SU1157607A1 - Device for current protection against short circuit and overload - Google Patents

Abstract

A SHORT CIRCUIT AND OVERLOAD CURRENT PROTECTION DEVICE containing a series-connected primary current transducer, a linear current-to-voltage transducer with a threshold of insensitivity, a time delay block with inversely dependent response characteristic, the first logical element OR and the actuator, as well as connected between the output primary measuring current transducer and the second input of the first logical element OR, serially connected threshold element t, the second logical element OR, and the element of time delay, characterized in that, in order to increase the sensitivity, an insulation control unit, three AND logic elements, two NOT logic elements and an additional time delay element are introduced, the isolator control unit is connected in series additional element of the time lag, the first logical element is AND, the first logical element is NOT, the second and third logical elements are AND, the output of the second logic (logical element AND through the second logical element is NOT connected the second input of the first logical element And, the output of the additional element of time delay is connected to the second input of the third logical element AND, the output of which is connected to the second input of the second logical element OR, p1 and the output of the linear converter to voltage with a threshold of insensitivity connected to the second input second logical element I.

Description

The invention relates to electrical engineering and can be used for relay protection of electrical distribution networks, in particular, marine, against short circuits. A device for overcurrent protection is known that is intended to protect electrical distribution networks C1. The device has a short-circuit channel, built up according to the actuation current from the starting currents, and an overload channel, built up from the starting currents in time. This leads to an inadequate sensitivity of the device to arc short-circuit closures with a high current limit. The closest to the invention of an OO of a technical entity is a device containing a measuring current transducer, a threshold element, a linear current transducer with a threshold, a time element, a time delay block. With an inversely dependent characteristic, an actuator logic elements. A disadvantage of the known device is low sensitivity at arc short-circuits (short-circuit), when short-circuit currents. have a value close to the rated current of the protected feeder. This is due to the fact that the device has a channel k. a short response time (fractions of a second), but a large current of the operation, which can be on the order of 2-7 times the nominal value of the feeder current, and on the overload channel the operation current most often is approximately equal to the rated current, but at the same time can be tens of minutes. The aim of the invention is to increase the sensitivity. This goal is achieved by the fact that the device for current protection against short circuit and overload,; A series-connected primary current transducer, a linear current-to-voltage transducer with a threshold of insensitivity, a time delay block with reverse response to its response characteristic, the first logical element OR and an executive opfaH, and also connected between the output of the primary current transducer and the second input of the first logic transducer. of the OR element, the series-connected threshold element, the second logical element OR, and the element of time delay, a block is entered isolation trol, three AND logical elements, two NOT logical elements and an additional time delay element, with the isolation control unit g being successively connected, an additional time lag element, the first logical element AND, the first logical element NOT, the second and third logical elements AND , the code of the second logical element AND is not connected through the second logical element i to the second input of the first logical element AND, the output of the additional element of the time latch is connected to the second input of the third logical lementa AND, whose output is connected to the second input of the second OR gate, and the output current in the linear transducer with a threshold voltage insensitivity connected to the second input of the second logic element I. In FIG. 1 shows a functional diagram of the device; in fig. 2 is a characteristic of a linear current-to-voltage converter with a threshold of insensitivity. The device contains a primary measuring transducer T of current connected to a threshold element 2 and a linear converter 3 of a current into a voltage with a threshold of insensitivity. The outputs of the time delay element 4 and the time delay block 5 with the inversely dependent response characteristic are connected via the first IZh 6 logic element to the actuator 7. The isolation control unit 8 is connected to the first I 10 logic element through an additional time element 9. Second 11 and third 12 logical elements And are connected in series. The first 13 and second 1A logic elements are NOT included at the inputs of the logic elements 11 and 10. The output of the third logic element 12 is connected to the input of the second logical element OR 15. The control unit 8 can be configured, for example, based on the control of the zero-sequence voltage. The device works as follows. The signal from the measuring transducer 1 is fed to the threshold element 2 and the converter 3. The tripping of the threshold element 2 occurs at currents greater than (2-7) - the rated current of the protected connection. From the threshold element 2, the signal through the OR element 15 is supplied to the 4th element of the time delay, and from the latter, through the exposure, the time is usually between 0.1 and 0.4 s (depending on the degree of selectivity) through the OR6 element to actuator 7 which is the output of the device. The insensitivity threshold of converter 3 is usually adjusted to act at currents slightly exceeding. At the same time, the signal is proportional to current and is fed to block 5, which provides, depending on its magnitude, a short time from tens to hundreds of minutes to units of seconds, from block 5 a signal after the specified The time lag arrives through the element OR 6 to the executive body 7. The isolation control unit 8 which can be implemented on any known principle, in the absence of a ground jamming (operable isolation) is It is in an unproduced state, and therefore the And 12 element is also in an unmade state, regardless of the condition of the element 11. When the isolation control unit 8 responds and as a result of this signal on the code of the delay element 9 until the inverter 3 trips element 12 also fails to work because the element 10 is in the actuated state. If the signal appears at the output of element 9 earlier than at the output of converter 3, then the cooling of the signal through the element 12 occurs. For example, when the other k appears, 3. in the switchboard, the current is greater than the insensitivity threshold of converter 3, a signal appears at its output, and then, as a result of a cloud of ionized gases and metal vapors in the arc burning area and part of the switchboard metalwork, a decrease in insulation occurs, The isolation control unit 8 by the signal from the output of the element 11, which in this case has time to trigger before the signal at the output of the element 9, blocks the operation of the element 10. Therefore, a signal is received at both inputs of the element 12 The s leading to its triggering, the output of the element AND 12, the signal through the element OR 15 is fed to the input of the element 4 and with a corresponding delay. Nor on the executive body 7, Thus, with arc short-circuits, accompanied by a decrease in insulation resistance due to arc plasma falling on the metalwork, the protection responds with a sensitivity determined by the overload channel threshold element and short-circuit channel time. , which reduces the degree of destruction of electrical installations.

Claims (1)

DEVICE FOR CURRENT PROTECTION FROM SHORT CIRCUIT AND OVERLOAD, containing a primary measuring current transducer, a linear current-to-voltage converter with a dead threshold, a time delay unit with an inverse response characteristic, a first OR logic element and an actuator, as well as connected between the primary output measuring current transducer and the second input of the first logical element OR, connected in series with a threshold element, W oh logical element OR and time delay element, characterized in that, in order to increase sensitivity, an isolation control unit, three logical elements AND, two logic elements NOT and an additional time delay element are introduced into it, and the isolation control unit, an additional element are connected in series time delays, the first logical element AND, the first logical element NOT, the second and third S logical elements AND, the output of the second logical element AND through the second logical element is NOT connected to the second input of the first logical element AND, the output of the additional time delay element is connected to the second input of the third logical element. The non-output of which is connected to the second input of the second logical element OR, and the output of the linear current-voltage converter with a dead threshold is connected to the second input of the second logical element I. 1 1157607