JP6870982B2 - Communication device for electricity meter - Google Patents

Description

The present invention relates to a communication device for an electric energy meter connected to a measuring device.

Conventionally, a watt hour meter includes a measuring device and a communication device attached to the measuring device and transmitting the amount of electric power measured by the measuring device to the outside.

As shown in FIG. 19, the weighing device includes a measuring unit 21 for measuring electric energy, a terminal fitting 3 connected to the measuring unit 21 and connected to the power supply side and the load side, and a display unit for displaying the measured pointer value and the like. It is composed of 1a, a case 5 for accommodating the measuring unit 21 and the display unit 1a, a measuring device connecting connector 10a for connecting a parallel cable, and a cover 7 for protecting a terminal fitting 3 and the like.

As shown in FIG. 18, the communication device includes a board 9, a parallel cable 10 for performing data communication such as a pointer value between the measuring device and the communication device, and a cable connection connector for connecting the parallel cable 10 to the board 9. 9b, the communication device housing 22 made of an insulator that protects the substrate 9 and does not block radio waves, for example, plastic. The board 9 is arranged in parallel inside the communication device housing 22.

Further, the substrate 9 has a printed circuit board (PC plate) pattern antenna 23 for transmitting and receiving data to and from other communication devices by radio waves, a feeding unit 24 for supplying high frequencies to the PC plate pattern / inverted F antenna 23, and an antenna ground 25. , The cable connection connector 9b is arranged.

As a conventional technique of this type, the communication device for an electric energy meter described in Patent Document 1 is known.

Further, FIG. 20 is a perspective view of a conventional watt hour meter. 20 (a) and 20 (b) show the appearance of the watt-hour meter, FIG. 20 (c) shows the state where the cover 7 is removed and the communication device is attached to the base 6, and FIG. 20 (d) shows the state. It is the figure which looked at the communication device and the weighing device from the side.

As shown in FIG. 21, the measuring device flows through a circuit unit 1 having a display unit 1a displaying an electric energy amount and a connector 1b for connecting a communication device, a terminal fitting 3 having a current line mounting screw 2, and a terminal fitting 3. It includes a sensor unit 4 for detecting an electric current, a case 5 for accommodating the sensor unit 4, a base 6, and a cover 7. The cover 7 is provided with a cover mounting screw 8, and the base 6 is formed with a connector through hole 6a, a communication device mounting portion 6b, and a current line through hole 6c. Further, a measuring device name plate 14B is attached to the base.

As shown in FIG. 22, the communication device connects the board connection connector 10b of the parallel cable 10 to the cable connection connector 9b of the board 9, and raises the LED light guide portion 11 that guides the light of the LED 9a of the board 9. It is formed by being attached to the LED light guide hole 12a of the case 12 and housing the substrate 9 in the upper case 12 and the lower case 13. Further, a communication device name plate 14A is attached to the upper case.

The connector 10a for connecting the weighing device of the communication device is connected to the communication device connecting connector 1b of the circuit unit 1 through the connector through hole 6a of the base 6 of the measuring device, and the measuring device mounting portion 13a of the lower case 13 of the communication device is connected. A watt hour meter is manufactured by fitting the base 6 of the weighing device into the communication device mounting portion 6b and attaching the cover 7 to the base 6 with the cover mounting screws 8.

Japanese Patent No. 5366654

However, as shown in FIGS. 20 and 21, the conventional communication device and the weighing device are installed as shown in FIG. 20. That is, since the PC plate pattern / inverted F antenna 23 is arranged in the vicinity of and in parallel with the terminal metal fitting 3 which is a conductor, the terminal metal fitting 3 and the PC plate pattern / inverted F antenna 23 are coupled at a high frequency with a capacitance of 14. , PC plate pattern ・ The average gain and radiation efficiency of the inverted F antenna 23 in the horizontal plane were lowered.

In addition, the communication device is fixedly installed outdoors and wirelessly communicates with a communication device connected to a nearby weighing device, or wirelessly communicates with a randomly installed HEMS (Home Energy Management System) device in the house. There is a need to. Therefore, it is necessary to increase the average gain and radiation efficiency in the horizontal plane of the PC plate pattern / inverted F antenna 23 as much as possible.

The communication device must be placed inside the terminal cover because it must be aesthetically pleasing, have a structure that is not mischievous, and be waterproof. Therefore, it is necessary to reduce the size of the communication device. Further, when the communication device is miniaturized, the antenna of the communication device approaches the measuring portion and the terminal fitting which are conductors, so that the average gain and radiation efficiency in the horizontal plane of the PC plate pattern / inverted F antenna 23 are lowered. ..

