RU10264U1 - STAND FOR ELECTRIC ENERGY CONTROL - Google Patents

Abstract

A stand for monitoring electric energy meters, comprising a reference electric energy meter, the current winding of which is connected in series with the current winding of the controlled meter, a current source and a voltage source, characterized in that it further comprises two paired switches to two positions, a current transformer, a current meter, a unit for measuring the relative difference in the readings of the reference and controlled counters and an indication unit, while the voltage source is adjustable and connected the first network terminal with the first fixed terminal of the first switch, the second network terminal with its second output terminal, as well as with the first potential input of the reference and controlled counters and with the first terminal of the secondary winding of the current transformer, the second terminal of which is connected to the movable terminal of the second switch, the first output terminal of the adjustable voltage source is connected to the first fixed contact of the second switch and to the second stationary contact of the first switch, movably the contact of which is connected to the second potential input of the reference and monitored meters, while the series-connected current windings of the meters through a current meter are connected to the primary winding of the current transformer, and the information outputs of the electric energy meters are connected respectively to the first and second inputs of the unit for measuring the relative difference in the readings of the meters, which made in the form of a microprocessor, the output of which is connected to the input of the display unit.

Description

The utility model relates to electrical engineering and can be used for verification and diagnostics of electric energy meters, including at the places of their installation.

From the prior art, a stand is known for monitoring electric energy meters (see Industrial Energy, 1966, p. 13-15), containing stabilized current and voltage sources, as well as a pulse repetition meter, and the outputs of the stabilized current source are connected through a reference digital printing current meter to current inputs of a controlled meter of electrical energy, the outputs of a stabilized voltage source are connected to potential inputs of a controlled meter and to flax input reference voltage meter digital printer, and the measuring vhyd meter pulse repetition period is connected to output telemetry-controlled electric energy meter.

The disadvantages of the well-known stand are large weight and size parameters and low measurement accuracy ... Indeed, even stabilized power supplies have some instability of 0.5-1.5%, which is usually associated with temperature or temporary draining of their characteristics. As a result, a measurement error arises, since the readings of measuring instruments relate to any particular moment in time, and the readings of the meter of the period of repetition of ishuls to a period of time.

There is also a stand for monitoring electric energy meters (see N.G. Vostroknutov and AM Ilyukovich, Testing electric meters, ML, GVI, 1961, pp. 90-91, Fig. 4-2), taken as a prototype and containing stabilized sources of current and voltage, a reference meter of electrical energy, a unit for measuring the rotational speed of the disk of a controlled meter, the current windings of the meters connected in series and connected to a stabilized current source and the potential inputs of the meters connected to a voltage source.

A disadvantage of the known stand is that it has limited functionality, in particular, there is no possibility of monitoring the counter for the lack of self-propelled. In addition, the well-known stand is characterized by large weight overall characteristics and large time-consuming control.

The utility model is based on the task of providing an extension of the functional capabilities of the bench for monitoring electric energy meters while reducing weight and size parameters and reducing the monitoring time by automating the measurement process and processing the data obtained.

The problem is solved in that. a stand for monitoring electric energy meters, containing a reference electric energy meter, the current winding of which is connected in series with the current winding of the controlled meter, the current source and voltage source, according to the utility model, further comprises two paired switches for two positions, a current transformer, a current meter, a unit measuring the relative difference in the readings of the reference and controlled counters and the display unit, while the voltage source is adjustable and connected its first network terminal with the first fixed terminal of the first switch, the second network terminal with its second output terminal, as well as with the first potential input of the reference and controlled counters and with the first terminal of the secondary winding of the current transformer, the second terminal of which is connected to the movable terminal of the second switch, the first output terminal of the adjustable voltage source is connected to the first fixed contact of the second switch and to the second fixed contact of the first switch, movably the contact of which is connected to the second potential input of the reference and monitored meters, while the series-connected current windings of the meters through the current meter are connected to the primary winding of the current transformer, and the information outputs of the electric energy meters are connected respectively to the first and second inputs of the unit for measuring the relative difference in the readings of the meters, which is made in the form of a microprocessor, the output of which is connected to the input of the display unit.

This embodiment of the stand for monitoring electric energy meters allows not only monitoring the operation of meters at various load currents, but also monitoring the presence of self-propelled at various voltages of the supply network. This extends the functionality of the stand. In addition, due to the use of a microprocessor, the control time is reduced at high accuracy by averaging the measurement results over several samples. At the same time, the weight and size parameters of the stand are reduced due to the exclusion of stabilized power sources.

