JP4269624B2 - Wireless data collection system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless data collection system that communicates various data of house equipment with the center side through radio and lines, and particularly relates to a notification operation from a radio slave unit.
[0002]
[Prior art]
  In the conventional wireless data collection system, communication is performed between the wireless master unit and the wireless slave unit by selecting two frequency channels among a plurality of transmission / reception frequencies at the time of initial setting or by selecting a frequency channel from an external input device, If the first channel was in use, the second channel was selected for wireless communication(For example, JP 2001-93071 A).
[0003]
[Problems to be solved by the invention]
However, in the conventional wireless data collection system, when the wireless master unit and the wireless slave units increase in the vicinity, most of the wireless master unit and the wireless slave units select two frequency channels among a plurality of transmission / reception frequencies at the initial setting. As a result, the same two frequency channels are used, and there is a problem that wireless meter reading cannot be performed. In addition, there is a problem that does not know how can I set to any frequency channel for frequency channel do not know which is installed status quo even if you select a frequency channel from the external input device. The conventional wireless data collection system has the above problems.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention selects two frequency channels among a plurality of transmission / reception frequencies at the time of initial setting between a wireless device and a wireless device, and automatically selects a frequency channel depending on communication conditions thereafter. Switching can be selected.
[0005]
According to the above invention, it is possible to extremely reduce the probability of communication failure even when other wireless master units and wireless slave units increase in the vicinity after installation and communicate using the same frequency channel.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
  A wireless data collection system according to claim 1 of the present invention includes:The wireless master unit and the wireless slave unit communicate with each other using either the main channel or the sub channel, and the main channel is the first frequency channel and the sub channel is the second frequency channel. When the main channel is not in use in the vicinity, the wireless master unit communicates with the main channel, and when the main channel is in use in the vicinity, it switches to the sub channel for communication. When the wireless master unit performs communication by switching to the sub-channel, the third frequency channel (frequency channel different from the first frequency channel and the second frequency channel) is used as the main channel instead of the first frequency channel from the next communication. ), And the subchannel remains the second frequency channel and is not changed Unishi wasIs.
[0007]
And even if many radio | wireless parent | base stations and radio | wireless subunit | mobile_units are installed in the periphery, the probability that the communication failure by having used the same frequency channel can be reduced.
[0008]
  Moreover, the wireless data collection system according to claim 2 of the present invention includes:A wireless data collection system comprising: a wireless slave device provided in the housing equipment device to collect various data of the housing equipment device; and a wireless master device that communicates with the wireless slave device via a wireless line, Communication is performed between the wireless master device and the wireless slave device using either the main channel or the sub-channel, and the main channel is set as the first frequency channel, and the sub-channel is set as the second frequency. The wireless master unit performs communication using the main channel when the main channel is not in use in the vicinity, and the sub-channel when the main channel is in use in the vicinity. And the number of times when the main channel is in use in the vicinity is counted, When the count reaches a predetermined number, the next frequency communication uses the third frequency channel (the frequency channel different from the first frequency channel and the second frequency channel) instead of the first frequency channel as the main channel. ), And the subchannel remains the second frequency channel and is not changed.
[0009]
Even when a large number of wireless master devices and wireless slave devices are installed in the vicinity, the probability of communication failure due to the use of the same frequency channel can be reduced.
[0023]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0024]
Example 1
FIG. 1 is a block diagram showing a wireless data collection system according to a first embodiment of the present invention. In FIG. 1, 1 is a gas meter in each household. Reference numeral 2 denotes a wireless slave attached to (or built in) the gas meter 1. Reference numeral 6 denotes a wireless master device that performs communication with a public line or the like and performs wireless communication with the wireless slave device 2.
[0025]
In the wireless master device 6, reference numeral 5 denotes wireless communication means for performing wireless transmission / reception with the wireless slave device 2. 7 is selected from two frequency channels among a plurality of frequency channels between the wireless master device 6 and the wireless slave device 2 and when one of the frequency channels is in use, it is in use from the next communication. This is a control means that can switch and select the frequency channel. A specific determination method will be described below. Reference numeral 9 denotes a telephone line or the like. Reference numeral 10 denotes a center side device that communicates with the radio base unit 6 through the line 9 and collects various data of the gas meter 1.
[0026]
In FIG. 1, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 with a gas cutoff signal caused by an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9.
[0027]
The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data.
[0028]
Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels.
[0029]
For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed.
