SU1607038A1 - Device for damage protection of electric installation - Google Patents

Abstract

The invention relates to electrical engineering and can be used in power supply circuits with predominantly alternating current with a combined protection both from overcurrents and from violation of any technological parameters (for example, temperature). The purpose of the invention is to increase the reliability and expand the scope. The second diode 5 in the polarity opposite to the polarity of the first diode 4 is connected between the input and the connection point of the second output of the controlled key 2 with the first output of the current-protected element. The third diode 6 is shunted by a resistor and in the same polarity as the first diode 4 is connected between the first lead of the capacitor 3 and the connection point of the first diode 4 with the control key 2. To completely disconnect the load when the control key 2 is opened, the second capacitor 8 is inserted connected in series with the load. 1 hp f-ly, 1 ill.

Description

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The invention relates to electrical engineering and can be used in power supply circuits with a combined protection from both overcurrents and from violation of technological parameters (e.g., voltage, temperature, etc.).

The aim of the invention is to increase the reliability and expansion of the field of application by fixing the load disconnection both during short circuits and when the process sensors are triggered, as well as by completely disconnecting the load when the control key is opened. The drawing shows a schematic diagram of the described device.

The protection device contains disconnecting self-locking element 1 with direct current protection, disconnecting control switch 2 without self-locking, first capacitor 3, as well as the first 4, second 5, third 6 diodes, resistor 7 and second capacitor 8, connected in series with the load 9 .

The first diode 4 is connected between the input of the device connected to the AC source and the first output of the control key 2. The second diode 5 in the polarity opposite to the polarity of the first diode 4 is connected between the input and the connection point, the second output of the control key 2 with the first pin of element 1 with current protection.

The third diode 6 is shunted by a resistor 7 and in polarity similar to the first diode 4 is connected between the first terminal of the first capacitor 3 and the connection point of the first diode 4 with a control key 2 The second terminal of the capacitor 3 is sucked to the second terminal of the current element 1 with protection.

The device works as follows. In normal mode, element 1 and key 2 are closed, capacitor 3 is not charged. When overcurrent occurs, the element opens; the amount of current flowing through the capacitor 3 is determined by the resistor 7, the resistance of which is chosen sufficiently large. When key 2 is disconnected (open switch J, its contact of the process sensor, for example, thermal relay), the negative half-wave flows through the second diode 5 and element 1, and the positive is broken by capacitor 3, which is charged through resistor 7 and diode 4; at the same time, the current in the load 9 is reduced by half (if the load is completely disconnected in series with the latter, capacitor 8, shown by nupktir, is turned on); full disconnection of load current with latching. The use of a protection device in AC circuits ensures that the action of technological sensors is fixed without the use of expensive circuit breakers with a remote release in power circuits, and in low-current ones - with complex and low reliability and vibration resistant polarized relays.

Discharging a capacitor to a protective element with a direct current protection (fuse, circuit breaker) for forced shutdown of the switch ensures that the process sensor operates for an unlimited time. This leads to the impossibility of repeating an emergency mode when returning the technological sensor, increases the reliability of protection and widens the application area of the device.

Formula of invention

Claims (2)

I. A device for protecting electrical installations from damage, containing a series-connected disconnecting caMOj locking element with direct current protection and a controllable key without self-locking, distinguished by the fact that, in order to increase reliability and expand the scope of application fixing the load disconnection when the process sensors are triggered, a capacitor, a first, a second, a third diode and a resistor are additionally inserted, with the first diode connected between the input terminal of the device power supply and 35 free output a controlled key, the second diode in polarity opposite to the polarity of the first diode is connected between the input terminal of the device power supply and the connection point of the controlled key without self-locking with the disconnecting self-fixing element with direct current protection, the third diode is bypassing the field into the field the same as that of the first diode, and is switched to the first terminal of the capacitor and the connection point 45 of the first diode with a controllable key, the second terminal of the first capacitor is connected to the free disconnect terminal caMOj fixing element with direct current protection. 2. The device according to claim 1, characterized in that 50, in order to increase reliability by completely disconnecting the load when the control key is opened, a second capacitor is additionally inserted, the first terminal of which is connected to the second capacitor terminal, and load connections.