JPH10172087A - Radio data communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To find out the change of radio environment when radio waves do not reach from an opposite equipment after installing an equipment by measuring the intensity value of the electric field of a signal transmitted from the other equipment, judging whether the value reaches a threshold level and informing the result to outside. SOLUTION: Data on a measured value from a meter 21 is received by the receiving antenna 9 of a telephone line connector 11 and sent to a repeating means 8 and an electric field intensity measuring means 4 through a signal receiving means 3. The means 4 measures the electric field intensity value of a signal received by the means 3 and sends the measured value to an electric field intensity judging means 5. The means 5 judges whether the measured electric field intensity value reaches the previously fixed threshold value, and outputs the signal to a display means 6 only at the time of not reaching the threshold value. Thereby it is easily confirmed whether the radio waves from the meter surely reach the telephone line connector or not by observing whether the display means is lighted or not.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, and more particularly, to a wireless communication system in which the electric field intensity is changed due to a change in environment after the installation of the equipments. The present invention relates to a technology capable of coping with a case where wireless communication becomes impossible due to a decrease in size.

[0002]

2. Description of the Related Art For example, data communication between two equipments installed at a distance from each other, such as communication between a water heater and its remote controller and communication between an oil storage tank and its fuel gauge. Conventionally, a wired system using a signal line has been the mainstream, but in recent years, a wireless system using radio waves has been adopted in place of the wired system for the following reasons.

(1) There is no need to lay signal lines, and installation work is simple.

(2) There is no disconnection of signal lines, and maintenance is easy.

(3) A system that can be installed anywhere can be newly realized by using wireless communication.

[0006] If such a wireless system is adopted, for example, as disclosed in Japanese Patent Application Laid-Open No. 64-7200, a meter such as electricity or water is provided with a wireless data communication function to measure measured data. , It is possible to construct a system for transmitting data remotely.

Hereinafter, such a wireless data communication system will be briefly described with reference to FIG.

Reference numeral 201 denotes a data collector which is one of the equipment, and reference numeral 204 denotes a meter which is the other equipment. The data collector 201 and the meter 204 are wirelessly connected. The metering unit 206 of the meter 204 measures the amount of gas or water used, and stores the measured amount in the measured value storage unit 207.
I remember.

When the switch 112 of the data collector 201 is pressed, a data collection value request signal is wirelessly transmitted from the transmission unit 203 to the meter 204 in response to the depression of the switch 112.

The signal from the data collector 201 is transmitted to the meter 2
When the receiving unit 205 receives the measurement value, the measured value storage unit 207
Is transmitted to the data collector 201 wirelessly via the transmission unit 208.

When the receiving unit 209 receives the measured value, the data collecting unit 201 converts the measured value into a charge in the charge calculation unit 216, and displays the converted charge value in the data display unit 210.
Or stored in the data storage unit 211. If the data collector 201 is connected to a center device (not shown) via a communication line such as a telephone line, data from the data collector 201 is sent to the center device, so that data can be collected remotely. Becomes

The wireless type has the advantages (1) to (3) as compared with the wired type, but
There are the following problems:

[0013] Wireless communication is easily affected by the surrounding environment such as obstacles on radio wave propagation. For example, the presence of a dynamic obstacle such as a person or a car, or a static obstacle such as furniture or a wall makes it difficult for radio waves to be transmitted between the two equipments. May be shorter.

In the prior art, a measuring instrument for examining such a change in the radio wave environment is disclosed in, for example, Japanese Patent Laid-Open No. 4-1497.
There is a so-called environmental monitor as described in JP-A-13. When the electric field strength of a received radio wave is equal to or lower than a preset threshold level, the time, frequency and strength are recorded together, and an abnormal signal is output. With such an environmental monitor,
By grasping a change in the communication state received from the surrounding environment, it is possible to investigate the cause when the environment deteriorates.

[0015]

However, the conventional environmental monitor is a measuring instrument which is temporarily used to select a place where the equipment is installed, and is not permanently installed in the equipment.

Therefore, even if the surrounding radio wave environment changes after the installation of the equipment and the radio wave from the other party's device does not reach, the change in the radio wave environment cannot be known.

