JP3601510B2 - Wireless communication device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wireless communication apparatus including: a base unit connected to an external telephone line network; and a plurality of slave units that operate on power supplied from a battery and perform wireless communication with the base unit. About.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a cordless telephone device has been known as a wireless communication device including a master unit and a slave unit.
A slave unit of a general cordless telephone device includes a battery (secondary battery) as a power source, and operates with power supplied from the battery (ie, battery operation) to communicate with a base unit via a wireless line. Thus, it is possible to communicate with an external telephone device connected to the telephone line network via the base unit.
[0003]
In such a cordless telephone device, since the child device can communicate with an external telephone device at any place within a range where the radio wave reaches the parent device, the user charges the battery with the charger. If the detached handset is detached from the charger at the time of a call, it is possible to talk with the other party using the external telephone device while moving.
[0004]
[Problems to be solved by the invention]
However, in the above-mentioned cordless telephone device, the portable unit can be freely carried, and as a result, the user forgets to return the portable unit to the charger after removing the portable unit from the charger and carrying the portable unit. However, there is a problem that the battery becomes inoperable due to running out of battery.
[0005]
Since the slave unit consumes power during standby for incoming calls even when not in a call, if the user forgets to return the slave unit to the charger, the remaining battery capacity of the slave unit gradually decreases and eventually becomes empty. Would. Therefore, if the user does not charge the slave unit before the battery is exhausted, even if the user wants to use the slave unit at the next opportunity, the user can be provided with the slave unit in a usable state. It is gone.
[0006]
To cope with such a problem, the invention described in Japanese Patent Application Laid-Open No. H11-88478 discloses a cordless telephone device in which the base unit changes the ringing sound upon receiving an incoming call when the remaining battery level of the slave unit falls below a predetermined level. Make up.
In the cordless telephone device described in Japanese Patent Application Laid-Open No. H11-88478, the user can be notified that the remaining battery capacity of the slave unit is low by switching the ringing sound, so that the battery of the slave unit becomes empty. Before that, it is possible to prompt the user to charge the battery.
[0007]
However, in the cordless telephone device having the above configuration, the ringing sound at the time of an incoming call from the base unit only notifies the user that the remaining battery level is low. Therefore, when there is no user around the base unit, In some cases, the ringing sound (ringing sound) of the mobile phone or the surrounding noise cancels out the ringing sound of the base unit, and the user may not notice the ringing sound of the base unit indicating that the remaining battery level is low.
[0008]
In addition, in the above-mentioned cordless telephone device, in order to use the ringing sound at the time of an incoming call, if there is no next incoming call for a long time after forgetting to return to the battery charger of the slave unit, it will sound that the remaining battery capacity is low. In some cases, the slave unit may become inoperable due to battery exhaustion without notifying the user.
[0009]
The present invention has been made in view of such a problem, and an object of the present invention is to provide a wireless communication device capable of effectively prompting a user to charge a battery and thereby suppressing running out of a battery in a slave unit. And
[0010]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, a master unit connected to a telephone line network and a master unit connected to the master unit via a wireless line and operated by power supplied from a battery are provided. Detecting means for detecting the remaining capacity of the battery in each slave unit of the wireless communication device, comprising: a plurality of slave units performing wireless communication with the slave unit; and a battery based on a detection result by the detecting unit. And a notifying means for receiving the remaining capacity information of the other handset transmitted from the outside and notifying the reception result.
[0011]
In other words, in the wireless communication device according to the first aspect, attention is paid to the fact that the child device is often located closer to the user than the parent device, and the remaining battery capacity information of the child device ( When the remaining battery capacity of the slave unit is low, the user can notify the user of information on the battery voltage and information indicating the remaining battery level in stages from another slave unit different from the slave unit. Therefore, the user can be quickly made aware of this fact.
[0012]
In the conventional device, when there is no user near the base unit, the user may not notice the notification indicating that the remaining battery level is low, but in the wireless communication device according to claim 1, Since the notification is made to the child device that is likely to be located near the user, it is possible to suppress the battery of the child device from running out due to the user not being aware of the notification.
[0013]
The notifying unit may be configured to notify the reception result in the form of a voice, a ring tone (ringing sound), or the like, or may display the reception result in the form of characters or graphic information on a display unit such as a liquid crystal display. The display may be configured. The notifying unit may be configured to notify the remaining battery capacity as a percentage as a reception result, or to indicate a state such as “the remaining battery capacity is low” or “the battery is empty”. The battery remaining capacity may be notified using a term. In addition, the notification means may be configured to output an instruction to prompt the user to charge, such as "Please charge", and to indirectly notify the user of the remaining battery charge.
[0014]
Further, the transmission means may be configured to transmit the remaining capacity information at predetermined time intervals, or as described in claim 2, the determination value in which the remaining capacity of the battery as the detection result is set in advance. A configuration may be adopted in which the remaining capacity information is transmitted when the amount falls below the threshold.
When the transmission means is configured as described in claim 2, the remaining capacity information of the battery necessary for the user such as a low battery is efficiently provided to the other slave unit while the number of times of transmission of the remaining capacity information is suppressed. As a result, it is possible to prompt the user to charge the battery efficiently.
[0015]
In other words, in the wireless communication device according to the second aspect, when the remaining capacity of the battery becomes low, the transmitting means sets the determination value so as to transmit the remaining capacity information, thereby notifying the notification means of the other handset. In addition, it is possible to adopt a configuration in which it is possible to notify the user that the battery is running low at the time when it is considered preferable to promote the charging. As a result, in the wireless communication device according to the second aspect, it is possible to efficiently prompt the user to charge the battery, and to use the wireless communication device by notifying the remaining capacity of the battery more than necessary. This can prevent the user from feeling annoying the notification of the reception result.
[0016]
Further, the transmitting means may be set with only one determination value, but it is more convenient to set two or more determination values.
For example, when the remaining capacity of the battery as a detection result is lower than a preset first decrease determination value, the remaining battery information indicates that the remaining battery charge is less than the first decrease determination value. When the remaining capacity of the battery as a detection result falls below a second lowering determination value smaller than a preset first lowering determination value, the remaining capacity of the battery is transmitted as remaining capacity information. If the transmitting means is configured to transmit the second capacity information indicating that the remaining capacity is less than the second decrease determination value, the notifying means can notify the reception result regarding the remaining capacity of the battery in two stages. Thus, the user can be effectively urged to charge the battery.
[0017]
Specifically, in the wireless communication device according to the third aspect, when the notifying unit receives the first capacity information as the remaining capacity information while the transmitting unit has the above-described configuration, the reception result indicates that the battery of the other child device has been charged. When the slave unit is configured to notify that the remaining capacity is low and to receive the second capacity information as the remaining capacity information, the slave unit is configured to notify the reception result that the battery needs to be charged. After the notification that the remaining capacity of the battery is low and it is preferable to charge the battery, further, when the remaining capacity of the battery becomes low, and the call function of the child device becomes impossible or becoming Thus, the user is notified that the battery needs to be charged, and the battery can be effectively charged.
