JP2001255341A - Watt-hour meter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a watt-hour meter for preventing the disconnection between a specific input terminal and a specific voltage input terminal for testing, or connecting the specific input terminal to the specific voltage input terminal for testing by mounting a terminal cover to a terminal part. SOLUTION: A projection part is provided at a terminal cover, where the projection part for conducting electricity so that the area between an R-phase input terminal 6 and a voltage input terminal 7 for testing R phase (between a T-phase input terminal 8 and a voltage input terminal 9 for testing T phase) becomes the same potential with voltage connection pieces 121 (and 122) for testing at a position being shown in figure in an actually used condition, the voltage connection pieces 121 (and 122) are moved to the left (right) when testing an error for electrically separating both the terminals, but the projecting part prevents a terminal cover from being mounted without returning the voltage connection pieces 121 (and 122) for testing to their original positions after testing the error.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a watt-hour meter such as a low-voltage watt-hour meter for measuring the amount of electricity used for supplying electricity to ordinary households. Regarding the structure.

[0002]

2. Description of the Related Art Conventionally, in a method of measuring the amount of electricity used using a watt-hour meter, for example, as shown in FIG. Numeral 18 supplies electricity to an indoor load 19 via a watt hour meter 20 that measures the amount of electricity used.

An input terminal 21 and an output terminal 22 of the watt-hour meter 20 are internally connected by conductors for each phase line.

In the watt-hour meter 20, for example, in a mechanical watt-hour meter, a voltage detecting section 23 and a current detecting section 24 are provided.
Detects the amount of use as a magnetic field, rotates the disk corresponding to the power calculation unit 25 by this magnetic field, obtains the number of rotations in proportion to the use power, and displays the accumulated use amount of power on the display unit 26. Further, for example, in an electronic watt-hour meter, the data detected by the voltage detection unit 23 and the current detection unit 24 are multiplied by the power calculation unit 25, and the display unit 26 displays the accumulated power consumption.

[0005] Here, the voltage detecting section 23 is connected to the input terminal 21.
, And the current detection unit 24 is wired so as to detect the currents flowing through the R and T phases, respectively. .

FIG. 2 shows a configuration of a terminal section in which input terminals and output terminals are arranged.

The S-phase input terminal 10 to which the S-phase, which is a ground line, is connected has an integral structure with the S-phase output terminal 11, to which only the voltage detection unit 23 is connected.

A current detector 24 is connected to the R-phase input terminal 6 to which the R-phase is connected and the T-phase input terminal 8 to which the T-phase is connected, and the R-phase test voltage input terminal 7 and the T-phase test voltage The voltage detection unit 23 is connected to the input terminal 9, but between the R-phase input terminal 6 and the R-phase test voltage input terminal 7 and between the T-phase input terminal 8 and the T-phase test voltage input terminal 9. , as the same potential in the actual use, each test voltage connection piece 12 (12 _1, 12 ₂₎ and the first test voltage connection piece mounting screws 13 (13 _1, 13 ₂₎ and the second test voltage connection piece mounting screw 14 (14 _1, 14 ₂₎ and are electrically conductive by. 2, 5 is a terminal block, 1
Reference numeral 6 denotes a receiving hole for a terminal cover mounting screw.

The terminal portion is conventionally covered with a terminal cover 1 having an insulating packing 2 as shown in FIG. In FIG. 7, reference numeral 4 denotes a terminal cover mounting screw hole.

Incidentally, the watt-hour meter 20 performs an error test in order to confirm its performance at the time of manufacture or verification. At this time, in order to separately apply the voltage and the current to the voltage detection unit 23 and the current detection unit 24 by the imaginary load tester, the wattmeter 20 is disconnected by disconnecting the test voltage connection piece 12. It is possible.

That is, as shown in FIG. 3, the test voltage connection piece 12 is formed in an L-shape, and one end thereof is in contact with the first test voltage connection piece mounting screw 13. A concave portion 12a is formed, and an elongated hole 12b is formed in an intermediate portion so that the second test voltage connection piece mounting screw 14 passes therethrough, and the other end portion is a bent portion 12c. In the actual use state, the test voltage connection piece 12
It is located at the position shown in FIG. 2, and is fixed by the first test voltage connection piece mounting screw 13 and the second test voltage connection piece mounting screw 14, and the R-phase input terminal 6 and the R-phase test voltage input terminal. 7 and between the T-phase input terminal 8 and the T-phase test voltage input terminal 9, but when the error test is performed, the first test voltage connection piece mounting screw 13 and the 2 by loosening the test voltage connection piece mounting screw 14 and moving the test voltage connection piece 12 rightward or leftward in the figure, so that the R-phase input terminal 6 and the R-phase test voltage input terminal 7 And between the T-phase input terminal 8 and the T-phase test voltage input terminal 9.

