RU92544U1 - ELECTRICAL EQUIPMENT INSULATION CONDITION DEVICE - Google Patents

Abstract

1. A device for monitoring the state of insulation of electrical equipment containing a power source, a test voltage generator, a comparator and a measuring system, characterized in that the test voltage generator contains a high-frequency converter connected in series, a step-up transformer and a stabilized rectifier with a test voltage signal indicator, the output of which is a wire with the first a probe is connected to the first end of the measured insulation resistance circuit, the second end of which is second A probe is connected to the input of the matching device, the output of which is connected to the comparator input, to five outputs of which is connected a display unit of a controlled parameter connected to a power source and having five LEDs corresponding to different values of the insulation resistance of the measured circuit, the first output of the comparator corresponding to the minimum value insulation resistance, is additionally connected to the vibration relay, and the power source is connected to the charger and through the return power button with ind a power supply discharge indicator and a charger located in a common insulated housing, the lower part of its housing equipped with a grip for holding on which the power button is located, the grip located at an angle of 45-60º to the axis of the housing, the first measuring probe is made of insulated hard a metal rod with a pointed uninsulated tip-needle and firmly connected to the housing through the first contact connector, moreover, the connection can be threaded, and the second measuring probe

Description

The utility model relates to instrumentation and can be used in the operation of electrical equipment during preventive maintenance and diagnostic checks of the insulation status of electrical machines and apparatuses and predicting its residual life in agricultural production.

A portable device for changing and controlling the insulation resistance of the windings of electrical machines and apparatuses is known — a megohmmeter, which contains a built-in electromechanical alternating current generator, a rectifier, a measuring mechanism, and auxiliary elements (See, for example, the book “Handbook of Electrical Measuring Instruments”, ed. K .K. Klyunin. 2nd ed., Revised and revised - L. Energia, 1977, p.462, 484).

The disadvantage of this device is the presence of a manual drive of the generator with the need for uniform rotation with a strictly defined number of revolutions per unit time, as well as the need to place the device on a stable horizontal stand. The device has a complex design, high cost, is bulky and massive, and a pointer measuring system is inertial and sensitive to shocks and external influences. High weight and size and cost indicators, the inconvenience of use in operating conditions causes certain difficulties in the use of the device by the personnel of the electrical services of agricultural enterprises and farm owners.

A device for approximate control of electrical circuits, containing an internal power source that is charged during operation, five LEDs and zener diodes and two small sealed relays. When monitoring electrical circuits, a specific LED is displayed, and a sound signal is also given. (See AS USSR No. 1800407, BI No. 9 according to class G01K 31.02. Device for monitoring electrical circuits).

The disadvantage of this device is the inability to control electrical targets containing a controlled insulation resistance.

A device for controlling the quality of electrical insulation containing a source of test voltage, a large-scale voltage converter, voltmeter, summing amplifiers, signal tracking and storage devices, and an indicator are known. The device allows you to take into account the presence of partial discharges in the insulation, to predict the remaining insulation resource based on the data obtained with high accuracy and objectivity of measurements. (See, for example, RF patent No. 2122215 according to class G01R 27/02, 1998, BI No. 32. Device for monitoring the quality of electrical insulation).

The disadvantage of this device is the complexity of the electrical circuit design, the presence of a large number of expensive elements and the high cost of the device, as well as the inability to use agricultural production conditions.

The task is to simplify the circuit and design of the device, reduce weight and size indicators, increase the convenience, reliability and efficiency of application for monitoring insulation resistance during maintenance of electrical equipment in operating conditions of agricultural production.

As a result of using the utility model, the electrical circuit is simplified, and it becomes possible to use agricultural production under operational conditions.

The technical result is achieved by the fact that in the proposed device for monitoring the state of insulation of electrical equipment containing a power source, a test voltage generator, a comparator and a measuring system, the test voltage generator contains a high-frequency converter connected in series, a step-up transformer and a stabilized rectifier with a test voltage signal indicator, the output of which is a wire with the first measuring probe connected to the first end of the measured resistance circuit zolation, the second end of which is connected by a second probe to the input of the matching device, the output of which is connected to the input of the comparator, to the five outputs of which is connected a display unit of a controlled parameter connected to a power source and having five LEDs corresponding to different values of the insulation resistance of the measured circuit, the first output the comparator corresponding to the minimum value of the insulation resistance is additionally connected to the vibration relay, and the power source is connected to the charger and, through h the return power button, with the indicator of the discharge of the power source and the charger located in a common insulated housing, while the lower part of its housing is equipped with a grip for holding, on which the power button is located, and the grip is located at an angle of 45-60 degrees to the axis of the housing, the first measuring probe is made of an insulated rigid metal rod with a pointed non-insulated tip-needle and firmly connected to the housing through the first contact connector, and the connection can be threaded, and the second probe is formed as a ferrule with an insulated holder and connected to a flexible insulated conductor to the second connector housing, both probes are removable.