[0018]
Further, the transmission means of the wireless communication device described above may be configured to directly transmit the remaining capacity information to another slave device, or may be configured as described in claim 4.
In the wireless communication apparatus according to the fourth aspect, the transmission means of the slave unit is configured to transmit the remaining capacity information to the master unit, and when the master unit receives the remaining capacity information from the slave unit, the master unit determines the remaining capacity of the other slave unit. The information transmission means is configured to transmit the received remaining capacity information to another slave different from the slave that has transmitted the remaining capacity information.
[0019]
The invention described in claim 4 can be applied to a wireless communication device that cannot perform direct communication between slave units. For example, a cordless telephone device that cannot perform communication between slave units (generally, a cordless telephone device). If the present invention is applied to an analog cordless telephone device, the cordless telephone device can be configured to be capable of notifying a user of information on the remaining battery capacity of the child device on the other child device side. Further, in the wireless communication apparatus according to the fourth aspect, since the remaining capacity information of the slaves can be collected by the master, the master can centrally manage the remaining capacity information of the plurality of slaves. It is possible to simplify the device configuration for notifying the remaining child device of the remaining capacity information.
[0020]
In addition, when the present invention is applied to a wireless communication device having three or more slaves, it is preferable to configure a master as described in claim 5.
In the wireless communication device according to claim 5, when the remaining capacity information transmitting means of the other slave unit of the master unit receives the remaining capacity information from the slave unit, the slave unit transmits the remaining capacity information to the remaining unit information. Is transmitted to another child device different from the child device that has transmitted the remaining capacity information together with the identification information. Further, when the notification means of the slave unit receives the remaining capacity information of the other slave unit via the master unit, based on the remaining capacity information and the identification information of the other slave unit transmitted together with the remaining capacity information, as a reception result, The battery remaining capacity is configured to be notified in a form in which the user can specify the child device corresponding to the battery remaining capacity.
[0021]
In a wireless communication device having such a configuration, even when there are three or more slave units, the remaining battery capacity information of each slave unit is notified to the user so that the information can be understood as to which slave unit. can do. Therefore, the user can easily select the child device that needs to be charged and charge the battery based on the notified information.
[0022]
In order to notify the user of the remaining battery level in a form in which the user can specify the slave unit corresponding to the remaining battery level, for example, the notification unit notifies the reception result together with the identification information of the slave unit. The wireless communication device may be configured to perform
In addition, in the wireless communication apparatus according to the fourth or fifth aspect, it is preferable that the slave unit is configured such that the notification unit notifies the reception result only for a predetermined period after the reception of the remaining capacity information. By doing so, it is possible to provide a wireless communication device capable of notifying the reception result without causing the user to feel troublesome. The notifying means may be configured to notify the reception result for a predetermined time after reception, or may be configured to notify the reception result for a period after the reception until the user performs the next operation on the slave unit. May be.
[0023]
Further, when the notifying unit is configured to notify the reception result only for a predetermined period after receiving the remaining capacity information, the other communication unit remaining capacity information transmitting unit of the wireless communication apparatus may include the remaining unit information transmission unit. It is good to configure as follows.
When the remaining capacity information transmitting means of the wireless communication device according to claim 6 receives the remaining capacity information from the slave, the received content is stored and received by the first remaining capacity information transmitting means. The remaining capacity information is immediately transmitted to the other slave unit, and thereafter, each time the wireless line is connected or disconnected between the master unit and the slave unit, the remaining capacity information is transmitted by the second remaining capacity information transmission unit in accordance with the stored content. Is added to a control signal transmitted and received between the master unit and the slave unit and transmitted.
[0024]
In the wireless communication device configured as described above, the operation of the first remaining capacity information transmitting unit of the master unit can immediately notify the user of the information such as the low remaining battery level to the user by the notification unit of the slave unit. Therefore, it is possible to prompt the user to charge the battery more quickly than in a conventional device having a configuration in which the remaining battery capacity is notified by a ringing sound upon receiving an incoming call. Further, it is possible to solve the problem that the battery of the slave unit runs out without notifying the user of the remaining battery capacity information because there is no incoming call for a long time.
[0025]
In the wireless communication device according to the sixth aspect, the remaining capacity information is transmitted by the second remaining capacity information transmitting means, so that the reception result (battery charge of the battery) is given to the user every time the wireless line is connected or disconnected. (Remaining capacity) can be notified, so even if the user does not notice the first notification, the user can be notified again by the notification again that the remaining battery level is low, and the user can be more reliably notified. Can be prompted to charge the battery. As a result, according to the wireless communication device of the sixth aspect, it is possible to prevent the slave unit from running out of battery and becoming unable to perform a call operation.
[0026]
In addition, when the other-slave remaining capacity information transmitting means is configured as described in claim 6, it is preferable to configure the wireless communication apparatus as described in claim 7.
In the wireless communication apparatus according to claim 7, when the remaining battery capacity as a detection result exceeds a preset battery recovery value, the remaining battery capacity is larger than the battery recovery value. Is transmitted to the master unit. Also, when the battery recovery information is received from the child device, the other child device remaining capacity information transmitting means of the parent device erases the received content relating to the remaining capacity information that has been already stored, so that the second remaining capacity information transmitting means The operation is stopped until the next remaining capacity information is received.
[0027]
In the wireless communication apparatus according to claim 7, the notification of the remaining capacity information by the second remaining capacity information transmitting means is stopped when the battery is recovered, so that the wireless communication apparatus is only used when the battery capacity is low. The information to that effect can be transmitted efficiently by the second remaining capacity information transmitting means. In other words, in this wireless communication device, when the user connects the slave unit to the charger, the notification regarding the remaining battery charge can be stopped when the battery charging is completed, and the battery is charged. Nevertheless, it is possible to prevent the notification from being continued.
[0028]
In the wireless communication device according to any one of claims 4 to 7 described above, when the remaining capacity information is received from the slave, the slave notifies the reception result. It is preferable to provide the information notification means in the master unit. With this configuration, the wireless communication device can be configured to be able to notify the user of the remaining battery capacity of the battery from the parent device in addition to the child device. As a result, the remaining battery capacity can be reduced. The number of devices that can be notified can be increased. Therefore, the wireless communication device can be configured to be able to promptly charge the battery by the effect of the number.
[0029]
In addition, in the wireless communication apparatus according to any one of claims 1 to 8, it is preferable that the slave unit is configured such that the notifying unit displays the reception result on the display unit to notify the reception result. When the apparatus is configured to notify the reception result by displaying, the user is less likely to be stressed than when notifying the reception result by sound. That is, in the wireless communication device according to the ninth aspect, the reception result (remaining battery capacity) can be notified so that the user does not feel troublesome. Of course, in addition to such a configuration of the slave unit, the master unit may be configured such that the slave unit information notifying unit displays the reception result on the display unit to notify the user.
