JP2013257176A - Wattmeter and electric power measurement adaptor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wattmeter capable of measuring electric power supplied through a power supply wire of a parallel two-wire type, with a simple structure.SOLUTION: A wattmeter is brought into contact with a coating 56 portion around an electric wire 52 out of two electric wires 52 and 54 of a parallel two-wire type electric wire 50, which is coated to supply electric power for household use, on a line connecting each of centers of the two electric wires 52 and 54 in a direction perpendicular to a wiring direction of the electric wire, and pinches the coating 56 near the contact portion with an adaptor 10 to hold the parallel two-wire type electric wire 50. The wattmeter includes a hall element 22 arranged near the adaptor 10 and detecting a density of a magnetic flux generated by the electric wire 52, out of the two electric wires 52 and 54 of the parallel two-wire type electric wire 50, whose coating 56 portion is in contact with the adaptor 10, and calculates electric power supplied through the parallel two-wire type electric wire 50 from the detected magnetic flux density and voltage supplied through the parallel two-wire type electric wire 50 to display the calculated electric power in a display 40.

Description

  The present invention relates to a power meter that can easily measure the power supplied by a household power supply electric wire and a power measurement adapter for measuring the power with the power meter.

  2. Description of the Related Art Conventionally, there is a power measurement device called a clamp meter that clamps the periphery of one wire of a power supply wire in a non-contact state and measures the power supplied by the power supply wire (see, for example, Patent Document 1). ).

Registered Utility Model No. 3067582

  However, the clamp meter can accurately measure the power supplied by the power supply wire. However, when measuring the power, it is necessary to clamp only one of the power supply wires.

  Therefore, for example, when a power supply electric wire such as a parallel two-wire electric wire commonly used for household use is covered with vinyl, the supplied electric power cannot be measured. It was.

  This invention is made | formed in view of such a problem, and it aims at providing the wattmeter which can measure the electric power supplied with the electric wire for electric power supply of a parallel 2 wire type | system | group with a simple structure.

  In this column, in order to facilitate understanding of the invention, the reference numerals used in the “Mode for Carrying Out the Invention” column are attached as necessary, which means that the scope of claims is limited by this reference numeral. is not.

  The invention made in order to solve the problem described in “Problem to be Solved by the Invention” includes a wattmeter (1) provided with a clamping means (10), a detection means (20), and a power calculation means (30). It is.

  The clamping means (10) is arranged so that the center of the two electric wires (52, 54) of the coated parallel two-wire electric wire (50) is perpendicular to the wiring direction of the electric wires in order to supply household electric power. By touching the covering (56) portion of one of the two electric wires (52, 54) on the connected wire segment and sandwiching the covering (56) in the vicinity of the contacting portion, Means for holding the parallel two-wire electric wire (50).

  The detection means (20) is arranged in the vicinity of the clamping means (10), and the two electric wires (52, 54) of the parallel two-wire electric wire (50) in which the covering (56) portion is in contact with the clamping means (10). It is means for detecting the magnetic flux density of the magnetic flux generated by one electric wire (52).

  The power calculating means (30) is means for calculating the power supplied by the parallel two-wire electric wire (50) from the magnetic flux density detected by the detecting means (20) and the voltage supplied by the parallel two-wire electric wire (50). is there.

  In such a wattmeter (1), the magnetic flux density of the magnetic flux generated by one electric wire (52) out of the two covered parallel two-wire electric wires is farthest from the other electric wire (54). Can be measured by position.

  Therefore, when measuring the magnetic flux density of the magnetic flux generated by one electric wire (52), the influence received from the magnetic flux generated by the other electric wire (54) can be reduced. Thus, the electric power supplied by the parallel two-wire electric wire (50) can be calculated.

  Further, the power calculated by the power calculation means (30) may be displayed by the display means (40) as described in claim 2, or the wireless transmission means as described in claim 3. When the data is transmitted to the outside in (70), output to the outside via the interface (72), or stored in the external storage means (74), the user can check the power by various methods. So convenient.

  By the way, there are some household parallel two-wire electric wires (50) having different cross-sectional shapes depending on the operating voltage and the covering method. Then, when the shape of the clamping portion of the clamping means (10) has a specific cross-sectional shape, depending on the cross-sectional shape of the parallel two-wire electric wire (50), the detection means (20) It is conceivable that the magnetic flux density of the magnetic flux generated by 52) cannot be measured at the position farthest from the other electric wire (54).

