KR20050031673A - Direct-coupled electronic watt-hour meter - Google Patents

Abstract

A direct-coupled electronic watt-hour meter is provided to reduce the size of the electronic watt-hour meter by reducing the size of a port part. The direct-coupled electronic watt-hour meter comprises a body(31), and a liquid crystal display board(37) being installed in the front of the body and displaying power consumption measured in a main circuit board. According to the body, a tube path is formed in order for input power supply lines(33a,33b) to pass from the top to the bottom. A port part(35) is installed on the bottom to fix the input power supply lines. A cover(36) is installed on the port part. An image current transformer detects secondary current value flowing in the input power supply line. And the main circuit board calculates power consumption by the secondary current value.

Description

Direct Type Electronic Wattmeter {DIRECT-COUPLED ELECTRONIC WATT-HOUR METER}

The present invention relates to a direct-coupled electronic watt-hour meter, and in particular, by configuring the input power supply line and the load power supply line in a direct connection, the size of the power meter can be reduced. It relates to a direct type electronic wattmeter.

Electronic electricity meters are installed in the power receiver to measure the amount of power used in general household and industrial applications requiring power consumption. There are two types of meters: mechanical (inductive) and electronic. The electronic wattmeter has no mechanical moving parts compared with the mechanical one, and thus has the advantages of high reliability, safe reading, and miniaturization through integrated circuits.

However, due to the structural disadvantage of having an input terminal and an output terminal block for connecting a power line and a load line, the conventional electronic electricity meter has a lot of difficulties in practically miniaturization. It is also developing into a product with the additional function of remote meter reading using various media (telephone line, leased line, power line, optical, wireless, etc.). This type of electronic wattmeter has been required for products that require characteristics such as precision measurement, economical efficiency, reliability, and miniaturization with the development of technology. Then, a conventional electronic wattmeter will be described with reference to the accompanying drawings.

1 is an external perspective view of an electronic wattmeter according to the prior art, and FIG. 2 is an internal perspective view of FIG. 1.

As shown in FIG. 1, the exterior of the conventional electronic wattmeter includes a body 1 and a front cover 2, and an input power line 3, 3 ′ and an output at a lower end of the body 1. A terminal block 5 for connecting load wires 4 and 4 'is provided, and a terminal cover 6, which is a safety cover, is provided on the terminal block 5 to protect it. A numerical LCD (LCD) 7 displaying the measured power consumption (power amount) is mounted to display the power consumption (power amount) through the window portion 8 of the front cover 2. In addition, in order to protect the load from abnormal currents (over current, short circuit, phase loss, short circuit, etc.), a molded case circuit breaker (MCCB) (15 in FIG. 2) is installed at the lower end of the load side of the electronic power meter.

As shown in FIG. 2, when the front cover 2 and the terminal cover 6 are disassembled and the inside of the body 1 is viewed, the terminal block 5 has an input power line 3, 3 ′. The output side terminals 10 and 10 'to which the respective input side terminals (terminals) 9 and 9' and the output load lines 4 and 4 'are respectively connected are arranged side by side with a sufficient insulation interval. And a connecting piece (neutral terminal) 11 connecting the input terminal 9 'and the output terminal 10 to the inside of the body 1, and another input terminal 9 and an output side terminal. An electric wire (wire) 12 for connecting the 10 'is provided.

The wire 12 is connected to the input power line 3 and the output power line 4 ', and the connection piece 11 is connected to the input power line 3' and the output power line 4, respectively. Configure the main circuit of the electronic electricity meter. In addition, an input side terminal to which an input power supply line 3 (3 ') is connected when a power supply (110V, 220V, etc.) is provided by installing an image current transformer 13, which is a core element circuit of an electronic electricity meter, on a wire 12, which is a main circuit (9) (9 ') and the output load lines (4) and (4') are connected to each other through the output side terminals (10) and (10 ') respectively connected, the load used is the current transformer (13) according to the current Through the detection of the secondary current through the power consumption (power amount) is calculated through the main circuit board (PCB) 14 of the electronic wattmeter based on this and the calculated power consumption (power amount) is calculated through the LCD (7) Is displayed.