An object of the present invention is to provide a communication device for an electric energy meter capable of increasing the average gain in the horizontal plane and the radiation efficiency of the antenna.

In order to solve the above problems, the invention of claim 1 according to the present invention is a measuring device having a measuring unit for measuring the amount of electric power and a terminal fitting connected to the measuring unit and connected to the power supply side and the load side. A communication device for a power meter that is attached and transmits the amount of power measured by the measuring device to the outside, and is connected to a communication device housing attached to the upper surface of the terminal fitting and one end of a power feeding unit. It consists of an antenna ground and an inverted F antenna connected to the other end of the power feeding unit, and includes an antenna unit that transmits and receives data to and from other communication devices. The communication device housing includes the antenna ground and the inverted F antenna. It has a substrate on which at least the antenna ground is formed, and the substrate is arranged so as to be inclined with respect to the terminal fitting and the measuring portion.

The invention of claim 2 is characterized in that the inverted F antenna comprises a monopole antenna formed on the substrate.

In the invention of claim 3, the substrate is composed of a through-hole substrate in which a plurality of through-holes are formed, and the antenna portion includes a first pattern formed on the surface of the through-hole substrate and the back surface of the through-hole substrate. The second pattern formed in is composed of a helical antenna electrically connected through the plurality of through holes.

The invention of claim 4 is characterized in that the inverted-F antenna comprises a dielectric chip antenna formed on the substrate.

The invention of claim 5 is characterized in that the inverted-F antenna comprises a monopole antenna formed on the outside of the substrate and connected to the antenna ground.

The invention of claim 6 is characterized in that the inverted-F antenna comprises a monopole antenna formed on the outside of the substrate.

The invention of claim 7 is characterized in that the inverted F antenna comprises a helical antenna formed on the outside of the substrate.

In the invention of claim 8, the measuring device has a base in which a current line is fixed by a current line mounting screw and has the terminal fitting, and a case for accommodating the base, and the communication device housing attached to the base. At a predetermined angle α so that T> t when the housing height T on the base / connector connection surface side and the housing height t on the base / current line mounting screw work surface side are set on the front portion of the body. An inclined portion is formed, and a display portion for displaying information is arranged in the inclined portion.

In the invention of claim 9, the communication device housing is mounted on the upper surface of the base so that the current line mounting screw can be visually recognized and the current line mounting screw can be used to mount the current line. It is characterized by being composed of size.

The invention of claim 10 comprises a parallel cable having a plurality of electric wires parallel to each other, a weighing device connecting connector attached to one end of the parallel cable and connected to a communication device connecting connector of the measuring device, and the parallel. When a board connection connector attached to the other end of the cable and connected to the cable connection connector of the board is provided and the weighing device connection connector is connected to the communication device connection connector of the weighing device, in the cross section of the parallel cable. The longitudinal direction in which the electric wires are lined up is parallel to the left and right lateral directions of the weighing device, and a notch groove is formed in the communication device housing so as to maintain the parallelism and guide the wires.

According to the eleventh aspect of the present invention, the measuring device is provided with a second display unit for displaying information on the measuring device, and the communication device housing is partially cut out and the second display unit is visible. It is characterized in that a possible notch is formed.

In the invention of claim 12, the communication device housing has an upper case and a lower case fitted to the upper case, the display unit has an LED, and the upper case is made of a transparent material. Therefore, the upper case is characterized in that an LED light guide portion for guiding the light of the LED is formed.

In the invention of claim 13, the communication device housing has a substrate housed by the upper case and the lower case, and the inclined portion is formed in each of the upper case and the lower case. The substrate is arranged so as to be inclined along the inclined portion formed in the upper case and the lower case, and at least the peripheral portion of the LED of the upper case is textured. It is a feature.

According to the present invention, it is possible to provide a communication device for an electric energy meter capable of increasing the average gain in the horizontal plane and the radiation efficiency of the antenna.

