TR201711552A2 - MOBILE COUNTER FAULT TEST DEVICE - Google Patents

Abstract

The present invention provides a hand terminal (6) and wireless connection to this terminal, which enables testing of electric meters (S) containing optical port (O), terminal (K) and pulse LED (L) whether they have made erroneous measurement or not. It relates to a mobile meter tester (1) comprising an electronic load (2), a pulse sensor (3), an optical communication sensor (4) and an energy sensor (5). The pulse sensor (3) in the mobile meter tester (1) of the present invention comprises a goose neck (3.1) with a double-sided adhesive (3.4) or a clip (3.5) on one end. Thus, the pulse sensor (3) can be easily adjusted to the pulse LEDs (L) located in different places of the electricity meters (S) in different models.

Description

DESCRIPTION MOBILE COUNTER ERROR TESTER Technical Area This invention provides electricity meters of different brands and models that make erroneous measurements. designed for mobile use, capable of identifying without disconnecting It is about a portable, light and precise measuring device. Prior Art EV, workplace etc. electrical energy consumed by electronic devices in places A wide variety of brands, models and numbers of electricity meters for measuring is used. The electric meters in question are classified according to their structure as electromechanical and It is divided into two as electronic meters.

Above electronic type electricity meters, also known as smart meters usually a display screen, optical port, terminals, RS 485 output port and active/reactive pulse (pulse) LEDs (light emitting diode - light emitting diode) are available.

The electricity meters in question measure the active, inductive, capacitive energy, When it reaches a certain value determined by the counter constant, the corresponding pulse is sent to the outside world. It makes it visible as the light pulse produced by the LED. light pulse The frequency of occurrence is also called the counter constant and its unit is impulse/kWh. determines. Since the said pulses occur in real time, it is usually The best way to understand counter measurement is to use the pulse frequency.

Since the electricity meters in question deteriorate over time and make erroneous measurements, this Errors in the meters need to be tested. Incorrect measuring meters, 29780.02 It can be disassembled and tested in a laboratory. However, all sufficient number of laboratory facilities to test these meters There are no counters, only heavily damaged meters or complaints from customers. counters can be tested. Therefore, testing of faulty meters mobile device that is used as a portable and determines the measurement errors of the meters. These mobile meter test devices (hand-held devices) are placed on the meter for testing. It communicates with a mounted pulse sensor wired and this pulse After the sensor is mounted on the meters, according to the energy consumed by the meters, how much energy is measured from pulse LEDs that flash at regular intervals determines what has been done. During this process, the meter's current and voltage information is wired between the handheld terminal and the electricity meters. The energy calculation is made by taking it through the connection. Energy as a result of the test measurement and the measurement information of the meter are compared so that the meter measures incorrectly. It is understood that it does not measure.

In the state of the art, the pulse sensors of the existing mobile test devices are different. It may be impossible to be mounted on type meters. Because different model and size counters side by side, installation of pulse sensors (see KR100OSO3OS4B1-Sekill). Again in these applications The pulse LEDs of electricity meters are due to the variety of meter brands and models. can be found in many different places. Therefore, current designs are electrical When installed in counters, the pulse sensor is equivalent to the pulse LED of the counter. difficult to bring. Again in these applications, mobile meter test devices and meter Since the data transfer between It causes cable clutter in your devices. to the hand terminal of these cables. attaching/removing...etc. Since the operations are time consuming, operators decrease in the number of meter tests to be performed by the cause energy losses caused by faulty measurements to continue for a while. is happening. 29780.02 Problems Solved with Invention The mobile meter test device, which is the subject of the invention, connects the meters to the running meters. Using the current-voltage information of the meters, which are connected from the outside without disassembling, energy It is a measuring device. The calculated power and energy information is measured by the meter. By comparing it with the energy information, it is revealed whether the meter measures incorrectly or not. is taking off.

The mobile meter test device, which is the subject of the invention, can easily be used by the test personnel in the field. It is a lightweight, user-friendly product that you can use. With this product, the counters are much more It can be tested easily and energy losses caused by faulty measurements of the meters can be minimized. The user interface of the handheld terminal in Bulusta It is simple for the employee to use. Widely used in the distribution industry can be used.