  Therefore, as described in claim 2, the clamping means (10) has a surface for clamping the parallel two-wire electric wire (50) matched to the cross-sectional shape of the covering (56) of the parallel two-wire electric wire (50). It is good to comprise so that it can attach or detach to the accommodating part (60) which accommodates a detection means (20), an electric power calculation means (30), and a display means (40).

  In this way, even if the cross-sectional shape of the parallel two-wire electric wire (50) is different, it can be replaced by the holding means (10) having a holding surface matched to the cross-sectional shape by the detecting means (20). The magnetic flux density of the magnetic flux generated by one electric wire (52) can be measured at a position farthest from the other electric wire (54). Therefore, power can be measured more accurately.

  In addition, as a method of measuring the magnetic flux density, an electromagnetic induction action such as an operating transformer or an inductoin, a magnetic attraction repulsion action such as a magnet or a magnetic fluid, or a magnetostrictive sensor is used. There are various methods and sensors such as those using the magnetostriction phenomenon, but if the magnetic flux density is detected by the Hall element (22) as described in claim 3, the detection is small and durable, and the cost is low. Means (20).

  By the way, some power lines for supplying household electric power have a three-wire type or a two-wire type earth line added thereto. In that case, the power meter according to any one of claims 1 to 5 cannot measure the supplied power.

  Therefore, as described in claim 5, a three-wire electric wire for supplying household power or a three-wire electric wire with a ground line added to a two-wire electric wire and a three-wire electric wire or two Sharing the power supplied by the wire with the ground line added to the wire-type electric wire to the power supplied by the parallel two-wire electric wire (50) and the household two-wire power A conversion plug (82) to be plugged into the outlet, and a coated parallel two-wire electric wire (84) for conversion connecting between the conversion outlet (80) and the conversion plug (82). It is good to comprise so that electric power can be measured with the wattmeter (1) of any one of Claims 1-5.

  In this way, even if it is a household power supply line in which a ground line is added to a three-wire type or a two-wire type, the supplied power can be measured, which is convenient.

It is an external view which shows the general shape of a wattmeter. It is a block diagram which shows the schematic structure of a wattmeter. It is a block diagram regarding the input / output with respect to the electric power calculation part in 2nd Embodiment. It is an external view which shows the external appearance of the outline of the adapter for electric power measurement.

[First Embodiment]
Embodiments to which the present invention is applied will be described below with reference to the drawings. The embodiment of the present invention is not limited to the following embodiment, and can take various forms as long as they belong to the technical scope of the present invention.

As shown in FIGS. 1 and 2, the wattmeter 1 includes an adapter 10, a detection unit 20, a power calculation unit 30, and a display unit 40.
In order to supply household power, the adapter 10 is on a line segment connecting the centers of the two electric wires 52 and 54 of the coated parallel two-wire electric wire 50 in the direction perpendicular to the wiring direction of the electric wires. The parallel two-wire electric wire 50 is clamped by contacting the covering 56 portion of one of the two electric wires 52 and 54 and sandwiching the covering 56 in the vicinity of the contacting portion.

  The adapter 10 is formed by molding a resin such as vinyl chloride. As shown in the enlarged view of A of FIG. 1, the surface between which the parallel two-wire electric wire 50 is sandwiched is the covering 56 of the parallel two-wire electric wire 50. It is formed in accordance with the cross-sectional shape and is configured to be detachable from the storage unit 60.

  The storage unit 60 is a housing made of a resin such as plastic, and as shown in FIG. 1, the storage unit 60 stores the detection unit 20, the power calculation unit 30, and the display unit 40 and has a structure in which the adapter 10 can be attached and detached. Yes.

  The detection unit 20 is disposed in the vicinity of the adapter 10 and detects the magnetic flux density of the magnetic flux generated by one of the two electric wires 52 and 54 of the parallel two-wire electric wire 50 that contacts the adapter 10 with the covering 56 portion. To do.

  That is, when electricity flows through the parallel two-wire electric wire 50, a magnetic flux is generated around each of the electric wires 52 and 54 as shown by a one-dot chain line in FIG. Therefore, if the magnetic flux density is detected by the detection unit as will be described later, the power supplied by the parallel two-wire electric wire 50 can be measured.

