RU2132106C1 - Device for checking electrical equipment - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: device has pulse generator, which is connected to input of first unit of capacitors through circuit, which has at least one resistor and one stabilizing diode. Outputs of first unit of capacitors are connected to first terminals of objects under investigation. Other terminals of objects under investigation are connected to inputs of second unit of capacitors. Each output of second unit of capacitors is connected to circuit, which has at least one resistor and one stabilizing diode, and detector for condition of object under investigation. Outputs of condition detectors are connected to digital recorder. digital recorder has recording unit, information carrier and information displaying unit. EFFECT: possibility to check contacts of electrical equipment which are either switched on or off. 1 dwg

Description

 The invention relates to electrical engineering, in particular to a device for monitoring the state of electrical installations, and can be used to monitor the health of equipment without shutting down the test object.

 A device for automatically recording accidents in electrical systems, containing an electrical measuring device and an electromagnetic damping device that is turned on after a specified period of time [1].

 Closest to the claimed technical essence and the achieved result is a device for checking the health of discrete automation equipment, containing a control signal source connected via a control key to one input of a signal trigger, the output of which is connected to an indicator and a test unit connected to the input unit and connected to by the switching mechanism, the second input of the signal trigger is connected to the output of the unit under test, the exposure element, the elements OR or OR, the current sensor, disconnecting the contact of the control key and the indicator, the input of the shutter speed element connected to the output of the OR logical element, one input of which is connected to the output of the unit under test, and the second input through the NC contact of the control key is connected to the control signal source, the output of the time delay element is connected to one of the inputs of the element And through the current sensor it is connected to the output of this element and the switching mechanism, the second input of the element And is connected to the output of the unit under test, the indicator input is connected to the output of the current sensor [2].

 The devices described in [1] and [2] have limited functionality, as they provide information about the state of the test object only when it is energized and do not provide information about the state of the test object at times when there is no voltage on the test object . In addition, the absence in all known devices of the information display unit does not ensure the completeness and reliability of information about the state of the test object.

 The invention solves the problem of creating a device for monitoring the state of electrical installations, characterized by wide functional capabilities, providing information about the state of the tested objects at any time, regardless of whether the tested objects are energized or not, as well as the completeness and objectivity of information about the state of each tested object .

 To solve this problem, in the device for monitoring the state of electrical installations containing a pulse generator connected to the test objects, at least one detector for monitoring the state of the test object, it is proposed, according to the present invention, to additionally introduce two blocks of capacitors and chains, each of which contains at least at least one resistor and one zener diode, while the first block of capacitors is connected between the pulse generator and the test objects, and the second block of capacitors is connected between the test objects and the detector for monitoring the state of the tested objects, at least one of the chains is connected between the output of the pulse generator and the first block of capacitors, and each of the other chains is connected between the second block of capacitors and the input of one of the detectors for monitoring the state of the tested object, the outputs of which connected to a digital recorder containing a recording unit, a storage medium and equipped with an information display unit.

 The invention is illustrated in the drawing, which schematically shows the inventive control device.

 The device for monitoring the state of electrical installations contains a pulse generator 1, two blocks of capacitors 2 and 3 and two chains, each of which contains a resistor and a zener diode. In particular, the first chain containing a resistor 4 and a zener diode 5 is included at the output of the pulse generator 1.

 The second and each of the subsequent chains contains respectively a resistor 6 and a zener diode 7.

 The first capacitor block, consisting of capacitors 2, is connected to the test objects 8.

 The second block of capacitors 3 is connected between the test objects 8 and the detectors 9 for monitoring the state of the test objects.

 The second and each of the subsequent chains containing resistors 6 and zener diodes 7 are included at the input of the detectors 9 for monitoring the state of the tested objects.

 Detectors 9 for monitoring the state of the test objects are connected at the output to a digital recorder 10 comprising an information recording unit 11, an information carrier 12 and an information display unit 13.

 In this case, the number of chains containing resistors and zener diodes, and detectors for monitoring the state of the tested objects is taken equal to the number of tested objects.

 The device operates as follows.

 The generator 1 operates in a self-oscillating mode, generates a signal through a chain consisting of a resistor 4 and a zener diode 5, to a block of capacitors 2, and from it to a test object 8. From the test object 8, depending on the state of its contacts, the signal is supplied (or doesn’t arrive) to another block of capacitors 3, and then through chains of resistors 6 and zener diodes 7 to detectors 9, where it is converted to digital form “1” in case the contact of the test object is closed, or to digital form “0” in case if this contact is open . From the detectors 9, the signals "1" or "0" are fed to the digital recorder 10, where they are fixed.

 The implementation of the proposed solutions will provide enhanced functionality of the device for monitoring the state of electrical installations due to the ability to analyze the contacts of the test object, regardless of whether they are live or not.

 The presence of a digital registrar will ensure the reliability and objectivity of information about the test object, and the recording unit included in the digital registrar will ensure the safety of such information.

 The presence of chains of resistors and zener diodes will, along with this, increase the reliability of the claimed device, providing protection against failure of its elements.

 In OJSC Sverdlovenergo the inventive control device was developed, manufactured and tested. Positive test results confirmed the operability of the device and the possibility of its wide practical application in the future.

Sources of information
1. Autosvid. USSR N 125623, IPC H 02 J 13/00, H 02 H 03/04, 1960.

 2. Autosvid. USSR N 966805, IPC H 02 H 3/04, G 05 B 23/02, 1982.

Claims (1)

 A device for monitoring the state of electrical installations containing a pulse generator connected to the test objects, at least one detector for monitoring the state of the test object, characterized in that it additionally contains two blocks of capacitors and a chain, each of which contains at least one resistor and one a zener diode, while the first block of capacitors is connected between the pulse generator and the test objects, and the second block of capacitors is connected between the test objects and the detector monitoring the state of the test objects, and at least one of the chains is connected between the output of the pulse generator and the first block of capacitors, and each of the other chains is connected between the second block of capacitors and the input of one of the state monitoring detectors of the test object, the outputs of which are connected to a digital recorder containing a recording unit, a storage medium and equipped with an information display unit.