JP3636219B2 - Power supply device for communication terminal device and communication terminal device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention automatically connects a communication terminal device to a power source, a power-on device for a communication terminal device, and a main device power source that converts power supplied from the power source into an appropriate voltage and supplies it to each part of the device. The present invention relates to a communication terminal device that is connected to a line and is used with a main control unit that receives power from the main device power supply and controls each unit of the device.
[0002]
[Prior art]
Conventionally, a communication terminal device such as a facsimile device is kept powered on except during a communication operation, and is placed in a standby state for the next communication operation.
[0003]
[Problems to be solved by the invention]
However, communication terminal devices are normally used only during reception and transmission operations. The standby time is much longer than the operation time, and considerable power is consumed during that time. There was a problem that.
[0004]
In order to solve a part of the problem, for example, an automatic power-on type facsimile apparatus disclosed in Japanese Patent Application Laid-Open No. 5-95463 detects a call signal on a telephone line during standby and automatically powers itself. Is known. However, in this conventional apparatus, since it is necessary to detect a call signal while the facsimile apparatus itself is on standby, it is not possible to eliminate power consumption during standby. Also, it is necessary for the operator to turn on / off the power switch of the facsimile machine at the time of transmission, etc. If the operator forgets to turn off the power switch, extra power is consumed. there were.
[0005]
The present invention has been made in view of such circumstances, and provides a communication terminal device power-on device and a communication terminal device that can significantly reduce the power consumed by the communication terminal device when the communication terminal device is not used. The purpose is to provide.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a power-on device for a communication terminal apparatus according to claim 1, wherein a power supply terminal for connecting the communication terminal apparatus to a power source and a line connection terminal for connecting the communication terminal apparatus to a line Intervening between the power source and the power supply terminal, the call signal detecting means, detecting the call signal detecting means for detecting the call signal of the line, the communication end detecting means for detecting the end of the communication of the line If the call signal is detected by the power supply terminal, the power supply is connected to the power supply terminal, and then, if the communication end detection means detects the end of communication, the power supply switching means for disconnecting the power supply terminal from the power supply. And with Tadori Power-on device for communication terminal equipment Because While using a battery as a power source for operating the apparatus, a remaining amount detecting means for detecting the remaining amount of the battery, a solar battery, a power generation amount detecting means for detecting the power generation amount of the solar battery, and converting power from the power source Switching the power of the predetermined voltage obtained or the power generated by the solar battery to supply the battery as charging power, or the battery charging means for stopping the supply of the charging power, and the battery charging means The power supply on / off means for connecting to or disconnecting from the power supply and the output from the remaining amount detecting means are monitored, and when the remaining amount of the battery detected by the remaining amount detecting means is a predetermined amount or more , The supply of charging power from the battery charging means is stopped, the battery charging means is disconnected from the power source by the charging power on / off means, and the remaining battery level detected by the remaining power detecting means If the power generation amount of the solar cell detected by the power generation amount detection means is equal to or greater than a predetermined amount when the power generation amount is less than a predetermined amount, the charging power supplied by the battery charging means is switched to the power generated by the solar cell. When the power generation amount of the solar battery detected by the power generation amount detection means is less than or equal to a predetermined amount, the battery charging means is connected to the power source by the charging power on / off means and supplied by the battery charging means Charge control means for switching charge power to power of a predetermined voltage obtained by converting power from the power source, maintaining the state for a predetermined time, and monitoring the output from the remaining amount detection means again after each processing It is characterized by having Ru .
[0007]
Claim 2 The power-on device for the communication terminal device according to claim 1 The power-on device for a communication terminal apparatus according to the above, further comprising a remaining amount display means for displaying the remaining amount detected by the remaining amount detecting means.
[0008]
Claim 3 The communication terminal device described is a main device power source that converts electric power supplied from the power source into an appropriate voltage and supplies it to each part of the device, and a main control unit that controls each part of the device by receiving power supplied from the main device power source In a communication terminal device used by connecting to a line,
A call signal detecting means for detecting a call signal on the line; a communication end detecting means for detecting the end of communication on the line; and a power supply and a power supply for the main unit. If a signal is detected, the power supply is connected to the main apparatus power supply. After that, if the communication end detection means detects the end of communication, the main apparatus power supply is disconnected from the power supply on / off means. A main device power-on unit configured and controlled by a sub-control unit different from the main control unit, the main-device power-on unit operates with a sub-device power source different from the main device power source And moreover, A battery is used as the secondary device power source. , The main device power-on unit converts remaining power detecting means for detecting the remaining amount of the battery, a solar battery, a power generation amount detecting means for detecting the power generation amount of the solar battery, and converting power from the power source. The obtained predetermined voltage power or the power generated by the solar battery is switched and supplied to the battery as charging power, or the sub battery charging means for stopping the supply of the charging power and the sub battery charging means are When the output of the sub-charge power supply on / off means for connecting to or disconnecting from the power supply and the remaining amount detecting means is monitored, and the remaining amount of the battery detected by the remaining amount detecting means is greater than or equal to a predetermined amount The supply of charging power from the secondary battery charging means is stopped, the secondary battery charging means is disconnected from the power source by the secondary charging power on / off means, and the remaining battery level detected by the remaining battery detection means But When the amount of power generation of the solar battery detected by the power generation amount detection means is equal to or greater than a predetermined amount in the case of the fixed amount or less, the charging power supplied by the sub battery charging means is switched to the power generated by the solar battery. When the power generation amount of the solar cell detected by the power generation amount detection means is less than or equal to a predetermined amount, the sub battery charging means is connected to the power source by the sub charging power on / off means and the sub battery charging means The charging power supplied from the power source is switched to the power of a predetermined voltage obtained by converting the power from the power source, and the state is maintained for a predetermined time, and the output from the remaining amount detecting means is monitored again after each processing. And charging control means. Ru .
[0009]
Claim 4 The communication terminal device according to claim 3 In the communication terminal device described in the above, the main device power-on unit includes a remaining amount display means for displaying the remaining amount detected by the remaining amount detecting means.
[0027]
[Action]
According to the configuration of claim 1, when a call signal of the line is detected by the call signal detection unit at the time of reception or the like, the power supply terminal is connected to the power source by the power on / off unit, and then When the end of communication is detected by the communication end detection means, the power supply terminal is disconnected from the power source. Therefore, the power consumed by the communication terminal device when the communication terminal device waiting for reception is not used can be greatly reduced.
Also, The charge control unit monitors the output from the remaining amount detecting unit, and the remaining amount of the battery detected by the remaining amount detecting unit is equal to or greater than a predetermined amount, that is, greater than or equal to a remaining amount at which the power-on device can operate normally. In this case, supply of charging power from the battery charging means to the battery is stopped, and the battery charging means is disconnected from the power source by the charging power on / off means. Then, the output from the remaining amount detecting means is monitored again. That is, in this processing loop, since the remaining amount of the battery is sufficient, supply of charging power to the battery is not performed, and the battery charging means is used in order to reduce the power consumed by the battery charging means to zero. Is disconnected from the power source. As a result, while the remaining battery level is sufficient, the power-on device operates only with the power of the battery.
In addition, the charge control means may detect the power generation amount detection means when the remaining amount of the battery detected by the remaining amount detection means is equal to or less than a predetermined amount, that is, less than a remaining amount at which the power-on device can operate normally. The detected power generation amount of the solar cell is not less than a predetermined amount, that is, not less than a power generation amount that can supply power that is supplied to the power-on device to the battery that is constantly supplying power to the power-on device. When, the battery charging means switches the charging power supplied to the battery to the power generated by the solar battery. Thereby, the electric power generated by the solar battery is charged in the battery, and the remaining amount of the battery gradually increases. The charge control means again monitors the output from the remaining amount detection means. The remaining amount of the battery detected by the remaining amount detecting means eventually becomes a predetermined amount or more by charging the power generated by the solar battery, in which case the power-on device operates again only with the power of the battery. To come.