It is an exploded view of the communication device for a watt-hour meter according to the first embodiment of the present invention, and is the view from the side view of the watt-hour meter communication device and the weighing device. It is a figure which shows the modification of the communication device for an electric energy meter which concerns on Example 1 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 2 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 3 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 4 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 5 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 6 of this invention. It is a figure which shows the communication device for the electric energy meter which concerns on Example 7 of this invention. FIG. 5 is an overall configuration diagram of a watt-hour meter including a communication device for a watt-hour meter according to the eighth embodiment of the present invention. It is an exploded view of the communication device for an electric energy meter which concerns on Example 8 of this invention. It is an overall block diagram of the electric energy meter including the communication device for electric energy meters which concerns on Example 9 of this invention. It is an exploded view of the communication device for an electric energy meter of Example 9 of this invention. FIG. 5 is an overall configuration diagram of a watt-hour meter including a communication device for a watt-hour meter according to a tenth embodiment of the present invention. It is an exploded view of the communication device for an electric energy meter of Example 10 of this invention. It is an overall block diagram of the electric energy meter including the communication device for electric energy meters which concerns on Example 11 of this invention. It is an exploded view of the communication device for an electric energy meter which concerns on Example 12 of this invention. It is an exploded view of the communication device for an electric energy meter which concerns on Example 13 of this invention. It is a figure which shows the communication device for the conventional watt hour meter. It is an exploded view of the conventional measuring device for an electric energy meter. It is a perspective view of the electric energy meter of another conventional example. It is an exploded view of the measuring device for a watt hour meter of another conventional example. It is an exploded view of the communication device for a watt hour meter of another conventional example.

Hereinafter, the communication device for an electric energy meter according to the embodiment of the present invention will be described in detail with reference to the drawings.

1 (a) and 1 (b) are exploded views of the watt-hour meter communication device according to the first embodiment of the present invention, and FIG. 1 (c) shows side surfaces of the watt-hour meter communication device and the weighing device. It is a figure seen from. Since the overall configuration diagram of the watt hour meter communication device according to the first embodiment is the same as the diagram shown in FIG. 22 (c), it is omitted here. Since the watt-hour meter shown in FIG. 1 has a different communication device configuration from the watt-hour meter shown in FIG. 22 (c), only the configuration of the communication device will be described.

The communication device is attached to the communication device housing 22 including the upper case 12 and the lower case 13 attached to the upper surface of the terminal fitting 3, and the antenna ground 25 connected to one end of the power supply unit 24 and the other end of the power supply unit 24. It includes a PC plate pattern to be connected, an inverted F antenna 23, and an antenna unit 20 for transmitting and receiving data to and from other communication devices.

The communication device housing 22 is provided with a substrate 9A1 on which an antenna ground 25 made of a conductor pattern and a PC plate pattern / inverted F antenna 23 made of a conductor pattern are formed. A cable connection connector 9b is arranged on the antenna ground 25. The substrate 9A1 is placed on the inclined portions 130a and 130b formed in the lower case. Therefore, as shown in FIG. 1, the substrate 9A1 is arranged so as to be inclined with respect to the terminal fitting 3 and the measuring portion 21.

As described above, according to the watt hour meter communication device according to the first embodiment, since the substrate 9A1 is inclined and arranged with respect to the terminal fitting 3 and the measuring unit 21, the measuring unit is composed of a conductor or a dielectric. The portion 21 and the terminal fitting 3 made of a conductor are not arranged in the vicinity and in parallel with the PC plate pattern / inverted F antenna 23.

Therefore, the measuring unit 21 and the terminal fitting 3 and the PC plate pattern / inverted F antenna 23 of the communication device are not capacitively coupled at high frequencies, and the average gain and radiation efficiency in the horizontal plane of the antenna can be increased for a watt hour meter. A communication device can be provided.

The conventional horizontal average gain is -3.8 dBi, whereas the horizontal average gain of Example 1 is -1.9 dBi. The conventional radiation efficiency is -6.1 dB, whereas the radiation efficiency of Example 1 is -2.0 dB.

Further, in the first embodiment shown in FIG. 1, in the present invention, the antenna ground 25 is arranged on the lower side and the PC plate pattern / inverted F antenna 23 is arranged on the upper side. As shown in the embodiment, even if the substrate 9A2 is arranged at an angle with respect to the terminal fitting 3 and the measuring portion 21, the antenna ground 25 is arranged on the upper side, and the PC plate pattern / inverted F antenna 23 is arranged on the lower side. An effect similar to the effect of 1 can be obtained.

