KR200315302Y1 - Voltage dividing structure of an electronic watt-hour meter - Google Patents

Abstract

The present invention relates to a voltage branching structure of an electronic watt-hour meter that causes the power side bus to penetrate the watt-hour meter when the voltage is branched in the electronic wattmeter, and the voltage branch screw connected to the voltage pin is partially inserted into the coating of the bus bar to branch the voltage by contacting the conductor. will be.

The voltage branching structure of the electronic wattmeter is a voltage branching structure of an electronic wattmeter for calculating the amount of power flowing through a bus, and has a form of a single wire without being cut and supplies power to the load through the body of the wattmeter. A voltage branch member provided with the bus bar and electrically contacting the inner wire of the bus bar to branch the voltage, and a voltage transmitted to the power meter to measure a voltage drawn through the voltage branch member; The pin is made to contain. As a result, the voltage branch screw penetrates the cover of the bus bar and contacts the inside of the bus bar without separating the bus into the main bus and the load bus, so that the terminal block is not required.

Description

Voltage dividing structure of an electronic watt-hour meter

The present invention relates to a voltage branching structure of an electronic wattmeter, and more particularly, a voltage branch connected to a voltage pin without penetrating a power bus through a power meter and separating the penetrating bus bar into a power line and a load line when branching power from the wattmeter. It relates to a voltage branching structure of an electronic wattmeter in which a screw is partially inserted into the coating of the bus bar to branch the voltage by contacting the lead.

Electric power meters for measuring the power consumed per hour are installed in general homes and factories where various electric powers are used. The electricity meter can be divided into mechanical and electronic electricity meters, and the electronic electricity meter is more preferred. That is, the electronic wattmeter has a merit that the mechanical moving part is not provided separately compared to the mechanical wattmeter, and thus the reliability of the reading value is high and stable, and the device can be miniaturized through the integration of the circuit.

Referring to FIG. 1, a conventional through-type electric watt hour meter is inserted into the body 16 to supply power from the power supply unit 10, and receives power from the power supply side bus 12. A load side busbar 24 for supplying power to the 22 is provided, and a terminal block 18 for connecting the power supply busbar 12 and the load side busbar 24 is provided. The power supply side bus line 12 is provided with a current sensor 14 for sensing a current value of the supplied power, and the terminal block 18 has a voltage pin 20 for voltage branching by a voltage branch screw 26. Are combined. And the terminal block screw 28 which fastens the conducting wire of the power supply side bus-line 12 and the load side bus-line 24 to the terminal block 18 with the coating | cover removed is provided.

In the conventional voltage branch structure configured as described above, the voltage is transmitted to the power amount measuring unit 30 through the voltage pin 20 connected to the terminal block 18. Accordingly, the amount of power used by the integration of the current detected by the current sensor 14 and the voltage input through the voltage pin 20 is calculated.

Specifically, in the conventional electronic watt hour meter 100, the power supply side bus 12 penetrates through the current sensor 14, and a current value is sensed, and the sensed current value is input to the power amount measuring unit 30. At this time, since the penetrated power supply busbar 12 should be separated from the load busbar 24, the conductors without the cover of the power supply busbar 12 and the wires without the cover of the load busbar 24 are electrically connected through the terminal block 18. The terminal block 18 and the conductive wire are fastened by the terminal block screw 28.

In order to calculate the amount of power by using the current value sensed by the current sensor 14, the voltage must be branched from the conductive wire having the covering of the power side bus line 12 connected to the load side bus line 24 removed. The voltage branch screw 26 connecting the removed power supply side bus 12 and the voltage pin 20 is fastened to be in electrical contact through the terminal block 18. The voltage branch screw 26 and the voltage pin 20 which are fastened by the electrical contact are branched from the power supply side bus line 12 to transmit the voltage to the power amount measuring unit 30 of the electronic wattmeter 100. Using the branched voltage, the electronic watt-hour meter 100 generates operating power in its own operating power supply circuit (not shown), and senses the voltage value through the current value sensed by the current sensor 14 and the branched voltage. The measurement unit 30 calculates a power amount value.

2 is a cross-sectional view of the voltage branching structure showing only the voltage branching structure part in FIG. 1.

As shown in FIG. 2, in order to branch the voltage at the power supply busbar 12, the coverings 12a and 24a of the power supply busbar and the load busbar are removed, and the lead wires 12b and 24b and the voltage pin 20 and the voltage branch screw 26 are removed. Must be in electrical contact via the terminal block 18. To this end, the power supply busbar 12 and the load busbar 24 should be connected to the terminal block 18 at the same time.

In order to branch the voltage in the conventional through-type electronic electricity meter 100, the bus bar is separated into the power supply busbar 12 and the load busbar 24, and then the terminal block 18 is electrically contacted with the voltage branch screw 26. Used. By the way, the operator has to use the terminal block 18 with the inconvenience of having to separate the bus bar into the power supply side bus 12 and the load side bus 24, the workability is deteriorated and the parts are consumed additionally. That is, not only the terminal block 18 should be provided separately, but also the power supply busbar 12 and the load busbar 24 should be fastened to the terminal block 18 by the voltage diverter screw 26, resulting in waste of components. At the same time, it caused a problem of lowering workability.

An object of the present invention for solving the above problems, the voltage of the electronic meter to draw the branch line so that the voltage measurement is made from the bus without having a separate terminal block when branching the voltage to the electronic meter using the bus To provide a branching structure.