In addition, the charge control means may detect the power generation amount detection means when the remaining amount of the battery detected by the remaining amount detection means is equal to or less than a predetermined amount, that is, less than a remaining amount at which the power-on device can operate normally. The detected power generation amount of the solar cell is less than a predetermined amount because the room becomes dark or the weather gets worse, that is, the power supply device is supplied with power to the power supply device. When the power generation amount is less than or equal to the amount of power that can be supplied, the battery charging unit is connected to the power source by the charging power on / off unit, and the charging power supplied to the battery by the battery charging unit from the power source Is switched to power of a predetermined voltage obtained by converting the power. Thereby, even when the power generation amount of the solar cell is not sufficient, the remaining amount of the battery can be maintained at a predetermined amount or more. The charging control means is configured such that the battery charging means is connected to the power source, and the charging power supplied to the battery by the battery charging means is switched to power of a predetermined voltage obtained by converting power from the power source. After the state is maintained for a predetermined time, for example, about 1 minute, the output from the remaining amount detecting means is monitored again. Thereby, the output from the remaining amount detecting means, that is, the remaining amount of the battery detected by the remaining amount detecting means is sufficiently increased during the predetermined time. In the vicinity of the predetermined amount, the remaining amount of the battery does not stagnate, and frequent switching on / off of the charging power on / off means can be prevented.
[0028]
Claim 2 According to the described configuration, the remaining amount detected by the remaining amount detecting means is displayed by the remaining amount displaying means. Therefore, it is possible to easily grasp the remaining amount of the battery that is the power source for operating the device.
[0029]
Claim 3 According to the configuration described above, when a call signal of the line is detected by the call signal detection means at the time of reception or the like, the main apparatus power supply is connected to the power supply by the power on / off means, and then the communication ends. When the end of communication is detected by the detecting means, the main device power supply is disconnected from the power supply. On the other hand, the main device power-on unit is operated by a sub-device power supply that is different from the main device power supply, and performs the main device power-on operation compared to the main device power supply that covers the power supply of the entire communication terminal device The power consumed by the secondary device power supply that supplies power to only the main device power supply unit is much less than the power consumed by the main device power supply during standby. Therefore, the power consumed by the communication terminal device when the communication terminal device is not in use during reception standby can be greatly reduced.
Also, Since a battery is used as the secondary device power supply, the cost required for the secondary device power supply can be reduced. Further, when the battery is exhausted, it can be promptly replaced with a new battery.
Also, The sub-charge control unit monitors the output from the remaining amount detecting unit, and the remaining amount of the battery detected by the remaining amount detecting unit is equal to or greater than a predetermined amount, that is, the main device power-on unit can operate normally. When the remaining amount is more than the remaining amount, supply of charging power from the sub battery charging means to the battery is stopped and the sub battery charging means is disconnected from the power source by the sub charging power on / off means. Then, the output from the remaining amount detecting means is monitored again. That is, in this processing loop, since the remaining amount of the battery is sufficient, supply of charging power to the battery is not performed, and the sub battery is charged in order to reduce the power consumed by the sub battery charging means to zero. Disconnect the charging means from the power source. As a result, while the remaining battery capacity is sufficient, the main apparatus power-on unit operates only with the power of the battery.
In addition, the sub-charge control unit is configured to generate the power generation amount when the remaining amount of the battery detected by the remaining amount detecting unit is equal to or less than a predetermined amount, that is, less than a remaining amount at which the main apparatus power-on unit can operate normally. The power generation amount of the solar cell detected by the detection means is equal to or greater than a predetermined amount, that is, the battery that is constantly supplying power to the main apparatus power supply section is supplied with power that is greater than the power supplied to the main apparatus power supply section. When the power generation amount is as large as possible, the charging power supplied to the battery by the sub battery charging means is switched to the power generated by the solar battery. Thereby, the electric power generated by the solar battery is charged in the battery, and the remaining amount of the battery gradually increases. Then, the output from the remaining amount detecting means is monitored again. The remaining amount of the battery detected by the remaining amount detecting means eventually becomes a predetermined amount or more by charging the electric power generated by the solar cell. In this case, the main apparatus power-on unit only uses the electric power of the battery. Will work again.
In addition, the sub-charge control unit is configured to generate the power generation amount when the remaining amount of the battery detected by the remaining amount detecting unit is equal to or less than a predetermined amount, that is, less than a remaining amount at which the main apparatus power-on unit can operate normally. The amount of power generated by the solar cell detected by the detection means is less than a predetermined amount because the room is dark or the weather is bad, that is, the main battery is constantly supplying power to the main power supply unit. When the power generation amount is less than the amount of power that can be supplied to the device power input unit, the sub battery charging unit is connected to the power source by the sub charging power on / off unit and the sub battery charging unit is connected to the power source. The charging power supplied to the battery is switched to power of a predetermined voltage obtained by converting the power from the power source. Thereby, even when the power generation amount of the solar cell is not sufficient, the remaining amount of the battery can be maintained at a predetermined amount or more. Further, the sub-charge control means includes a power of a predetermined voltage obtained by converting the power supplied from the power source when the sub battery charging means is connected to the power source and the charging power supplied to the battery by the sub battery charging means is After the state has been maintained for a predetermined time, for example, about 1 minute, the output from the remaining amount detecting means is monitored again. As a result, the output from the remaining amount detecting means, that is, the remaining amount of the battery detected by the remaining amount detecting means increases sufficiently during the predetermined time. In the vicinity of a predetermined amount serving as a boundary, the remaining amount of the battery does not stagnate, and frequent on / off of the switch of the auxiliary charging power on / off means can be prevented.
[0030]
Claim 4 According to the described configuration, the remaining amount detected by the remaining amount detecting means is displayed by the remaining amount displaying means. Therefore, it is possible to easily grasp the remaining amount of the battery as the auxiliary device power source.
[0048]
【Example】
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0049]
FIG. 1 shows a block configuration of a power-on device 1 for a communication terminal device 1 according to a first embodiment of the present invention and a facsimile device 30 which is a communication terminal device connected to the line device 2 and a facsimile. A commercial AC power source 3 serving as a power source for the device 30 is connected to the power-on device 1. Note that the facsimile machine 30 connected to the communication terminal device power-on device 1 shows only the parts necessary for the description of the present embodiment.
[0050]
In the figure, a device power supply 31 of the facsimile apparatus 30 is for converting and outputting various voltages necessary for the operation of the apparatus from an input commercial AC power supply, and supplying it to each part of the apparatus. The NCU 32 is connected to a line and performs predetermined line control when making / receiving calls. Further, the facsimile apparatus 30 can store the received image information in the temporary reception memory 33, and while the unprocessed image information is present in the reception memory 33, the unprocessed image information is lost. In this case, the display 33a is formed of a light emitting diode that is turned off.
[0051]
The system control unit 4 in the power-on device 1 is a one-chip microcomputer including a CPU, ROM, RAM, input / output port, and the like, and performs a predetermined output operation according to various inputs described later. The power-on device 1 uses a battery 5 as a power source for operating the device, and the battery 5 is charged with electric power generated by the solar cell 7 via a charging circuit 6. The remaining amount detection unit 8 serving as a remaining amount detection unit detects the remaining amount of the battery 5 as a change in voltage generated by the battery 5 and inputs the detected amount to the system control unit 4. The remaining amount display unit 9 that is a remaining amount display means corresponds to the number of the light-emitting diodes that are lit by the remaining amount of the battery detected by the remaining amount detecting unit 8 among the plurality of linearly arranged light emitting diodes. It is to be displayed.
[0052]
The call signal detection unit 10 which is a call signal detection means detects a 16-Hz call signal of the line 2 by a known method, and the current detection unit 11 knows whether or not there is a current loop flowing through the line 2. It is something to detect with.