The detection unit 20 detects the magnetic flux density by the Hall element 22, a drive circuit (not shown) of the Hall element 22, and a detection circuit (not shown).
In the Hall element 22, when the Hall current I _H is input from the drive circuit, when the magnetic flux having the magnetic flux density B at the incident angle θ is input to the Hall element 22, the output voltage (Hall voltage) V _H from the Hall element 22. Is represented by the following formula 1.

V _H [V] = K _S · I _H · B cos θ Equation 1
Where K _S is product sensitivity.
The power calculation unit 30 includes a CPU, a ROM, a RAM, and an I / O (not shown). From the magnetic flux density detected by the detection unit 20 and the voltage supplied by the parallel two-wire electric wire 50 by a program stored in the ROM. The electric power supplied by the parallel two-wire electric wire 50 is calculated.

That is, since the magnetic flux density B is proportional to the current value I [A] of the electric wire 52, if the Hall voltage V _H is known, the electric power P supplied by the electric wire 52 is assumed to be V [V]. [W] can be obtained by the following equation 2.

P [W] = I · V · cosφ = K · V H · V · cosφ ··· type 2
Here, cos φ is a power factor, and K is a proportional coefficient of a current value with respect to the Hall voltage V _H.
In addition, since the electric power supplied with the parallel 2-wire electric wire 50 is an alternating current, the electric power calculated by Formula 2 is an instantaneous electric power. Therefore, the power displayed on the display unit 40 is calculated and displayed by calculating the average value or the execution value of the instantaneous power calculated based on Equation 2.

Here, since household electric appliances generally have a good power factor, the power factor (cosφ) may be set to 1 to simplify Equation 1.
The display unit 40 is a display for displaying the power calculated by the power calculation unit 30, and specifically, a 7-segment liquid crystal display device is used.
(Characteristics of Wattmeter 1)
In the wattmeter 1 as described above, the magnetic flux density of the magnetic flux generated by one electric wire 52 out of the two covered parallel two-wire electric wires is measured at the position farthest from the other electric wire 54. Can do.

  Therefore, when measuring the magnetic flux density of the magnetic flux generated by one electric wire 52, the influence received from the magnetic flux generated by the other electric wire 54 can be reduced, so that the parallel 2 is obtained from the measured magnetic flux density and the supply voltage. The electric power supplied with the wire 50 can be calculated.

Moreover, since the calculated electric power is displayed on the display part 40, the user can confirm power and it is convenient.
Furthermore, even if the cross-sectional shape of the parallel two-wire electric wire 50 is different, the magnetic flux generated by the single electric wire 52 is detected by the detection unit 20 by changing to the adapter 10 having a holding surface matched to the cross-sectional shape. The magnetic flux density can be measured at a position farthest from the other electric wire 54. Therefore, power can be measured more accurately.

Further, since the magnetic flux density is detected by the Hall element 22, the detection unit 20 can be made small, durable and low-cost.
[Second Embodiment]
Next, a second embodiment in which the power calculated by the power calculation unit 30 is output to other than the display unit will be described with reference to FIG.

In the second embodiment, as shown in FIG. 3, in addition to the display unit 40, a wireless transmitter 70, an interface 72, and an external storage device 74 are provided.
The wireless transmitter 70 is a transmitter for transmitting the calculated power to the outside wirelessly, and is output in accordance with a standard such as a wireless LAN or Bluetooth (registered trademark).

  The interface 72 is an interface for outputting the calculated power (for example, to an external device such as a personal computer, and is an interface such as a USB standard).

The external storage device 74 is an external storage device that stores the calculated power, and is a storage device such as a USB memory or an SD card memory.
As described above, when the power calculated by the power calculation unit 30 is transmitted to the outside by the wireless transmitter 70, output to the outside via the interface 72, or stored in the external storage device 74, for the user. It is convenient because the power can be confirmed by various methods.
[Third Embodiment]
Next, the power measurement adapter 5 will be described as a third embodiment. As shown in FIG. 4, the power measurement adapter 5 includes a conversion outlet 80, a conversion plug 82, and a conversion parallel two-wire electric wire 84.

  The conversion outlet 80 is a three-wire electric wire for supplying household electric power or a three-wire plug in which an earth line is added to a two-wire electric wire, and is grounded to the three-wire electric wire or the two-wire electric wire. It is an outlet for converting the power supplied by the electric wire to which the line is added into the electric power supplied by the parallel two-wire electric wire 50.

  The conversion outlet 80 for converting the electric wire in which the earth line is added to the two-wire electric wire is provided with an earth terminal 86 for connecting to the earth, so that the earth line can be connected to the earth. Yes.

