SU1488895A1 - Maximum current release device - Google Patents

Description

The invention relates to electrical engineering, namely to circuit breakers. The aim of the invention is to increase the reliability of operation due to "the impact of the temperature-sensitive element on the actuator. Maximum

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the circuit breaker current release contains an electromagnet with an anchor, a fixed part of the magnetic circuit and a magnetizing winding in the form of a temperature-sensitive element. The temperature-sensitive element is made with a support · at one end on a busbar with the possibility of rotation around the support point. The anchor is fixed on the temperature-sensitive element rigidly from the side opposite to the fixed part of the magnetic circuit. In the process of thermal deformations of the temperature-sensitive element, the gap between the armature and the fixed part of the magnetic circuit changes and a sharp attraction of the armature and thereby the impact of the temperature-sensitive element on the actuator.

2 hp f-ly, 2 ill.

The invention relates to electrical engineering, namely to circuit breakers.

The aim of the invention is to increase the reliability of operation of the maxi. maximum current release due to the impact of the temperature-sensitive element on the actuator.

FIG. 1 shows the maximum current release of the circuit breaker; in fig. 2 - a support unit of a temperature-sensitive element on a busbar.

The maximum current release contains a magnetic system consisting of the fixed part 1 and the armature 2 mounted on the temperature-sensitive element 3. The temperature-sensitive element 3 with one end can act on the actuating mechanism 4 (free release mechanism or switch in the independent release power circuit) and is connected to the circuit by flexible conductor 5, and the second rests on the current-carrying bus 6, the end 7 of which is made of material with reversible shape memory. The gasket 8 of the insulating material and the flexible connection 9 provide a stable amount of heating of the temperature-sensitive element 3 and the end 7 of the current-carrying bus 6. The spring 10 with an adjustable amount of force and the screw 11 allow calibration of the release.

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At high emergency current multiplicities (short circuit current) the magnetic system is magnetized to the value at which the force of attraction $ anchor 2 to the fixed part 1 of the magnetic system overcomes the force developed by the spring 10, and the anchor 2, mounted on the thermosensitive element 3, is attracted to the fixed | 0 Part 1 of the magnetic system. At the same time, the end of the thermosensitive element 3 acts on the actuating mechanism 4, by means of which the contacts of the automatic switch are opened. Triggering occurs without time delay, and thermal deformations of the thermosensitive element 3 in this case do not play a role, even if they have had 20 to occur. With unacceptable overload currents of relatively small multiplicity, the magnetic system is magnetized insufficiently in order for the armature to be attracted to the core with 25 initial gaps between them. The current flowing in element 3 gradually heats it, and the faster, the greater the magnitude of the current overload. Heating the thermosensitive 30 element 3 causes it to bend with a corresponding change in the gap between the anchor 2 and the fixed part 1 of the magnetic circuit. Thermal deformations of the end 7 of the busbar 6 additionally increase the displacement of the armature 2. Reducing the gap causes an increase in the attractive force of the armature 2 to a value exceeding the resistance force from the side of the spring 10, and the healer triggers. Flexible connections 5 and 9 provide the freedom of movement of the temperature-sensitive element 3 with the anchor 2 fixed on it. In addition, the flexible connection 9 in combination with the insulating gasket 8 eliminates the instability of the heating of elements deformable under the action of heat, which could occur with the direct contact of element 3 and its supports (the end of the 7 busbar) due to changes in contact resistance. For circuit breakers for high rated currents, the temperature-sensitive $$ element 3 and its support 7 can be partially shunted.,

The abrupt movement of the thermosensitive element in the rezul “athe” of the attraction of the armature not only at the short circuit currents, but also at the overload currents determines the impact effect on the actuator. In this way, the influence of friction in this mechanism is eliminated and, accordingly, the reliability of the operation of the automatic switch increases.

The proposed trip unit can be used in circuit breakers for various rated currents, its most rational application in circuit breakers for rated currents up to 100 A.

Claims (3)

Claim 1. The maximum current release of the circuit breaker with a combined thermal and electromagnetic protection, containing an electromagnet with a magnetizing winding in the form of a temperature-sensitive element, an anchor and a fixed part of the magnetic circuit, the actuator and current-carrying tires, one of which is made in the form of a flexible wire, characterized in that, in order to increase the reliability of operation due to the impact of the temperature-sensitive element on the actuator, the temperature-sensitive element is designed so that it is supported at one end on the current-carrying tire the place of the support, the other end of the temperature-sensitive element is connected to the flexible conductor, the anchor is located on the temperature-sensitive element and is rigidly connected with it from the side opposite to uw fixed part of the magnetic circuit. I 2. The current release according to claim 1, which is based on the fact that between the end of the temperature-sensitive element based on the current-carrying bus and the current-carrying bus there is an insulating gasket, and the specified end of the temperature-sensitive element is · one with busbar flexible conductor. 3. The current release in accordance with paragraphs 1 and 2, characterized in that the section of the busbar on which the end of the temperature-sensitive element rests is made of a material with reversible shape memory. 1488895