FIG. 3 is a diagram showing a substrate in a communication device for a watt hour meter according to a second embodiment. In the power meter communication device shown in FIG. 3, the substrate 9A3 is arranged so as to be inclined with respect to the terminal fitting 3 and the measuring portion 21, and the substrate 9A3 has the antenna ground 25 and the feeding portion 24 connected to the antenna ground 25. P C plate pattern monopole antenna 23b and the antenna ground 25 arranged cable connector 9b on that will be connected is provided in the power supply unit 24 and.

As described above, even if the PC plate pattern monopole antenna 23b of the second embodiment is used, the same effect as the effect of using the PC plate pattern / inverted F antenna 23 of the first embodiment can be obtained.

FIG. 4 is a diagram showing a substrate in the communication device for a watt hour meter according to the third embodiment. In the power meter communication device shown in FIG. 4, the substrate 9A4 is arranged at an angle with respect to the terminal fitting 3 and the measuring portion 21, and the substrate 9A4 has the antenna ground 25 and the feeding portion 24 connected to the antenna ground 25. A PC plate pattern helical antenna 23c connected to the power feeding unit 24 and a cable connection connector 9b arranged on the antenna ground 25 are provided.

The substrate 9A6 is composed of a through-hole substrate in which a plurality of through-holes 31 are formed. The PC plate pattern helical antenna 23c is a helical in which a first pattern 32 formed on the front surface of a through-hole substrate and a second pattern 33 formed on the back surface of a through-hole substrate are electrically connected through a plurality of through holes 31. It consists of an antenna.

As described above, even if the PC plate pattern helical antenna 23c of the third embodiment is used, the same effect as the effect of using the PC plate pattern / inverted F antenna 23 of the first embodiment can be obtained.

FIG. 5 is a diagram showing a substrate in the communication device for an electric energy meter according to the fourth embodiment. In the power meter communication device shown in FIG. 5, the substrate 9A5 is arranged at an angle with respect to the terminal fitting 3 and the measuring portion 21, and the substrate 9A5 has the antenna ground 25 and the feeding portion 24 connected to the antenna ground 25. A dielectric chip antenna 23d made of a dielectric material connected to the power feeding unit 24 and a cable connection connector 9b arranged on the antenna ground 25 are provided.

As described above, even if the dielectric chip antenna 23d of the fourth embodiment is used, the same effect as that of the case of using the PC plate pattern / inverted F antenna 23 of the first embodiment can be obtained.

FIG. 6 is a diagram showing a substrate in the communication device for an watt hour meter according to the fifth embodiment. In the watt hour meter communication device shown in FIG. 6, the substrate 9A6 is arranged so as to be inclined with respect to the terminal fitting 3 and the measuring unit 21, and the antenna ground 25 and the cable connection arranged on the antenna ground 25 are connected to the substrate 9A6. Connector 9b is provided. On the outside of the substrate 9A6, an inverted F antenna 23e composed of a feeding portion 24 connected to the antenna ground 25 and a conductor connected to the feeding portion 24 is provided.

As described above, even if the inverted-F antenna 23e of the fifth embodiment is used, the same effect as the effect of using the PC plate pattern / inverted-F antenna 23 of the first embodiment can be obtained.

FIG. 7 is a diagram showing a substrate in the communication device for an watt hour meter according to the sixth embodiment. In the watt hour meter communication device shown in FIG. 7, the substrate 9A7 is arranged so as to be inclined with respect to the terminal fitting 3 and the measuring unit 21, and the antenna ground 25 and the cable connection arranged on the antenna ground 25 are connected to the substrate 9A7. Connector 9b is provided. On the outside of the substrate 9A7, a monopole antenna 23f composed of a feeding portion 24 connected to the antenna ground 25 and a conductor connected to the feeding portion 24 is provided.

As described above, even if the monopole antenna 23f of the sixth embodiment is used, the same effect as the effect of using the PC plate pattern / inverted F antenna 23 of the first embodiment can be obtained.

FIG. 8 is a diagram showing a substrate in the communication device for a watt hour meter according to the seventh embodiment. In the watt hour meter communication device shown in FIG. 8, the substrate 9A8 is arranged so as to be inclined with respect to the terminal fitting 3 and the measuring unit 21, and the antenna ground 25 and the cable connection arranged on the antenna ground 25 are connected to the substrate 9A8. Connector 9b is provided. On the outside of the substrate 9A8, a helical antenna 23g composed of a feeding portion 24 connected to the antenna ground 25 and a conductor connected to the feeding portion 24 is provided.

As described above, even if the helical antenna 23g of Example 7 is used, the same effect as that of the case of using the PC plate pattern / inverted F antenna 23 of Example 1 can be obtained.

