SU311305A1 - YATEPTNS-TECHNICAL-L ^ ^ JiSjHOTeKa IBA - Google Patents

Description

This invention relates to contactors or switches with resistance for DC and AC circuits.

Known switching devices for disconnecting DC and AC power circuits, consisting of a contact system with two consecutive breaks and active resistance connected in parallel with the contacts of the first and in series with the contacts of the second discontinuity and mechanically connected to the drive, do not allow increasing the breaking capacity devices.

The described device differs from the known ones in that the resistance is made in the form of a cylindrical spiral of high-resistance material, which at one end rests on a shock-absorbing spring in such a way that when the contacts of the first break are disconnected, the spiral is in the compressed position and after arc is extinguished. This increases the disconnecting ability of the device.

FIG. 1 is a circuit diagram of a single-phase switching device; in fig. 2 shows the device in the on state; in fig. 3 - switching device when disconnected.

the second and second gaps, variable resistance 3, a shock-absorbing spring 4 and insulating lugs 5. Resistance 3 is made in the form of a cylindrical helix wound from a conductor with high resistivity (for example, from nichrome). By means of the insulating lugs 5, the coil is mechanically connected to the drive of the device (drive not shown), as a result of which it is compressed when the device is turned on and unfolded when it is turned off. This achieves the electrical variability of the resistance of the helix. When the position is on, the coils of the spiral are compressed by themselves, and its resistance is minimal, since the current flows in the transverse direction of the wire (see Fig. 2). The damping spring 4 is preloaded and creates a certain pressure between the turns of the spiral. The stiffness of the shock-absorbing spring should be greater than the stiffness of the spiral.

When disconnecting, the contacts of the first gap are consumed and an arc arises between them that is shunted by the resistance of the spiral. The helix is in the compressed position due to the fact that the damping spring has not yet fully opened. The magnitude of the resistance of the compressed helix to be optimal, so that the quenching process proceeds favorably, i.e. the arc extinguishes behind

one half period. The arc will be short and its energy is small. The greater the resistance of the compressed helix, the less current there will be, the passage of the pd but helix carrying the arc to the first gap. This facilitates the process of limiting the current and the mind), and it measures the dimensions of the limiting resistance. After extinguishing the arc in the first gap, the current limited by the resistance passes in a spiral. At the same time, the spiral begins to diverge, introducing more and more resistance to the circuit (see Fig. 3). For smooth entry, the helix is made with variable pitch between turns. This reduces the magnitude of the voltage recovered at the contacts of the first gap, which prevents the re-ignition of the arc between them. After the coil is fully inserted into the circuit and limits the current to a specific value, the contacts of the second gap begin to diverge. Resistance parameters can be selected in such a way that arc quenching in the first and second gaps will occur without any arcing devices. The resistance of each coil should be removed so that when the circuits - with it, the maximum allowable current at the time of their divergence, the voltage between the coils is not sufficient to generate sparks or an arc between them. This is a prerequisite for arc-less current commutation with such resistance. The cylindrical coil in a compressed state has some resistance sufficient to significantly limit the current in the first stage of quenching. The device can use multiple coils connected in series and mechanically connected to the drive. If the magnitude of the resistance of the compressed spirals is less than optimal, then successively with spirals can

connect a resistance of a constant value that complements the total resistance to the optimum.

Subject invention

A switching device for disconnecting DC and AC power circuits, consisting of a contact system with two consecutive breaks and an active resistance connected in parallel with the contacts of the first and in series with the contacts of the second discontinuity and mechanically connected with the drive device increase

the breaking capacity of the device, the resistance is made variable in the form of a cylindrical spiral of high-resistance material, which at one end rests on a shock-absorbing spring so that when the contacts of the first break are disconnected, the spiral is in the compressed position and after arc quenching expands.