[0053]
The memory detection unit 12 includes a photoelectric conversion element 12a such as a photodiode for detecting turning on and off of the display device 33a, and inputs the detected result to the system control unit 4.
[0054]
The operator detection unit 13 detects the approach of the operator by a known method of detecting light that is emitted and reflected back to an approaching object.
[0055]
The power supply terminal 14 is a terminal for supplying the commercial AC power supply 3 connected to the power-on device 1 to the outside. In this embodiment, the power supply terminal 14 is connected to the device power supply 31 of the facsimile machine 30.
[0056]
The line connection terminal 15 is a terminal for drawing the line 2 connected to the power-on device 1 to the outside, and is connected to the NCU 32 of the facsimile machine 30 in this embodiment.
[0057]
The two-winding latching relay 16 includes a set coil 17, a reset coil 18, and a relay switch 19, and is interposed between the commercial AC power supply 3 and the power supply terminal 14. Are electrically connected and disconnected. The set coil 17 and the reset coil 18 are connected to the output ports OUT1 and OUT2 of the system control unit 4 through buffers, respectively.
[0058]
The switch 20 which is a power source forced connection means is interposed between the commercial AC power source 3 and the power supply terminal 14 and connected in parallel with the two-winding latching relay 16.
[0059]
FIG. 2 shows the appearance of the power-on device 1.
[0060]
In the figure, the commercial AC power source 3 is connected to the power-on device 1 by connecting the power plug 4a to an outlet (not shown). Further, the line 2 is connected to the power-on device 1 by connecting the modular terminal 3 a to the line 2 (not shown).
[0061]
Further, on the upper surface of the power-on device 1, a solar cell 8, a switch 20, and a light emitting diode group 9a for displaying the remaining battery level are arranged. An operator detection sensor 13 a is disposed on the side surface of the power-on device 1. A power plug of the facsimile machine 30 is connected to the outlet 14. A modular terminal for connecting to the line of the facsimile machine 30 is connected to the modular jack 15.
[0062]
The photoelectric conversion element 12a is attached so as to cover the display device 33a of the facsimile apparatus 30, and detects turning on and off of the display device 33a.
[0063]
When the incoming call from the communication partner of the facsimile apparatus 30 is detected by the call signal detection unit 10 in the power-on apparatus 1 configured as described above and connected to the power supply and line of the facsimile apparatus 30, the system The control unit 4 applies a short-time current to the set coil 17 and connects the commercial AC power supply 3 to the power supply terminal 14. As a result, power is supplied to the facsimile machine 30. Further, the facsimile machine 30 that has been turned on detects a call signal by the NCU 32 and performs a predetermined reception operation. During this receiving operation, the DC circuit of line 2 is closed and a predetermined DC current flows.
[0064]
When the reception operation of the facsimile apparatus 30 is finished, the DC circuit of the line 2 is opened and no DC current flows. The current detector 11 detects the end of the reception operation of the facsimile apparatus 30 by detecting the change in the current flow.
[0065]
When the end of line communication is detected by the current detection unit 11, the system control unit 4 supplies a current to the reset coil 18 for a short time and disconnects the power supply terminal 14 from the commercial AC power supply 3. Thereby, the power supply of the facsimile machine 30 is cut off. However, when image data is stored in the reception memory 33 even after the end of communication on the line, the system control unit 4 supplies a current to the reset coil 18 while the memory detection unit 12 detects the lighting on the display device 33a. Without turning on, a current is passed through the reset coil 18 for a short time when the display 33a is detected to be turned off.
[0066]
Next, in the case of a transmission operation, an operator who wants to transmit a document to the other party approaches the facsimile machine 30. When the operator's approach is detected by the operator detection sensor 13, the system control unit 4 supplies a current to the set coil 17 for a short time to connect the power supply terminal 14 to the commercial AC power supply 3. As a result, power is supplied to the facsimile machine 30. When the power is turned on, the facsimile machine 30 is operated by an operator to perform a predetermined transmission operation. During this transmission operation, the DC circuit of line 2 is closed and a predetermined DC current flows.
[0067]
When the transmission operation of the facsimile apparatus 30 is completed, the DC circuit of the line 2 is opened and no DC current flows. The current detector 11 detects the end of the transmission operation of the facsimile machine 30 by detecting the change in the current flow.
[0068]
When the system control unit 4 detects the end of communication on the line based on the signal from the current detection unit 11, the system control unit 4 supplies a current to the reset coil 18 for a short time and disconnects the power supply terminal 14 from the commercial AC power supply 3. Thereby, the power supply of the facsimile machine 30 is cut off.
[0069]
In this case, even after the end of line communication is detected, while the operator detecting unit 13 detects that the operator is still in the vicinity of the facsimile apparatus 30, the operator tries to use the facsimile apparatus 30 further. Therefore, no current may flow through the reset coil 18. In addition, if a current is allowed to flow through the reset coil 18 after a certain time has elapsed after the end of line communication is detected, the facsimile apparatus 30 is turned on in the case where transmission operations occur frequently. Therefore, the troublesomeness in using the facsimile apparatus 30 is reduced. Further, the burden on the latching relay 16 is reduced.
[0070]
In this way, since the power to the facsimile apparatus 30 is not turned on except during the transmission / reception operation, the power consumed by the facsimile apparatus 30 can be minimized. Further, even after the reception operation is completed, since the power supply of the facsimile apparatus 30 is not shut off until reception data that has not yet been processed is processed, the memory reception can be normally completed. Of course, if the facsimile machine 30 does not have a memory reception function, the power supply of the facsimile machine 30 may be shut off immediately after the reception operation is completed. Further, since the configuration of the power-on device 1 is simpler than that of the facsimile device, the power consumption as a whole is much smaller than when the facsimile device 30 is always turned on and kept in standby.
[0071]
As described above, the facsimile apparatus 30 can be automatically turned on at the time of transmission / reception without requiring any operation by the operator. However, in a situation where transmission / reception is frequently performed, the facsimile apparatus 30 is always in a standby state. Sometimes it is better to be. In such a case, by turning on the switch 20, the commercial AC power supply 3 is connected to the power supply terminal 14 regardless of the operation of the latching relay 16, and the facsimile apparatus 30 can be constantly turned on. .
[0072]
In addition, when the remaining amount of the battery 5 serving as the device operating power source of the power-on device 1 is less than the remaining amount at which the power-on device 1 can operate normally, the facsimile machine 30 performs normal transmission / reception operations. There is a risk that it will not be possible. Therefore, when the remaining amount of the battery 5 detected by the remaining amount detection unit 8 is equal to or less than a predetermined amount, the system control unit 4 unconditionally flows a current through the set coil 17 for a short time. As a result, the power supply terminal 14 is connected to the commercial AC power supply 3, and therefore the facsimile apparatus 30 is powered on, and the transmission / reception operation of the facsimile apparatus 30 is performed even if the power activation apparatus 1 becomes inoperable due to insufficient battery power. Is not inhibited.
[0073]
Further, since the power-on device 1 operates using the battery 5 as a power source for operating the device, if the remaining amount of the battery 5 cannot be grasped, the battery 5 is left with a small remaining amount, and the power-on device 1 As described above, the power is automatically turned on to the facsimile apparatus 30 and extra power is consumed. In order to prevent such a problem, the power-on device 1 is provided with a remaining amount display unit 9 for displaying the remaining battery level. From this display, the operator knows the state of the battery and takes measures such as replacing it with a normal one.
[0074]
In the first embodiment described above, the battery 5 is used as the device operating power source of the power-on device 1. However, the power source is not limited to the battery, and the commercial AC power source 3 may be converted into a DC voltage. In the first embodiment, the facsimile apparatus is described as an example of the communication terminal apparatus connected to the power-on apparatus 1. However, the communication apparatus is not limited to the facsimile apparatus, and other communication terminal apparatuses such as a personal computer may be connected and used. Can do.