[0030]
However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0031]
However, when the wireless master device 6 and the wireless slave device 2 perform wireless communication by the control means 8, when the main channel is in use and communicated in the sub channel, the main channel is changed to a channel different from the currently used channel, When performing the next communication, by performing wireless communication on the changed main channel, even if other wireless master units 6 or wireless slave units 2 are increased in the vicinity, the frequency channel is changed, so that another wireless master unit 6 is changed. Communication is possible even during wireless communication between the wireless slave unit 2 and the wireless slave unit 2.
[0032]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0033]
(Example 2)
FIG. 2 is a block diagram showing a wireless data collection system according to the second embodiment of the present invention. 2, components having the same functions as those in FIG.
[0034]
Reference numeral 7 denotes a busy frequency counting unit that counts the number of times that communication cannot be performed on the main channel due to communication between another wireless master device 6 and the wireless slave device 2 during wireless communication between the wireless master device 6 and the wireless slave device 2.
[0035]
In FIG. 2, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 with a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9.
[0036]
The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data. Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels. For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed. However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0037]
However, when the wireless master unit 6 and the wireless slave unit 2 perform wireless communication by the busy count unit 7, when the main channel is in use and communicates on the sub-channel, the busy count unit counts the predetermined number of times (for example, 10 times). ) When the above is reached, the busy count counting unit 7 outputs the same frequency channel use count over signal to the control means 8. The control means 8 that has received the signal changes the main channel to a channel different from the channel currently in use, and when performing next communication, wireless communication is performed on the changed main channel, so that another wireless master unit is provided in the vicinity. Even when the number of wireless handsets 6 or the number of wireless handsets 2 is increased, communication can be performed even during wireless communication between the other handset 6 and the handset 2 by changing the frequency channel.
[0038]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0039]
(Example 3)
FIG. 1 is also a block diagram showing a wireless data collection system according to a third embodiment of the present invention. Components having the same functions as those in the first embodiment are denoted by the same names and reference numerals, and the description thereof is omitted.
[0040]
In FIG. 1, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 with a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9.
[0041]
The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data. Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels. For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed.
[0042]
Here, the sub-channel may be configured so that the setting can be changed. However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use.
[0043]
Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0044]
However, when there is wireless communication of the wireless slave unit 2 other than registration or another wireless master unit 6 by the control means 8, there is a high possibility that the other wireless master unit 6 or the wireless slave unit 2 is installed in the vicinity. Since there is a high probability that a communication error will occur, the main channel is changed to a channel that is different from the channel that is currently in use, and when performing the next communication, wireless communication is performed on the changed main channel so that other wireless master units can be used in the vicinity. Even when the number of wireless handsets 6 or the number of wireless handsets 2 is increased, communication can be performed even during wireless communication between the other handset 6 and the handset 2 by changing the frequency channel.
[0045]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0046]
(Example 4)
FIG. 3 is a block diagram showing a wireless data collection system according to the fourth embodiment of the present invention.
[0047]
3, components having the same functions as those in FIG.
[0048]
Reference numeral 11 denotes a slave unit count unit that counts the number of times wireless communications with other wireless master units 6 and the wireless slave units 2 are performed.
[0049]
In FIG. 3, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 for a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9.
[0050]
The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data.
[0051]
Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels.
[0052]
For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed.
[0053]
However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0054]
However, when the slave unit count unit 11 counts the number of times wireless communications of the other wireless master unit 6 and the wireless slave unit 2 are received and reaches a predetermined number (for example, 10 times) or more, the slave unit count unit 11 controls The slave unit communication count over signal is output to the means 8.
[0055]
The control means 8 that has received the signal changes the main channel to a channel different from the channel currently in use, and when performing next communication, wireless communication is performed on the changed main channel, so that another wireless master unit is provided in the vicinity. Even when the number of wireless handsets 6 or the number of wireless handsets 2 is increased, communication can be performed even during wireless communication between the other handset 6 and the handset 2 by changing the frequency channel.
[0056]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0057]
(Example 5)
FIG. 4 is a block diagram showing a wireless data collection system according to the fifth embodiment of the present invention.
[0058]
4, components having the same functions as those in FIG.
[0059]
Reference numeral 12 denotes an electric field strength measuring unit that can measure the electric field strength when the wireless communication of another wireless master device 6 or the wireless slave device 2 is received.
[0060]
In FIG. 4, the wireless handset 2 is a wireless base unit that is converted into wireless data by the communication means 5 for the security information such as a gas shutoff signal due to an earthquake from the gas meter 1 or a test gas shutoff or restoration by an installer or the like. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9.