[0030]
In the wireless communication apparatus according to any one of the first to ninth aspects, a communication means connectable to a wireless LAN system is provided in each slave unit as described in the tenth aspect, and the remaining capacity of the battery is provided. The slave unit may be configured such that the remaining capacity information can be transmitted to the LAN terminal in the wireless LAN system via the communication unit. By doing so, the remaining battery capacity information can be notified to the user from the external wireless LAN terminal, so that the user can be more reliably prompted to charge the battery. Of course, the communication device may be provided in the master unit, and the wireless communication device may be configured to transfer the remaining capacity information transmitted from the slave unit to the LAN terminal from the master unit.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an explanatory diagram showing an overall configuration of a cordless telephone device 1 as a wireless communication device to which the present invention is applied, FIG. 2 is a schematic block diagram showing a configuration of a base unit 5, and FIG. It is a schematic block diagram showing a structure.
[0032]
As shown in FIG. 1, a cordless telephone device 1 has a base unit 5 connected via a telephone line L to a public telephone line network 3 as an external telephone line network, and is connected to the base unit 5 by a wireless line. And a plurality of slave units 7 to be executed.
As shown in FIG. 2, the base unit 5 has a configuration in which a telephone line L connected to the public telephone network 3 is connected to the line control unit 11. The line control unit 11 has a function of connecting and disconnecting a line with an external telephone device. When a telephone call is made, a line (not shown) attached to the handset 13 outputs an external telephone line. It outputs an audio signal transmitted from the device, and transmits an audio signal input from a microphone (not shown) mounted on the handset 13 to an external telephone device. When the slave unit 7 is operated by the user to enter a call state, the line control unit 11 transmits a reception signal from an external telephone device to the wireless unit 17 connected to the control unit 15 via the control unit 15. And a signal received from the wireless unit 17 is transmitted to an external telephone device.
[0033]
On the other hand, the control unit 15 includes a CPU 15a, a memory (ROM, RAM, EEPROM, etc.) 15b, and the like, and is configured to perform overall control of each unit of the apparatus by executing various processes by the CPU 15a.
For example, when an incoming call is received, the control unit 15 generates a ring tone from the alarm speaker 19 by inputting a signal for generating a ring tone to the alarm speaker 19, and outputs the telephone number of the calling side transmitted from the outside. The information is displayed on a display unit 21 composed of a liquid crystal display (LCD) or the like.
[0034]
The control unit 15 registers the telephone number input from the operation unit 23 as address information in the memory 15b by operating the operation unit 23 including a number key or the like, Then, the line control unit 11 calls the external telephone device of the telephone number destination.
[0035]
In addition, when there is an incoming call via the public telephone line network 3, the control unit 15 inputs a control signal for calling a slave unit to the wireless unit 17 and transmits the control signal to the slave unit 7 by radio waves. By doing so, the slave unit 7 is called, and when a wireless line with the slave unit 7 is connected and a call is established, the line control unit 11 and the wireless unit 17 are connected to establish a connection between the external telephone device and the slave unit 7. Establish a connection.
[0036]
Note that the base unit 5 having the above-described configuration is configured such that, after transforming and rectifying AC 100V for home use supplied from an outlet by the power supply unit 25, power is supplied to each unit of the device to operate each unit.
On the other hand, the slave unit 7 shown in FIG. 3 mainly includes a control unit 31, a radio unit 33, an alarm speaker 35, a speaker 37 and a microphone 39, a display unit 41, an operation unit 43, a battery voltage detection unit. 45 and a battery 47.
[0037]
The slave unit 7 is configured to charge the battery 47 with electric power supplied from the charger 49 when the slave unit 7 is placed on the dedicated charger 49. The slave unit 7 is configured to supply electric power from the battery 47 to each unit in the apparatus and operate as a battery.
The control unit 31 provided in the device includes a CPU 31a, a memory (ROM, RAM, EEPROM, etc.) 31b and the like, similar to the master unit 5, executes various processes by the CPU 31a, and controls each unit in the device. It is configured to perform overall control. In the memory 31b, a unique handset ID that is not duplicated in the cordless telephone device 1 is stored.
[0038]
The wireless unit 33 connected to the control unit 31 includes an RF circuit, a demodulation circuit, a modulation circuit, and the like (not shown), like the wireless unit 17 of the master unit 5. Further, the wireless unit 33 is configured to be able to input a demodulated audio signal to the speaker 37 and transmit an audio signal input from the microphone 39 to the base unit 5 by radio waves.
[0039]
In addition, the alarm speaker 35 that emits a ring tone based on an input signal from the control unit 31, the display unit 41 including an LCD, and the operation unit 43 including a number key are connected to the control unit 31. Further, the battery voltage detection unit 45 is connected to the control unit 31 of the present embodiment.
[0040]
The battery voltage detection unit 45 is connected to the battery 47, detects the battery voltage, and inputs the detection result to the control unit 31.
That is, in the present embodiment, the slave unit 7 is configured to acquire the battery voltage detected by the battery voltage detection unit 45 so as to be able to grasp the remaining capacity of the battery. A self-capacity transmission process, which will be described later, is executed to acquire a battery voltage as a detection result from the battery voltage detection unit 45, and when the battery voltage E falls below a preset first drop determination value Es (E <Es ), As remaining capacity information relating to the remaining capacity of the battery, low remaining capacity information indicating that the remaining capacity of the battery is low is stored in a control signal (see FIG. 4B) together with its own slave unit ID and transmitted. When the battery voltage falls below a second drop determination value Ec smaller than a preset first drop determination value Es (E <Ec <Es), the control unit 31 needs to charge the battery 47. Is stored in a control signal together with its own handset ID and transmitted.
[0041]
FIG. 4A is an explanatory diagram relating to a determination value of the battery voltage that defines the timing of transmitting the remaining battery capacity information, and FIG. 4B is a data configuration of a control signal that stores the remaining battery capacity information. FIG.
In the present embodiment, the second drop determination value Ec is set to a battery voltage value at which the call function of the slave unit 7 is stopped because the operation of the slave unit 7 is unstable due to a small remaining battery capacity, The first drop determination value Es is set to a battery voltage value at which the remaining capacity of the battery of the slave unit 7 is small and it is preferable to prompt the user to charge the battery.
[0042]
The connection between the master unit 5 and the slave unit 7 by a wireless line in the present embodiment is performed based on RCR STD-13, which is a wireless equipment standard of a wireless station of a 250 MHz / 380 MHz band cordless telephone device. The remaining capacity information is stored as control data of a control signal shown in FIG. 4B transmitted and received on a control channel based on this standard, and is transmitted from the child device 7 to the parent device 5 or from the parent device 5 to the child device. 7 is transmitted.