For example, in the R phase, the R phase input terminal 6 and the R
The current input circuit of the imaginary load tester was connected to the R-phase input terminal 6 and electrically connected to the R-phase input terminal 6 inside the verification seal structure of the watt hour meter 20. The current flowing in the current line is detected by the current detecting unit 24, a voltage output circuit of the imaginary load tester is connected between the R-phase test voltage input terminal 7 and the S-phase input terminal 10, and the voltage detecting unit 23 is applied. The voltage is detected, multiplied by the power calculation unit 25 to calculate the amount of used power, and the display unit 26 displays the accumulated amount of used power. The same applies to the case of the T phase.

After the test is completed, the watt-hour meter 20 is used outside of the verification seal structure for actual use, so that the test voltage connection piece 12, the first test voltage connection piece mounting screw 13, and the second test voltage connection are used. By electrically connecting the R-phase input terminal 6 and the R-phase test voltage input terminal 7 and the T-phase input terminal 8 and the T-phase test voltage input terminal 9 with the single mounting screw 14, the R-phase and the The current detector 24 detects the current flowing in the T phase, the voltage detector 23 detects the voltage applied between the R phase and the S phase, and the voltage applied between the T phase and the S phase. Calculated as the electric energy, and the display unit 26 displays the accumulated electric energy used.

[0014]

In the above-mentioned conventional method, the terminal portion of the watt hour meter is sealed by a power supplier with a dedicated terminal cover in a general household which is a low-voltage consumer. If the terminal cover is attached without connecting the input terminal and the test voltage input terminal with the voltage connection piece, it cannot be discerned from the appearance, and even though electricity can be used at home, the electricity meter Has the problem that the amount of power used cannot be measured.

The present invention has been made in view of the above,
The purpose is to prevent a predetermined input terminal and a predetermined test voltage input terminal from being disconnected by attaching a terminal cover to the terminal portion, or to connect a predetermined input terminal and a predetermined test voltage input terminal to each other. It is an object of the present invention to provide a watt-hour meter that can conduct electricity.

[0016]

According to one aspect of the present invention, there is provided a watt hour meter having a terminal portion and a terminal cover, wherein the terminal portion supplies power to a load. Output terminal, an input terminal electrically connected to the output terminal and the inside of the wattmeter, a test voltage input terminal for applying a voltage applied to the load to the voltage detection unit, and the same potential in an actual use state. The terminal cover is provided at a position where the connection means electrically separates the input terminal and the test voltage input terminal from each other. In some cases, the gist of the present invention is to have a protrusion for preventing the terminal cover from being attached.

According to the first aspect of the present invention, the terminal cover cannot be attached to the watt-hour meter unless the connecting means is correctly connected, so that a human error such as a connection error in use can be prevented. It can be easily prevented.

According to a second aspect of the present invention, in the watt-hour meter according to the first aspect, the fixing means for connecting and fixing the connecting means to the input terminal and the test voltage input terminal fixes the connecting means. If not, the gist of the present invention is to have a second protrusion for preventing the terminal cover from being attached.

According to the second aspect of the present invention, it is impossible to attach the terminal cover to the watt-hour meter unless the connection means is correctly fixed, thereby reducing human errors such as connection errors during use. It can be easily prevented.

According to a third aspect of the present invention, there is provided a watt hour meter having a terminal portion and a terminal cover, wherein the terminal portion comprises:
It has an output terminal for supplying power to the load, an input terminal that is electrically connected to this output terminal inside the watt hour meter, and a test voltage input terminal for applying the voltage applied to the load to the voltage detector. The gist of the terminal cover is that the terminal cover has connection means for electrically connecting the input terminal having the same potential in the actual use state to the test voltage input terminal when the terminal cover is attached.

According to the third aspect of the present invention, by attaching the terminal cover to the watt hour meter, it is possible to electrically connect the input terminal having the same potential in the actual use state to the test voltage input terminal. This makes it possible to easily prevent human errors such as connection errors during use.

[0022]

Embodiments of the present invention will be described below in detail with reference to the drawings. In the following drawings, the same symbols indicate the same or corresponding parts.