The invention of the communication device of FIGS. 1 to 8 described above is an invention in which the substrates 9A1 to 9A8 are inclined and arranged with respect to the terminal fitting 3 and the measuring unit 21. The communication devices of FIGS. 9 to 17 described below include the invention of the communication device of FIGS. 1 to 8, and further, the light emission of the communication device name plate 14A and the LED 9a can be easily visually recognized from the front and the bottom. It is characterized by.

That is, as shown in FIG. 20, the communication device name plate and the LED are easy to see from the front side, but the visibility is not so good when confirmed from below. Therefore, in the communication devices of FIGS. 9 to 17, the visibility of the communication device name plate 14A and the LED 9a is improved.

In the communication device of FIGS. 9 to 17, the PC plate pattern / inverted F antenna 23 of the communication device of FIG. 1 is described, but the present invention is not limited to this, and the antennas shown in FIGS. 4 to 8 are used. Is also good.

Hereinafter, the communication devices of FIGS. 9 to 17 will be described in order. FIG. 9 is an overall configuration diagram of a watt-hour meter including a communication device for a watt-hour meter according to a seventh embodiment of the present invention. FIG. 9A is a diagram showing a watt-hour meter in which a communication device for a watt-hour meter is attached to a base 6. 9 (b) and 9 (c) are diagrams showing details of a communication device for an electric energy meter.

The watt hour meter communication device is attached to a weighing device having a base 6 for fixing the current line with a current line mounting screw 2 and a case 5 for accommodating the base 6, and transmits the electric energy measured by the measuring device to the outside. To do.

The communication device has a communication device housing 12A including an upper case and a communication device housing 13A including a lower case fitted to the communication device housing 12A, and is attached to the base 6. As shown in FIG. 9C, the communication device housing 13A is formed with a weighing device mounting portion 13a, and the base 6 is a communication device fitted to the weighing device mounting portion 13a as shown in FIG. A mounting portion 6b is formed.

The communication device housings 12A and 13A are attached to the upper surface of the base 6 (the surface on which the current wire mounting screw 2 is attached). When the housing height T on the base connector connection surface side and the housing height t on the base / current line mounting screw work surface side are set on the housing front portion 12b of the communication device housing 12A, T> t. An inclined portion is formed so as to be inclined at a predetermined angle α. A display unit including a communication device name plate 14A for displaying information and two LEDs 9a is arranged on the inclined portion 121A.

FIG. 10A is an exploded view of the watt hour meter communication device according to the eighth embodiment of the present invention as viewed from above. FIG. 10B is an exploded view of the watt hour meter communication device according to the eighth embodiment of the present invention as viewed from below. As shown in FIG. 10, the communication device includes a communication device housing 12A, a communication device housing 13A, a substrate 9B, a parallel cable 10, and connectors 10a and 10b.

A communication device name plate 14A is attached to the inclined portion 121A of the communication device housing 12A, and an LED light guide hole 12a for attaching the LED light guide portion 11 is formed. Also, the flat portion 12 2, notched grooves 123 for guiding the parallel cable 10 from the case 5 to the communication device housing 12A is formed.

The PC plate pattern / inverted F antenna 23, the feeding unit 24, and the antenna ground 25 described in the first embodiment are formed on the substrate 9B, and are configured to be housed in the communication device housing 13A. The communication device housing 12A is configured to cover the communication device housing 13A in which the substrate 9B is housed. The substrate 9B has an LED 9a and a cable connection connector 9b. The light of the LED 9a is emitted to the inclined portion 121A side of the communication device housing 12A via the LED light guide portion 11.

The parallel cable 10 has a plurality of electric wires parallel to each other. A weighing device connection connector 10a is attached to one end of the parallel cable 10, and a board connection connector 10b is attached to the other end of the parallel cable 10. The board connection connector 10b is connected to the cable connection connector 9b.

In the communication device housing 13A, inclined portions 131 and 132 are formed corresponding to the inclined portions 121A at substantially half positions of the left and right side surfaces, and correspond to the flat portions 122 at the remaining approximately half positions of the respective side surfaces. The flat portions 133 and 134 are formed. Further, the communication device housing 13A is formed with inclined portions 131a and 132a for inclining and arranging the substrate 9B with respect to the terminal fitting 3 and the measuring portion 21.

A notch groove 135 is formed in the flat portion 134 at a position corresponding to the notch groove 123 formed in the communication device housing 12A, and the notch groove 135 inserts a parallel cable 10 from the case 5 into the communication device housing 13A. It is designed to guide you.