[0075]
Next, a second embodiment of the present invention will be described with reference to FIG. In the figure, the difference from FIG. 1 which is a block configuration diagram of the power-on device 1 of the first embodiment is that the charging circuit 6 is connected to the commercial AC power source 3 without the solar cell 7, It is provided between the commercial AC power supply 3 and the charging circuit 6 and includes a relay 21 which is a charging power supply connecting means including a coil 22 and a relay switch 23, and the system control unit 4 includes the coil 22. An output port OUT3 for driving through a buffer is provided.
[0076]
In the power-on device 1 of the second embodiment configured as described above, when the remaining amount detection unit 8 that is the remaining amount detecting means detects that the remaining amount of the battery 5 has become a predetermined amount or less. The system control unit 4 turns on the output of OUT3. Thereby, the relay 21 is closed and the commercial AC power source 3 is connected to the charging circuit 6. Therefore, the electric power from the commercial AC power source 3 is converted into a predetermined charging voltage by the charging circuit 6 and charged to the battery 5.
[0077]
As a result, even when the remaining amount of the battery 5 is equal to or less than the remaining amount at which the power-on device 1 can operate normally, the voltage of the battery 5 is maintained by charging the battery 5 by the charging circuit 6, and the facsimile apparatus 30. Will not interfere with the communication operation. Further, as in the first embodiment, the commercial AC power supply 3 is not connected to the device power supply 31 when the remaining amount of the battery 5 is less than the remaining amount that the power-on device 1 can operate normally. Further, the power consumed by the facsimile machine 30 during standby is further reduced.
[0078]
Next, a third embodiment of the present invention will be described with reference to FIG. In the figure, the difference from FIG. 3 which is a block diagram of the power-on device 1 of the second embodiment is that not only the commercial AC power source 3 but also the solar cell 7 is connected to the charging circuit 6. The power generation amount detection unit 43 for detecting the power generation amount of the solar cell 7 as a change in the voltage generated, A / D-converting it, and inputting it to the system control unit 4 is provided.
[0079]
In addition, the charging circuit 6 switches the electric power of a predetermined voltage obtained by converting the electric power from the commercial AC power supply 3 or the electric power generated by the solar battery 7 and supplies the electric power to the battery 5 as charging electric power, or the battery 5 The supply of charging power to is stopped, and switching and stopping of the supply power is performed according to an instruction from the system control unit 4.
[0080]
A charging control procedure by the system control unit 4 in the power-on device 1 of the third embodiment configured as described above will be described with reference to the flowchart of FIG.
[0081]
In the figure, the system control unit 4 monitors the output from the remaining amount detection unit 8 and checks whether the remaining amount of the battery 5 is equal to or greater than a predetermined amount that allows the power-on device 1 to operate stably. (Decision 101). If it is greater than or equal to the predetermined amount (Yes in decision 101), it stops the charging power supply to the battery 5 of the charging circuit 6 (process 102), and if the output of OUT3 is ON, Is turned off and the relay 21 is opened to disconnect the charging circuit 6 from the commercial AC power supply 3 (processing 103), the process returns to the determination 101, and the output of the remaining amount detection unit 8 is monitored again.
[0082]
A state in which a series of processing loops of the above-described determination 101 Yes, processing 102, processing 103, and determination 101 is being executed is a state in which charging from the outside is unnecessary because the remaining amount of the battery 5 is greater than or equal to a predetermined amount. . Therefore, by disconnecting the charging circuit 6 from the commercial AC power source 3 in the process 103, the charging circuit 6 is consumed by the charging circuit 6 which cannot be completely zero as long as the commercial AC power source 3 is connected even when the charging output is stopped. Power to zero.
[0083]
When the remaining amount of the battery 5 is not equal to or greater than a predetermined amount that can stably operate the power-on device 1 (No in the determination 101), that is, when the battery 5 needs to be charged, first, the amount of power generation The output from the detector 43 is monitored to check whether the power generation amount of the solar cell 7 is equal to or greater than a predetermined amount (determination 104). In other words, it is examined whether the amount of power generated by the solar battery 7 is sufficient to supply the battery 5 with electric power that exceeds the power that the battery 5 must supply to each part of the power-on device 1.
[0084]
When the power generation amount of the solar cell 7 is equal to or larger than the predetermined amount (Yes in determination 104), the output of the charging power of the charging circuit 6 is switched to the power generated by the solar cell, and the supply to the battery 5 is started ( Process 105). Thereby, if the power generation amount of the solar cell 7 is equal to or greater than a predetermined amount, the battery 5 is supplied with electric power generated by the solar cell, and the remaining amount of the battery 5 gradually increases. After the process 105, the process returns to the determination 101 again, and the output of the remaining amount detection unit 8 is monitored. In this case, if the remaining amount of the battery 5 is recovered by charging with the solar battery 7, a series of processing loops of Yes of the determination 101, the process 102, the process 103, and the determination 101 is executed again.
[0085]
When the power generation amount of the solar cell 7 is not equal to or greater than the predetermined amount (No in the determination 104), the output of OUT3 is turned on and the relay 21 is closed to connect the charging circuit 6 to the commercial AC power source 3 (processing) 106). Then, the output of the charging power of the charging circuit 6 is switched to the power of a predetermined voltage obtained by converting the power of the commercial AC power supply, and the supply to the battery 5 is started (process 107). As a result, even when the amount of power generated by the solar cell 7 becomes less than a predetermined value due to the amount of light incident on the solar cell 7 being reduced due to darkening of the room, the battery 5 is charged and the power-on device 1 Does not interfere with operation.
[0086]
After executing the process 107, after waiting for a predetermined time (process 108), the process returns to the determination 101 again, and the output of the remaining amount detection unit 8 is monitored.
[0087]
In this case, after the process 107 is executed, the process 5 is not immediately returned to the process 101, but the process 108 is executed and then returned to the process 101. Since the battery 5 is charged only for a short time until the judgment 101, the time for which the remaining amount of the battery 5 is equal to or more than the predetermined amount lasts only for a short time, and the judgment 101 Yes, the processing 102, the processing 103, and the series of the judgment 101 The loop also lasts only for a short time, and the determination result of determination 101 becomes No after a short time. Then, determination 104 is executed again. When this determination 104 is executed, since only a short time has passed since the determination 104 was executed immediately before, it is highly possible that the power generation amount of the solar cell 7 has not recovered to a predetermined amount or more. Therefore, the determination result of determination 104 is likely to be No, and the processing subsequent to processing 106 is executed again.
[0088]
That is, an abnormal operation in which the relay 21 is turned on by the process 106 and the relay 21 is turned off by the process 103 is repeated in a short cycle, and the life of the relay 21 may be significantly shortened.
[0089]
However, in the present embodiment, after the process 107 is executed, the process 108 is executed without immediately returning to the determination 101. Therefore, for example, by waiting for a predetermined time set to about 1 minute, the battery 5 is connected to the commercial AC. The battery is charged by the power of the power source 3 and the remaining amount is recovered enough to exceed a predetermined amount. Therefore, a series of processing loops of the determination 101 Yes, the processing 102, the processing 103, and the determination 101 is continued for a long time, and during that time, it is highly possible that the power generation amount of the solar cell is recovered to a predetermined amount or more. Is less likely to be No.
[0090]
Accordingly, the relay 21 is turned on by the process 106 and the relay 21 is turned off by the process 103 is not repeated in a short cycle, and the life of the relay 21 can be extended.
