KR20030065447A - No Connection Type Electronic Watthour Meter - Google Patents

Abstract

PURPOSE: A portless electronic power metering system is provided, which has no input/output port of a power supply line and a load line. CONSTITUTION: An input/output electrical line passes wire paths(102,103) installed in a body(100) of a power metering system without any connection and without cutting the electric wire. A current transformer(101) installed at one part of the above wire paths detects a current. And a voltage detection apparatus installed at one part of the above wire path detects a voltage. And wire fixing devices(104,105) fixing the electric line are installed in the middle of the wire paths.

Description

No Connection Type Electronic Watthour Meter

The present invention relates to an electronic wattmeter among devices for measuring the amount of power,

Instead of eliminating the terminal part, which is an essential component of the conventional electronic wattmeter, a wiring diagram corresponding to the wiring type according to the wiring type is provided in any part of the main body of the wattmeter or the protrusion of the main body. Install a current transformer so as to surround the outside with the inner core of the current transformer core, and install a wiring fixing device having a function of detecting voltage. The electric power can be measured simply by fixing the electric wiring with the device.

Up to now, the electricity meter has both a mechanical meter and an electronic meter, and the structure of the meter is the main body and the terminal portion, so it is not easy to overcome the disadvantages caused by the installation of the terminal portion. Particularly, defects such as miniaturization, rising manufacturing cost, terminal heating, safety terminal, and unauthorized operation were always inherent. Therefore, efforts have been made to make up for the shortcomings. However, the higher the cost of the terminal, the higher the cost increase factor.

Recently, some very creative proposals have emerged from the stereotypes of the terminals. Among them, Utility Model Registration No. 20-0182536 (Registration Date: March 07, 2000) and Utility Model Registration No. 20-0278990 (Registration Date: 2002) With reference to the "Single-connected terminal type electric wattmeter" of June 05, 2008, it can be seen that the conversion of the recognition is quite a departure from the stereotype of the terminal block of the conventional electronic wattmeter. In particular, significant improvements have been made in not limiting the direction of input and output of power lines and reducing the number of connections by improving to a single connection terminal type.

However, the connection points still exist and the terminal block remains so that various defects due to the installation of the terminal point mentioned above are hardly solved.

The present invention has been invented a terminalless, that is, an electronic electricity meter of the connectionless type in order to solve the above conventional problems.

Originally, the electronic wattmeter is to accumulate the electric power continuously by multiplying the current value with the voltage value and the cosine value with respect to the phase difference between the current and the voltage. Therefore, the detection of the current value and the detection of the voltage value are essential. However, for the detection of the current value and the voltage value, the most useful method up to now was to use a terminal block. However, from the theoretical point of view of the electrical circuit, there is no connection place or less wiring is a better wiring method. When using a power meter using a conventional terminal block, two connection points are generated unconditionally.

Therefore, in the present invention, the current transformer is provided so that the wiring passage as many as the wiring type according to the wiring type is provided in any part of the main body of the electronic watt-hour meter or the protrusion of the main body, and the outside of the wiring passage for each phase is surrounded by the inner core of the current transformer core. By installing a wiring fixing device having a function of detecting a voltage, passing the electrical wiring through the wiring passage at the time of installation of the electricity meter, and fixing the electrical wiring by the wiring fixing device. Will be a measure of.

In particular, the installation position of the electricity meter is within 1m of the distribution box busbar or short circuit breaker is installed immediately after the electricity meter, so the end of the wire is very close to the electricity meter, so it is very simple to pass the wiring through the wiring passage of the electricity meter without connection. . Therefore, by using the electronic electricity meter of the present invention, it is possible to miniaturize the electricity meter and to minimize the size of the electricity meter box or the distribution box, and to bring down the cost of mounting or dismantling construction due to the convenience of construction. By eliminating the terminal part and the connection point, which is the cause of the increase in manufacturing cost, terminal part heat generation accident, terminal part safety accident, terminal part stepless operation, etc., which were disadvantages, the existing defects can be completely solved.