The result is also achieved by the fact that in the device, the first rigid measuring probe is made to be retractable into the housing and retractable with locking in the connector when in the operating position.

In the device, the first hard measuring probe is mounted on the housing on a movable hinge with the possibility of folding the probe in the idle position and adjoining the housing with fixing in the working position.

Figure 1, is a diagram of a device for monitoring the state of electrical insulation of electrical equipment in operating conditions.

The device contains a power supply 1, with an autonomous power supply 2, a charger 3, a power button 4 and a discharge indicator 5, which is connected to a test voltage generator 6 containing a high-frequency converter 7 connected in series, a step-up transformer 8 and a stabilized rectifier 9 with a signal indicator 10 test voltage, the output of which through the probe 11 is connected to one end of the measured circuit 12, the second end of which, the probe 13 is connected to the input of the matching device 14, the output of which is connected comparator 15, which five outputs connected to the display unit 16 having five LEDs 17 at ranges of fixed insulation resistance values of 0.5; 1.0; 3.0; 10; 30 megohms, which is connected via a power button 4 to a power source 2, and a small-sized vibration relay 18 is also connected to the first output of the comparator 15, corresponding to the minimum permissible value of the insulation resistance.

The device operates as follows.

Electric energy from an autonomous source 2 of the power supply unit 1 is supplied through the power button 4 to the input of the test voltage generator 6, where it is first converted in frequency by the high-frequency unit 7, increases in voltage to 500 V by a step-up transformer 8 and after the rectification and stabilization unit 9, a constant stabilized test 500 V voltage is supplied through the first probe 11 to the measured circuit 12. The second end of the measured circuit 12, connected to the second probe 13, is connected through a matching device 14 to the input of the comparator 15, is installed injecting a predetermined threshold for each output, depending on the value of the controlled parameter, which is the insulation resistance of electrical equipment.

The comparator 15 compares the signal received from the matching device 14, corresponding to the value of the insulation resistance of the measured circuit 12 and through its outputs highlights the corresponding indicators-LEDs 17 of the display unit 16, over the ranges of fixed insulation resistance values equal to 0.5; 1.0; 3.0; 10; 30 megohms. When the insulation resistance is reduced to 0.5 MΩ, the corresponding LED 17 of the display unit 16 connected to the first output of the comparator 15 is displayed, and the vibration relay 18 connected to the first output of the comparator 15 is activated and an audio signal is given. In the control process, as the insulation resistance of the operating electrical installation decreases, the LED scale of the display unit 16 is filled. When the voltage of the power supply 2 decreases below the permissible value, the discharge indicator 5 lights up.

Figure 2 presents a General view of the device in the housing with located on the front panel control button and indicators.

Figure 3 presents a General view of a device made in a housing with a handle and a rigid probe.

Figure 4 presents a General view of the device made in the housing with a handle located at an angle to the axis of the housing and the rigid probe.

In the embodiment according to figure 2, the device is made in an insulated housing 19, having two connectors 20 for connecting two measuring probes 11 and 13 with flexible insulated wires and holders, which at the ends are equipped with clamps for connecting to the measured object, for example, to one of the terminals terminal box of the motor and its housing. On the front panel of the case there is a power button 4, a discharge indicator 5, a signal indicator for test voltage 10, and a connector 21 for connecting external power supply with a voltage of 9 V DC.

In another embodiment, according to FIGS. 3 and 4, the device is made in an insulated housing 19 with a handle 22, convenient for holding, having two sockets 20 for installing two measuring probes. A measuring probe with an insulated holder 23 and a tip 24 is connected to one connector 20, located on the housing 19, with a flexible conductor, and a rod measuring probe 25 made of a rigid metal rod coated with insulating material with a pointed uninsulated tip 24 is installed in another connector 20. Both probes are removable, and the length of the rigid probe can be 120-150 mm, and the length of the flexible wire with a holder and a tip is 400-500 mm. On the front panel of the device are the mentioned indicators for monitoring insulation 17, a discharge indicator 5, a test voltage indicator 10, and a control button 4.

According to figure 4, the device is made in a housing with a handle 22 located at an angle of 45-60 degrees to the axis of the hard probe 25, the power button 4 is located under the housing 19 in the upper part of the handle 22. In this case, the entire power supply 1 is placed in the handle 22, which can significantly reduce the size of the housing 19 and improve the operational properties of the device.