Another object of the present invention is to provide a voltage branching structure of an electronic watt-hour meter through which a voltage branch screw penetrates directly into the body of the electronic watt-hour meter and the voltage branch screw is in direct contact with the inner conductor of the bus. will be.

1 is a view showing a voltage branch structure of a conventional electronic wattmeter

FIG. 2 is a side cross-sectional view illustrating a detailed connection relationship of the voltage branch of FIG. 1.

3 is a view showing a voltage branch structure of an electronic wattmeter according to the present invention

4 is a side cross-sectional view for illustrating a detailed connection relationship of the voltage branch of FIG.

<Description of Symbols for Main Parts of Drawings>

100, 200: electronic power meter 10: power supply

12: power bus side 14: current sensor

16, 40 body 18 terminal block

20, 44: voltage pin 22: load

24: load side busbar 26, 46: voltage branch screw

28: terminal block screw 30: power measurement unit

42: mothership

The voltage branch structure of the electronic watt-hour meter according to the present invention for achieving the above object, in the voltage branch structure of the electronic watt-hour meter for calculating the amount of power flowing through the bus, has a form of a single wire without being cut off and the body of the wattmeter The bus bar for supplying power to the load through; A voltage dividing member penetrating the covering of the bus bar and electrically contacting the inner wire of the bus bar to branch the voltage; And a voltage pin configured to transfer the voltage drawn through the voltage branch member to the power meter.

In addition, the voltage branch member includes an insertion type that penetrates the coating of the bus bar and contacts the inner conductor of the bus bar, and includes, for example, a screw having a sharp tip.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 shows an example of the voltage branching structure of the electronic wattmeter of the embodiment according to the present invention. Referring to FIG. 3, a bus bus 42 is provided from the power supply 10 to the load 22 and penetrates the body 40 of the electronic wattmeter 200, and is installed in the body 40. A current sensor 14 for sensing a current flowing through the 42, an end portion of the voltage branch screw 46 inserted into the sheath of the bus bar 42 and electrically connected to a conductor inside the sheath, and the voltage branch screw ( It is composed of a voltage pin 44 for transmitting the voltage branched through the 46 to the power amount measuring unit 30 of the electronic watt-hour meter (200).

According to the embodiment of the present invention having such a configuration, when the bus 42 passes through the current sensor 14 in the electronic wattmeter 200, the strength of the current flowing through the bus 42 is applied to the current sensor 14. Both bus bars 42 measured by the electric power measuring unit 30 and applied to the load 22 by inserting the end of the voltage branch screw 46 connected to the voltage pin 44 into the bus bar 42 and being in contact with the internal conductors. After the voltage between) is measured by the power measurement unit 30 is finally the power value is integrated. In particular, to measure the voltage has a voltage branch structure that can calculate the amount of power after measuring the voltage in a state in which the bus 42 is not separately separated into the conventional power supply side bus 12 and the load side bus (24).

A more detailed view of the voltage branching structure is shown in FIG. 4. Referring to FIG. 4, the voltage pin 44 is placed on the bus line 42 directly connecting the power supply 10 and the load 22, and the voltage pin 44 and the bus line 42 are voltage branch screws. It can be seen that it is coupled by (46). Since the bus bar 42 is composed of a single wire that is continuously connected without being cut in the middle, the resistance of the wire is prevented from rising sharply to prevent power loss. Is improved.

In addition, the voltage branch screw 46 penetrates through the sheath 42a of the bus bar 42 and penetrates into the conductive wire 42b inside the bus bar 42. As a result, the voltage branch screw 46, the voltage pin 44, and the conductive wire 42b, which are conductors, are electrically connected to each other, and the voltage between the two conductive wires 42b is measured by the electric power measuring unit 30.

At this time, the voltage branch screw 46 for satisfying the present embodiment is preferably formed so that the end is protruded sharply to reach the wire 42b inside the bus bar 42, any other form It is sufficient that it can be electrically connected to the conductor.

As described above, according to the embodiment of the present invention, the configuration for branching the voltage is simplified, and thus, the work for the voltage branching is made easy, and since the terminal block is not required, the volume of the body can be reduced. There is an advantage in that the cost savings of producing a meter are obtained.

As described above, according to the present invention, since the voltage dividing screw penetrates the coating of the bus bar and contacts the conductor inside the bus bar without separating the bus bar from the power bus and the load bus, the conventional terminal block is not used to reduce the body volume of the electricity meter. Of course, parts cost will be reduced. It also improves workability by branching voltages to electronic wattmeters without the need to disconnect buses.

In order to fix the bus line of the conventional power supply side and the load side, the terminal block screw must be provided, respectively, in the present invention, since the voltage can be drawn out with only one screw, the component cost is reduced accordingly, thereby reducing the production cost.

Claims (2)

In the voltage branching structure of the electronic wattmeter for calculating the amount of power flowing through the bus bar, The bus bar having a form of one wire without being cut and supplying power to the load through the body of the electricity meter; A voltage dividing member penetrating the covering of the bus bar and electrically contacting the inner wire of the bus bar to branch the voltage; A voltage pin configured to transfer a voltage drawn through the voltage branch member to the power meter; Voltage branching structure of the electronic watt-hour meter comprising a. The method of claim 1, And the voltage branch member includes a screw whose tip is sharpened.