The designed device is used to observe the operation of the meters mounted on the panels. It needs sensors and electronic load. Integrated into the counter on the dashboard These units, to be installed, make Bluetooth communication and read-write. they transfer their information to the hand terminal.

The mechanical design of the pulse sensor of the mobile meter tester is placed on each meter. Temporarily adhesive gooseneck type can be easily moved and It is made in a fixed way. In this way, many different brands and In the model, it is possible to test the meter.

Mobile meter tester, voltage probes to the terminal points of the meters With its help, the connection receives the voltage information. In addition, current information depends on the meter. It measures with clamp type current transformers connected to the cables.

It is designed as wireless and communicating with bluetooth in the mobile meter tester. It has an optical communication sensor. Mobile testing available during testing 29780.02 Unlike other devices, all information about the meter is taken from the optical communication sensor. energy can be measured. Users test from hand terminal can start and see the result of the test.

Field operators can see the measurement accuracy with the Mobile Meter Tester is intended. In addition, a detailed background report for each test performed. is being prepared. In this report, the serial number of the meter on which the test is performed, There are also different values such as when it is performed. This ability is more easy data collection and a combination of the collected data with the meter measurement results. It allows it to be stored in between.

Detailed Description of the Invention To achieve the aim of this invention, a mobile meter tester realized, attached shown in the figures and these figures; Figure 1. The view of the mobile meter tester.

Figure Za. Front view of the electronic load.

Figure Zb. It is a perspective view of electronic load.

Figure 33. Side view of the pulse sensor.

Figure 3b. Bottom view of the pulse sensor.

Figure 3c. Top view of the pulse sensor.

Figure 3d. The bottom of the pulse sensor used in an alternative embodiment of the invention is the view.

Figure 3e. The bottom view of the pulse sensor shown in Figure 3d5.

Figure 43. Perspective view of the optical communication sensor.

Figure 4b. Shown in Figure 4a7 is the front view of the optical communication sensor.

Figure 4c. Another perspective view of the optical communication sensor.

Figure Sa. Front view of the energy sensor.

Figure Sb. Perspective view of the energy sensor.

Figure 621. Front view of the handheld terminal. 29780.02 Figure 61). This is the bottom view of the handheld terminal.

Figure 6c. It is the right side view of the handheld terminal.

Figure 6d. E] is the left view of the terminal.

Figure 6e. Front view of the charging port.

The parts in the figures are numbered one by one and the corresponding numbers are given below. 1. Mobile meter tester 2. Electronic load 2.1. connection interface 2.2. on/off switch 2.3. handle 2.4. Fan 3. Pulse sensor 3.1. goose neck 3.2. light sensor 3.3. Base 3.4. Sticky 3.5. Clamp 4. Optical communication sensor 4.1. Optical reader 4.2. Magnet . energy sensor .one. Data entry interface .2. notification area .3. on/off button 6. Handheld terminal 6.1. Screen 6.2. Keyboard 6.3. Charge input port 29780.02 WFOFNEÜH charging dock Electric meter . counter display . Pulse LED . optical port RS-485 output port . terminal In a preferred embodiment of the invention, the optical port (O), terminal (K) and pulse Testing whether the electricity meters (S) containing the LED (L) make erroneous measurements. a mobile meter tester (1), which enables for connecting the electricity meter (S) to the output terminals (K) with a cable. connection interface (2.1); a control unit; a resistive load; a capacitive load and an electronic load (2) containing a wireless data communication module, to be fixed at one end and aligned to the pulse LED (L) at the other end a flexible gooseneck (3.1); fixed to one end of the goose neck (3.1) a light on the main body that detects the light emitted from the pulse LED (L). sensor (32); Energy measurement according to the frequency of the light emitted from the pulse LED (L) to make and transmit over a wireless data communication module. an adapted control unit; and a pulse sensor (3) comprising a battery, It is a device that provides information about the electricity meter (S) from the optical port (0). optical reader (4.l); the data received by the optical reader (4.1) A control adapted for transmitting via a wireless data communication module. unit of; and an optical communication sensor (4) comprising a battery, Current transformers and voltage information of current and voltage information of electricity meter (S) a data input interface (5.l) for receiving with the aid of probes; data entry Energy measurement according to the current and voltage information received from the interface (5.1) and a device adapted for transmission over a wireless data communication module. control unit; and an energy sensor (5) comprising a battery, electronic load (2), pulse sensor (3), optical communication sensor (4) and energy a wireless data communication device to establish wireless data communication with the sensor (5). 29780.02 module; the measurement data from the pulse sensor (3) and the energy sensor (5). by comparing and determining whether the electricity meter (S) is measuring incorrectly or not. a control unit adapted for; error generated by the controller a display (6.1), a battery, and a keypad for displaying results (6.2) and a hand terminal (6).