When conducting control measurements, the device is held by the handle in the right hand, while touching the rod measuring probe to one part of the measured circuit (for example, the motor housing), and the left end of the flexible wire probe with the holder touches the second end of the measured circuit (for example, one of terminals of the stator windings on the terminal box of the motor) or connect the probe with a clamp. The power button should be pressed with the thumb of the right hand at its upper position on the handle or with the index finger at its lower position. The nominal mode of operation of the device is short-term during periodic measurements.

Checking the readiness of the device for operation is carried out by pressing button 4 “Control R _out ” with probes not connected, and LED 5 “Battery” and the neon indicator lamp 10 with the inscription “500 V” should light up. When connecting the measuring probes to the controlled circuit 12, consisting of the tested stator winding and the motor housing, and pressing the button "Control R _out ", the controlled circuit 12 is connected in series to the measuring part of the device circuit. The comparator 15 monitors the magnitude of the incoming signal, selects the output signal that corresponds to the resistance value of the measured circuit R _from or exceeds it and lights up the corresponding LED on the display unit 16. If all the LEDs 17 are lit when the button is pressed, and the indicator 10 with a neon lamp and the inscription " 500 V ”does not light, then in the measured circuit a short circuit or its resistance is below 0.1 megohms.

The mounted device is simple in design and convenient to use, made in a housing made of insulating material, on the front panel of which, in addition to six LEDs and one neon indicator, there is only one control button - “Control R _out ”.

The mounted device is portable, has minimal overall dimensions. Power is supplied from 9-12 V batteries with the possibility of recharging them or from a 220 V network through an adapter, which is advisable for periodic use in stationary conditions, for example, in an electric shop or agricultural workshop, to check the electric motors before installing them on the processing equipment when replacing them system.

In real-life conditions, it is not always necessary for a rural electrician to know the exact value of the insulation resistance of electrical installations, but it is quite sufficient to know at what level the insulation resistance is within certain limits and whether its value has dropped below the permissible 0.5 MΩ. The developed device gives such information, and the lack of an accurate and complex measuring system greatly simplifies the design of the device, reduces its overall dimensions and cost. In this case, the comparator can be configured to operate at other values of the controlled insulation resistance of electrical equipment, depending, for example, on the rate of insulation wear, operating conditions and environmental conditions.

Carrying out control measurements of R _{from the} winding of a particular electrical installation after certain periods of time also allows us to draw conclusions about aging trends and the deterioration of its insulation.

In agricultural production, and especially in animal husbandry, electrical equipment is operated in conditions characterized by high humidity and the presence of an aggressive environment, which negatively affects the insulation resistance, which is the main indicator of the technical condition of electrical equipment, including motor windings. The application of the developed device will allow rural electricians in operational conditions to carry out current monitoring of insulation resistance with sufficient accuracy, to replace them in time with subsequent drying or repair of electrical equipment, the insulation resistance of the windings of which has reached a value below 0.5 megohms, preventing their complete failure, and also reduce downtime of technological equipment, reduce the damage associated with this, reduce the accident rate of rural electrical installations and increase reliably the work of electrical equipment.

Claims (3)

1. A device for monitoring the state of insulation of electrical equipment containing a power source, a test voltage generator, a comparator and a measuring system, characterized in that the test voltage generator contains a high-frequency converter connected in series, a step-up transformer and a stabilized rectifier with a test voltage signal indicator, the output of which is a wire with the first a probe is connected to the first end of the measured insulation resistance circuit, the second end of which is second A probe is connected to the input of the matching device, the output of which is connected to the comparator input, to five outputs of which is connected a display unit of a controlled parameter connected to a power source and having five LEDs corresponding to different values of the insulation resistance of the measured circuit, the first output of the comparator corresponding to the minimum value insulation resistance, is additionally connected to the vibration relay, and the power source is connected to the charger and through the return power button with ind a power supply discharge indicator and a charger located in a common insulated housing, the lower part of its housing equipped with a grip for holding on which the power button is located, the grip located at an angle of 45-60º to the axis of the housing, the first measuring probe is made of insulated hard a metal rod with a pointed uninsulated tip-needle and firmly connected to the housing through the first contact connector, moreover, the connection can be threaded, and the second measuring probe nen in the form of a metal tip with an insulated holder and is connected by a flexible insulated conductor with the second connector of the housing, both measuring probes are removable. 2. The device according to claim 1, characterized in that the first hard measuring probe is made to be retractable into the housing and retractable with locking in the connector when in the operating position. 3. The device according to claim 1, characterized in that the first hard measuring probe is mounted on the housing on a movable hinge with the possibility of folding the probe in the idle position and adjoining the housing with fixing in the working position.