On the radio wave transmitting side, since the change of the radio wave environment on the radio wave receiving side is not known, the electric field strength becomes small due to the fluctuation of the surrounding environment, and the radio wave cannot reach the radio wave receiving side. Nevertheless, the transmission operation is performed unconditionally.

Further, when the electric field strength is small, there is no means for the equipment itself constituting the system to investigate the cause and take a countermeasure. In other words, the reason why the electric field strength is small is due to the equipment at the transmitting end itself, such as low transmission power, or the matching between the antenna of the equipment at the receiving end and the internal circuit has occurred, and all of the antenna received power has been reduced. Investigate the cause, such as whether the equipment on the receiving side cannot remove the equipment itself, or if the radio wave environment does not reach due to the surrounding radio wave environment, such as a bad installation location of the equipment, and take countermeasures. There is no means to take.

Accordingly, an object of the present invention is to solve each of the above problems.

[0020]

In order to solve the above-mentioned problems, the present invention employs the following configuration in a wireless data communication system for performing wireless communication between two equipments installed at a distance from each other. I have.

That is, according to the first aspect of the present invention, one of the two equipments has an electric field intensity measuring means for measuring an electric field intensity value when a signal transmitted from the other equipment is received. An electric field intensity determining unit that determines whether the electric field intensity value measured by the electric field intensity measuring unit has reached a predetermined threshold level, and an electric field intensity value and an electric field intensity determining unit of the electric field intensity measuring unit. And information reporting means for reporting at least one of the determined information to the outside.

As the information notifying means, a display means for displaying information may be provided,
According to a third aspect of the present invention, it can be constituted by data transmission means for transmitting information to the outside.

In the invention according to claim 4, one of the two equipments has an electric field intensity measuring means for measuring an electric field intensity value when a signal transmitted from the other equipment is received. Electric field intensity determining means for determining whether or not the electric field intensity value has reached a predetermined threshold level; clock means for measuring a time at which the electric field intensity is measured by the electric field intensity measuring means; Recording means for recording the information determined by the means and the time measured by the clock means corresponding thereto, and learning the periodicity of the change of the electric field intensity value based on the information recorded in the recording means. There is provided a learning means, and a wireless transmission means for performing wireless transmission at a timing based on a learning result of the learning means at a timing at which a signal level that can be received by the other equipment has been reached.

In the invention according to claim 5, one of the two equipments has an electric field intensity measuring means for measuring an electric field intensity value when a signal transmitted from the other equipment is received. Electric field intensity determining means for determining whether or not the electric field intensity value measured by the electric field intensity measuring means falls within predetermined upper and lower threshold levels; and And a transmission power varying unit that adjusts the wireless transmission power so as to be included in the threshold level when it is determined that the transmission power is outside the threshold level range.

In the invention according to claim 6, one of the two equipments has an electric field intensity measuring means for measuring an electric field intensity value when a signal transmitted from the other equipment is received. An electric field intensity determining unit that determines whether or not the electric field intensity value measured by the electric field intensity measuring unit has reached a predetermined threshold level; and the electric field intensity value is smaller than the threshold level by the electric field intensity determining unit. And a matching means for matching the input impedance of the antenna so that the electric field strength becomes equal to or higher than the threshold level.

In the invention according to claim 7, one of the two equipments has an electric field intensity measuring means for measuring an electric field intensity value when a signal transmitted from the other equipment is received. An electric field intensity determining unit that determines whether or not the electric field intensity value measured by the electric field intensity measuring unit has reached a predetermined threshold level; and the electric field intensity value is smaller than the threshold level by the electric field intensity determining unit. When it is determined, position moving means for moving the installation location of the equipment so that the electric field strength is equal to or higher than the threshold level,
Is provided.

In addition, as described in claim 8, claim 1
In addition, a configuration in which at least two of the inventions of claim 7 are combined may be employed.

[0028]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following embodiments, the present invention is applied to a so-called "automatic meter reading system" for transmitting data such as meter reading of a gas meter to a center device of a gas company using a telephone line. The case will be described.

(Embodiment 1) FIG. 1 shows Embodiment 1 of the present invention.
1 is a block diagram showing a configuration of a wireless data communication system according to the first embodiment.