FIGS. 1A and 1B are diagrams showing a configuration of a terminal cover of a watt hour meter according to a first embodiment of the present invention. FIG. 1A is a front view thereof, and FIG. 1B is a side view thereof. is there.

As shown in FIG. 1, in the present embodiment, the protrusions 30 (30 ₁ , 30 ₂ ) are provided on the insulating packing 2 attached to the terminal portion side surface of the terminal cover 1. I have. Reference numeral 4 denotes a terminal cover mounting screw hole.

When the terminal cover 1 is attached to the watt-hour meter, the projections 30 ₁ and 30 ₂ have the R-phase second test voltage connection piece mounting screw 14 in the terminal configuration shown in FIG. ₁
Right side, and T-phase second test voltage connection piece mounting screw 1
4 to ₂ of each of the recesses on the left side are arranged so as to be inserted respectively. Further, the test voltage connection piece 12 has the shape shown in FIG. 3 described above.

[0026] Since has such a configuration, when the actual use, exit the wire to each phase of the input and output terminals, without the connection of the test voltage connection piece 12 _1, 12 ₂ (i.e. test move the voltage connection piece 12 ₁ in the right and left the test voltage connection piece 12 ₂ is moved to the left side) terminal cover 1
When mounting the terminal cover 1, it is impossible to mount the terminal cover 1 because the convex portions 30 ₁ and 30 ₂ are not inserted into the concave portions due to the bent portions 12c of the test voltage connection pieces 12 ₁ and 12 _2. Become.

As a result, it is possible to prevent human error when the test voltage connection piece 12 is not connected.

Next, a watt hour meter according to a second embodiment of the present invention will be described with reference to FIG. FIG. 4 is a side view showing the configuration of the terminal cover in this embodiment.

In the second embodiment, in addition to the protrusion 30 in the first embodiment, the protrusions are also provided at positions corresponding to the upper portions of the first and second test voltage connection piece mounting screws 13 and 14. 3
The second projection 31 (31 ₁ , 31 ₂ ) lower than 0 is provided. In order to form the second protrusion 31, as shown in FIG. 4, the protrusion 30 may be provided separately from the protrusion 30. It may be formed to extend to the upper part of the mounting screws 13 and 14 and reduce the height of the extension.

[0030] For example, in the R phase, the convex portion 30 ₁ in the first and second test voltage connection piece mounting screws 13 _1, 14 ₁ of the upper
The first and second test voltage connection piece mounting screws 13 ₁ ,
14 _one of the screw head content as low the second providing the protrusions 31 _1, or extending the convex portion 30 ₁ to the first and second test voltage connection piece mounting screws 13 _1, 14 ₁ of the upper, second convex portion 31 extended component and lower by the screw head portion of the bent portion 12c content of the test voltage connection piece 12 _1, and the first and second test voltage connection piece mounting screws 13 _1, 14 ₁ if _1, the first
Even if the second test voltage connection piece mounting screws 13 ₁ and 14 ₁ are not properly tightened, the terminal cover 1 cannot be mounted. The same applies to the T phase.

Thus, it is possible to prevent a human error when the test voltage connection piece 12 is not connected.

In the above-described first and second embodiments, the material of the projection 30 and the second projection 31 is not particularly specified. And the positioning is facilitated.

Next, a watt hour meter according to a third embodiment of the present invention will be described with reference to FIG. FIG. 5 is a side view showing the configuration of the terminal cover in this embodiment.

In the third embodiment, the convex portion 30 of the first embodiment, and the convex portion 30 and the second convex portion 31 of the second embodiment include a human error in which the test voltage connection piece 12 is not connected. Of the first test voltage connection piece mounting screw 13 and the first test voltage connection piece mounting screw 14 to make the two conductive.
₁ , 32 ₂ ).

That is, the projection 32 is made of a conductive material,
The projections 32 are attached to the first and second test voltage connection piece mounting screws 13 and 14 on the insulating packing 2 of the terminal cover 1.
It is provided at the position where it contacts.

For example, if the convex portion 32 ₁ is provided at a position in contact with the test voltage connection piece mounting screws 13 ₁ , 14 ₁ in the R phase, when the terminal cover 1 is mounted on the watt-hour meter, the test voltage connection without using the strip 12 _1, it can be electrically conductive and R-phase input terminal 6 and the R-phase test voltage input terminal 7. The same applies to the T phase.

