RU2183165C1 - Power distribution system of electric plants of higher reliability and fire safety vehicles - Google Patents

Abstract

FIELD: power plants with grounded power distribution systems. system has non-linear resistance connected between load, for instance, tractive electric drive of high speed train, and grounded pole of supply source. Clamps for checking insulation resistance in service are connected to terminals of non-linear resistance. EFFECT: improved conditions of diagnosing of condition of electrical equipment, provision of higher reliability and electric fire safety. 1 dwg

Description

 The present invention relates to electrical installations containing grounded power distribution systems, including transport electrical installations. The invention is aimed at improving the conditions for diagnosing electrical equipment and power distribution systems and is intended to improve the reliability and safety of operation of electrical installations.

 Specifically, this invention relates to improving the fire and electrical safety of power circuits of power distribution systems by providing control of insulation resistance during operation of grounded power distribution systems, for example, direct current power circuits of traction electric drive of transport electrical installations of high-speed trains, suburban trains, trams, subway trains, electrical installations of sea ships and ships and so on.

 Known electrical distribution systems isolated from the hull (land) of electrical installations of transport (USSR Register. Rules for the classification and construction of marine vessels, 1990, v. 2). In such systems, both direct and alternating current control during operation the parameters of electrical insulation (insulation resistance relative to the housing, capacity, etc.), providing increased fire and electrical safety.

 Known ship electric power system - an analogue (A.S. Ship electric power system. 09/08/86. Grigoriev E.N. and others), which to provide insulation status monitoring contains an insulation status control unit, as well as AC consumers and DC consumers connected through the rectifier unit and the key to the distribution network, characterized in that in order to increase the efficiency of monitoring the insulation status of the system, an additional rectifier is introduced, the inputs of which are connected to the distribution system These are the first and second controlled keys, the inputs of which are connected respectively to the outputs of the additional rectifier, and the outputs are interconnected and through an inserted load resistor connected to the terminals intended for connection to the ship's hull, a DC voltage isolation unit connected between one of the phases distribution network and an output intended for connection to the hull of the vessel, a differentiation unit, the input of which is connected to the output of the unit for allocation of the DC voltage component, derivative sign determination block, the input of which is connected to the output of the differentiation unit, a multivibrator, the first and second logic circuits AND, the first inputs of which are connected to the multivibrator output, the second inputs are connected respectively to the first and second outputs of the derivative sign determination unit, and the output, respectively, to the control inputs first and second managed keys. A significant drawback of the described system is the unevenness of the error in evaluating isolation in the primary and secondary circuits. This disadvantage is eliminated in the ship's electric power system (analogue) by AS 792478 dated 01.09.80, "Ship electric power system", which contains a primary and secondary network with consumers connected to them, interconnected by means of static converters, characterized in that it is equipped with resistors, each of which is connected between one of the phases of the primary network and one of the phases of the corresponding secondary network. The disadvantage of this system is the difficulty of providing protection against single-phase short circuits to the housing (ground). In networks isolated from the housing, even a dull short circuit of one of the poles to the ground does not lead to an increase in the load current. Overcurrent protection does not work. The issues of protection against single-phase short circuits to the case (ground) are easily solved in grounded DC systems (prototype) (GOST R 50571.2-94. Electrical installations of buildings. Part 3, Main characteristics). In such DC systems, one of the poles is connected to ground, and protection is based on an assessment of the current between the grounded and ungrounded poles. This approach allows you to identify serious violations in both load chains and isolation circuits. However, at the same time, initial deviations of the insulation parameters from the norm turn out to be unnoticed. Such deviations are detected in networks isolated from the ground by monitoring the insulation resistance of the network relative to the ground. In grounded networks, monitoring of the insulation resistance of the network relative to the ground in operating modes is not provided. Such power distribution systems are not adapted to insulation control, there are no monitoring devices.

 The present invention is the provision of measuring the insulation resistance of a grounded DC power distribution system relative to the housing.

 To eliminate the above drawbacks, to achieve the desired technical result and to ensure the insulation resistance of the grounded power distribution system relative to the housing, a power distribution system is used that contains an isolated and grounded power pole, a power switch, load and insulation resistance, the first inputs of which are connected to an insulated pole through a power switch power supply, and the second input of the insulation resistance is connected to a grounded power pole, tlichayuschayasya in that the system is provided with non-linear resistor and terminals for measuring the insulation resistance connected to the terminals of the nonlinear resistance which is connected between ground and a second input of load resistance.