[0030] In the figure, reference numeral 1 ₁ One of the equipment to become telephone line connector, 2 ₁ is a meter which is the other connection apparatus equipment, one of the telephone line connection device 1 ₁ is for example a telephone line The other meter is installed, for example, under the eaves outdoors near the service location, and the other meter is installed at an appropriate location outdoors near the service location of the gas pipe, for example.
Both are located apart from each other.

The telephone line connection device 1 ₁ comprises a receiving device ₇₁ and the relay unit 8 Prefecture, the receiving device 7 _1, receiving antenna 9, a signal receiving unit 3, electric field strength measuring unit 4, the electric field intensity determining unit 5, And display means 6.

The receiving antenna 9 receives a radio wave from the transmitting device 2, and the signal receiving means 3 amplifies and detects a signal received by the receiving antenna 9.

The electric field intensity measuring means 4 measures the received electric field intensity value of the signal from the transmitting device 2 received by the signal receiving means 3, and the electric field intensity determining means 5 measures the electric field intensity measured by the electric field intensity measuring means 4. The display unit 6 determines whether or not the electric field intensity value has reached a predetermined threshold level. The display unit 6 displays the signal output by the electric field intensity determination unit 5, and includes, for example, an LED or the like. It can be composed of an LCD or the like.

[0034] The threshold level set in advance to an electric field intensity determining unit 5, equivalent to the level of the limits the radio wave transmitted from the meter 2 ₁ reaches the telephone line connection device 1 _1,
Alternatively, it is a level obtained by adding a margin for system operation from the limit level.

Further, the relay unit 8, the data from the meter 2 ₁ received by the signal receiving means 3 is intended to be transmitted to the telephone line, and the gas company center device (not shown) receives data via a telephone line Become.

On the other hand, the meter 2 ₁ is made from the transmission device 11 and the metering device 12. The transmission device 11, the signal transmitting means 1
0 and a transmission antenna 13.

The measuring device 12 is for measuring the gas flow rate, and the signal transmitting means 10 is for transmitting the signal of the measured value obtained by the measuring device 12 to the receiving device 1 by radio. transmit antenna 13 is a transmitting device 11 transmits radio waves towards the telephone line connection device 1 _1.

[0038] In the above arrangement, when the data of the weighing value from meter 2 ₁ is received by the receiving antenna 9 of the telephone line connection device 1 _1, via the signal receiving unit 3 the reception signal constituting the receiving apparatus 7 ₁ And transmitted to the relay means 8 and also to the electric field strength measuring means 4.

The electric field strength measuring means 4 measures the electric field strength value of the signal received by the signal receiving means 3 and sends the measured value to the electric field strength judging means 5.

Here, the electric field strength determining means 5 determines whether or not the measured electric field strength value has reached a predetermined threshold level, and determines whether the electric field strength value measured by the electric field strength measuring means 4 is equal to the threshold value. A signal is output to the display means 6 only when the level has not been reached.

[0041] Thus, when installing the both devices 1 _1, 2 _1, and in any case after installation of both devices 1 _1, 2 _1, whether for example, an LED display unit 6 is lit by observation, it is possible to radio waves from the meter 2 ₁ which is the transmission side to easily confirm whether or not reliably delivered to the telephone line connector 1 ₁ is the receiving side. Then, as a result of checking the display on the display means 6, if it is determined that the electric field intensity is small and radio waves cannot reach, the mounting location can be changed.

In the above description, the electric field strength determining means 5 outputs a signal to the display means 6 only when the electric field strength value measured by the electric field strength measuring means 4 has not reached the threshold level. Conversely, a signal may be output to the display means 6 only when the electric field strength value measured by the electric field strength measuring means 4 has reached the threshold level, or the electric field strength value measured by the electric field strength measuring means 4 may be output. It may be output to the display means 6 as it is, or both may be output to the display means 6 at the same time.

In particular, if the electric field intensity value of the received signal is displayed on the display means 6, it is easy to grasp how much the actual received electric field intensity is insufficient for the electric field intensity level in the system operation. It is convenient because it can be used as a guide when changing the mounting location.

(Embodiment 2) FIG. 2 is a block diagram showing a configuration of a wireless data communication system according to Embodiment 2 of the present invention. In FIG. 2, parts corresponding to those of Embodiment 1 shown in FIG. Is attached.