[0043]
More specifically, the control signal is, for example, when a wireless line is connected (when a call is made or when the slave unit 7 shifts from an incoming standby state to a talking state) or when a wireless line is disconnected (that is, when the slave unit 7 talks). This is a type of signal exchanged between the master unit 5 and the slave unit 7 during the transition from the state to the incoming call waiting state). As shown in FIG. 4B, a bit synchronization signal, a frame synchronization signal, an ID Number (This ID number is a number different from the handset ID, and is an ID number assigned to each cordless telephone device to prevent cross-talk with another cordless telephone handset.) , An error correction code, and control data.
[0044]
The cordless telephone device 1 stores the control code for calling the slave unit in the control data storage area in the master unit 5 and transmits the control signal to the slave unit 7, for example, A ring tone is generated based on the control code. In addition, base unit 5 disconnects the wireless line between handset 7 and base unit 5 at the end of the call (that is, at the end of the call), and shifts handset 7 from the call state to the call waiting state. , The control code for the end call is stored in the control data storage area, and the control signal is transmitted to the slave unit 7.
[0045]
As will be described in detail later, the cordless telephone device 1 of the present embodiment stores the remaining capacity information in the control signal together with the control code for the end of the call at the end of the call, so that the remaining capacity information is stored at the end of the call of the slave unit 7. To transmit the remaining capacity information immediately, the remaining capacity information alone is stored in the control data storage area without storing the control code for the end call, and the remaining capacity information is transmitted.
[0046]
Next, a self-capacity transmission process executed by the slave unit 7 to perform a function of immediately transmitting the remaining capacity information when the remaining capacity of the battery becomes low will be described. FIG. 5 is a flowchart illustrating a self-capacity transmission process that is repeatedly executed by the CPU 31a of the slave unit 7 at all times. FIG. 6A is an explanatory diagram showing a configuration of a notification status as a transmission history of the remaining capacity information of the child device 7.
[0047]
When the self-capacity transmission process is executed, the CPU 31a of the slave unit 7 refers to the notification status stored in the memory 31b in S110, and sends the remaining capacity low information indicating that the remaining capacity of the battery is already small to the parent. It is determined whether or not transmission to the device 5 has been made (that is, notification of the remaining capacity is low).
[0048]
As shown in FIG. 6, in the memory 31b of the slave unit 7, as notification statuses, a parameter S indicating whether a low remaining capacity notification has been issued and a parameter C indicating whether or not a later-described charging required notification has been issued. And a parameter F indicating whether or not a notification of the completion of charging is stored, and each parameter is set to 1 or 0 as a value. In this embodiment, when the value of each parameter is 1, it indicates that the corresponding notification has been made (notified), and when the value of the parameter is 0, the corresponding notification has been made. Not set (not notified).
[0049]
Accordingly, in S110, the CPU 31a determines whether or not the parameter S is S = 1, and when determining that the parameter S is not S = 1 (that is, S = 0), the CPU 31a still transmits the low remaining capacity information. If not, the process proceeds to S113. In S113, the battery voltage as a detection result is obtained from battery voltage detector 45. Then, it is determined whether or not the battery voltage E is less than the first decrease determination value Es and equal to or greater than the second decrease determination value Ec (Ec ≦ E <Es).
[0050]
Here, if the CPU 31a determines that the battery voltage E satisfies Ec ≦ E <Es (Yes in S113), the CPU 31a determines that the remaining battery charge is small, shifts the processing to S115, and notifies the base unit 5 of the low remaining battery charge. That is, the slave unit 7 stores its own slave unit ID and low remaining capacity information (a code indicating that the remaining capacity is low) in the control signal by the processing in S115 of the CPU 31a, and immediately transmits this to the wireless unit 33. And transmits to the base unit 5 by radio waves.
[0051]
When this process ends, the CPU 31a sets the parameter S to 1, the parameter C to 0, and the parameter F to 0 in S117. That is, the CPU 31a sets the notification status parameters to S = 1, C = 0, and F = 0 in S117, thereby notifying the low remaining capacity information and notifying the necessary charging information and the charging completion information. I do. When this process is completed, the self-capacity transmission process is completed.
[0052]
On the other hand, if it is determined in S110 that S = 1 (that is, Yes in S110) or if it is determined No in S113, the CPU 31a shifts the processing to S120 and refers to the parameter C to determine that the remaining battery capacity has already been reached. Is determined to have been transmitted to the base unit 5 indicating that the battery needs to be charged (i.e., notification of the need for charging has been made).
[0053]
Here, when the CPU 31a determines that the notification of the need for charging has not been made (C is not 1) (No in S120), in S123, the battery voltage E is less than the second drop determination value Ec (E < Ec) to determine whether or not the battery has almost no remaining capacity.
[0054]
Then, when it is determined that E <Ec (Yes in S123), the process proceeds to S125, and a notification that charging is required to the base unit 5 is performed. That is, the child device 7 stores its own child device ID and the required charging information (code indicating that the remaining capacity is small) in the control signal by the processing in S125 of the CPU 31a, and immediately transmits this to the wireless unit. The data is transmitted to the base unit 5 via the main unit 33.
[0055]
When this process is completed, the CPU 31a sets the notification status parameters to S = 1, C = 1, and F = 0 in S127, thereby notifying the charging required information and not notifying the charging completion notification. After that, the self-capacity transmission process ends.
[0056]
In addition, when the CPU 31a determines Yes in S120 or No in S123, the CPU 31a shifts the processing to S130, and determines whether or not the parameter F = 1, whereby the master device 5 has already It is determined whether or not a charge completion notification has been given.
Here, when determining that F = 1 (Yes in S130), the CPU 31a ends the self-capacity transmission processing, and when determining that F = 1 is not satisfied (No in S130), the CPU 31a still transmits the charge completion notification. If not, the process proceeds to S133, and in S133, it is determined whether the battery voltage is higher than the battery recovery value Ef indicating that the battery 47 is sufficiently charged (that is, E> Ef). I do.
[0057]
If it is determined that E> Ef (Yes in S133), the CPU 31a determines that charging has been completed, shifts the processing to S135, and notifies the parent device 5 of charging completion. That is, the slave unit 7 stores its own slave unit ID and charging completion information (code indicating that charging is completed) in the control signal by the processing of S135 of the CPU 31a, and immediately transmits the information to the wireless unit 33. It is transmitted to master device 5 through
[0058]
When this processing is completed, the CPU 31a shifts the processing to S137, sets the notification status parameters to S = 0, C = 0, and F = 1, thereby not reporting the low remaining capacity information and charging required. Information has not been notified, and charging completion information has been notified. After that, the self-capacity transmission processing ends. According to the above-described processing, when the battery voltage E falls below the first drop determination value Es, the slave unit 7 transmits the remaining capacity low information to the master unit 5 and the battery voltage E becomes the second drop determination value Ec. , The required charge information is transmitted, and thereafter, the same type of remaining capacity information (small remaining capacity information or required charging information) is not transmitted until the battery voltage E exceeds the battery recovery value Ef. .