 The implementation of the proposed grounded power distribution system provides the ability to measure insulation resistance using traditional known devices, for example, meggers, allows, in contrast to the prototype, to determine the equivalent insulation resistance of the ungrounded pole of the system relative to the housing. Electrical installation rules (1, 6, 12. Insulation control. PUE, ed. Sixth, 1998) require automatic insulation control in DC networks with insulated poles or with an insulated midpoint. The proposed power distribution system allows automatic monitoring of the insulation health of a grounded power distribution system by measuring the insulation resistance of an ungrounded pole. This solution qualitatively changes the ability to assess the health of the insulation directly during the operation of the grounded system, without removing it from the operating mode.

The constructive simplicity of the proposed system is due to the use of a minimum set of only the additional elements necessary to solve the problem, introduced into the prototype circuit to solve the problem - to ensure insulation resistance measurement. Modern possibilities of miniaturization of technical solutions make it easy to implement the automation process of measuring insulation resistance based on the use of modern methods of information processing and the formation of measurement schemes. In addition, for this purpose, well-known methods, measuring instruments, insulation resistance control devices designed for isolated systems are applicable. Along the way, in addition to performing the main task of measuring the insulation resistance of the grounded power distribution system, a number of additional technical results are provided, in particular:
- expansion of the range of electrical installations suitable for their diagnosis in automatic mode based on the assessment of one of the most important parameters - insulation resistance of grounded electrical installations;
- a significant increase in the efficiency of detecting system malfunctions before its inoperability;
- simplicity of the additional circuit and standard measurement.

 The expansion of the range of electrical installations suitable for diagnosis in an automatic mode based on the assessment of one of the most important parameters - the insulation resistance of grounded electrical installations, is of independent importance. It is possible, due to a significant increase in the efficiency of detecting a system malfunction before its inoperability, to diagnose insulation continuously throughout the entire period of operation. Already at the beginning of the tendency to deterioration of insulation, long before the failure of the electrical installation, it is possible not only to establish the appearance of such a tendency, but also to determine the absolute values, the rate of deterioration of insulation, make an informed decision about the continuation of the electrical installation or its withdrawal from the mode. Such opportunities appear for grounded DC networks almost for the first time.

 The simplicity of the proposed scheme and the standard measurement are determined by the system diagram below. Only one element is added to a system that is not insulated from earth - a non-linear resistance (for example, a diode), and the system acquires the most important quality - the ability to measure insulation resistance. It is not necessary to develop special methods or instruments for measuring. You can use the simplest insulation control devices for AC or de-energized circuits. If a specially developed device based on microprocessor technology is implemented for these purposes, it is possible to simultaneously ensure miniaturization of the meter and the practical reliability of its operation, since in this case the meter can be built without the use of elements with low resource indicators.

 The proposed system meets the criterion of "novelty," which is determined by the presence of new structural elements and new connections between the elements in the proposed power distribution system, containing an isolated and grounded power pole, a power switch, load resistance and insulation, the first inputs of which are connected to an insulated pole through a power switch power supply, and the second input of the insulation resistance is connected to a grounded power pole, characterized in that the system is equipped with non-linear resistance Phenomenon and terminals for measuring insulation resistance, connected to the terminals of the nonlinear resistance, which is connected between the ground and the second input of the load resistance.

 The above properties do not coincide with the properties that are the hallmarks of the known technical solutions of analogues and prototype, and are not the sum of their properties, which allows us to consider the claimed solution meets the criterion of "significant differences".

 The essence of the proposed power distribution system is represented by the diagram in the drawing. The power distribution system contains an isolated 1 and ground 2 power poles, a power switch 3, a load resistance 4 and insulation 5, the first inputs of which are connected through a power switch to an isolated power pole, and the second input of the insulation resistance is connected to a grounded power pole. The system is equipped with non-linear resistance 6 and terminals 7 for measuring insulation resistance, connected to the terminals of non-linear resistance, which is connected between the ground and the second input of the load resistance.

 The power distribution system operates as follows. When the power switch 3 is on, all load resistances are turned on at the rated voltage of the power source. The load resistance in this case is much less than the value of the nonlinear resistance. When the power switch is turned off and when the supply voltage is removed from the consumers, for example, at the stop of the electric train, the non-linear resistance changes the polarity of the voltage supplied from the insulation resistance meter to terminals 7. The non-linear resistance 6 increases by several orders of magnitude, which ensures the measurement of insulation resistance with high precision.

 Thus, in a grounded power distribution system, it becomes possible to measure the insulation resistance. You can automatically take into account the change in the insulation parameters of the system between the current and previous measurements, which allows you to evaluate the derivative of the insulation resistance with respect to time, and monitor the trend in the insulation quality.

Claims (1)

 A power distribution system comprising an isolated and grounded power poles, a power switch, load and insulation resistances, the first inputs of which are connected to an isolated power pole through a power switch, and the second insulation resistance input is connected to a grounded power pole, characterized in that the system is equipped with non-linear resistance and terminals for measuring insulation resistance, connected to the terminals of the nonlinear resistance, which is connected between the ground and the second input of the resistance lazy load.