The feature of the second embodiment is that the display means 6 of the first embodiment is not provided, but a data transmitting means 14 for outputting the signal output by the electric field strength judging means 5 to the outside is provided instead. That is. The output of the data transmission means 14 is applied to the relay means 8.

The other configuration is the same as that of the first embodiment, and the detailed description is omitted here.

[0047] In the above structure, when the data of the weighing value from meter 2 ₁ is received by the receiving antenna 9 of the telephone line connection device 1 _1, via the signal receiving unit 3 the reception signal constituting the receiving apparatus 7 ₁ And transmitted to the relay means 8 and also to the electric field strength measuring means 4.

The electric field strength measuring means 4 measures the electric field strength value of the signal received by the signal receiving means 3 and sends the measured value to the electric field strength judging means 5.

Here, the electric field strength determining means 5 determines whether or not the measured electric field strength value has reached a predetermined threshold level, and determines whether the electric field strength value measured by the electric field strength measuring means 4 is equal to the threshold value. Only when the level has not been reached, a signal is output to the data transmitting means 14.

Therefore, the relay stage 8 simultaneously sends the data transmitted by the data transmitting means 14 to the center apparatus of the gas company via the telephone line together with the data received from the transmitting apparatus 2 by the signal receiving means 3.

[0051] Thus, when installing the both devices 1 _1, 2 _1, and in any case after installation of both devices 1 _1, 2 _1, the center apparatus side, from the meter 2 ₁ which is the transmission side radio waves whether reliably delivered to the telephone line connector 1 ₁ is the receiving side can be easily confirmed. As a result, when it is determined that the electric field strength is small and radio waves cannot reach, the mounting location can be changed.

In the above description, the electric field strength determining means 5 outputs a signal to the data transmitting means 14 only when the electric field strength value measured by the electric field strength measuring means 4 has not reached the threshold level. However, conversely, a signal may be output to the data transmitting unit 14 only when the electric field intensity value measured by the electric field intensity measuring unit 4 has reached the threshold level.

Further, in the second embodiment, the data transmitting means 14 is connected to the relay means 8, but may be configured to transmit radio waves by an antenna (not shown). In that case, it is possible to confirm whether or not the radio wave from the transmitting side has reached the receiving side by using a portable terminal or the like. When it is determined that the electric field intensity is small and radio waves cannot reach, it is easy to change the mounting location.

The operation and function of the other components are the same as those in the first embodiment, and thus detailed description is omitted.

(Embodiment 3) FIG. 3 is a block diagram showing a configuration of a wireless data communication system according to Embodiment 3 of the present invention. In FIG. 3, parts corresponding to those of Embodiment 1 shown in FIG. Is attached.

[0056] In this embodiment 3, the telephone line connector 1 ₃ consists of a transceiver 22 ₃ relay unit 8 Prefecture, transceiver 22 _3, transmission and reception antenna 19, signal receiving means 3, the electric field strength measuring unit 4, It includes an electric field strength determination unit 5, a recording unit 15, a clock unit 16, a learning unit 17, and a wireless transmission unit 18.

The recording means 15 records the information of the result determined by the electric field strength determining means 5 and simultaneously records the information output by the clock means 16 described later.

The clock means 16 measures the time when the electric field strength measuring means 4 measures the electric field strength, and records the information.
5 is output.

The learning means 17 learns information on the electric field strength recorded in the recording means 15 and information on the time when the electric field strength was obtained.

The wireless transmitting means 18 receives the output information from the learning means 17 and transmits the measured value request data and the like sent from the center device of the gas company (not shown) to the relay means 8 via the telephone line. strength is to transmitted from the transmitting and receiving antenna 19 toward the meter 2 ₃ side with a timing that is assumed to be sufficiently large.

[0061] On the other hand, the meter 2 ₁ is composed of a transceiver 23 weighing device 12., transceiver 23, the signal transmitting means 10, signal receiving means 21, and the transmitting and receiving antenna 20
Is provided.

The signal receiving means 21 comprises the telephone line connection device 1
_{3 is} received through the transmitting / receiving antenna 20 and sent to the weighing device 12.

The other structure is the same as that of the first embodiment shown in FIG.
In this case, the detailed description is omitted here.

Next, the operation of the learning means 17 will be described.