[0091]
As described above, according to the third embodiment, by charging the battery 5 with the solar battery 7, the power-on device 1 can be operated at a low cost. In addition, when the power generation amount of the solar cell 7 is not sufficient, the battery 5 is charged using the power of the commercial AC power supply 3, so that even if the amount of light incident on the solar cell 7 decreases and the power generation amount decreases, the battery 5 can be maintained, and the operation of the power-on device 1 can be stabilized. Therefore, it is possible to prevent the communication terminal device connected thereto from becoming inoperable. In addition, since the operation of the power-on device 1 can be stabilized even if the capacity of the battery 5 and the solar cell 7 is suppressed, the device cost can be reduced. In addition, since a predetermined standby time is provided between the start of charging of the battery 5 using the power of the commercial AC power supply 3 and the determination of checking the remaining amount of the battery 5, the relay 21 may be burdened. Absent.
[0092]
The first, second, and third embodiments described above relate to the power-on device for the communication terminal apparatus, but the fourth, fifth, sixth, and seventh embodiments that will be described below are the main-device power-on. It is related with the communication terminal device provided with the part.
[0093]
A fourth embodiment will be described with reference to FIGS.
[0094]
FIG. 6 shows a block configuration of a facsimile machine 30 which is a communication terminal apparatus according to the fourth embodiment of the present invention. In this figure, the same or corresponding parts as those in FIG. 1 showing the block configuration of the communication terminal device power-on device 1 according to the first embodiment are denoted by the same reference numerals.
[0095]
The facsimile machine 30 of the fourth embodiment includes a facsimile unit 30a for facsimile operation and a main unit that converts electric power supplied from a commercial AC power source 3 as a power source into an appropriate voltage and supplies it to each part of the facsimile unit 30a. The power supply 31 includes a main apparatus power supply unit 30b for connecting the AC commercial power supply 3 to the main apparatus power supply 31 according to the detected line state. The commercial AC power supply 3 is connected to the main apparatus power supply 31 via the main apparatus power supply section 30b, and the line 2 is also connected to the NCU 32 described later via the main apparatus power supply section 30b.
[0096]
The blocks constituting the facsimile unit 30a will be described.
[0097]
The scanner 34 reads a document image. The plotter 35 records and outputs an image. The reception memory 33 stores image data received from the other party until it is processed. The NCU 32 executes predetermined line control when making / receiving calls, and is connected to the line 2. The modem 36 transmits and receives image information and various procedure signals for transmission control. The operation unit 37 is used by the operator for various operations. The display unit 38 displays the operating state of the apparatus. The system memory 39 stores various control information and the like.
[0098]
The main control unit 40 is a microphone computer that receives power from the main apparatus power supply 31 and controls the above-described units. The system bus 41 is a signal line through which the above units exchange various control signals and data with each other.
[0099]
The facsimile machine 30a configured as described above performs a predetermined document reading operation and transmission / reception operation.
[0100]
Next, the configuration of the main device power-on unit 30b will be described.
[0101]
The line 2 and the commercial AC power source 3 serving as the power source of the main device power source 31 are connected to the main device power supply unit 30b.
[0102]
The sub-control unit 42 of the main apparatus power-on unit 30b is a one-chip microcomputer including a CPU, ROM, RAM, input / output port, and the like, and performs a predetermined output operation according to various inputs described later. . The main device power-on unit 30 b uses the battery 5 as its sub device power, and the battery 5 is charged with electric power generated by the solar cell 7 via the sub charging circuit 6. The remaining amount detection unit 8 serving as a remaining amount detecting unit detects the remaining amount of the battery 5 as a change in voltage generated by the battery 5 and inputs it to the sub-control unit 42. The remaining amount display unit 9 that is a remaining amount display means corresponds to the number of the light-emitting diodes that are lit by the remaining amount of the battery detected by the remaining amount detecting unit 8 among the plurality of linearly arranged light emitting diodes. It is to be displayed.
[0103]
The call signal detection unit 10 which is a call signal detection means detects a 16-Hz call signal of the line 2 by a known method, and the current detection unit 11 knows whether or not there is a current loop flowing through the line 2. It is something to detect with.
[0104]
The memory detection unit 12 detects the presence / absence of reception data in the reception memory 33 of the facsimile unit 30a and inputs the detected result to the sub-control unit 42.
[0105]
The operator detection unit 13 detects the approach of the operator by a known method of detecting light that is emitted and reflected back to an approaching object.
[0106]
The document detection unit 24 detects that a document is set on the can 34 by detecting light blocking by the set document.
[0107]
The two-winding latching relay 16 includes a set coil 17, a reset coil 18, and a relay switch 19, and is interposed between the commercial AC power supply 3 and the main apparatus power supply 31. Are electrically connected and disconnected. The set coil 17 and the reset coil 18 are connected to output ports OUT1 and OUT2 of the sub-control unit 42 through buffers, respectively. The switch 20 which is a power supply forced connection means is interposed between the commercial AC power supply 3 and the main apparatus power supply 31 and is connected in parallel with the two-winding latching relay 16.
[0108]
FIG. 7 shows the external appearance of the facsimile machine 30 configured as described above.
[0109]
In the figure, the solar cell 8 is disposed on the top surface of the facsimile machine 30, the switch 20 is disposed on the side surface, and the operator detection sensor 13a is disposed on the front surface.
[0110]
In the facsimile apparatus 30 configured as described above, when an incoming call from a communication partner of the facsimile unit 30a is detected by the calling signal detection unit 10, the sub-control unit 42 applies a current to the set coil 17 for a short time. The commercial AC power supply 3 is connected to the main apparatus power supply 31. As a result, power is turned on to the facsimile unit 30a. Further, the facsimile unit 30a that is turned on detects a call signal by the NCU 32 and performs a predetermined reception operation. During this receiving operation, the DC circuit of line 2 is closed and a predetermined DC current flows.
[0111]
When the reception operation of the facsimile unit 30a is completed, the DC circuit of the line 2 is opened and no DC current flows. The current detection unit 11 detects the end of the reception operation of the facsimile unit 30a by detecting the change in the current flow.
[0112]
When the current detection unit 11 detects the end of communication on the line, the sub control unit 42 supplies a current to the reset coil 18 for a short time and disconnects the main apparatus power supply 31 from the commercial AC power supply 3. As a result, the power supply of the facsimile unit 30a is shut off. However, if image data is stored in the reception memory 33 even after the end of line communication is detected, the sub-routine is detected until the memory detection unit 12 detects that all the image data in the reception memory 33 has been processed. The controller 42 causes a current to flow through the reset coil 18 for a short time when it is detected that all the image data in the reception memory 33 has been processed, without causing a current to flow through the reset coil 18.
[0113]
Next, in the case of a transmission operation, an operator who wants to transmit a document to the other party approaches the facsimile machine 30. When the approach of the operator is detected by the operator detection sensor 13a, or when the set of the document to be transmitted to the scanner 1 by the operator is detected by the document detection unit 24, the sub-control unit 42 sets the set coil. The main apparatus power supply 31 is connected to the commercial AC power supply 3 by supplying a current to 17 for a short time. As a result, power is turned on to the facsimile unit 30a. When the power is turned on, the facsimile unit 30a is operated by an operator to perform a predetermined transmission operation. During this transmission operation, the DC circuit of line 2 is closed and a predetermined DC current flows.
[0114]
When the transmission operation of the facsimile unit 30a is completed, the DC circuit of the line 2 is opened and no DC current flows. The current detection unit 11 detects the end of the transmission operation of the facsimile unit 30a by detecting the change in the current flow.
[0115]
When the sub-control unit 42 detects the end of the communication on the line based on the signal from the current detection unit 11, the sub-control unit 42 supplies a current to the reset coil 18 for a short time and disconnects the main apparatus power supply 31 from the commercial AC power supply 3. As a result, the power supply of the facsimile unit 30a is shut off.