On the other hand, when an abnormal current (overcurrent and short circuit, phase loss, short circuit, etc.) of the load device occurs, the circuit breaker (MCCB) 15 operates a blocking function to protect the electronic electricity meter and the load device.

In the conventional electronic wattmeter configured as shown in FIG. 1, the input terminals 9, 9 ′ and the output terminals 10, 10 ′ constituting the terminal block 5 are horizontally arranged with a sufficient insulation interval. There was a problem that the width of 1). In addition, the input terminals 9 and 9 'and the output terminals 10 and 10' have a limit in reducing the width of the terminal block 5 because the insulation intervals should be sufficiently spaced in consideration of electrical stability. For this reason, the conventional electronic wattmeter has a difficult problem in miniaturizing the wattmeter.

Furthermore, in the conventional electronic wattmeter, the number of the input terminals 9 and 9 'and the output terminals 10 and 10' vary according to the power supply scheme used in the wattmeter. For example, in the case of three-phase three-wire type or three-phase four-wire type, the number of the input terminals 9, 9 'and output terminals 10, 10' is three-wire (6) or four-wire (8). The size of the body 1 is also incomparably larger because the size of the body 1 increases more than that of the single-phase two-wire system shown in FIG. 1. In addition, as the maximum allowable capacity used (for example, 40A, 60A, 80A, 120A, etc.) increases, the insulation distance and the thickness of the wire increase in proportion to the electrical safety, so that the input terminal 9 (9 ') and the output terminal 10 and 10 'also become larger.

As such, the bulky electric electricity meter increases the size of the installation box and increases other costs because it increases the cost of the product as well as increases the logistics cost and requires excessive installation space during installation. There is an uneconomical problem because of the large increase, and the disadvantages of transport and handling are disadvantageous.

In addition, since the input side terminals 9, 9 'and the output side terminals 10, 10' are arranged side by side in the conventional electronic wattmeter, the input power line 3, 3 'and the output load line ( Incorrect wiring of 4) (4 ') causes a short circuit, which often causes fire and electrical safety accidents.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to configure the input power line and the load power line of the electronic wattmeter in a direct connection to enable a single connection by reducing the size of the terminal to half, It is to provide a direct-type electronic electricity meter with a smaller size.

In addition, another object of the present invention is to configure the input terminal and the output terminal in the form of a direct connection terminal to reduce the size of the electronic wattmeter, to prevent safety accidents on the wrong wiring and to reduce the installation area when installing the installation construction cost It is to provide a direct-type electronic electricity meter which has been reduced and increased the convenience of installation.

Direct type electronic wattmeter of the present invention for achieving the above object,

Detecting a pipeline formed so that an input power line passes from an upper end portion to a lower end portion, a terminal block provided at the lower end portion to fix the input power line, a terminal cover provided on the terminal block, and a secondary current value flowing through the input power line. A body having an image current transformer and a main circuit board configured to calculate power consumption based on the secondary current value; And

It is installed on the front of the body, characterized in that it comprises a front cover having a liquid crystal display panel for displaying the power consumption measured by the main circuit board.

The terminal block is characterized in that it further comprises a fixing screw for fixing the input power line, respectively.

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

3 is an external perspective view of a direct type electronic watt hour meter according to the present invention, FIG. 4 is an internal perspective view of FIG. 3, and FIG. 5 is an internal sectional view of FIG. 3.

As shown in FIG. 3, an external appearance of the direct-type electronic watt hour meter is composed of a body 31 and a front cover 32, and input power lines 33a and 33b are formed at an upper end and a lower end of the body 31. The passage is formed so as to be connected to the wiring breaker 42 installed in the lower portion of the body 31 to pass through. The lower end of the body 31 is provided with a terminal block 35 for fixing the input power lines 33a and 33b, and a safety cover on the front surface of the body 31 above the terminal block 35. The in terminal cover 36 is provided. In addition, the front cover 32 has a numerical liquid crystal panel (LCD) 37 displaying measured power consumption (amount of power) through the display window 34 (Window) of the front cover 32. It is equipped to display).