The drawing shows a schematic diagram of a stand for monitoring electricity meters

The stand for monitoring electric energy meters includes an adjustable voltage source 1, a first 2 and a second 3 two-position switch, a trans |) current sensor 4, a current meter 5, a reference meter for electric energy, a controlled meter for electric energy 7, and a unit for measuring relative difference meter readings, which is used as a programmable microprocessor, and block 9 indication. Switches 2 and 8 are paired with each other.

The first network terminal 10 of the regulated voltage source 1 is connected to the first fixed contact of the first switch 2. The second network terminal C of the regulated voltage source 1 is connected: to the output terminal 12 of the source 1, with the first terminal of the secondary winding 14 of the current transformer and with potential inputs 16 and 17, respectively reference b and controlled 7 counters. The output terminal 13 of the adjustable voltage source 1 is connected to the second fixed contact of the first switch 2 and to the first fixed contact of the switch 3, the movable contact of which is connected to the second terminal of the secondary winding of the current transformer. To the primary winding 15 of the current transformer 4 are connected in series the current meter 5 and the current windings (not shown) of the counters b and 7, the Potential inputs 18 and 19, respectively, of the counters b and 7 are interconnected and connected to the movable contact of the switch 2. Information output (telemetry output) 20 of the reference meter b is connected to the first input of block 6. In hearing the electronic control of electric energy meters having a telemetry output of 21, it is connected to the second input of block 8. If se is monitored first counter 7 has a rotating disk with a colored mark on the side surface, in this case, the second input of unit 6 must be connected with the disc 22 the counter 7 by the optoelectronic sensor 23, the output of which generator 24 is enabled ishulsov. Elements 23 and 24 are shown in dashed lines by the output of the siadie block 8 and .with the input of the indication block 9.

Stand for monitoring electricity meters works as follows. After installing the monitored counter 7 on the stand, an adjustable voltage source 1 is connected to the AC mains, while the switches 2 and 3 are set to the position shown in the drawing. As a result, the potential inputs 16 and 18 of the reference counter

6and the potential inputs 17 and 19 of the monitored counter

7 The mains voltage is applied. Then, using an adjustable voltage source 1, the following values of the current flowing through the current windings of counters b and 7 are set sequentially, namely: 15 A, 7 A and 0.2 A,

Information signals from the outputs of 20.21 telemetry, respectively, counters b and 7 are supplied to the corresponding inputs of the unit 6 for measuring the relative difference in the readings of the reference b and the controlled 7 electricity meters,

8block 6, made in the form of a microprocessor, calculates the absolute value of the difference in the number of pulses from the reference b and controlled 7 counters, as well as the relative difference in the readings in percent. The result of processing each sample of the output signals of counters b and 7 is stored, and then an averaging operation is performed for each current value. This eliminates the influence of destabilizing factors - primarily network instability. On the basis of the data obtained (in the entire operating range of currents), a judgment is made on the operability of the monitored meter on the basis of good-for-good.

Monitoring for the lack of self-propelled counter is carried out at the lower position of the movable contacts of switches 2 and 3. In this case, the current in the current windings of counters b and 7 is zero. The duration of this operation is about three minutes, and the readings of the display unit 9 will correspond to the number of false pulses from the counter 7 due to its self-propelled device.

The stand allows you to control and counters of electrical energy with a rotating disk. In this case, the counter information output - a rotating disk - is connected to the second input of block 8 by means of an optocoupler sensor 28 and a pulse shaper 24 of the required shape.

Claims (1)

A stand for monitoring electric energy meters, comprising a reference electric energy meter, the current winding of which is connected in series with the current winding of the controlled meter, a current source and a voltage source, characterized in that it further comprises two paired switches to two positions, a current transformer, a current meter, a unit for measuring the relative difference in the readings of the reference and controlled counters and an indication unit, while the voltage source is adjustable and connected the first network terminal with the first fixed terminal of the first switch, the second network terminal with its second output terminal, as well as with the first potential input of the reference and controlled counters and with the first terminal of the secondary winding of the current transformer, the second terminal of which is connected to the movable terminal of the second switch, the first output terminal of the adjustable voltage source is connected to the first fixed contact of the second switch and to the second stationary contact of the first switch, movably the contact of which is connected to the second potential input of the reference and monitored meters, while the series-connected current windings of the meters through a current meter are connected to the primary winding of the current transformer, and the information outputs of the electric energy meters are connected respectively to the first and second inputs of the unit for measuring the relative difference in the readings of the meters, which made in the form of a microprocessor, the output of which is connected to the input of the display unit.