SU1624557A1 - Current limiter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to protect electrical equipment from short-circuit currents. The aim of the invention is to increase the rated current and improve the protection performance. The current limiter contains two solid-metal electrodes 1.2, pressed into the insulating body (IR) 3, in which the insulating plates (PI) 4 with capillary channels 5 and 4 additional channels 6 are made. the interelectrode volume is divided into cylindrical cavities (CPU) 7, partially filled with low-melting alloy (LS) 8. Additional channels 6 communicate channels 5 with CPU 7, not occupied by LAN 8, between each other. With a short-circuit current, the LS 8 in channel 5 and not otorrhea time is kept unmelted column 8 PM in channel 6 and after melting of the last couple it to the CPU 7 are ejected due to the high vapor pressure PM 8 Self-healing occurs after 8 PM melt in the cavities 7. 1 yl. (Ls

Description

The invention relates to electrical engineering, in particular to devices for protecting electrical circuits, and can be used to protect electrical equipment from short-circuit currents.

The purpose of the invention is to increase the rated current and improve the protective characteristics.

The drawing shows the proposed current limiter, section.

The current limiter consists of two solid metal electrodes 1 and 2 pressed into the insulating body 3. The body 3 contains insulating plates 4 with capillary channels 5 made in them and additional T-profile channels 6 6. The plates 4 divide the interelectrode volume on the cavity 7, partially filled with a low-melting alloy 8, for example, Rosa alloy. Additional channels 6 communicate with each other channels 5 with cavities 7 not occupied by the low-melting alloy 8, on either side of the plate 4

Current limiter works as follows.

When the rated current flows, the system is in a steady state. Channel 5 is completely filled with low-melting alloy. With a short-circuit current, the low-melting alloy in the channel 5 melts and evaporates, and in the channel 6 due to the 7th thermal conductivity of the insulating plate 4, the low-melting alloy melts later and holds pairs

low-melting alloy in channel 5, which has a high specific resistance, which leads to an effective current limitation and a decrease in its time, i.e. to improve the protective characteristics of current limiters. Then the column melts in a fusible alloy in channel 6 and its vapors are ejected in cavity 7 by creating high pressure in channels 5. The arising shutdown arcs in channels 5 have reference points on the low-melting working medium and are extinguished due to the excess of the sum of the near-electrode voltage drops of the source voltage arcs. Then, the rest of the low-melting working fluid melts in cavity 7 and the current-limiting self-healing, additional channels 6 prevent the formation of sinks during solidification of the alloy in channels 5.

The essence of the invention is to eliminate the forces of the Pinch effect, pressing the liquid metal in the channels and reducing the cross section of the liquid metal current, and, consequently, the foot current.

Thus, the implementation of additional channels in the insulating holes of the T-shaped profile, communicating with

the main channel and the cavities between the plates that are not occupied by the contact working medium, and the use of a low-melting alloy, for example, a Rosa alloy, as the last, allows to increase the rated current and to improve the protective characteristics.

Claims (1)

Invention Formula A current limiter comprising a housing, two solid-metal electrodes, insulating plates with capillary holes made in them, forming channels, the insulating plates separating the interelectrode volume on the cavity, partially filled with contact working medium, and the channels are not aligned with said cavity, characterized in that, for the purpose of an increase in the rated current and an improvement in the protective characteristics, in each insulating plate an additional T-shaped channel is made, the vertical part of which goes into the opening of the capillary sections, and the horizontal part extends into the cavities between the insulating plates, which are not occupied by the contact working medium, and a low-melting alloy is used as the latter.