[0061]
The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data.
[0062]
Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels. For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed.
[0063]
Here, the sub-channel may be configured so that the setting can be changed. However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use.
[0064]
Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0065]
However, when the electric field strength measurement unit 12 measures the electric field strength level when the wireless communication of another wireless master device 6 or the wireless slave device 2 is received and reaches a predetermined value (for example, −60 dbm) or more, the electric field strength measurement is performed. The unit 12 outputs a reception level over signal to the control means 8. The control means 8 that has received the signal has the main channel different from the channel currently in use because other wireless master devices 6 and wireless slave devices 2 are installed nearby and communicate on the same frequency channel. When changing to a channel and performing next communication, wireless communication is performed on the changed main channel, so even if other wireless master units 6 or wireless slave units 2 increase in the vicinity, the frequency channel can be changed to Communication is possible even during wireless communication between the wireless master device 6 and the wireless slave device 2.
[0066]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0067]
(Example 6)
FIG. 1 is also a block diagram showing a wireless data collection system according to a sixth embodiment of the present invention. Components having the same functions as those in the first embodiment are denoted by the same names and reference numerals, and the description thereof is omitted.
[0068]
In FIG. 1, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 with a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9. The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data. Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels.
[0069]
For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed.
[0070]
However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0071]
However, when all the frequency channels are regularly monitored by the control means 8 and it is determined that the usage rate of the same frequency channel is high due to the wireless communication of the wireless slave unit 2 or other wireless master unit 6 other than the registration, Measure the usage rate of frequency channels other than those currently in use in advance, change the main channel from the channel currently in use to the channel with the lowest usage rate, and perform communication on the changed main channel when performing the next communication. As a result, the frequency channel is changed even when other wireless master units 6 or wireless slave units 2 increase in the vicinity, and communication is possible even during wireless communication between the other wireless master units 6 and the wireless slave units 2. Become.
[0072]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0073]
(Example 7)
FIG. 1 is also a block diagram showing a wireless data collection system according to a seventh embodiment of the present invention. Components having the same functions as those in the first embodiment are denoted by the same names and reference numerals, and the description thereof is omitted.
[0074]
In FIG. 1, the wireless unit 2 is a wireless unit that is converted into wireless data by the communication means 5 with a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9. The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data.
[0075]
Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels. For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed.
[0076]
However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Furthermore, if the number of wireless master devices 6 and wireless slave devices 2 increases, normal communication cannot be performed with only two channels.
[0077]
However, when all the frequency channels are periodically monitored by the control unit 8 and it is determined that the usage rate of the same frequency channel is high due to the wireless communication of the wireless slave unit 2 other than the registration or the other wireless master unit 6, The usage rate of frequency channels other than those currently in use is also measured in advance, and the main channel is changed from the channel currently in use to the channel with the lowest usage rate. Further, the control means 8 notifies the wireless master device 6 and the wireless slave device 2 that are in communication and further the other wireless master device 6 and the wireless slave device 2 that the main channel has been changed. The control unit 8 notifies the other wireless master device 6 and the wireless slave device 2 installed in the vicinity without changing the frequency channel in the same manner. Even when 2 is increased, the frequency channel is changed, and communication is possible even during wireless communication between the other wireless master device 6 and the wireless slave device 2.
[0078]
As described above, there is no communication failure due to the use of radio waves of the other wireless master device 6 or the wireless slave device 2, and the security information from the gas meter 1 is notified to the center side device 10, or the information of the gas meter 1 from the center side device 10 is reported. Since collection is possible, a highly reliable system can be realized.
[0079]
(Example 8)
FIG. 5 is a block diagram showing a wireless data collection system according to the eighth embodiment of the present invention.
[0080]
5, components having the same functions as those in FIG.
[0081]
Reference numeral 13 denotes a display unit that displays what frequency channel is used for communication between the wireless master device 6 and the wireless slave device 2.
[0082]
In FIG. 5, the wireless device 2 is a wireless device that is converted into wireless data by the communication means 5 with a gas cutoff signal due to an earthquake from the gas meter 1 or security information such as a test gas cutoff or restoration by an installer. 6 is transmitted wirelessly. The radio base unit 6 reports the security information to the center side device 10 through the line 9. The line 9 here may be a wired telephone line, a wireless telephone line such as PHS, PDC, or PDCP, or a dedicated line occupied by the system. Further, the center side device 10 transmits a data request signal to the wireless slave unit 2 via the wireless communication means 5 of the wireless base unit 6 in order to collect the operating state and data of the gas meter 1, and the operational state and meter reading of the gas meter 1. Collect data.
