RU105072U1 - FUSE WITH OPERATION CONTROL - Google Patents

Abstract

 1. A fuse with a trip control, containing the working and control fuses, the working fuse is included in the load circuit, and some conclusions of the working and control fuses are combined, characterized in that the working and control fuses have the same cross section of a homogeneous wire, in total equivalent corresponding to the rated current of the fuse, while the other terminal of the control fuse is connected to the other terminal of the working fuse of the insert through a high-pass filter, and in parallel with the filter control unit is connected, to the output of which an indication unit is connected. ! 2. The fuse according to claim 1, characterized in that the high-pass filter is made in the form of a ferrite ring. ! 3. The fuse according to claim 1, characterized in that the control unit contains a series-connected capacitor, a secondary winding of the first transformer and a primary winding of the second transformer, while a pulse generator is connected to the primary winding of the first transformer, and the terminals of the secondary winding of the second transformer are designed to be connected to the input of the display unit.

Description

The utility model relates to the field of electrical engineering and can be used in railway automation and telemechanics.

Known fuse with trip control (Product catalog of the St. Petersburg Electrotechnical Plant Ministry of Railways of the Russian Federation. - SPb., OJSC "Ivan Fedorov", 1997. - P.137). It contains a fuse holder and a base with sockets of which the fuse is connected by knife contacts, the fuse being fixed directly to their upper ends. A spring-loaded rod is hooked onto the fusible insert with one end, the other insulating end of which is located above the signal open contacts. When a fusible plug burns out, the rod moves down under the influence of a spring and closes the signal contacts located in the base.

This fuse with tripping control is structurally simple, technologically advanced in production and repair, but not reliable enough. A significant influence on its reliability is exerted by the tension of the fuse-link by the spring-loaded rod of the fuse control device. In addition, a mechanical fuse control device containing a spring-loaded rod and signal open contacts, in itself, has low reliability due to difficulties in the parametric compatibility of the spring elasticity of the rod, the elasticity of the signal open contacts and the pulling effect of the spring rod on the tensile fuse, as well as its own insufficient the reliability of the contact control system, prone to pollution.

A significant drawback of the considered option of a fuse with a trip control is the lack of an indication on the fuse about the fact of a trip, which makes it difficult to quickly detect it by maintenance personnel with a large number of fuses installed on the panels.

Known fuse with trip control (RU No. 544260, H01H 85/00, publ. 10.06.2006). It contains a fuse holder, in which knife contacts are fixed, which are inserted into the base sockets with spring-loaded contacts, while a working fusible link is tensioned and attached to the upper parts of the knife contacts, and a control fuse in the form of a constantan wire is located parallel to and below it, behind in the middle of which a spring-loaded rod is hooked, the lower insulating part of which is located above the signal open contacts, while the signal open contacts are rigidly attached They are connected to the base, and a floating movable signal contact is attached to the lower insulating part of the spring-loaded rod.

In this fuse with operation control, the pulling effect of the spring-loaded rod on the working fusible insert is excluded, the reliability of the device for controlling the operation of the fuse by introducing a floating movable signal contact and signal open contacts rigidly fixed on the basis of the fuse is increased. However, such a technical solution retains such disadvantages as the low reliability of the contact control system, which is prone to contamination, as well as the lack of an indication on the fuse about the fact of operation, which makes it difficult for service personnel to quickly detect it with a large number of fuses installed on the panels.

This fuse option is taken as a prototype.

The objective of the utility model is to increase the reliability of monitoring in a fuse with a trip control and to facilitate the detection of a tripped fuse.

The technical result is achieved due to the fact that in a fuse with a trip control containing a working and control fuse, the working fuse is included in the load circuit, and some leads of the working and control fuse are combined, the working and control fuse have the same cross section of a uniform wire, in total, corresponding to the rated current of the fuse, while the other terminal of the control fuse insert is connected to the other terminal of the working fuse insert through a high-pass filter, and the pair In addition to the filter, a control unit is connected, to the output of which an indication unit is connected.

The high-pass filter is made in the form of a ferrite ring.

The control unit contains a series-connected capacitor, the secondary winding of the first transformer and the primary winding of the second transformer, while a pulse generator is connected to the primary winding of the first transformer, and the terminals of the secondary winding of the second transformer are designed to be connected to the input of the display unit.

The fuse circuit with trip control is shown in the drawing.

The fuse with a trip control contains a working 1 and a control 2 fuse links. Some conclusions of the working 1 and control 2 fuse links are combined. Working 1 and control 2 fuse links have the same cross section of a homogeneous wire, in total equivalent to the rated current of the fuse. The other terminal of the control fusible insert 2 is connected to the other terminal of the working fusible insert 1 through a high-pass filter 3, and a control unit 4 is connected in parallel with the filter 3. An indication unit 5 is connected to the output of the control unit 4.

The high-pass filter 3 is made in the form of a ferrite ring.

The control unit 4 contains a series-connected capacitor 6, a secondary winding of the first transformer 7 and a primary winding of the second transformer 8, while a pulse generator 9 is connected to the primary winding of the first transformer 7, and the terminals of the secondary winding of the second transformer 8 are designed to be connected to the input of the indication unit 5.

Display unit 5 monitors two fuse states - a green indicator 10 operational state, a red indicator 11 - tripped state.

The operation of the fuse with trip control is as follows.

In normal mode, with the integrity of the working 1 and control 2 fuses, the frequency signal sent by the generator 9 through the transformer 7 creates a current in the circuit consisting of the working 1 and control 2 fuses, the capacitor 6 and the primary winding of the transformer 8. In this case, the inductors of the transformers 7 and 8 and the capacitance of the capacitor 6 at the frequency sent by the generator 9 are tuned into resonance. In this case, a signal with a large amplitude is removed from the secondary winding of the transformer 8, which, using the control unit 5, for example, based on a Schmitt trigger, turns on a green indicator 10, for example, an LED type.

When any of the fuse-links 1 or 2 burns out, the short-circuited part of the circuit opens, and the high-pass filter 3 does not allow the formation of a low-resistance parallel circuit. In this case, a signal with a small amplitude is removed from the secondary winding of the transformer 8, which, using the control unit 5, turns on a red indicator 11, for example, also of an LED type.

The performed prototype tests of the fuse with trip control in the form of a contactless control device confirmed its performance. The absence of contacts in the control elements ensures the reliability of the registration of the fact of the fuse tripping, and the indication convenient for the operating staff allows you to quickly determine the fuse that has tripped in the series of a large number of fuses installed on the panel.

Claims (3)

1. A fuse with a trip control, containing the working and control fuses, the working fuse is included in the load circuit, and some conclusions of the working and control fuses are combined, characterized in that the working and control fuses have the same cross section of a homogeneous wire, in total equivalent corresponding to the rated current of the fuse, while the other terminal of the control fuse is connected to the other terminal of the working fuse of the insert through a high-pass filter, and in parallel with the filter control unit is connected, to the output of which an indication unit is connected. 2. The fuse according to claim 1, characterized in that the high-pass filter is made in the form of a ferrite ring. 3. The fuse according to claim 1, characterized in that the control unit contains a series-connected capacitor, a secondary winding of the first transformer and a primary winding of the second transformer, while the pulse generator is connected to the primary winding of the first transformer, and the terminals of the secondary winding of the second transformer are designed to be connected to the input of the display unit.