[0059]
By the way, upon receiving the control signal in which the remaining capacity information is stored from the slave unit 7, the master unit 5 executes the slave unit capacity notification process shown in FIG. While transmitting to the device 7, the reception status (see FIG. 6B) indicating the reception content stored in its own memory 15b is appropriately updated. FIG. 6B is an explanatory diagram showing the configuration of the reception status stored in the memory 15b of the base unit 5, and FIG. 7 shows the slave unit capacity notification process executed by the CPU 15a of the base unit 5. FIG.
[0060]
As shown in FIG. 6B, the parent device 5 associates a parameter Sr indicating whether or not low remaining capacity information has been received from the child device 7 with the reception status associated with the child device ID for each child device 7. , A parameter Cr indicating whether charging required information has been received from the slave unit 7 and a parameter Fr indicating whether charging completion information has been received from the slave unit 7. In the capacity notification processing, a value 1 indicating that the data has been received or a value 0 indicating that the data has not been received is set in each parameter.
[0061]
When the slave unit capacity notification process shown in FIG. 7 is executed, first, in S210, the CPU 15a of the master unit 5 acquires the slave unit ID stored in the control data storage area of the control signal and transmits the remaining capacity information. The received slave unit 7 is identified and its reception status is read.
[0062]
Subsequently, in S220, the CPU 15a determines whether or not the parameter Sr of the reception status is Sr = 1. If it is determined that Sr = 1 is not satisfied, it is determined that the low remaining capacity information has not been received by the previous time. , S223, it is determined whether or not the remaining capacity information received this time is low remaining capacity information (that is, a low remaining capacity notification has been received). If it is determined that the low remaining capacity information has been received (Yes in S223), the process proceeds to S225, and the small remaining capacity notification processing shown in FIG. The remaining capacity low notification is sent to the other handset 7 different from the handset 7 that has transmitted the information. FIG. 8A is a flowchart illustrating another small-capacity device small capacity notification processing executed by the CPU 15a of the parent device 5.
[0063]
When the other child device small capacity notification process is executed, the CPU 15a selects one child device 7 to be notified from all the child devices 7 in S310, and the selected child device 7 remains in S320. It is determined whether or not the child device 7 has issued the low capacity notification.
Here, when the CPU 15a determines that the same child device 7 as the child device 7 identified in S210 of the child device capacity notification process (that is, the child device 7 that has issued the low remaining capacity notification) is selected (S320). If the answer is Yes, the process proceeds to S350, and if it is determined that no selection has been made (No in S320), in S330, the control signal is received simultaneously with the low remaining capacity information received from the slave unit 7 and the low remaining capacity information. The child device ID is stored, and this control signal is transmitted to the selected child device 7 (S340), and then the process proceeds to S350.
[0064]
Further, in S350, the CPU 15a determines whether or not the operation of selecting a slave unit in S310 has been performed on all the slave units 7, and if not performed on all the slave units 7 (No in S350), the processing is performed. Is returned to S310, and a slave device 7 different from the slave device 7 selected in the previous S310 is selected. If all the slave devices 7 are selected (Yes in S350), the process is terminated and the slave device 7 is terminated. The process proceeds to S227 of the capacity notification process.
[0065]
Then, the CPU 15a sets the reception status parameters corresponding to the slave unit 7 identified in S210 to Sr = 1, Cr = 0, and Fr = 0, so that the notification of the low remaining capacity has been received and the charging is required. The notification and the charging completion notification are not received (S227). Further, thereafter, in S229, the CPU 15a displays on the display unit 21 that the remaining capacity of the battery of the slave unit 7 is small (remaining capacity small display).
[0066]
FIG. 9 is an explanatory diagram showing a display mode of the remaining battery capacity information of the slave unit 7 displayed on the display units 21 and 41 by the master unit 5 and the slave unit 7, respectively. FIG. 9A is a diagram illustrating a display mode in the low remaining capacity display, and FIG. 9B is a diagram illustrating a display mode in the charge required display (described later).
[0067]
In step S229, the CPU 15a displays a message such as "the remaining charge capacity of the slave unit (1) is low" (FIG. 9A) to notify the user that the remaining battery capacity of the slave unit (1) is low. Notice. The number in parentheses indicates the slave unit number, and in this embodiment, such a display form allows the user to specify the slave unit 7 corresponding to the displayed remaining battery capacity. . Further, when the remaining capacity low display is performed, the CPU 15a ends the slave unit capacity notification processing.
[0068]
On the other hand, if the determination in step S220 of the slave unit capacity notification process is “Yes” or the determination in step S223 is “No”, the CPU 15a shifts the process to step S230 and determines whether the reception status parameter Cr is Cr = 1. Thus, it is determined whether or not the charging required information has been received by the previous time. If it is determined that the required charging information has not been received (that is, Cr is not 1), the process proceeds to S233, and whether the remaining capacity information received this time is the required charging information (that is, the notification of the required charging is received). Judge) whether or not.
[0069]
Here, when determining that the remaining capacity information is the required charging information, the CPU 15a transmits the required charging information by executing the other child device required charging notifying process illustrated in FIG. 8B in S235. The charging information is transmitted (transferred) to another child device 7 different from the child device 7. FIG. 8B is a flowchart illustrating another child device required charging notification process executed by the CPU 15a of the parent device 5.
[0070]
When the other child device charging notification process is performed, the CPU 15a selects one of the child devices 7 to be notified of the charging request in S410, and in S420, the selected child device 7 issues the notification of charging required. It is determined whether or not the selected slave unit 7 is the same as the slave unit 7 identified in S210 of the slave unit capacity notification process.
[0071]
Then, if it is determined that the selected slave unit 7 is the slave unit 7 that has issued the notification of the need for charging (Yes in S420), the process proceeds to S450, and the other slave unit 7 different from the slave unit 7 that has notified the notification of the need for charging. If it is determined that there is (S420: No), in S430, the charge information received from the slave 7 and the slave ID received at the same time as the charge information received from the slave 7 are stored in the control signal. The control signal is transmitted (S440).
[0072]
After transmission, the CPU 15a determines in S450 whether or not the selection operation in S410 has been performed on all the slaves 7, and if not performed on all the slaves 7 (No in S450), the processing is performed. Returning to S410, a new slave unit 7 is newly selected, and the processing from S420 to S440 is repeated. If the processing has been performed for all the slave units 7 (Yes in S450), the processing is terminated and the slave unit 7 is terminated. The process proceeds to S237 of the capacity notification process.
[0073]
Thereafter, the CPU 15a sets the reception status parameters corresponding to the slave unit 7 identified in S210 to Sr = 1, Cr = 1, and Fr = 0, thereby making the notification that charging is required has been received, and completing the charging. The notification is not received (S237).