For example, it is assumed that a graph of the information recorded in the recording means 15 results in a result as shown in FIG. This over time variation of such field strengths can occur by variations in the ambient environment of the telephone line connection adapter 1 ₃ and the meter 2 _3. In other words, the transmitted radio wave is repeatedly reflected and diffracted in space and synthesized by the antenna on the receiving side, so that the amplitude and phase of the radio wave fluctuate in the surrounding environment and the electric field strength fluctuates.

In the case of FIG. 4, the electric field intensity has not reached the predetermined threshold level I _L three times, and each time interval is “T ₀ ”. Therefore, from this result,
Since it can be seen that there is a periodicity in the variation of the field strength, for a period of up to field strength measurement means 4 over time in the threshold level I _L or less of the electric field strength from the measured "T _0" is
Field strength is estimated that greater than or equal to a threshold value level I _L.

The learning means 17 learns such a period T ₀ of the fluctuation of the electric field strength, and outputs the information to the radio transmitting means 18.

[0068] Thus, the wireless transmitting means 18, for example, when transmitting data requests metric on the meter 2 ₃ side performs transmission as the transmission cycle is imitate T _0.

Thus, even when the electric field strength fluctuates due to the fluctuation of the surrounding environment, it is possible to transmit the radio wave at the timing of the electric field strength level at which the radio wave reaches the other party sufficiently. In this case, as the number of times of the measurement of the electric field strength increases, the accuracy of the learning of the periodicity of the electric field strength increases, so that the radio wave can more reliably reach the other party.

The operation and operation according to the other configuration are the same as those in the first embodiment, and thus the detailed description is omitted.

(Embodiment 4) FIG. 5 is a block diagram showing a configuration of a wireless data communication system according to Embodiment 4 of the present invention. In FIG. 5, parts corresponding to Embodiment 3 shown in FIG. Is attached.

In the fourth embodiment, the clock means 16 and the learning means 17 of the third embodiment are not provided. Instead, the transmission means for controlling the transmission power of the signal wirelessly transmitted from the wireless transmission means 18 is used. Power variable means 24 is provided.

In the fourth embodiment, as shown in FIG. 6, the electric field intensity judging means 5 sets the electric field intensity measured by the electric field intensity measuring means 4 to a predetermined first and second threshold level I. It is determined whether or not it is within the range of _H , I _L (where I _H > I _L ), and the result is recorded in the recording means 15.

The other structure is the same as that of the third embodiment shown in FIG.
Therefore, detailed description is omitted.

In the configuration of FIG. 5, the transmission power varying means 24 adjusts the transmission power based on the value recorded in the recording means 15. That is, the electric field strength determining means 5
By the electric field strength exceeding the first threshold level I _H (in the figure,
If it is determined that there is information (indicated by an asterisk) and at least one piece of the information is recorded in the recording means 15, it is determined that the radio wave is quite strong, and the transmission power is set to a small value. On the contrary recording, (shown by mark ※) electric field intensity below a second threshold level I _L by the electric field intensity determining unit 5 is determined that there is, in the information at least one recording means 15 If so, it is determined that the radio wave is very weak, and the transmission power is set to a large value.

[0076] Radio transmission section 18, the gas company Senku from the telephone line in the transmission power of the transmission power adjustment means 24 is determined, the data, such as requests for metered values sent via relay unit 8, a meter 2 ₄ side The transmission is performed from the transmission / reception antenna 19.

As described above, in the fourth embodiment, when the electric field strength fluctuates due to the fluctuation of the surrounding environment, the electric field strength of the radio wave from the other party is measured. Increase the power to make it easier to reach the radio waves.On the other hand, if the radio waves are easier to reach (the transmission power is larger than necessary), set the transmission power to a small value within the range that the radio waves can reach and reduce the current consumption. Can be suppressed. Also, by not increasing the transmission power more than necessary, there is an advantage that other systems are not disturbed.

The operation and function of the other components are the same as those of the third embodiment, and thus detailed description is omitted.

(Embodiment 5) FIG. 7 is a block diagram showing a configuration of a wireless data communication system according to Embodiment 5 of the present invention. In FIG. 7, parts corresponding to Embodiment 4 shown in FIG. Is attached.

In the fifth embodiment, the transmission power varying means 24 of the fourth embodiment is not provided, but a matching means 25 is provided instead.