According to the watt hour meter communication device according to the eighth embodiment configured in this way, the effect of the watt hour meter communication device according to the first embodiment can be obtained, and the inclined portion formed in the communication device housing 12A is obtained. Since the display unit including the communication device name plate 14A and the two LEDs 9a is tilted by the 121A, the light emission of the communication device name plate 14A and the LED 9a can be easily visually recognized from the front and the bottom.

FIG. 11A is an overall configuration diagram of a watt-hour meter including a communication device for a watt-hour meter according to a ninth embodiment of the present invention. In the watt hour meter communication device according to the ninth embodiment, the current line mounting screw 2 is visible and the current line is mounted by the current line mounting screw 2 in a state where the communication device housing 12B is mounted on the upper surface of the base 6. It is characterized by having a size that allows work.

Hereinafter, a specific configuration of the communication device for an electric energy meter according to the ninth embodiment will be described with reference to FIG. 11 (b) and 11 (c) are diagrams showing details of the communication device for an electric energy meter according to a ninth embodiment of the present invention. 12 (a) and 12 (b) are exploded views of the communication device for an electric energy meter according to a ninth embodiment of the present invention.

A communication device name plate 14A is attached to the inclined portion 121B of the communication device housing 12B, and an LED light guide hole 12a for attaching the LED light guide portion 11 is formed. Further, the flat portion 122B is formed with a notch groove 123 for guiding the parallel cable 10 from the case 5 into the communication device housing 12B.

The substrate 9C is configured so that the PC plate pattern / inverted F antenna 23, the feeding portion 24, and the antenna ground 25 are formed and can be housed in the communication device housing 13B. Communication device housing 12B is configured so as to cover the communication device housing 13B accommodating the substrate 9 C. The substrate 9C has an LED 9a and a cable connection connector 9b. The light of the LED 9a is applied to the inclined portion 121B of the communication device housing 12B via the LED light guide portion 11.

The communication device housing 13B is formed with flat portions 133 and 134 corresponding to the flat portions 122B at the positions of the left and right side surfaces. Further, the communication device housing 13B is formed with inclined portions 131b and 132b for inclining and arranging the substrate 9C with respect to the terminal fitting 3 and the measuring portion 21. A notch groove 135 is formed in the flat portion 134 at a position corresponding to the notch groove 123 formed in the communication device housing 12A, and the notch groove 135 inserts a parallel cable 10 from the case 5 into the communication device housing 13B. It is designed to guide you.

According to the watt hour meter communication device according to the ninth embodiment configured in this way, the effect of the watt hour meter communication device according to the first embodiment can be obtained, and the inclined portion formed in the communication device housing 12B is obtained. Since the display unit including the communication device name plate 14A and the two LEDs 9a is tilted by 121B, the light emission of the communication device name plate 14A and the LED 9a can be easily visually recognized from the front and the bottom.

Further, the size of the communication device housing 12B in the vertical direction from the lower part of the case 5 toward the current line mounting screw 2 is smaller than the size of the communication device housings 12A and 13A shown in FIG. 9 in the vertical direction. With the body 12B attached to the upper surface of the base 6, the current line mounting screw 2 is visible and the size is such that the current line mounting work can be performed by the current line mounting screw 2.

That is, since the communication device housing is downsized to secure a screwdriver work space for the current line mounting screw, the current line mounting work can be performed without removing the communication device housing 12B during the current line connection work. it can.

In the watt hour meter communication device according to the ninth embodiment shown in FIG. 11, in the longitudinal direction in which the electric wires are lined up in an example in the cross section of the parallel cable 10, the measuring device connection connector 10a side and the notch groove 123 are orthogonal to each other. Therefore, it was necessary to twist the parallel cable 10 to connect the measuring device connection connector 10a.

On the other hand, in the watt hour meter communication device according to the tenth embodiment shown in FIG. 13, a notch groove 123A for guiding the parallel cable 10A into the communication device housing 12B is formed in the communication device housing 12B. when connecting the metering device connector 10a to the communication device connector 6 b of the metering device, the longitudinal direction is parallel to the left and right lateral metering device arranged in each wire one row in a cross section parallel cable 10A, the parallel I tried to maintain and guide. 14 (a) and 14 (b) are exploded views of the watt hour meter communication device according to the embodiment of the present invention.

