SU993381A1 - Versions of device for discharging capacitor bank - Google Patents

Description

This goal is achieved by introducing an electromagnet and an additional contact mechanically connected with an electromagnet to a known device for discharging a capacitor battery containing fixed contacts connected to a capacitor battery and a grounding circuit, a moving contact and current limiting resistor. the contact is connected by a current limiting resistor to the winding of an electromagnet, the second end of which is connected to ground. In the second variant, an additional contact and an electromagnet mechanically connected to the subtitled close / open contact are introduced into the device for discharging a capacitor battery, the additional contact being installed with a gap in relation to the moving closing contact and connecting the limiting resistor to the electromagnet winding , the other end of which is connected to ground. In both cases, the electromagnet winding can be performed as a current-limiting resistor, for example, a high-resistance wire. FIG. 1 shows a device according to the invention, the first embodiment; in fig. 2 - the same, the second version of execution. The device (FIG. 1) contains a main contact 1 connected to ground, and a main contact 2 connected to a capacitor bank. The movable contact 3. is connected by a jumper 4 to the main contact 2. An additional contact, .5, mounted on a hinge, is electrically connected through a current-limiting resistor 6 to the coil 7 of the electromagnet, the other end of which is connected to ground. In addition, the auxiliary contact 5 is mechanically connected with the core 8 of the electromagnet, the movable contact 3 is driven by the closing drive 9. The auxiliary contact 5 (Fig. 2) forms a gap (0.5-2 mm) with the movable contact 3 and is connected to An electromagnet and a current-limiting resistor, as in FIG. 1. The device works as follows. When activated, the moving contact 3, moving down, closes with an additional moving contact 5. This protected object, such as a capacitor battery, is discharged along the resulting circuit through the coil 7 of the electromagnet and the eesistor 6. A current of sufficient magnitude several tens or even hundreds of amperes) triggers the electromagnet and keeps the core for the entire duration of the current flow sufficient to hold the core. When the current in the circuit is greatly reduced, which means a sufficiently deep discharge of the capacitor battery, additional contact 5 is no longer held by the electromagnet and, together with contact 3, is closed to contact 1, where the final discharge of the capacitor battery and its grounding occur. In the BTdpoM version, the device operates as follows. When the protection is triggered, the moving contact Z., when moving, passes with a gap (0.5-2 mm) past the additional contact 5. If there is sufficient voltage on the capacitor battery, an air gap 3-5 breaks through and a current flows through the resulting circuit to triggering electromagnet. The core 8 of the electromagnet engages and rests against the moving contact 3 with its stem, limiting its movement until a sufficient current of discharge of the capacitor battery flows in the circuit. At the end of the preliminary discharge, the current in the circuit decreases so much that the core is released and contact 3 closes the object through contact 1 to ground. The device according to the first embodiment (Fig. 1) is preferably used with the capacitance value, the accumulators are more than 50 µF, and the device according to the second B option is used with the accumulator voltages above 10 kV. The advantage of the proposed device for discharge capacitor. A battery is an increase in the reliability of its operation, due to the fact that it fundamentally excludes the possibility of high discharge currents passing through the main contacts regardless of the situation that leads to the device triggering, including emergency power failure. This eliminates the failure of not only the contact system of the device, but also of the protected object, especially in emergency situations. Another important advantage of the proposed device is its considerable simplification compared to the known one, since instead of two separate switches it contains only one, This takes into account weight and dimensions and reduces the complexity of manufacturing the device as a whole. In addition, device simplification is achieved by eliminating time delay devices, which also contributes to improving the reliability of the device.

Claims (2)

Claim 1. A device for discharging a capacitor bank, comprising fixed contacts connected to a capacitor bank and a ground loop, a movable closing contact and a current-limiting resistor, characterized in that, in order to simplify the design and increase the reliability of its operation, an electromagnet is introduced into it and an additional contact mechanically connected to the electromagnet, the additional contact being connected through a current-limiting resistor to an electromagnet winding, the second end of which is connected to ground. 2. A device for discharging a capacitor bank containing fixed contacts connected to the protected object and the ground loop, a movable make contact and a current VNIIPI Order 495/71 Circulation 615 Signed limiting resistor, characterized in that, in order to simplify the design and increase the reliability of its operation, an additional contact and an electromagnet mechanically connected to the movable closing contact are introduced, and the additional contact is established with a gap in relation to the movable making contact and is connected through a current-limiting resistor to the coil of an electromagnet, the second end of which is connected to ground.