[0116]
In this case, even after the end of line communication is detected, while the operator detecting unit 13 detects that the operator is still in the vicinity of the facsimile apparatus 30, the operator tries to use the facsimile apparatus 30 further. Therefore, no current may flow through the reset coil 18. Further, if the current is passed through the reset coil 18 after a certain time has elapsed after the end of line communication is detected, the power to the facsimile unit 30a is turned on in the case where the transmission operation occurs frequently. Therefore, the troublesomeness in using the facsimile apparatus 30 is reduced. Further, the burden on the latching relay 16 is reduced.
[0117]
As described above, since the power to the facsimile unit 30a is not turned on except during the transmission / reception operation, the power consumed by the facsimile machine 30 can be minimized. Further, even after the reception operation is completed, since the power of the facsimile unit 30a is not shut off until reception data that has not been processed is processed, the memory reception can be normally completed. Of course, when the facsimile apparatus 30 does not have a memory reception function, the power of the facsimile unit 30a may be shut off immediately after the reception operation is completed. Further, since the configuration of the main apparatus power-on unit 30b is simpler than that of the facsimile unit 30a, the overall power consumption is much smaller than when the facsimile unit 30a is always turned on and kept on standby.
[0118]
Further, since the solar battery 7 for supplying charging power to the battery 5 is provided, the battery is not consumed, and stable power can be supplied to the secondary device power source. Therefore, it is possible to stabilize the operation of the main apparatus power-on unit 30b.
[0119]
Further, the power of the facsimile unit 30a can be automatically turned on at the time of transmission / reception without requiring any operation by the operator. However, in a situation where transmission / reception is frequently performed, the facsimile unit 30a is always in a standby state. Sometimes it is better. In such a case, by turning on the switch 20, the commercial AC power source 3 is connected to the main unit power source 31 regardless of the operation of the latching relay 16, and the facsimile unit 30a can be constantly powered on. .
[0120]
Further, when the remaining amount of the battery 5 serving as the auxiliary device power source of the main device power-on unit 30b is less than the remaining amount at which the main device power-on unit 30b can operate normally, the facsimile unit 30a is normal. May not be able to perform proper transmission / reception. Therefore, when the remaining amount of the battery 5 detected by the remaining amount detection unit 8 becomes equal to or less than a predetermined amount, the sub control unit 42 unconditionally flows a current through the set coil 17 for a short time. As a result, the main apparatus power supply 31 is connected to the commercial AC power supply 3, so that the facsimile section 30a is turned on, and even if the main apparatus power supply section 30b does not operate due to a shortage of remaining battery power, The transmission / reception operation is not hindered.
[0121]
Further, since the main device power-on unit 30b operates with the battery 5 as the auxiliary device power source, if the remaining amount of the battery 5 cannot be grasped, the battery 5 is left with a small remaining amount, and the main device power-on unit 30b automatically turns on the facsimile unit 30a as described above, and extra power is consumed. In order to prevent such a problem, the main device power-on unit 30b is provided with a remaining amount display unit 9 for displaying the remaining battery level. From this display, the operator knows the state of the battery and takes measures such as replacing it with a normal one.
[0122]
In the fourth embodiment described above, the power-on condition of the main apparatus power supply 31 at the time of transmission is the detection of the approach of the operator by the operator detection unit 13 or the detection of the set of documents by the document detection unit 24. However, only one of them may be used as a condition. That is, according to only the operator detection unit 13, since the approach of the operator before the document is set is detected, the main apparatus power supply 31 can be turned on earlier, and the troublesomeness can be reduced. On the other hand, according to the document detection unit 24 alone, the operator's intention to send the document is more than the operator detection unit 13 that may detect an operator who has passed near the facsimile apparatus 30. It can be detected reliably.
[0123]
Further, although the battery 5 is used as the auxiliary device power supply of the main device power supply unit 30b, the battery is not limited to the battery, and the commercial AC power supply 3 may be converted into a DC voltage. However, if the battery 5 is used, the cost required for the auxiliary device power supply can be reduced, and when the battery is exhausted, it can be promptly replaced with a new battery. Moreover, it is also conceivable to use a solar battery as the battery 5 and do not provide the charging circuit 6 and the solar battery 7. In that case, the configuration of the secondary device power supply can be simplified, and the device cost is reduced. Further, the cost of power consumed by the main apparatus power-on unit 30b is zero. In addition, since there is no need to energize the secondary device power supply, there is no need to worry about fire. In addition, the life of the secondary device power supply can be greatly extended.
[0124]
Next, a fifth embodiment of the present invention will be described with reference to FIG. In this figure, the difference from FIG. 6 which is a block diagram of the facsimile machine 30 of the fourth embodiment is that the sub-charging circuit 6 is connected to the commercial AC power source 3 without the solar cell 7, and It is interposed between the commercial AC power source 3 and the sub charging circuit 6, and includes a relay 21 that is a sub charging power source connecting means including a coil 22 and a relay switch 23, and the sub control unit 42 includes a coil The output port OUT3 for driving 22 through a buffer is provided.
[0125]
In the facsimile apparatus 30 of the fifth embodiment configured as described above, when it is detected by the remaining amount detecting unit 8 that is the remaining amount detecting means that the remaining amount of the battery 5 has become a predetermined amount or less, The sub control unit 42 turns ON the output of OUT 3, the relay 22 is closed, and the commercial AC power source 3 is connected to the sub charging circuit 6. Therefore, the electric power from the commercial AC power source 3 is converted into a predetermined charging voltage by the sub charging circuit 6 and charged to the battery 5.
[0126]
Thereby, even when the remaining amount of the battery 5 is equal to or less than the remaining amount at which the main apparatus power-on unit 30b can operate normally, the voltage of the battery 5 is maintained by being charged by the sub charging circuit 6, There is no problem in the communication operation of the facsimile unit 30a. Further, as in the third embodiment, the commercial AC power supply 3 is connected to the main apparatus power supply 31 when the remaining capacity of the battery 5 is equal to or less than the remaining capacity at which the main apparatus power input unit 30b can operate normally. Therefore, the power consumed by the facsimile machine 30 during standby is further reduced.
[0127]
Next, a sixth embodiment of the present invention will be described with reference to FIG. In the figure, the difference from FIG. 8 which is a block diagram of the facsimile machine 30 of the fifth embodiment is that not only the commercial AC power source 3 but also the solar cell 7 is connected to the sub-charging circuit 6. The power generation amount of the solar cell 7 is detected as a change in the voltage generated, A / D converted, and provided with a power generation amount detection unit 43 for input to the system control unit 4.
[0128]
Further, the sub-charging circuit 6 switches the power of a predetermined voltage obtained by converting the power from the commercial AC power supply 3 or the power generated by the solar battery 7 and supplies it to the battery 5 as charging power, or the battery The supply of charging power to 5 is stopped, and the switching and stopping of the supply power is performed by an instruction from the sub-control unit 42.
[0129]
Regarding the charging control procedure by the sub-control unit 42 in the main apparatus power-on unit 30b of the facsimile apparatus 30 of the sixth embodiment configured as described above, the system control unit 4 in the power-on apparatus 1 of the third embodiment described above. This will be described with reference to the flowchart of FIG.
[0130]
In the figure, the sub-control unit 42 monitors the output from the remaining amount detection unit 8, and whether the remaining amount of the battery 5 is equal to or greater than a predetermined amount that can stably operate the main apparatus power-on unit 30b. Is checked (decision 101). If it is equal to or greater than the predetermined amount (Yes in judgment 101), if charging power is supplied to the battery 5 of the sub-charging circuit 6, it is stopped (process 102), and if the output of OUT3 is ON Then, the auxiliary charging circuit 6 is disconnected from the commercial AC power supply 3 by turning it off and opening the relay 21 (process 103), and the process returns to the determination 101, and the output of the remaining amount detection unit 8 is monitored again.
