RU88160U1 - TEST STAND FOR ELECTRICAL DEVICES - Google Patents

Abstract

1. A test bench for electrical devices, containing a frame mounted on it with a countertop, calibration points, each of which has an information processing unit, a mobile structure for attaching a photo head, and an electrical device connection unit, characterized in that a relay power supply is additionally introduced load control, galvanic isolation current transformer, and a two-row arrangement of test places for mounting electrical devices was created in the frame. ! 2. The device according to claim 1, characterized in that the power supply unit of the load control relay is located under the tabletop on the suspension, and the galvanic isolation current transformer is located on a shelf.

Description

The inventive utility model - relates to the field of measurement technology and is intended for testing electrical devices. It can be applied in installations with the help of which verification and adjustment of electric energy meters is carried out.

Currently, stands for checking and adjusting electric energy meters are known, such as: a stand for the MTE-E3-10.10 installation [1] and a test stand for the PYC 5050 installation [2]. Stands are included, as a rule, in the structure of installations for checking and adjusting electric energy meters. One of the most important characteristics of plants is their performance, which depends on a number of factors, including the number of meters in the stands, which can be verified at the installation or controlled with its help per unit time. Stands allow simultaneous verification and adjustment of up to 10 single-phase or three-phase AC meters. The design of the stands is such that the test places are placed in one row, therefore, to increase the number of devices to be verified, it is necessary to increase the number of stands, which requires additional space.

The closest analogue is the prototype, which is the installation stand for automatic verification of single-phase or three-phase electric energy meters type MTE-E3-10.10 [1]. The stand is designed for automatic verification and adjustment of electronic and induction meters. The prototype consists of a rigid metal frame, which is the supporting basis of the entire stand. The countertop is mounted on the frame - to improve ease of use when replacing calibrated or verified meters. A place is fixed on the frame for hanging the counter; there are ten such places in one row. Each place contains: a contacting device, for supplying test signals of current and voltage to a verified or adjustable meter; an information processing unit for reading the output signals of the counters and calculating their errors; mobile mechanical design for attaching a photo head with the ability to adjust in depth and height.

The disadvantage of analogues and prototype is that they do not allow to check counters on shunt elements and additional parameters - the operation of the load relay. The design of the stand contains calibration places installed in one row. This increases the dimensions of the stand and requires their use in larger quantities to increase the productivity of installations, especially in serial production of meters.

The purpose of the claimed device is to increase the productivity of the installation, by eliminating the changeover, by connecting additional devices for additional checks, reducing the dimensions of the stand and, accordingly, the ability to connect more stands in the same area.

This goal is achieved by the fact that devices for additional checks are included in the stand: power supply unit of the load control relay, then - BPRUN [3], current transformer of galvanic isolation, further - TTGR [4]. A second row of test sites has been created for hinging verified electrical devices.

Common signs with the prototype are: the presence of a rigid metal frame, in which calibration places for mounting electrical devices are installed. A worktop is fixed on the frame, on which electrical devices can be placed in front of their hinge to calibration places or, if necessary, during calibration and adjustment. At each calibration site, an information processing unit, a mobile mechanical structure for attaching a photo head, and a connection unit for verified electrical devices are installed.

To the well-known features, the distinctive features of the claimed utility model are additionally introduced, such as: the introduction of the blocks - БПРУН and ТТГР installed under the tabletop, while the БПРУН is mounted on the suspension, TTGR - on the shelf. In a metal frame, a two-row arrangement of test places for mounting electrical devices has been created.

Figure 1 shows the structural diagram of the inventive device.

The metal frame 1, contains a two-row arrangement of calibration points 2. An information processing unit 3 is attached to each calibration place 2, a movable mechanical structure for attaching a photo head 4, a unit for connecting verified electrical devices 5. The table top 6 is mounted on a metal frame 1. Under the tabletop 6 on the suspension installed BPRUN 7, and on the shelf - TTGR 8.

The operation of the device. Verification and adjustment of electrical devices is as follows. Verifiable electrical devices, for example, electric energy meters installed on two-row calibration places 2, which are fixed in frame 1, are supplied with voltage and current test signals from the unit’s power supply and BPRUN 7. The current test signals, due to the corresponding connections, are decoupled through TTGR 8, which allows you to verify or calibrate meters with shunt type meters. If the meter has a non-standard connection block, it can be checked by placing it on the countertop 6 and connecting it to the connection block with 5 cables. The calculation of errors of the devices under verification is carried out by information processing units 3. A photo head mounted on a mobile mechanical structure 4 is necessary for checking induction counters.

An example implementation of the inventive device. The metal frame 1 can be made, for example, from bent sheets GOST 19904-90 from steel grade 10 kp according to GOST 16523-89. Test place 2 and fasteners can be made of steel of 10 kp grade according to GOST 16523-89 and cast from ABS plastic. The information processing unit 3 can be used one that is part of the stand for installing verification of single-phase meters ENERGOMER SU001 / 3-02-RO-K [5]. The mobile mechanical structure for attaching the photohead 4 can be made, for example, by casting from ABS plastic and 10 kp steel according to GOST 16523-89. Connection block 5 can be built on LB-I4R and SLB4-F connectors from Multi-Contact and discrete elements from Analog Devices. Tabletop 6 can be made, for example, from postforming, and the frame on which it is attached is made of metal. For the implementation of BPRUN 7, a technical solution according to the patent for a utility model of the Russian Federation No. 76194 [3] can be used. For the implementation of TTGR 8, a technical solution for the utility model patent of the Russian Federation No. 78364 [4] can be used.

Thus, thanks to the inclusion of additional BPRUN and TTGR blocks in the stand, as well as the creation of a two-row arrangement of test places for connecting electrical devices, the performance of the stands and, in general, the installation for checking and adjusting counters has been increased. At the same time, a decrease in the dimensions of the stand reduced the area for their placement.

Information used:

1. Installation stand MTE-E3-10.10, MTE company, Switzerland, http://www.meter-test.ru/products/stat/standart/mtee1010_107.html

2. Test rack installation PYC 5050, http://actaris.tg-c.ru/electricitytestbenches.html

3. Utility model "Power supply relay control load", RF patent No. 76194, IPC N05K 7/00, 09.09.2008

4. Utility model "Galvanic isolation current transformer", RF patent No. 78364, IPC H01F 38/28, pr.16.06.2008

5. Installation of calibration of single-phase meters ENERGOMER SU001 / 3-02-RO-K, TU 4222-036-46146329-2003, manufactured by Energomera Concern OJSC, Stavropol.

Claims (2)

1. A test bench for electrical devices, containing a frame mounted on it with a countertop, calibration points, each of which has an information processing unit, a mobile structure for attaching a photo head, and an electrical device connection unit, characterized in that a relay power supply is additionally introduced load control, galvanic isolation current transformer, and a two-row arrangement of test places for mounting electrical devices was created in the frame. 2. The device according to claim 1, characterized in that the power supply unit of the load control relay is located under the tabletop on the suspension, and the galvanic isolation current transformer is located on a shelf.