[0083]
Further, when wireless data is to be transmitted from the wireless master device 6 or the wireless slave device 2, communication between the wireless master device 6 and the wireless slave device 2 is performed at a plurality of frequencies for reducing current consumption and simplifying the mechanism. Two frequency channels out of the channels are selected at the time of initial setting, and then wireless communication is performed using the two frequency channels.
[0084]
For example, the frequency channel on the first output side of the two frequency channels is the main channel, the configuration can be changed by an external input device after installation, and the frequency channel on the second output side is the sub channel. Thereafter, the setting cannot be changed. Here, the sub-channel may be configured so that the setting can be changed.
[0085]
However, when other wireless master devices 6 and wireless slave devices 2 increase in the vicinity and communication timings overlap each other, communication is attempted on the main channel but communication is attempted on the sub-channel because it is in use. Further, when the number of wireless master devices 6 and wireless slave devices 2 increases, communication cannot be performed normally with only two channels. The frequency channel is changed by an external input device, but other wireless master devices 6 and wireless slave devices 2 are connected. Since it is unclear which frequency channel is used for communication, an optimal frequency channel cannot be set.
[0086]
However, by displaying the frequency channels of the wireless master device 6 and the wireless slave device 2 on the display unit 13, it becomes clear which frequency channel each wireless device is currently performing wireless communication, so that the optimum frequency channel Can be set easily.
[0087]
As described above, since an optimal frequency channel can be set by an external input device or the like, there is no communication failure due to use of radio waves of the other wireless master device 6 or the wireless slave device 2, and security information from the gas meter 1 is transmitted to the center side device 10 Since the information of the gas meter 1 can be collected from the center side device 10, a highly reliable system can be realized.
[0088]
【The invention's effect】
As described above, according to the present invention, there is no communication failure due to use of radio waves of the other wireless master device 6 or the wireless slave device 2, and security information from the gas meter 1 is notified to the center device 10 or the center device Since the information of the gas meter 1 can be collected from 10, a highly reliable system can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram of a wireless data collection system according to a first embodiment of the present invention.
FIG. 2 is a block diagram of a wireless data collection system in Embodiment 2 of the present invention.
FIG. 3 is a block diagram of a wireless data collection system according to a fourth embodiment of the present invention.
FIG. 4 is a block diagram of a wireless data collection system according to a fifth embodiment of the present invention.
FIG. 5 is a block diagram of a wireless data collection system according to an eighth embodiment of the present invention.
FIG. 6 is a block diagram of a conventional wireless data collection device.
[Explanation of symbols]
1,21 Gas meter
2,22 Wireless unit
5, 25 Wireless communication means
6, 26 Radio base unit
7 Busy count section
8, 28 Control means
9, 29 Lines such as telephone lines
10, 30 Center side device
11 Slave unit count section
12 Electric field strength measurement part
13 Display means

Claims (2)

A wireless data collection system comprising a wireless handset provided in the housing equipment to collect various data of the housing equipment, and a wireless parent device that communicates with the wireless handset via a wireless line,
Communication between the wireless master unit and the wireless slave unit using either one of the main channel and sub-channel frequency channel,
The main channel is a first frequency channel, the sub-channel is a second frequency channel,
The wireless master unit performs communication using the main channel when the main channel is not in use in the vicinity, and switches to the sub channel when the main channel is in use in the vicinity. Communicate
When the wireless master unit performs communication by switching to the sub-channel, the next frequency communication uses the third frequency channel (the first frequency channel and the second frequency as the main channel) instead of the first frequency channel. A radio data collection system in which the subchannel remains the second frequency channel and is not changed. A wireless data collection system comprising a wireless handset provided in the housing equipment to collect various data of the housing equipment, and a wireless parent device that communicates with the wireless handset via a wireless line,
Communication between the wireless master unit and the wireless slave unit using either one of the main channel and sub-channel frequency channel,
The main channel is a first frequency channel, the sub-channel is a second frequency channel,
The wireless master unit performs communication using the main channel when the main channel is not in use in the vicinity, and switches to the sub channel when the main channel is in use in the vicinity. Communicating and counting the number of times the main channel is in use in the vicinity,
When the number of counts reaches a predetermined number, the wireless master device starts with the third frequency channel (the first frequency channel and the second frequency channel) instead of the first frequency channel as the main channel from the next communication. And the subchannel remains the second frequency channel and is not changed .

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