The conversion plug 82 is a plug for being plugged into an outlet sharing household two-wire power.
The conversion parallel two-wire electric wire 84 is a covered electric wire connecting the conversion outlet 80 and the conversion plug 82, and is the same electric wire as the parallel two-wire electric wire 50 used in the first embodiment. It is.

  When such a power measuring adapter 5 is also used, it is convenient because it is possible to measure the supplied power even in a household power supply line in which a ground line is added to a three-wire type or a two-wire type. .

As mentioned above, although embodiment of this invention was described, this invention is not limited to this embodiment, A various aspect can be taken.
(1) In the above embodiment, the power calculation unit 30 calculates the power and displays it on the display unit 40. However, the current I [A] may be displayed on the display unit 40.
(2) Further, the power amount may be calculated, and the calculated power amount may be displayed on the display unit 40. That is, the power amount [Wh] per hour may be calculated by multiplying the power P [W] calculated by Equation 2 by one hour (= 3600 [S]) and displayed on the display unit 40. .
(3) Further, a standard electricity charge is stored in the ROM of the power calculation unit 30, and the electricity charge [yen] is calculated by multiplying the calculated electricity amount [Wh] with the electricity charge. You may make it display.
(4) Moreover, a switch may be provided in the power calculation unit 30 or the display unit 40 so that the display of the power [W], the power amount [Wh], and the electricity rate [yen] can be switched.
(5) In the said embodiment, although the adapter 10 was used, you may shape | mold the front-end | tip part of the accommodating part 60 in a fixed shape instead of the adapter 10. FIG.

  DESCRIPTION OF SYMBOLS 1 ... Wattmeter 5 ... Adapter for electric power measurement 10 ... Adapter 20 ... Detection part 22 ... Hall element 30 ... Electric power calculation part 40 ... Display part 50 ... Parallel 2-wire type electric wire 52, 54 ... Electric wire 56 ... Cover 60 ... Storage part 70 ... Wireless transmitter 72 ... Interface 74 ... External storage device 80 ... Conversion outlet 82 ... Conversion plug 84 ... Conversion parallel two-wire electric wire 86 ... Earth terminal.

Claims (6)

In order to supply electric power for household use, on the line segment connecting the centers of the two electric wires of the coated parallel two-wire electric wires in the direction perpendicular to the wiring direction of the electric wires, A clamping means for clamping the parallel two-wire electric wire by contacting a coating portion of one electric wire and sandwiching the coating in the vicinity of the contacting portion;
Detecting means for detecting a magnetic flux density of a magnetic flux generated by one of the two electric wires of the parallel two-wire electric wire, which is disposed in the vicinity of the holding means and whose covering portion is in contact with the holding means;
Power calculating means for calculating the power supplied by the parallel two-wire electric wire from the magnetic flux density detected by the detecting means and the voltage supplied by the parallel two-wire electric wire;
A wattmeter characterized by comprising. The power meter according to claim 1,
A wattmeter comprising display means for displaying the power calculated by the power calculation means In the wattmeter according to claim 1 or 2,
At least one of a wireless transmission unit that outputs the power calculated by the power calculation unit to the outside, an interface for outputting the calculated power to the outside, and an external storage unit that stores the calculated power is provided. A wattmeter characterized by having In the wattmeter according to any one of claims 1 to 3,
The clamping means is
A surface for holding the parallel two-wire electric wire is formed in accordance with a cross-sectional shape of the covering of the parallel two-wire electric wire, and is attachable to and detachable from a storage portion for storing the detection means, the power calculation means, and the display means. A wattmeter characterized by being configured. In the wattmeter according to any one of claims 1 to 4,
The detection means includes
A wattmeter characterized by detecting a magnetic flux density by a Hall element. Insert 3 plugs of electric wire with earth line added to 3-wire or 2-wire electric wire for supplying household electric power, and add earth line to the 3-wire electric wire or the 2-wire electric wire. A conversion outlet for converting the power supplied by the electric wire into the power supplied by the parallel two-wire electric wire,
A plug for conversion to plug into an outlet sharing home 2-wire power;
A coated parallel two-wire electric wire for conversion that connects between the conversion outlet and the conversion plug;
With
In the said conversion 2 wire type electric wire, it is comprised so that electric power can be measured with the wattmeter of any one of Claims 1-5, The adapter for electric power measurement characterized by the above-mentioned.