The electronic load (2) in the mobile meter tester (l) shown in figure 1, hand terminal (6), active-reactive pulse sensor (3), optical communication sensor (4) and The energy sensor (5) is not located in a single device body, its These components, which have different tasks instead, are physically separated from each other. and the data communication between the hand terminal (6) and these components is wireless. is provided as.

The electronic load (2) shown in Figures 2a and 2b is calculated from the electricity meter. In case (S) does not draw enough energy, one end of the electricity meter (S) is output. terminals (K) and the other end to the connection interface (2.1) on the main body. It is connected to the electricity meter (S) using a connected cable.

Said electronic load (2) can be used as three-phase or single-phase and According to the variable counter constants, three impulses can be generated during the test. is designed. The power required for the operation of the electronic load (2) comes from the mains. is taken, therefore there is no battery on it.

In one embodiment of the invention, on the main body of the electronic charge (2), a handle (2.3) for the operator to carry the main body A fan (2.4) and electronic load (2) for cooling the equipment inside There is an on/off switch (2.2) to turn it on and off.

The active-reactive pulse sensor (3), shown in Figure 33-3e7, is connected to the electricity meters (S) During the test, taking advantage of the frequency of pulses occurring in the Pulse LEDs (L) It detects how much energy the electricity meter (S) measures. 29780.02 In one embodiment of the invention, the light sensor (3.2) located in the pulse sensor (3), that can be easily folded, bent, folded and easily shaped to one end of the gooseneck (3.1) (gooseneck), which has a flexible body fixed, and a base (3.3) located at the other end of the goose neck (3.1) There is a double-sided adhesive (3.4) underneath. The goose neck in question (3.1), the pulse sensor (3) is temporarily placed on a flat surface (for example, on the counter). can be easily moved and different from each other to the pulse LEDs located in different parts of the electricity meters (S) in the models. (L) can be adjusted as desired (Figures 3a-3c).

In another embodiment of the invention, a pulse is attached to one end of said goose neck (3.1). The light sensor (3.2) in the sensor (3) is fixed and the other end is a clamp. It is designed as (3.5). Thus, the goose neck (3.1) and therefore the pulse The sensor (3) is mounted on planes with a certain wall thickness (for example, in electrical panels). to the top/bottom/side wall) and to be fixed in different models towards the pulse LEDs (L) located in different parts of the electricity meters (S). It can be adjusted as desired (Figure 3d-3e).

Optical communication sensor (4) shown in Figures 4a-4cl; optics it has electricity from the optical port (0) of the electricity meters (S) thanks to the reader (4.1). All information of the electricity meter (S) stored in the memory unit of the meter (S). (index information, serial number, counter constant, date-time information, test when it is performed, system battery status, maximum demand measurement range, body cover opening information, tariff information, etc.) is used. If the measurement data taken and the data of the electricity meter (S) to the hand terminal via the wireless data communication module thanks to the control unit. (6) is transmitted.

Electric meters (S) usually have optical ports (O) using metal. the optical communication sensor (4) in question. a magnet (4.2) It is attached to the optical port (O) with its help. The magnet (4.2) in question is optical 29780.02 fixed inside or on the front of the main body of the communication sensor (4) can happen.

