing the position of the levers 12, namely approaching the angle 180 between them, allows increasing the breaking force while reducing the force of the breaking spring. Pressing in the current hinges is carried out with the help of springs 15. The current supply to the movable contacts 13 can be carried out not only with the help of the current hinges, but also through a flexible connection. The movable sleeve 11 and the levers 12 to provide insulation are made of a mass formation. The low-speed contact 16 ensures reliable contact in the on-off position with possible uneven wear of the contact elements and inaccuracies made during their manufacture. The opening spring can be not only cylindrical, but also spring or torsion. The use of a disconnecting element in the form of a spring, rather than an Electromagnet, in the proposed off-switch provides an increase in the speed of dilution of contacts as the distance between them increases, which contributes to a decrease in both the on-time switch and the extinction time of the arc. The use of the proposed circuit breaker for protection of semiconductor converters of devices ensures reliable disconnection of the protected circuit during short c 99 testing of various current overloads due to the high speed of the switch, and also allows to significantly reduce the size of the converter devices. The invention includes a circuit breaker comprising a housing, an arcing chamber, a switching mechanism in the form of a rod, one end of which interacts with a latch, an electromagnetic release and a contact system in the form of slow-moving and moving contacts, characterized in that, in order to increase the speed of the switch, the latch is made the plate is pivotally fixed on the axis and also serves as a bark of an electromagnetic release; the plate is made with a hole in which the piece of mechanical is located switch-on knob, which is equipped with a movable sleeve placed on the rod, and a hinged-lever mechanism, by which the movable contacts are connected to the movable sleeve. Information 1, taken into account during the examination 1. Kuznetsov, R. S. Life to 1000 VM, Energie, 1970, p. 192-193. 2. USSR author's certificate of K 27 9152/07, cl. H 01 H 7/10, 1979 (prototype; 8 20 r 7 Рig.2 г7