The matching means 25 adjusts the matching of the transmitting / receiving antenna 19, the signal receiving means 3, and the wireless transmitting means 18 based on the information recorded in the green recording means 15.

In the fifth embodiment, when the electric field intensity judging means 5 judges that the received electric field intensity is lower than a predetermined threshold level, the electric field intensity judging means 5 records the difference of the received electric field intensity lower than the predetermined threshold level. The information is recorded in the means 15.

The other structure is the same as that of the fourth embodiment shown in FIG.
Therefore, detailed description is omitted.

Next, the operation of the matching means 25 will be described.

[0085] Originally, transceiver 22 ₆ internal circuit between constituting a telephone line connection device 1 _6, are adjusted to return loss due to reflection wave does not occur. That is, each of the antenna and the internal circuit is configured to be terminated with a characteristic impedance such as 50Ω or 75Ω.
However, the characteristic impedance of the antenna does not match due to a change in the surrounding environment or the like. This phenomenon occurs when a metal object or the like approaches the antenna. If such impedance mismatch occurs, it becomes impossible to extract the power of the radio wave received by the antenna according to the gain of the antenna, resulting in loss. In a state where such a loss occurs, the electric field intensity measured by the electric field intensity measuring means 4 becomes smaller than a regular value.

[0086] Therefore, the matching means 25, based on the information recorded in the green recording means 15, the transmitting and receiving antennas 19,
The impedance of the signal receiving unit 3 and the impedance of the wireless transmitting unit 18 are adjusted so as to match. As a result, when measuring the electric field intensity thereafter, the electric field intensity can be measured in a state where the impedances are matched, and a communication system that is less affected by the environment can be made.

The operation and function of the other components are the same as those of the fourth embodiment, and therefore detailed description is omitted.

(Embodiment 6) FIG. 8 is a block diagram showing a configuration of a radio data communication system according to Embodiment 6 of the present invention. In FIG. 8, parts corresponding to those of Embodiment 4 shown in FIG. Is attached.

In the sixth embodiment, a position moving means 26 is provided instead of the transmission power varying means 24 of the fourth embodiment.

The position moving means 26 changes the position and direction of the transmitting / receiving antenna 19 based on the information recorded in the recording means 15, and various actuators can be used.

In the sixth embodiment, when the electric field strength judging means 5 judges that the received electric field strength is lower than a predetermined threshold level, the electric field strength judging means 5 records the difference of the received electric field intensity lower than the predetermined threshold level. The information is recorded in the means 15.

The other configuration is the same as that of the fourth embodiment, and the detailed description is omitted.

Next, the operation of the position moving means 26 will be described.

Radio waves transmitted from the transmitting-side antenna (for example, 20) directly reach the receiving-side antenna (for example, 19), so-called direct waves, as well as surrounding obstacles such as fixed objects and moving objects, and temperature. Depending on changes in the surrounding environment, such as humidity and the like, some of them reach the antenna on the receiving side by reflection or diffraction. At the receiving antenna, all these radio waves
(Multiple waves) are combined, and at that time, at the receiving end, the electric field strength is determined by the amplitude and phase of each radio wave.

For example, if two multiplex waves are considered,
When the amplitude of each wave is maximum and the phase is the same,
The electric field intensity is maximum, while the electric field intensity is 0 when the amplitude of each of the two waves is maximum and the phases are opposite.

As described above, when the surrounding obstacle is a moving object such as a person or a car, or when the temperature / humidity is constantly changing, the amplitude and phase of each radio wave at the receiving end are also constantly changed. Accordingly, the electric field strength varies with time, as shown in FIGS. 4 and 6.

[0097] Thus, small field strength electric field strength measuring unit 4 is measured, which is determined is below the threshold level I _L by the electric field intensity determining unit 5 is the recording means 15
Is recorded, the position moving means 26 changes the height of the transmitting / receiving antenna 19 or changes the direction. As a result, changes occur in the reflection and diffraction phenomena of the radio waves around the transmission / reception antenna 19, and the electric field strength of the received radio waves can be increased.

In the sixth embodiment, the position moving means 26 is constituted by an actuator for changing the position or the direction of the transmitting / receiving antenna 19, but in addition to the actuator,
Separating the transmitting and receiving apparatus 22 ₆ and the relay unit 8, transceiver 22 ₆ or change its position placed on the rail motor or the like, can also be to move the entire telephone line connector 1 ₆ It is.