In step S239, the CPU 15a displays on the display unit 21 that the remaining battery capacity of the slave unit 7 is small (substantially empty) and that the battery needs to be charged (see the state shown in FIG. 9B). Charge display). That is, the CPU 15a controls the display unit 21 and displays character information such as “Please charge the slave unit (1)” on the display unit 21 so that the user needs to charge the battery. Notify.
[0074]
In addition, when the CPU 15a determines Yes in S230 or No in S233, the CPU 15a determines whether the parameter Fr is Fr = 1 in S240, and receives a notification of the completion of charging up to the previous time. It is determined whether or not the processing has been completed, and if Fr = 1, the slave unit capacity notification processing ends.
[0075]
On the other hand, when determining in S240 that Fr = 0, the CPU 15a determines that the charging completion notification has not been received and shifts the processing to S243. Then, it is determined whether or not the remaining capacity information received this time is the charging completion information (that is, whether or not the charging completion notification has been received). If not (No in S243), the slave unit capacity notification When the process is completed and it is determined that the charging completion notification has been received (Yes in S243), the parameters of the reception status corresponding to the slave unit 7 identified in S210 are set to Sr = 0, Cr = 0, and Fr = 1. As a result, it is determined that the charge completion notification has been received, and the charge required notification and the low remaining capacity notification have not been received (S247).
[0076]
After that, in S249, the CPU 15a deletes the remaining capacity low display or the required charging display of the slave unit 7 corresponding to the charging completion notification, and ends the process.
Next, the slave unit 7 that receives the control signal transmitted from the master unit 5 by the other slave unit small capacity notification process and the other slave unit required charge notification process is executed by the CPU 31a as shown in FIG. The slave unit capacity display processing will be described. FIG. 10 is a flowchart showing another child device capacity display process that is repeatedly executed by the CPU 31a of the child device 7 at all times.
[0077]
When the other child device capacity display processing is executed, the CPU 31a of the child device 7 first waits until the control signal storing the remaining capacity information is received from the parent device 5 in S510, and determines that the control signal is received (S510). Yes), in S520, it is determined whether or not the received remaining capacity information is low remaining capacity information (that is, whether a low remaining capacity notification is received). Here, when the CPU 31a determines that the received remaining capacity information is the remaining capacity low information (Yes in S520), the CPU 31a displays on the display unit 41 of itself the master unit 5 shown in FIG. The same remaining small capacity display is performed, and the other child device capacity display processing ends.
[0078]
On the other hand, if No is determined in S520, the CPU 31a shifts the processing to S530, and determines whether or not the received remaining capacity information is the required charging information (that is, whether or not a required charging notification has been received). If it is determined that there is no such information (No in S530), the other-slave device capacity display process is terminated, and if it is determined that the remaining capacity information is the charging required information (Yes in S530), the display unit 41 of the own device displays the information in S535. A charge required display similar to that of master device 5 shown in FIG. 9B is performed. After that, the other child device capacity display processing ends.
[0079]
The CPU 31a of the child device 7 has to execute the screen clearing process shown in FIG. 10B, so that the user has to operate the operation unit 43 and display new operation information on the display unit 41. At this point (Yes in S540), the remaining capacity low information displayed in S525 and the required charging information displayed in S535 are erased (S550). FIG. 10B is a flowchart illustrating a screen clearing process executed by the CPU 31a of the slave unit 7.
[0080]
Therefore, in the present embodiment, the display of the low remaining capacity in S525 and the display of the need for charging in S535 are continued until the user performs the next operation. By adopting such a display mode, in the present embodiment, the display information of FIG. 9A or the display information of FIG. The display information is continued until it can be presumed that the display information has been confirmed.
[0081]
However, it is possible that the user does not notice the display information only with the above display mode. Therefore, in the present embodiment, at the time of ending the call (that is, at the time of disconnection of the wireless line between the master unit 5 and the slave unit 7). Then, the CPU 15a of the master unit 5 executes the second slave unit capacity notification process shown in FIG. It encourages charging.
[0082]
FIG. 11 is a flowchart illustrating a second slave unit capacity notification process executed by the CPU 15a of the master unit 5 when the wireless line between the master unit 5 and the slave unit 7 is disconnected (at the end of the call).
When the second slave unit capacity notification process is executed, the CPU 15a of the master unit 5 selects one of the slave units 7 in the cordless telephone device 1 in S610 and reads the reception status of the slave unit 7. Then, in S620, it is determined whether or not the slave unit 7 corresponding to the read reception status is the slave unit 7 to which the end-use control signal transmitted in S670 of the process is transmitted. If it is (Yes in S620), the process skips S630 to S655 and shifts the process to S660. This process is provided for selectively transmitting the remaining capacity information of another slave device 7 different from the slave device 7 to the slave device 7 to which the control signal is transmitted.
[0083]
On the other hand, in S620, when it is determined that the slave 7 corresponding to the read reception status is not the slave 7 to which the control signal for the end call is transmitted (No in S620), the CPU 15a determines in S630 that the reception is completed. It is determined whether or not the status parameter Fr is Fr = 1. If Fr = 1, the battery of the slave unit 7 corresponding to the reception status is sufficiently charged, and it is not necessary to notify the remaining capacity information. Then, the process proceeds to S660.
[0084]
Conversely, when determining that Fr = 0 (No in S630), the CPU 15a determines in subsequent S640 whether or not the parameter Cr = 1, and determines that Cr = 1 (Yes in S640). In step S645, it is determined that the notification of the need for charging is required to be issued to the slave unit 7, and in step S645, the slave unit ID and charging information of the slave unit 7 corresponding to the reception status are stored in advance as a control code for the end call as control data. It is additionally stored in the control data storage area of the control signal for end call. Then, the process proceeds to S660. If other charging information, low remaining capacity information, and the like are stored in the control data storage area in addition to the control code for the end call, the slave unit ID and the required Stores charging information.
[0085]
When determining that Cr = 0 in S640 (No in S640), the CPU 15a determines in subsequent S650 whether or not the parameter Sr = 1, and determines that Sr = 1 (Yes in S650). ), It is determined that it is necessary to notify the remaining unit of the remaining unit to the slave unit 7, and in S655, in addition to the information already stored in the control data storage area of the control signal, the slave unit 7 corresponding to the reception status is corresponded. The child device ID and the low remaining capacity information are stored, and then the process proceeds to S660.
[0086]
Also, in S660, CPU 15a determines whether or not the reading of the reception status of all handset units 7 in S610 has been completed, and if not completed (No in S660), returns the process to S610 and proceeds to the next child unit. The device 7 is selected, its reception status is read, and the above-described processing from S620 to S655 is performed. If the CPU 15a determines in S660 that the above process has been completed for all the slaves 7 (Yes in S660), the control code for the end call is stored in S670 and stored in S645 and S655. A control signal including the child device ID and the remaining capacity information is transmitted to the child device 7 to disconnect the wireless line, and the wireless line between the child device 7 and the parent device 5 is disconnected.