Connections of energy sensor (5), electricity meter (S) shown in figures 5a and 5b an electricity meter (S) during the test by taking current and voltage information without being disassembled. It is a unit of measurement such as energy. One on the energy sensor (5) by means of the on/off button (5.3) the energy sensor (5) is started and can be stopped. Energy sensor (5). preferably the front of the main body It has a data entry interface (5.1) on its face. Current of the electricity meter (S) information, one end of which is connected to the cables connected to the electricity meter (S) and the other end is data input. voltage information is obtained by using clamp type current transformers connected to the interface (5.1). One end is to the terminal (K) points of the electricity meters (S) and the other end is for data entry. It is taken with the help of voltage probes connected to the interface (5.1). Chassis The control unit inside, the current transformers and voltage probes in question Energy measurement calculation using current and voltage information obtained with the help of After doing this, the calculated energy information is sent to the wireless data communication module. transfers it to the hand terminal (6) via

In one embodiment of the invention, an RS-485 port on the energy sensor (5) is also included. RS-485 of electricity meters (S) with RS-485 output port (P). It can be accessed via optical port (O) by making a wired connection to the output port (P). electricity meter (S) records/information can be accessed and this information is controlled. to the hand terminal (6) via the wireless data communication module via the can be transferred.

In one embodiment of the invention, a notification area (5.2) on the energy sensor (5) This notification area (52) is illuminated with LEDs from the back. on-off/battery/wireless connection etc. symbols representing situations are available. Thus, the user is informed that the device is not turned on, that the battery inside status. whether a wireless connection is established, etc. notifications visually. can be done. 29780.02 The handheld terminal (6) shown in Figure 6a-6d7, the counter from the pulse sensor (3) measurement data and the actual measurement data obtained via the energy sensor (5). It is the unit with which it is received and compared wirelessly. On the test hand terminal (6) It is started and stopped using the keypad (6.2) and the controller The test results produced by the hand-held terminal (6) are displayed on the screen (6.1). is shown. Hand terminal (6) according to the commands it receives at the beginning of the test (eg. Is the electronic load (2) connected or not) establishing a wireless connection with the relevant units? and starts the test.

In one embodiment of the invention, the handheld terminal (6) and the electronic load (2), the pulse sensor (3), the data between the optical communication sensor (4) and the energy sensor (5) The wireless data communication module used for communication, preferably a Bluetooth is a module. In an alternative embodiment of the invention, the wireless data communication module WiFi (Wireless Fidelity - Wireless Connection Network) module, GSM (Global System) for Mobile Communications - Global System for Mobile Communications) module, GPRS (General Packet Radio Service), 3G (3rd generation - 3rd generation) module, 4G (4th generation - 4th generation) module... etc. modules can be selected from a group containing

During the test process, the pulse sensor (3), the optical communication sensor (4) and the energy sensor (5) transmits its measurements by establishing wireless communication with the hand terminal (6).

In case that sufficient energy is not drawn from the electricity meter (S), there is also electricity. The electronic load (2) is connected to the output terminals (K) of the counter (S). your test Finally, the control unit inside the handheld terminal (6) measures the said measurements. By comparison, the error rate of electricity meters (S) is in percent (%) calculates this error rate on the screen (6.1) of the handheld terminal (6). shows. In addition, the measurement data and meter information in question are also made in the background by the control unit of the handheld terminal (6) using A detailed report of the tests is also being prepared. In this report; your test the serial number of the meter on which the test was performed, 29780.02 whether the serial number is wrong, whether the date and time of the meter are wrong whether the system battery is empty, whether the maximum demand measurement range whether it is faulty, whether the body cover has been opened before, whether there is any corruption in the information, whether the measurement circuit is faulty, whether the supply circuit is faulty or not, LCD (Liquid Crystal Display - Liquid) Crystal Display) screen status and whether the physical state of the meter is incorrect. There is also different information. In addition, measured during the load test active power, reactive power, apparent power, pulse sensor measurement values and error rate. is shown.

In one embodiment of the invention, there is a charge in the lower part of the main body of the handheld terminal (6). There is an input port (6.3) and the said hand terminal (6) is connected to a charging socket (7). (Charging dOCk), the battery in the main body can be charged.

In one embodiment of the invention, the handheld terminal (6), the pulse sensor (3), the optical communication The battery inside the sensor (4) and the energy sensor (5) is a rechargeable It is a battery, an adapter port, a USB port, etc. on these components. Thanks to a charging input interface, the batteries in question are the main components of these components. It can also be charged without taking it out of its body.