The terminal cover 1 having the projection 32 described in the third embodiment is electrically connected to the R-phase input terminal 6 and the R-phase test voltage input by using the test voltage connecting piece 12. The present invention can also be applied to a terminal having the configuration shown in FIG. 2 for conducting between the terminal 7 and between the T-phase input terminal 8 and the T-phase test voltage input terminal 9. That is, in this case to move the test voltage connection piece 12 ₁ in the right, also even when a test voltage connection piece 12 ₂ fitted with a terminal cover 1 while moving to the left, the protrusions 32 _1, 32 ₂ The terminal cover 1 can electrically conduct between the R-phase input terminal 6 and the R-phase test voltage input terminal 7 and between the T-phase input terminal 8 and the T-phase test voltage input terminal 9. .

In the first to third embodiments, the case of a single-phase two-wire watt-hour meter has been described. However, if the T-phase input / output terminal and the test voltage input terminal are deleted, It can also support single-phase two-wire watt-hour meters,
Further, if the convex portions 30, the convex portions 31, the convex portions 32 and the like are provided by the number of input terminal phases having the test voltage input terminals, for example, three phases 4
A watt hour meter having multiple elements such as a wire type can be supported.

[0039]

As described above, according to the present invention, in a watt hour meter for measuring the amount of electric power used, human errors such as connection errors during use can be easily prevented.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a terminal cover of a watt hour meter according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of a terminal portion of a watt hour meter according to an embodiment of the present invention and a conventional example.

FIG. 3 is a diagram showing a configuration of a test voltage connecting piece of a terminal unit according to an embodiment of the present invention and a conventional example.

FIG. 4 is a side view showing a configuration of a terminal cover of a watt hour meter according to a second embodiment of the present invention.

FIG. 5 is a side view showing a configuration of a terminal cover of a watt hour meter according to a third embodiment of the present invention.

FIG. 6 is a block diagram illustrating a circuit configuration of a watt hour meter.

FIG. 7 is a diagram showing a configuration of a terminal cover in a conventional example.

[Explanation of symbols]

1 ... terminal cover 2 ... insulating packing 30 (30 _1, 30 ₂₎ ... protrusions 4 ... hole terminal cover mounting screw 5 ... Terminal Block 6 ... R-phase input terminal 7 ... R-phase test voltage input terminal 8 ... T Phase input terminal 9 T-phase test voltage input terminal 10 S-phase input terminal 11 S-phase output terminal 12 (12 ₁ , 12 ₂ ) Test voltage connection piece 12 a recessed part 12 b elongated hole 12 c bent part 13 (13 _1, 13 ₂₎ ... first test voltage connection piece mounting screw 14 (14 ₁ or 14 ₂₎ ... receiving hole 17 ... power supply for the second test voltage connection piece mounting screw 16 ... terminal cover mounting screws Equipment 18 Distribution line 19 Load 20 Electricity meter 21 Input terminal 22 Output terminal 23 Voltage detection unit 24 Current detection unit 25 Power calculation unit 26 Display unit 30 (30 ₁ , 30 ₂ ) Projection Part 31 (31 ₁ , 31 ₂ ): second convex Part 32 (32 ₁ , 32 ₂ ) ... convex part

Claims (3)

[Claims] 1. A watt hour meter having a terminal portion and a terminal cover, wherein the terminal portion is an output terminal for supplying power to a load, and the input terminal is electrically connected to the output terminal inside the watt hour meter. A test voltage input terminal for applying a voltage applied to the load to the voltage detection unit, and an electrical connection between the input terminal and the test voltage input terminal that have the same potential in an actual use state. It has connection means, and the terminal cover does not allow the terminal cover to be attached when the connection means is at a position where the input terminal and the test voltage input terminal are electrically separated. A watt-hour meter characterized by having a convex portion for carrying out. 2. A terminal cover cannot be attached unless fixing means for connecting and fixing the connection means to the input terminal and the test voltage input terminal does not fix the connection means. The watt-hour meter according to claim 1, further comprising a second convex portion. 3. A watt hour meter having a terminal portion and a terminal cover, wherein the terminal portion is an output terminal for supplying power to a load, and the input terminal is electrically connected to the output terminal inside the watt hour meter. And a test voltage input terminal for applying a voltage applied to a load to a voltage detection unit, and the terminal cover has the same potential in an actual use state by attaching the terminal cover. A watt hour meter having a connection means for electrically connecting a terminal to the test voltage input terminal.