[0087]
The handset 7 receiving the end-call control signal shifts itself from the talking state to the incoming-call waiting state based on the end-call control code, and the other handset shown in FIG. The remaining capacity information based on the child device ID and the remaining capacity information stored in the control signal is displayed by the capacity display processing (that is, the remaining capacity small display shown in FIG. 9A and the charge required shown in FIG. 9B). Display).
[0088]
As described above, the cordless telephone device 1 according to the present embodiment has been described. In the cordless telephone device 1, the child device 7 transmits the remaining capacity information on the remaining capacity of the battery 47 of itself to the parent device 5 together with its child device ID. Since the parent device 5 is configured to transmit the remaining capacity information received from the child device 7 together with the child device ID to another child device 7 different from the child device 7, the parent device 5 5 can be displayed on the display section 41, and the remaining capacity of the battery 47 is small, or the remaining capacity is so small that it is impossible to operate the communication function of the child device and the battery is charged. Can be effectively notified to the user that there is a need for As a result, according to the cordless telephone 1, the charging of the battery 47 can be effectively urged to the user, and when the user intends to use the child device 7, the call function of the child device 7 operates. Problems such as not being performed can be sufficiently solved.
[0089]
More specifically, as in the conventional cordless telephone device, only by notifying the remaining capacity of the battery 47 in the base unit 5, if there is no user near the base unit 5, the user may not notice the notification. However, in the present embodiment, the remaining battery capacity is notified to the slave unit which is more likely to be arranged closer to the user than the master unit, so that the problem that the user does not notice the notification is sufficiently solved. Can be.
[0090]
Further, in the present embodiment, the apparatus is configured to notify the remaining battery capacity by displaying, and in addition, the apparatus is configured to notify the remaining battery capacity immediately when the remaining battery capacity becomes low. For this reason, it is possible to solve the conventional problems such as a loud sound at the time of notification or a failure to notify the user that there is no incoming call for a long time and the remaining battery capacity is low.
[0091]
Furthermore, in the present embodiment, the cordless telephone device 1 is configured to notify the remaining capacity of the battery when the wireless line is disconnected until the battery is charged. Therefore, the cordless telephone device 1 is repeatedly operated until the user notices the notification. It is possible to prompt charging of the battery.
[0092]
Note that the detecting means in the wireless communication device of the present invention corresponds to the battery voltage detecting unit 45 of the present embodiment. The transmitting means is realized by a self-capacity transmission process executed by the CPU 31a of the slave unit 7. In addition, the first capacity information transmitted by the transmitting unit as the remaining capacity information corresponds to the remaining capacity low information in the present embodiment, the second capacity information corresponds to the information on the need for charging, and the battery recovery information indicates that the charging is completed. Equivalent to information.
[0093]
Further, the notification means of the present invention is realized by the other child device capacity display processing executed by the CPU 31a. The display unit of the present invention corresponds to the display unit 41 of the slave unit 7. In addition, the first remaining capacity information transmitting means of the other child device remaining capacity information transmitting means is realized by a child device capacity notification process executed by the CPU 15a of the parent device 5, and the second remaining capacity information transmitting means comprises: This is realized by the second slave unit capacity notification processing executed by the CPU 15a. Note that the identification information of the slave unit transmitted by the other slave unit remaining capacity information transmitting unit corresponds to the slave unit ID stored in the control signal.
[0094]
When the remaining child device remaining capacity information transmitting means receives the battery recovery information from the child device, the operation of erasing the received content related to the remaining capacity information already stored is performed by the CPU 15a of the parent device 5 in the child device capacity notification processing. This is realized by the operation of updating the reception status parameters Sr, Cr from 1 to 0.
[0095]
In addition, the slave unit information notifying means is realized by an operation in which the CPU 15a of the master unit performs the remaining capacity low display and the charge required display in the slave unit capacity notification processing.
Further, the wireless communication device of the present invention is not limited to the above-described embodiment, but can adopt various aspects.
[0096]
For example, in the above-described embodiment, the base unit 5 is configured to transmit the control signal for ending the call storing the remaining capacity information in the second slave unit capacity notification process to the slave unit 7 when the wireless line is disconnected. Base unit 5 may be configured to store the remaining capacity information in a line connection control signal and transmit it to slave unit 7 when a wireless line is connected.
[0097]
In the above embodiment, the analog cordless telephone device 1 has been described as an example. However, the present invention can be applied to a cordless telephone device of a digital communication system. In particular, when the present invention is applied to a cordless telephone apparatus of a digital communication system, for example, the wireless units 17 and 33 of the slave unit 7 and the base unit 5 are based on the standard specifications of Bluetooth (standard for short-range wireless communication). By changing to a wireless unit, the slave unit 7 or the base unit 5 can be connected (communicated) with an external wireless communication device, and the remaining battery capacity information from the base unit 5 or the slave unit 7 is transmitted to the external wireless communication device. You may make it transmit.
[0098]
Here, FIG. 12 is a diagram illustrating a wireless LAN of the base unit 5 ′ and the slave unit 7 ′, in which the wireless units of the base unit 5 ′ and the slave unit 7 ′ perform wireless communication according to the Bluetooth standard with the cordless telephone device 1 ′ having a function as a communication unit capable of communicating according to the Bluetooth standard. FIG. 2 is an explanatory diagram showing a communication mode with each LAN terminal (wireless communication device) 51, 53 in a (local area network) system 50.
[0099]
The cordless telephone device 1 'connects and disconnects the wireless line between the master unit 5' and the slave unit 7 'by wireless communication of the Bluetooth standard, and connects the slave unit 7' to other slave units and the slave unit 7 '. It is configured to perform two-way communication with the parent device 5 '. Of course, the slave unit 7 'is configured to be able to transmit the remaining capacity information to the master unit 5', and the master unit 5 'transmits the remaining capacity information received from the slave unit 7' to other slave units. By transmitting the information, the remaining battery capacity information can be displayed on the other handset as shown in FIG.
[0100]
In the cordless telephone device 1 ', the slave unit 7' performs wireless communication with the master unit (master station) of the external wireless LAN system 50 and the LAN terminal 53 simultaneously with the master unit in the self-capacity transmission process. With this configuration, it is possible to transmit its own remaining capacity information from its own wireless unit to the LAN terminal 53.
[0101]
Therefore, in the cordless telephone device 1 ', the remaining battery capacity information can be displayed on the LAN terminals 51 and 53 in the form shown in FIG. 9, and the remaining battery capacity of the slave unit 7' can be more reliably displayed. It is possible to make the user aware that there is less.
[0102]
Further, since the cordless telephone device 1 'and the wireless LAN system 50 are mutually based on the Bluetooth standard, the remaining battery capacity of the LAN terminals 51 and 53 in the wireless LAN system 50 is determined by the parent device in the cordless telephone device 1'. The information may be displayed on the device 5 'or the child device 7'.