Figure 1a is an exemplary embodiment of the wiring through the central portion of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

FIG. 1B is a cross-sectional view of the wires 106 and 107 inserted into the exemplary view of FIG. 1A.

Figure 2a is an exemplary embodiment for allowing the wiring through the portion of the main body of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

FIG. 2B shows a cross section of the wires 206 and 207 inserted into the exemplary view of FIG. 2A.

Figure 3a is an exemplary embodiment of the wiring through the projection of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

3B is a cross-sectional view of the wires 306 and 307 inserted into the exemplary view of FIG. 3A.

Figure 4a is an exemplary embodiment of a method for detecting a voltage with a needle-shaped projection of various methods of the wire fixing device according to the present invention.

FIG. 4B illustrates a state in which the wire fixing device is fully fastened in the exemplary view of FIG. 4A.

In order to achieve the above objects, the connectionless electronic wattmeter of the present invention without the input and output terminal blocks of the power supply line and the load line will be described as follows.

First of all, the electronic wattmeter of the present invention is provided with wiring passages as many as the number of wires according to the wiring type in any part of the main body or the protrusion of the main body. The installation position of the wiring diagram is not limited to which part of the main body, and the input / output direction of the wiring diagram is not limited to which of the top, bottom, left, and right directions. Further, separately providing the projections for the wiring passage is not limited to those provided on any part of the upper, lower, left, and right sides. However, the number of wiring leads is to be provided with two wiring leads in the single-phase two-wire system, three wiring leads in the single-phase three-wire and three-phase three-wire, and four wiring through three-phase and four-wire. At this time, the wiring through which the current transformer is installed should be spaced apart from each other so that an error does not occur due to the magnetic effect of the wire current of the adjacent wiring and the bulkhead should be provided to reduce the magnetic influence between the wirings.

Next, install a current transformer so as to surround the outside of each phase of the wiring passage in the inner core of the current transformer core or install a current transformer inside the wiring passage so that the wiring can easily pass through the inside of the current transformer core. do. That is, geometrically, the wiring passage is concentric with the annular or square current transformer core, so that the wiring passage is located inside the current transformer core, or the electric wiring passes easily through the inside of the current transformer core. In this case, instead of installing current transformers in all wiring passages, install a current transformer in one passage in single-phase two-wire type, and install current transformers in two passages in single-phase three-wire type, and three passages in three-phase three-wire and three-phase four-wire type. Install a current transformer in the

In addition, by installing a wiring fixing device that can fix the wiring in any part of the wiring passage, the input and output wirings of the completed electricity meter can be secured inside the wiring passage so that it can not be moved unintentionally. Use wire locks to detect voltages. This can be done by installing needle-shaped projections inside the fixing piece of metal piece or other material for fixing the wire, that is, on the wire side, to allow the conductive wire to penetrate through the insulating coating when the wire fixing device is tightened. At this time, if the whole wiring fixing device is a conductor and is insulated from the electricity meter main body, the terminal can be installed in any part of the wiring fixing device so that the lead wire can be connected, and the whole wiring fixing device becomes the non-conductor If only the shaped projections are made of conductors, the terminals can be installed at the projections so that the lead wires can be connected.

In addition, the part of the wire corresponding to the position of the wiring fixing device may be measured and displayed at the time of the wiring installation of the electricity meter, and only the contact portion of the wiring fixing device may be removed by inserting the insulating material, and then fixed by the wiring fixing device. In this case, two types of conductive wire fixing devices insulated from the main body of the electricity meter and two types of conductive contacts may be used for the non-conductive wire fixing devices.

Now, the above-described configuration and operations of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings and the descriptions thereof are merely exemplary embodiments to help the understanding of the present invention, and all application methods of the connectionless and terminalless types presented in the present invention other than the accompanying drawings are within the scope of the present invention. It belongs.

Figure 1a is an exemplary embodiment of the wiring through the central portion of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

Install the wiring passages (102, 103) from the upper surface to the lower surface or from the left surface to the right surface or from the front to the rear of the electricity meter main body 100, and installs a current detection current transformer (101) on the outside of any one wiring passage (103) In the middle of the wiring passages 102 and 103, wiring fixing devices 104 and 105 for fixing the wires are provided to fix the wires and detect the voltage.