Next, as shown in FIGS. 4 and 5, when disassembling the front cover 32 and the terminal cover 36 and looking at the inside of the body 31, the lower portion at the upper end of the body 31 is shown. The input power lines 33a and 33b are formed so as to pass through, and the input power lines 33a and 33b are installed to be connected to the circuit breaker 42 through the lines.

The terminal block 35 for fixing the input power lines 33a and 33b is provided with a fixing screw 41 for fixing the movement of the input power lines 33a and 33b. Therefore, the input power lines 33a and 33b are prevented from moving by the fixing screw 41.

In addition, the body 31 is provided with an image current transformer 38 and a main circuit board (PCB) 39, which are the core element circuits of the watt-hour meter, and must be connected when the input power lines 33a and 33b are connected. The circuit breaker 42 is connected to the wiring breaker 42 through the video current transformer 38. When the wiring is completed, the main circuit configuration for measuring the power consumption of the electronic electricity meter is completed. That is, when power (for example, 110V, 220V, etc.) is applied to the configured main circuit, when each of the loads connected to the lower ends of the input power lines 33a and 33b and the circuit breaker 42 becomes mutually energized. The load used is detected as a secondary current through the image current transformer 38 according to the current, and based on this, the power consumption (power amount) is calculated through the main circuit board (PCB) 39 of the electronic wattmeter and the calculated power consumption. The amount of power is displayed on the liquid crystal panel (LCD) 37.

In the present invention, the single-phase two-wire type has been described as an example, but in the case of the three-phase three-wire type and the three-phase four-wire type according to the power supply method, the above-described method may be applied.

The present invention is not limited to the above-described embodiments, but can be variously modified and changed by those skilled in the art, which should be regarded as included in the spirit and scope of the present invention as defined in the appended claims. something to do.

As described above, according to the direct type electronic wattmeter according to the present invention, the input terminal and the output terminal in the form of a direct type (through type) terminal form can reduce the terminal part of the conventional electronic wattmeter body in half, which is drastically reduced in size. Is possible. Of course, the space inside the body is also reduced by the reduced width of the terminal, but it does not affect the configuration of the electronic power meter main circuit board, so there is no problem by securing enough space for the components necessary for installing other video current transformers and measuring power consumption (power consumption).

Therefore, the present invention has an economical effect by minimizing the electronic electricity meter, thereby reducing the product cost, as well as the logistics cost and installation cost, and is effective in increasing the handleability and safety as the size of the electronic electricity meter is reduced. In addition, according to the present invention can be configured in the form of a direct connection (through type) terminal without the output side terminal portion to further enhance the insulation performance, and occurs in the wrong connection of the input power line and output power line in the form of a direct connection (through type) terminal. By preventing short circuit accidents and poor connection, the cause of malfunction can be eliminated to maximize the reliability and safety of the product.

1 is a perspective view of an electronic electricity meter according to the prior art

2 is an internal perspective view of FIG. 1

3 is an external perspective view of a direct type electronic watt hour meter according to the present invention.

4 is an internal perspective view of FIG.

5 is an internal cross-sectional view of FIG.

<Explanation of symbols for the main parts of the drawings>

31: Electricity meter base 32: Front

33a, 33b: Input power line 34: Window

35 terminal block 36 terminal cover

37 Liquid Crystal Display (LCD) 38: Image Current Transformer (CT)

39: main circuit board (PCB) 40: connection

41: fixing screw

42: Molded Case Circuit Breaker (MCCB)

Claims (2)

In the direct type electronic electricity meter, A conduit formed so that input power lines 33a and 33b pass from an upper end portion to a lower end portion, a terminal block 35 provided at the lower end portion to fix the input power lines 33a and 33b, and on the terminal block 35. An installed terminal cover 36, an image current transformer 38 for detecting a secondary current value flowing through the input power lines 33a and 33b, and a main circuit board for calculating power consumption based on the secondary current value ( A body 31 having 39; And It is installed on the front of the body 31, the direct type electronic type, characterized in that it comprises a front cover 32 having a liquid crystal display panel 37 for displaying the power consumption measured by the main circuit board (39) Power meter. The terminal block 35 of claim 1, And a fixed screw (41) for fixing the input power lines (33a) and (33b), respectively.