The operation and function of the other components are the same as those of the fourth embodiment, and thus the detailed description is omitted.

[0100] In (Other Modifications) (1) Embodiments 1 and 2, the telephone line connector ₁ 1, 1 _2, the transmitting apparatus 11 and the relay unit 8, the meter 2 ₁ receiving apparatus 7 _1, 7 ₂ and the weighing device 12 may be configured respectively.

[0102] Similarly, in the embodiment 3-6, the telephone line connector 1 ₃ to 1 _6, the transmitting and receiving device 23 and the relay unit 8, the meter 2 _{3-2 6,} transceiver 22 _{3-22 6}
And the weighing device 12.

(2) The present invention relates to each of the above-described first to sixth embodiments.
However, the present invention is not limited to this configuration, and it is of course possible to combine two or more of the configurations of the first to sixth embodiments.

(3) In each of the first to sixth embodiments, the case where the present invention is applied to an automatic meter reading system has been described. However, the present invention is not limited to such a system, and a water heater and its It can be widely applied to a wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, such as communication between a remote controller and communication between an oil storage tank and its remaining amount meter. .

[0104]

According to the present invention, the following effects can be obtained.

(1) In the invention according to the first aspect, not only when the equipment is installed, but also when the radio wave environment around the equipment changes after installation and the radio wave from the equipment on the other side stops reaching However, the situation such as a change in the radio wave environment can be easily grasped.

Therefore, it is possible to grasp information such as a communication error and to investigate the cause, and it is possible to secure long-term reliability of the equipment.

(2) In the invention according to the second aspect, in addition to the effect of the first aspect, the strength of the received electric field strength of a signal from another facility device constituting the communication system is determined, and the result is determined. The display allows you to know on the spot whether or not the electric field strength is sufficient to reach the radio wave, so you can quickly respond to the selection of the installation location of the equipment and the investigation of the cause of a communication error. be able to.

(3) In the invention according to the third aspect, in addition to the effect of the first aspect, the strength of the reception electric field strength of the signal from the other equipment constituting the communication system is determined, and the result is determined. Since the signal is output to the outside, the radio wave environment condition where the equipment is installed can be intensively grasped at a place other than the site.

(4) In the invention according to claim 4, the periodicity of the fluctuation of the electric field strength is learned from the measurement result of the reception electric field strength of the signal from the other equipment constituting the communication system, and the learning result is obtained. , The transmission timing is determined on the basis of the timing, so that the radio wave can be always transmitted at a timing where the electric field strength is necessary and sufficient. For this reason, the reliability of the wireless communication can be improved, and the extra transmission current can be reduced.

(5) In the invention according to claim 5, the power at the time of transmission is changed based on the measurement result of the reception electric field strength of the signal from the other equipment constituting the communication system. Communication can be performed in an environment where radio waves can reach the equipment. For this reason, the reliability of wireless communication can be improved, transmission current can be reduced by not generating extra transmission power, and interference with other devices can be minimized.

(6) In the invention according to the sixth aspect, the input impedance of the antenna is matched based on the measurement result of the reception electric field strength of the signal from the other equipment constituting the communication system, so that the surroundings can be adjusted. The matching between the antenna and the internal circuit due to environmental changes can always be kept optimal, and a state where radio waves can always reach without being affected by environmental changes can be realized.

(7) In the invention according to claim 7, since the position of the equipment is moved based on the measurement result of the received electric field strength of a signal from another equipment constituting the communication system, a radio wave arrives. The state can always be maintained satisfactorily, and a stable communicable state can be maintained.

(8) In the invention according to the eighth aspect, each of the effects of the first to seventh aspects can be combined, and further improved effects can be obtained as compared with the case of the single case.

[Brief description of the drawings]

FIG. 1 is a block diagram of a wireless data communication system according to Embodiment 1 of the present invention.

FIG. 2 is a block diagram of a wireless data communication system according to Embodiment 2 of the present invention.

FIG. 3 is a block diagram of a wireless data communication system according to Embodiment 3 of the present invention.

FIG. 4 is a graph showing an example of an electric field strength variation according to a third embodiment.

FIG. 5 is a block diagram of a wireless data communication system according to Embodiment 4 of the present invention.