At this time, the relationship between the wiring passage 103 and the current detecting current transformer 101 is that the wiring passage is geometrically concentric with the current transformer core having an annular or square shape, and the wiring passage is located inside the current transformer core.

FIG. 1B is a cross-sectional view of the wires 106 and 107 inserted into the exemplary view of FIG. 1A.

Figure 2a is an exemplary embodiment for allowing the wiring through the portion of the main body of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

By passing from the lower left side to the lower left side of the watt-hour meter body 200, a number of cases of passing may be presented in the same manner as in the present example.

Here, the current detecting current transformer 201 is provided outside the wiring passage 203, and wiring fixing devices 204 and 205 are installed in the middle of the wiring passages 202 and 203 to fix the wires. Is detected, and the relationship between the wiring passage 203 and the current detecting current transformer 201 is as described in FIG. 1A.

FIG. 2B shows a cross section of the wires 206 and 207 inserted into the exemplary view of FIG. 2A.

Figure 3a is an exemplary embodiment of the wiring through the projection of the electricity meter in the single-phase two-wire electricity meter according to the present invention.

In this example, the projection portion 308 is provided at the center of the lower surface of the main body of the wattmeter for detecting the current and voltage values. It does not matter if it is biased. In addition, the mounting surface of the protrusion may be installed on any surface of the front surface, the bottom surface, the left surface, and the right surface. The relationship and description of the wiring passages 302 and 303, the current transformer 301 and the wires 306 and 307 are the same as those described with reference to FIG.

3B is a cross-sectional view of the wires 306 and 307 inserted into the exemplary view of FIG. 3A.

Figure 4a is an exemplary embodiment of a method for detecting a voltage with a needle-shaped projection of various methods of the wire fixing device according to the present invention.

When the fixing piece 403 is pushed into the fixing screw 404 made of a conductive material to fix the wire 406 inserted in the wiring passage 401, the conductive needle provided on the wire side of the fixing piece 403 The projection 402 of the shape penetrates through the insulating coating 405 of the conductor and comes into contact with the conductor 406. A terminal is provided through the fixing screw 404 to connect the lead wire.

FIG. 4B illustrates a state in which the wire fixing device is fully fastened in the exemplary view of FIG. 4A.

The contactless electronic wattmeter invented as described above can significantly reduce and deform the appearance of the wattmeter, which has been restricted by the terminal block, by eliminating the terminal block by passing the input / output line through the body of the wattmeter without cutting or connecting points.

Therefore, the present invention enables a sensational design out of a relatively fixed frame and reduces the manufacturing and logistics costs by reducing the appearance, as well as eliminating the trouble of disconnecting the power line and load line again and again during construction. Not only shortening but also the ease and safety of construction can be secured. In addition, the invention is expected to have many advantages such as the reduction of the manufacturing cost and the elimination of the heat generation accident of the terminal part, the fundamental elimination of the safety accident by the exposed part of the terminal part, and the prevention of electric theft by the terminal part stepless operation.

Claims (4)

Input and output electrical wiring in the electronic wattmeter passes through the wiring passage installed in the body of the electricity meter without connection without disconnecting the wire, and the current value is detected by the current transformer installed in one part of the wiring passage, A contactless electronic watt-hour meter, characterized in that no voltage is detected by a voltage detector provided at a portion thereof so that no terminal block is provided. According to claim 1, The number of current transformers to detect the current value is one current transformer in one wiring passage in single-phase two-wire, two current transformers in two-phase wiring and three in three-phase and three-phase four-wire. A non-contact type electric power meter, characterized by detecting a current value by installing a current transformer in the wiring passage. According to claim 1, A contactless electronic watt-hour meter, wherein a projection is provided in the body of the watt-hour meter, and the wiring passage, the current transformer, and the wiring fixing device can be installed in the projection. According to claim 1, A contactless electronic power meter, characterized in that the voltage detecting device can be integrated with the wiring fixing device.