In one embodiment of the invention, the handheld terminal (6), the pulse sensor (3), the optical communication The control unit inside the sensor (4) and the energy sensor (5) is a microprocessor, microcontroller etc. can be a processor.

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Claims (1)

REQUESTS . In a preferred application of the invention, the electricity meters (S) including optical port (O), terminal (K) and pulse LED (L) are tested whether they make erroneous measurements and in its most basic form; a flexible gooseneck (3.1) for fixing at one end and aligning at the other end to the pulse LED7 (L); a light sensor (32) in a main body fixed to one end of the gooseneck (3.1) that detects the light emitted from the pulse LED (L); a control unit adapted to measure energy according to the frequency of light emitted from the pulse LED (L) and transmit it via a wireless data communication module; and a pulse sensor (3) comprising a battery, an optical reader (41) that enables receiving information of the electricity meter (S) from the optical port (0); A control unit adapted to transmit data received by the optical reader (4.1) via a wireless data communication module; and an optical communication sensor (4) comprising a battery, a data input interface (5.1) for receiving current and voltage information of the electricity meter (S) with the help of current transformers and voltage probes; a control unit adapted to measure energy according to the current and voltage information received from the data input interface (5.1) and transmit it via a wireless data communication module; and a wireless data communication module for wireless data communication with an energy sensor (5), pulse sensor (3), optical communication sensor (4) and energy sensor (5) comprising a battery; a control unit adapted to compare the measurement data from the pulse sensor (3) and the energy sensor (5) to determine whether the electricity meter (S) is making an erroneous measurement; a mobile meter tester (1) characterized by a handheld terminal (6) comprising a display (61), a battery and a keypad (6.2) for displaying the error results generated by the control unit. . A connection interface (21) for connecting the electricity meter (8) to the output terminals (K) with a cable; a control unit; a resistive load; The mobile meter tester (1) as in Claim 1, characterized by an electronic load (2) comprising a capacitive load and a 29780.02 wireless data communication module. . Mobile meter tester (1) as in Claim 2, which has a main body and is characterized by an electronic load (2) containing a handle (2.3) on the main body so that this main body can be carried by an operator. . Mobile meter tester (1) as in Claim 2 or 3, characterized by an electronic load (2) containing a fan (2.4) for cooling the equipment inside. . Mobile meter tester (1) as in Claim 2 or 3, characterized by an electronic load (2) comprising an on/off switch (2.2) for switching on and off. . Mobile meter tester (1) as in Claim 2, characterized by a handheld terminal (6) containing a wireless data communication module adapted for wireless data communication with electronic load (2). . Mobile meter tester (1) as in Claim 1, characterized by a goose neck (3.1) with a base (3.3) at one end and a double-sided adhesive (3.4) under the base (3.3). . Mobile meter test device (1) as in Claim, characterized by a goose neck (3.1) with one end in the form of a clamp (3.5). . Mobile meter tester (1) as in Claim 17, characterized by an optical communication sensor (4) containing a magnet (4.2) fixed inside or on the front part of the main body of the optical communication sensor (4). 10. Mobile meter as in Claim 1, characterized by an energy 29780.02 sensor (5) containing an RS-485 port that allows wired connection of electricity meters (S) containing RS-485 output port (P) to RS-485 output port (P). test device Characterized by an energy sensor (5) containing a notification area (5.2) with symbols symbolizing on-off, battery and wireless statuses, illuminated with LEDs on the back, Mobile meter tester as desired With a wireless data communication module, a Bluetooth module mobile meter tester (1) as in claim 1 or characterized in. Mobile meter tester (1) as in Claim 1 or 2, characterized by a wireless data communication module selected from a group consisting of WiFi, GSM, GPRS, 3G and 4G modules. Mobile meter tester (1) as in Claim 1, characterized by a handheld terminal (6) containing an adapted control unit to prepare reports of test results. Mobile meter test device (1) as in Claim 1, characterized by a handheld terminal (6), pulse sensor (3), optical communication sensor (4) and energy sensor (5), including a charging input interface for charging the battery inside. 29280.02