As described above, according to the communication device for the watt hour meter according to the tenth embodiment, since each electric wire of the parallel cable 10A is formed in parallel from the connector 10a for connecting the measuring device to the notch groove 123A, the measuring device is connected. The connector 10a and the notch groove 123A have a linear positional relationship.

Therefore, drawing the parallel cable 10A from the notch groove 123A, it can be connected to the metering device connector 10a without Nejimageru parallel cable 10A. As a result, workability can be improved, and disconnection of the electric wire in the parallel cable 10A can be prevented.

FIG. 15 is an overall configuration diagram of a watt-hour meter including a communication device for a watt-hour meter according to the eleventh embodiment of the present invention. The watt hour meter communication device according to the eleventh embodiment is partially cut out in the communication device housings 12B and 13B and the substrate 9C with respect to the watt hour meter communication device according to the tenth embodiment shown in FIG. It is characterized in that a notch portion 124 is formed so that the measuring device name plate 14B can be visually recognized.

As described above, according to the watt hour meter communication device according to the eleventh embodiment, the effect of the watt hour meter communication device according to the first embodiment can be obtained, and the notch 124 in which the measuring device name plate 14B can be visually recognized is the communication device. Since the housings 12B and 13B and the substrate 9C are formed, a space is provided by the notch 124.

Therefore, the measuring device name plate 14B can be seen even when the communication device is attached to the base 6. The contents of the communication device name plate and the contents of the measuring device name plate can be compared. Therefore, the work of removing the attached communication device again is eliminated, and the workability can be improved.

16 (a) and 16 (b) are exploded views of the watt hour meter communication device according to the twelfth embodiment of the present invention. As shown in FIG. 16C, the communication device housing 12C made of the upper case is made of a transparent material.

As shown in FIG. 16B, an LED light guide portion 11A for guiding the light of the LED 9a is formed in the communication device housing 12C. That is, the LED light guide unit 11A is integrated with the communication device housing 12C.

As described above, according to the watt hour meter communication device according to the twelfth embodiment, the effect of the watt hour meter communication device according to the first embodiment can be obtained, the communication device housing 2C is made transparent, and the LED light guide unit is used. Since 11A is integrated with the communication device housing 12C, the number of parts can be reduced by one as compared with Examples 1-4. Further, since the communication device housing 12C is made transparent, the light of the LED 9a can be accurately visually recognized.

17 (a) and 17 (b) are exploded views of the watt hour meter communication device according to the thirteenth embodiment of the present invention. FIG. 17C is a diagram showing a textured communication device housing 12D of the watt hour meter communication device according to the thirteenth embodiment.

The communication device includes a communication device housing 12D which is an upper case and is made of a transparent material, and a communication device housing 13D which is made of a lower case. The board 9D is housed by the communication device housing 12D and the communication device housing 13D.

An inclined portion 121D is formed in the communication device housing 12D, and an inclined portion 131 b is formed in the communication device housing 13D. Substrate. 9D, the communication device housing 12D, inclined portions 1 21 D formed in 13D, it is disposed inclined along the 131b.

The peripheral portion 121E of the LED 9a arranged in the communication device housing 12D is textured. The wrinkle processing is a process of forming a wrinkle pattern on the surface of the communication device housing 12D.

In addition to the peripheral portion of the LED, the grain processing may be performed on the entire front surface and the entire back surface of the communication device housing 12D.

As described above, according to the watt hour meter communication device according to the thirteenth embodiment, the effect of the watt hour meter communication device according to the first embodiment can be obtained, the communication device housing 12D is made transparent, and the substrate 9D is the communication device. Since the peripheral portion 121E of the LED 9a of the communication device housing 12D is textured by being inclined along the shapes of the housings 12D and 13D, the light emission display area is increased by diffusing the light of the LED 9a. be able to. Thereby, the visibility of the light of the LED 9a can be further improved.