FIG. 6 is a graph showing an example of an electric field strength variation according to the fourth embodiment.

FIG. 7 is a block diagram of a wireless data communication system according to Embodiment 5 of the present invention.

FIG. 8 is a block diagram of a wireless data communication system according to Embodiment 6 of the present invention.

FIG. 9 is a block diagram of a wireless data communication system according to a conventional example.

[Explanation of symbols]

1 ₁ to 1 ₆ ... telephone line connection device (equipment), 2 ₁ to 2 ₆ ... meter (equipment), 3 ... signal receiving means, 4 ... field intensity measuring means, 5 ... field intensity determining means 6 ... Display Means, 7 ₁ , 7 ₂
... Receiving device, 8 ... Relay means, 9 ... Receiving antenna, 10 ...
Signal transmitting means, 11: transmitting device, 12: measuring device, 13
.. Transmission antenna, 14 data transmission means, 15 recording means, 16 clock means, 17 learning means, 18 wireless transmission means, 19 transmission / reception antenna, 20 transmission / reception antenna,
21: signal receiving means, 22 _{3 to} 22 ₆ : transmitting / receiving device, 23
... Transceiver, 24 ... Transmission power variable means, 25 ... Aligning means, 26 ... Position moving means.

Claims (8)

[Claims] 1. A wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, wherein one of the two equipments is transmitted from the other equipment. Electric field intensity measuring means for measuring an electric field intensity value when a signal is received, and electric field intensity determining means for judging whether or not the electric field intensity value measured by the electric field intensity measuring means has reached a predetermined threshold level And a data reporting means for reporting at least one of the field strength value of the field strength measuring means and the information determined by the field strength determining means to the outside. 2. The wireless data communication system according to claim 1, wherein said information reporting means is display means for displaying information. 3. The wireless data communication system according to claim 1, wherein said information reporting means is a data transmitting means for transmitting information to the outside. 4. A wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, wherein one of the two equipments is transmitted from the other equipment. An electric field intensity measuring unit that measures an electric field intensity value when a signal is received, an electric field intensity determining unit that determines whether the electric field intensity value has reached a predetermined threshold level, and the electric field intensity measuring unit. Clock means for measuring the time at which the electric field intensity is measured, recording means for recording the information determined by the electric field intensity determining means and the time measured by the clock means corresponding to the information, and recorded on the recording means. Learning means for learning the periodicity of the fluctuation of the electric field strength value based on the information which is present, and a tie which is assumed to have reached a signal level receivable by the other equipment based on the learning result of the learning means. Wireless data communication system, characterized in that the wireless transmission means which performs wireless transmission with ring, is provided. 5. A wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, wherein one of the two equipments is transmitted from the other equipment. An electric field intensity measuring means for measuring an electric field intensity value when a signal is received; and an electric field for judging whether or not the electric field intensity value measured by the electric field intensity measuring means is included in predetermined upper and lower threshold levels. Strength determining means, when it is determined by the electric field strength determining means that the electric field strength value is out of the range of the upper and lower threshold levels,
A transmission power varying means for adjusting the wireless transmission power to be included in the threshold level. 6. A wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, wherein one of the two equipments is transmitted from the other equipment. Electric field intensity measuring means for measuring an electric field intensity value when a signal is received, and electric field intensity determining means for judging whether or not the electric field intensity value measured by the electric field intensity measuring means has reached a predetermined threshold level And matching means for matching the input impedance of the antenna such that when the electric field strength value is determined to be smaller than the threshold level by the electric field strength determining means, the electric field strength is equal to or higher than the threshold level. A wireless data communication system, comprising: 7. A wireless data communication system for performing wireless communication between two equipments installed at a distance from each other, wherein one of the two equipments is transmitted from the other equipment. Electric field intensity measuring means for measuring an electric field intensity value when a signal is received, and electric field intensity determining means for judging whether or not the electric field intensity value measured by the electric field intensity measuring means has reached a predetermined threshold level And a position moving means for moving the installation location of the equipment so that the electric field intensity is equal to or higher than the threshold level when the electric field intensity value is determined to be smaller than the threshold level by the electric field intensity determining means. A wireless data communication system, comprising: 8. At least 2 of claim 1 to claim 7.
A wireless data communication system, wherein two configurations are combined.