[0103]
Further, as long as the device is capable of wireless communication based on the Bluetooth standard, not only the LAN terminal but also a familiar device such as a television or a clock can display the remaining capacity information of the battery of the slave unit 7 '.
Furthermore, as a form of wireless communication, not only the one based on the Bluetooth standard but also IRMC (infrared communication standard for mobile communication) may be used. If communication is performed between the master unit 5 'and the slave unit 7' based on this method, not only calls but also vCard (a standard for electronic business cards) and vCallender (a standard for an electronic scheduler) can be used. It is also possible to provide the cordless telephone device 1 'with a function of exchanging information such as an address book and a schedule based on each other. In this case, it becomes possible to mutually transmit and receive (for example, display) the remaining battery capacity information between a PDA (portable terminal) and a mobile phone that conform to the same standard.
[0104]
In addition, between devices based on the same standard, the timing of transmission and reception of the remaining battery capacity information indicates that the remaining battery capacity is low or the devices existing near the devices that need to be charged. May be detected to notify the device.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram illustrating a configuration of a cordless telephone device 1 according to an embodiment.
FIG. 2 is a block diagram illustrating an electrical configuration of a base unit 5.
FIG. 3 is a block diagram illustrating an electrical configuration of a slave unit 7.
FIG. 4 is an explanatory diagram (a) relating to a determination value and an explanatory diagram (b) illustrating a configuration of a control signal.
FIG. 5 is a flowchart illustrating a self-capacity transmission process executed by a CPU 31a of the slave unit 7.
6A is an explanatory diagram illustrating a configuration of a notification status stored in a slave unit, and FIG. 6B is an explanatory diagram illustrating a configuration of a reception status stored in a master unit.
FIG. 7 is a flowchart illustrating a slave unit capacity notification process executed by a CPU 15a of the master unit 5.
FIG. 8 is a flowchart (a) illustrating a small-capacity small-capacity notification process executed by the CPU 15a of the parent device 5, and a flowchart (b) illustrating a small-charge required notification process.
FIGS. 9A and 9B are explanatory diagrams relating to a low remaining capacity display (a) and a charge required display (b).
FIG. 10 is a flowchart (a) showing the other child device capacity display process executed by the CPU 31a of the child device 7, and a flowchart (b) showing a screen clearing process executed by the CPU 31a of the child device 7.
FIG. 11 is a flowchart illustrating a second slave unit capacity notification process executed by the CPU 15a of the master unit 5.
FIG. 12 is an explanatory diagram showing a communication mode between the cordless telephone device 1 ′ and the wireless LAN system 50.
[Explanation of symbols]
1, 1 'cordless telephone device, 3 public telephone line network, 5, 5' master unit, 7, 7 'slave unit, 11 line control unit, 15, 31 control unit, 15a, 31a CPU 15b, 31b memory, 17, 33 wireless section, 21 41 display section, 23, 43 operating section, 25 power section, 45 battery voltage detecting section, 47 battery, 50 wireless LAN system, 51, 53 ... LAN terminals

Claims (10)

A base unit connected to the telephone line network, and a plurality of slave units connected to the base unit via a wireless line and operated by power supplied from a battery to perform wireless communication with the base unit. A wireless communication device comprising:
Each of the slave units,
Detecting means for detecting the remaining capacity of the battery;
Transmitting means for transmitting remaining capacity information regarding the remaining capacity of the battery based on the detection result;
Notifying means for receiving the remaining capacity information of the other slave unit transmitted from the outside and notifying the reception result,
A wireless communication device comprising: 2. The wireless communication apparatus according to claim 1, wherein the transmitting unit is configured to transmit the remaining capacity information when the remaining capacity of the battery as the detection result falls below a predetermined determination value. . When the remaining capacity of the battery as a result of the detection falls below a predetermined first decrease determination value, the transmission unit indicates that the remaining battery charge is less than the first decrease determination value as the remaining capacity information. When the first capacity information is transmitted and the remaining capacity of the battery as the detection result falls below a second decrease determination value smaller than the preset first decrease determination value, the remaining capacity of the battery is used as the remaining capacity information. It is configured to transmit second capacity information indicating that it is less than the second decrease determination value,
Upon receiving the first capacity information as the remaining capacity information, the notifying unit notifies the reception result that the remaining capacity of the battery of the other handset is low, and receives the second capacity information as the remaining capacity information. 3. The wireless communication device according to claim 2, wherein the reception result indicates that the battery needs to be charged. The transmitting unit is configured to transmit the remaining capacity information to the master unit,
The master unit, upon receiving the remaining capacity information from the slave unit, transmits the remaining capacity information to another slave unit different from the slave unit that has transmitted the remaining capacity information. The wireless communication device according to any one of claims 1 to 3, further comprising: Upon receiving the remaining capacity information from the slave, the other slave remaining capacity information transmitting means transmits the remaining capacity information together with the identification information of the slave which has transmitted the remaining capacity information. It is configured to transmit to another child device different from the child device that has been
The notifying means, upon receiving the remaining capacity information of the other handset via the master, based on the remaining capacity information and the identification information of the other handset transmitted together with the remaining capacity information, as the reception result. 5. The wireless communication device according to claim 4, wherein the remaining capacity of the battery can be notified in a form in which the user can specify the child device corresponding to the remaining capacity of the battery. Communication device. The notifying unit is configured to notify the reception result only for a predetermined period after receiving the remaining capacity information,
The other child device remaining capacity information transmitting means,
When the remaining capacity information is received from the slave unit, the received content is stored, and the received remaining capacity information is immediately transmitted to another slave unit, and a first remaining capacity information transmitting unit is provided.
After the transmission of the remaining capacity information by the first remaining capacity information transmitting means, each time the wireless line is connected or disconnected between the master unit and the slave unit, the master unit transmits the remaining capacity information in accordance with the received reception content. And a second remaining capacity information transmitting means for transmitting in addition to a control signal transmitted and received between the child device,
The wireless communication device according to claim 4, further comprising: The transmitting means transmits battery recovery information indicating that the remaining battery charge is larger than the battery recovery value to the master unit when the remaining battery charge as the detection result exceeds a preset battery recovery value. Has been
The other child device remaining capacity information transmitting means, upon receiving the battery recovery information from the child device, deletes the received content related to the remaining capacity information that has already been stored, whereby the second remaining capacity information transmitting means The wireless communication device according to claim 6, wherein the operation is stopped until the next remaining capacity information is received. 8. The slave unit according to claim 4, further comprising: a slave unit information notifying unit configured to notify the reception result when the master unit receives the remaining capacity information from the slave unit. Wireless communication device. The wireless communication apparatus according to claim 1, wherein the notification unit is configured to display the reception result on a display unit to notify the display unit. Each of the slave units includes communication means connectable to a wireless LAN system, and is configured to be able to transmit remaining capacity information regarding the remaining capacity of the battery to a LAN terminal in the wireless LAN system via the communication means. The wireless communication device according to claim 1, wherein:

Images