9,9D Board 1a Display 2 Current line mounting screw 3 Terminal fitting 4 Sensor part 5 Case 5a Case front 6 Base 6a Connector through hole 6b Communication device mounting part 6c Current line through hole 7 Cover 8 Cover mounting screw 9A1-9A7 Board 9a LED
9b Cable connection antenna 10, 10A Parallel cable 10a Weighing device connection connector 10b Board connection connector 11, 11A LED light guide 12 Upper case 12A, 12B, 12C, 12D, 13A, 13B, 13C, 13D Communication device housing 12a LED light guide hole 13 Lower case 13a Weighing device mounting part 14A Communication device name plate 14B Weighing device name plate 20 Antenna part 22 Communication device housing 23, 23a PC plate pattern / inverted F antenna 23b PC plate pattern Monopole antenna 23c PC plate Pattern Helical antenna 23d Dielectric chip antenna 23e Inverse F antenna 23f Monopole antenna 24 Feeding part 25 Antenna ground 31 Through hole 32 First pattern 33 Second pattern 121A, 121B, 131, 132 Inclined part 122A, 122B, 133,134 Flat Part 123, 123A, 135, 136 Notch groove 124 Notch

Claims (13)

Amount of power that is attached to a measuring device that has a measuring unit that measures the amount of power and a terminal fitting that is connected to the measuring unit and is connected to the power supply side and the load side, and transmits the amount of power measured by the measuring device to the outside. It is a communication device for electricity meters
The communication device housing attached to the upper surface of the terminal fitting and
It consists of an antenna ground connected to one end of the feeding unit and an inverted F antenna connected to the other end of the feeding unit, and includes an antenna unit that transmits and receives data to and from other communication devices.
The communication device housing has a substrate on which at least the antenna ground of the antenna ground and the inverted F antenna is formed.
A communication device for an electric energy meter, wherein the substrate is arranged so as to be inclined with respect to the terminal fitting and the measuring portion. The communication device for an electric energy meter according to claim 1, wherein the inverted-F antenna comprises a monopole antenna formed on the substrate. The substrate is composed of a through-hole substrate in which a plurality of through-holes are formed.
The antenna portion includes a helical antenna in which a first pattern formed on the front surface of the through-hole substrate and a second pattern formed on the back surface of the through-hole substrate are electrically connected through the plurality of through holes. The communication device for a watt hour meter according to claim 1. The communication device for an electric energy meter according to claim 1, wherein the inverted-F antenna comprises a dielectric chip antenna formed on the substrate. The communication device for an electric energy meter according to claim 1, wherein the inverted-F antenna includes an inverted-F antenna formed on the outside of the substrate. The communication device for an electric energy meter according to claim 1, wherein the inverted-F antenna includes a monopole antenna formed on the outside of the substrate. The communication device for an electric energy meter according to claim 1, wherein the inverted-F antenna includes a helical antenna formed on the outside of the substrate. The measuring device has a base in which the current wire is fixed with a current wire mounting screw and has the terminal fitting, and a case for accommodating the base.
In the front portion of the communication device housing attached to the base, when the housing height T on the base connector connection surface side and the housing height t on the base / current line mounting screw work surface side are set, T> t. The invention according to any one of claims 1 to 7, wherein an inclined portion is formed so as to be inclined at a predetermined angle α, and a display portion for displaying information is arranged in the inclined portion. Communication device for electricity meters. The communication device housing is characterized in that the current line mounting screw is visible and the current line mounting work can be performed by the current line mounting screw in a state of being mounted on the upper surface of the base. The communication device for an electric energy meter according to claim 8. A parallel cable with multiple wires parallel to each other,
A metering device connection connector attached to one end of the parallel cable and connected to the communication device connecting connector of the weighing device,
A board connection connector attached to the other end of the parallel cable and connected to the cable connection connector of the board is provided.
When the connector for connecting the weighing device is connected to the connector for connecting the communication device of the weighing device, the longitudinal direction in which each electric wire is lined up in a row in the cross section of the parallel cable is parallel to the left and right lateral directions of the weighing device, and the parallelism is maintained and guided. The watt hour meter communication device according to claim 8 or 9, wherein a notch groove is formed in the communication device housing as described above. A second display unit for displaying information on the weighing device is arranged on the weighing device.
The method according to any one of claims 8 to 10, wherein the communication device housing is formed with a notch portion in which a part of the communication device housing is cut out so that the second display portion can be visually recognized. Communication device for electricity meters. The communication device housing has an upper case and a lower case that fits into the upper case.
The display unit has an LED.
Any one of claims 8 to 11, wherein the upper case is made of a transparent material, and the upper case is formed with an LED light guide portion for guiding the light of the LED. The communication device for the watt hour meter described. The communication device housing has a substrate housed by the upper case and the lower case.
The inclined portion is formed in each of the upper case and the lower case.
The substrate is arranged so as to be inclined along the inclined portion formed in the upper case and the lower case.
The communication device for an electric energy meter according to claim 12, wherein at least the peripheral portion of the LED of the upper case is textured.

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