[0131]
A state in which a series of processing loops of the above-described determination 101 Yes, processing 102, processing 103, and determination 101 is being executed is a state in which charging from the outside is unnecessary because the remaining amount of the battery 5 is greater than or equal to a predetermined amount. . Therefore, by disconnecting the sub charging circuit 6 from the commercial AC power source 3 in the process 103, even if the charging output is stopped, the sub charging circuit 6 cannot be made zero at all as long as the commercial AC power source 3 is connected. The power consumed can be reduced to zero.
[0132]
When the remaining amount of the battery 5 is not equal to or greater than a predetermined amount that can stably operate the main apparatus charging unit 30b (No in the determination 101), that is, when the battery 5 needs to be charged, first, the power generation The output from the amount detector 43 is monitored to check whether the amount of power generated by the solar cell 7 is equal to or greater than a predetermined amount (determination 104). That is, it is examined whether the amount of power generated by the solar battery 7 is sufficient to supply the battery 5 with electric power that is higher than the electric power that the battery 5 must supply to each part of the main apparatus power-on unit 30b.
[0133]
When the power generation amount of the solar cell 7 is equal to or greater than the predetermined amount (Yes in judgment 104), the output of the charging power of the sub charging circuit 6 is switched to the power generated by the solar cell 7 and the supply to the battery 5 is started. (Process 105). Thereby, if the power generation amount of the solar cell 7 is equal to or greater than a predetermined amount, the battery 5 is supplied with the power generated by the solar cell 7, and the remaining amount of the battery 5 gradually increases. After the process 105, the process returns to the determination 101 again, and the output of the remaining amount detection unit 8 is monitored. In this case, when the remaining amount of the battery 5 is recovered by charging with the solar battery 7, a series of processing loops of Yes of the determination 101, the process 102, the process 103, and the determination 101 are executed again.
[0134]
When the power generation amount of the solar cell 7 is not equal to or greater than the predetermined amount (No in the determination 104), the output of OUT3 is turned on to close the relay 21, thereby connecting the sub charging circuit 6 to the commercial AC power source 3. (Process 106). Then, the output of the charging power of the sub charging circuit 6 is switched to the power of a predetermined voltage obtained by converting the power of the commercial AC power supply, and the supply to the battery 5 is started (processing 107). As a result, even when the amount of power generated by the solar battery 7 is reduced to a predetermined amount or less due to the amount of light incident on the solar battery 7 being reduced due to darkening of the room, the battery 5 is charged, and the main apparatus charging unit 30b. Will not interfere with the operation.
[0135]
After executing the process 107, after waiting for a predetermined time (process 108), the process returns to the determination 101 again, and the output of the remaining amount detection unit 8 is monitored.
[0136]
In this case, if the process 108 is executed and the process returns to the decision 101 immediately after the execution of the process 107, the battery 5 does not return immediately to the decision 101 after the execution of the process 107. Since the battery 5 is charged only for a short period from time to time 101, the time when the remaining amount of the battery 5 is equal to or greater than the predetermined amount lasts only for a short time. The processing loop also lasts for only a short time, and the determination result of determination 101 becomes No immediately. Then, determination 104 is executed again. When this determination 104 is executed, since only a short time has passed since the determination 104 was executed immediately before, it is highly possible that the power generation amount of the solar cell 7 has not recovered to a predetermined amount or more. Therefore, the determination result of determination 104 is likely to be No, and the processing subsequent to processing 106 is executed again.
[0137]
That is, an abnormal operation in which the relay 21 is turned on by the process 106 and the relay 21 is turned off by the process 103 is repeated in a short cycle, and the life of the relay 21 may be significantly shortened.
[0138]
However, in the present embodiment, after the process 107 is executed, the process 108 is executed without immediately returning to the determination 101. Therefore, for example, the battery 5 is connected to the commercial AC by waiting for a predetermined time set to about 1 minute. The battery is charged by the power of the power source 3 and the remaining amount is recovered enough to exceed a predetermined amount. Accordingly, a series of processing loops of determination 101 Yes, processing 102, processing 103, and determination 101 continues for a long time, and during that time, the power generation amount of the solar cell 7 is highly likely to have recovered to a predetermined amount or more. There is little possibility that the execution result of No. 104 will be No.
[0139]
Accordingly, the relay 21 is turned on by the process 106 and the relay 21 is turned off by the process 103 is not repeated in a short cycle, and the life of the relay 21 can be extended.
[0140]
Thus, according to the sixth embodiment, by charging the battery 5 with the solar battery 7, the main apparatus power-on unit 30b can be operated at a low cost. In addition, when the power generation amount of the solar cell 7 is not sufficient, the battery 5 is charged using the power of the commercial AC power supply 3, so that even if the amount of light incident on the solar cell 7 decreases and the power generation amount decreases, the battery 5 can be maintained, and the operation of the main apparatus power-on unit 30b can be stabilized. Therefore, it is possible to prevent the facsimile unit 30a from becoming inoperable. Moreover, even if the capacity of the battery 5 and the solar battery 7 is suppressed, the operation of the main apparatus power-on unit 30b can be stabilized, so that the apparatus cost can be reduced. In addition, since a predetermined standby time is provided between the start of charging of the battery 5 using the power of the commercial AC power supply 3 and the determination of checking the remaining amount of the battery 5, the relay 21 may be burdened. Absent.
[0141]
Next, a seventh embodiment of the present invention will be described with reference to FIG. In the figure, the difference from FIG. 6 which is a block diagram of the facsimile machine 30 of the fourth embodiment is that the solar battery 7 and the auxiliary charging circuit 6 are not provided, and that the main apparatus power supply 31 is supplied with power from the power supply. Is provided with a main charging circuit 31a which is a main battery charging means for charging the battery 5 by converting the voltage into a predetermined charging voltage.
[0142]
In the facsimile apparatus 30 of the seventh embodiment configured as described above, when the commercial AC power supply 3 is not connected to the main apparatus power supply 31, the remaining amount detection unit 8 serving as the remaining amount detection means causes the battery 5 When it is detected that the remaining amount is equal to or less than the predetermined amount, the sub control unit 42 turns ON the output of OUT1 for a short time, and causes a current to flow through the set coil 17 for a short time. Thereby, the commercial AC power source 3 is connected to the main apparatus power source 31, and the commercial AC power source 3 is connected to the main charging circuit 31a. Therefore, the electric power from the commercial AC power source 3 is converted into a predetermined charging voltage by the main charging circuit 6 and charged to the battery 5.
[0143]
Thereby, even when the remaining amount of the battery 5 is equal to or less than the remaining amount at which the main apparatus power-on unit 30b can operate normally, the voltage of the battery 5 is maintained by being charged by the main charging circuit 31a, There is no problem in the communication operation of the facsimile unit 30a. Further, since the main apparatus power supply 31 includes the main charging circuit 31a, it is not necessary to provide the sub-charging circuit 6 separately from the main apparatus power supply 31 as in the facsimile apparatus 30 of the fifth embodiment, and the cost is reduced.
[0144]
【The invention's effect】
According to the first aspect of the present invention, the power supply terminal is connected to the power source when a call signal of the line is detected at the time of reception or the like, and then when the end of communication is detected, the power Since the supply terminal is disconnected from the power source, the power consumed by the communication terminal device can be greatly reduced when the communication terminal device is not in use during reception standby. Further, by connecting to an existing communication terminal device, a power-saving communication terminal device can be easily realized.
Also, Since the battery as the power source for operating the apparatus is charged by the solar battery, the battery is not consumed, and stable power can be supplied to the power-on device. In addition, when the amount of power generated by the solar cell is not sufficient, the battery is charged by the power of the power source, so that stable power can be supplied to the power-on device even when the amount of light incident on the solar cell is reduced. . Therefore, it is possible to stabilize the operation of the power-on device. In addition, since the operation of the power-on device can be stabilized even if the capacity of the battery and the solar battery is reduced, the device cost can be reduced. In addition, when charging of the battery with the power of the power source is started, the charging power on / off means is frequently repeatedly turned on / off in order to wait for a predetermined time without immediately checking the remaining amount of the battery. It is possible to prevent the operation from occurring and shorten the life of the apparatus.
[0145]
Claim 2 According to the invention, since the remaining amount detected by the remaining amount detecting means is displayed by the remaining amount displaying means, it is possible to easily grasp the remaining amount of the battery that is a power source for operating the device.
[0146]
Claim 3 According to the invention according to the above, when a call signal of the line is detected at the time of reception or the like, the main apparatus power supply is connected to the power supply. Since it is disconnected from the power source, the power consumed by the communication terminal device when the communication terminal device is not in use during reception standby can be greatly reduced.
Also, Since a battery is used as the auxiliary device power supply, the cost required for the auxiliary device power supply can be reduced, and when the battery is exhausted, it can be promptly replaced with a new battery.
Also, Since the battery as the auxiliary device power supply is charged by the solar battery, the battery is not consumed, and stable power can be supplied to the main device power-on unit. In addition, when the amount of power generated by the solar battery is not sufficient, the battery is charged by the power of the power source, so even when the amount of light incident on the solar battery is reduced, stable power is supplied to the main unit power-on unit. Can do. Therefore, it is possible to stabilize the operation of the main apparatus power-on unit. Moreover, even if the capacity of the battery and the solar battery is reduced, the operation of the main apparatus power-on unit can be stabilized, so that the apparatus cost can be reduced. In addition, when charging of the battery by the power of the power source is started, the sub-charging power on / off means is frequently turned on / off frequently to wait for a predetermined time without immediately checking the remaining amount of the battery. Abnormal operation does not occur and the life of the apparatus can be prevented from being shortened.
[0147]
Claim 4 According to the invention, the remaining battery level detected by the remaining level detection unit is displayed by the remaining level display unit. Therefore, it is possible to easily grasp the remaining amount of the battery serving as the auxiliary device power source, and it is possible to easily know the time for battery replacement.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of a communication terminal device power-on device according to a first embodiment of the present invention and a part of a configuration of a facsimile machine connected to the communication terminal device power-on device.
FIG. 2 is an external perspective view of a power-on device for a communication terminal device according to a first embodiment of the present invention.
FIG. 3 is a diagram illustrating a configuration of a communication terminal device power-on device according to a second embodiment of the present invention and a part of a configuration of a facsimile machine connected to the communication terminal device power-on device.
FIG. 4 is a diagram illustrating a configuration of a communication terminal device power-on device according to a third embodiment of the present invention and a part of a configuration of a facsimile machine connected to the communication terminal device power-on device.
FIG. 5 is a flowchart showing a charging control procedure in the communication terminal apparatus power-on device according to the third embodiment of the present invention and a charging control procedure in the communication terminal apparatus according to the sixth embodiment;
FIG. 6 is a diagram showing a configuration of a facsimile apparatus according to a fourth embodiment of the present invention.
FIG. 7 is an external perspective view of a facsimile apparatus according to a fourth embodiment of the present invention.
FIG. 8 is a diagram showing a configuration of a facsimile apparatus according to a fifth embodiment of the present invention.
FIG. 9 is a diagram showing a configuration of a facsimile apparatus according to a sixth embodiment of the present invention.
FIG. 10 is a diagram showing a configuration of a facsimile apparatus according to a seventh embodiment of the present invention.
[Explanation of symbols]
1. Power-on device for communication terminal device
2, line
3. Commercial AC power supply
4. System control unit
5. Battery
6. Charging circuit, sub-charging circuit
7. Solar cell
8, remaining amount detection unit
9, remaining amount display
10. Call signal detection unit
11. Current detector
12. Memory detector
12a, photoelectric conversion element
13. Operator detection unit
13a, operator detection sensor
14. Power supply terminal
15. Line connection terminal
16, 2-winding latching relay
17, Set coil
18. Reset coil
19, 23, relay switch
20, switch
21, Relay
22, coil
24, document detection unit
30, facsimile machine
30a, facsimile part
30b, main unit power-on section
31, device power supply, main device power supply
32, NCU
33. Receiving memory
33a, indicator
34, scanner
35, plotter
36, modem
37, operation unit
38, display part
39, system memory
40, main control unit
41, system bus
42, sub-control unit
43, power generation amount detection unit

Claims (4)

A power supply terminal for connecting the communication terminal device to a power source, a line connection terminal for connecting the communication terminal device to a line, a call signal detecting means for detecting a call signal of the line, and communication of the line A communication end detecting means for detecting the end, and interposed between the power source and the power supply terminal, and if the call signal is detected by the call signal detecting means, the power supply terminal is connected to the power supply terminal; if it is detected termination of communications by the communication end detection unit, the power supply terminal a communication terminal device for a power-on device that includes a power on-off means for disconnecting from said power source,
While using a battery as a power source for operating the device,
A remaining amount detecting means for detecting the remaining amount of the battery, a solar battery, a power generation amount detecting means for detecting the power generation amount of the solar battery, and a predetermined voltage power obtained by converting the power from the power source or the The power generated by the solar battery is switched and supplied to the battery as charging power, or the battery charging means for stopping the supply of the charging power and the battery charging means are connected to the power source or disconnected from the power source. The output from the charging power on / off means and the remaining amount detecting means is monitored, and when the remaining amount of the battery detected by the remaining amount detecting means is a predetermined amount or more, the charging power from the battery charging means is In the case where the supply is stopped and the battery charging unit is disconnected from the power source by the charging power on / off unit, and the remaining amount of the battery detected by the remaining amount detecting unit is a predetermined amount or less, the power generation amount When the power generation amount of the solar battery detected by the output means is equal to or greater than a predetermined amount, the charging power supplied by the battery charging means is switched to the power generated by the solar battery and detected by the power generation amount detection means When the power generation amount of the solar battery is equal to or less than a predetermined amount, the battery charging means is connected to the power source by the charging power on / off means, and the charging power supplied from the battery charging means is converted from the power from the power source. And a charge control means for monitoring the output from the remaining amount detecting means again after each of the processes. that communication terminal apparatus power source is turned device. The power-on device for a communication terminal device according to claim 1 , further comprising: a remaining amount display unit that displays a remaining amount detected by the remaining amount detecting unit. A main unit power source that converts power supplied from the power source into an appropriate voltage and supplies it to each part of the device, and a main control unit that receives power from the main unit power source and controls each part of the device, and is connected to the line In communication terminal devices used as
A call signal detecting means for detecting a call signal on the line; a communication end detecting means for detecting the end of communication on the line; and a power supply and a power supply for the main unit. If a signal is detected, the power supply is connected to the main apparatus power supply. After that, if the communication end detection means detects the end of communication, the main apparatus power supply is disconnected from the power supply on / off means. While comprising a main device power-on unit configured and controlled by a sub-control unit different from the main control unit,
The main device power-on part, and the main apparatus power supply is intended to operate in a different sub-unit power addition,
Using a battery as the auxiliary device power supply ,
The main device power-on unit converts remaining power detecting means for detecting the remaining amount of the battery, a solar battery, a power generation amount detecting means for detecting the power generation amount of the solar battery, and converting power from the power source. The obtained predetermined voltage power or the power generated by the solar battery is switched and supplied to the battery as charging power, or the sub battery charging means for stopping the supply of the charging power and the sub battery charging means are When the output of the sub-charge power supply on / off means for connecting to or disconnecting from the power supply and the remaining amount detecting means is monitored, and the remaining amount of the battery detected by the remaining amount detecting means is greater than or equal to a predetermined amount The supply of charging power from the secondary battery charging means is stopped, the secondary battery charging means is disconnected from the power source by the secondary charging power on / off means, and the remaining battery level detected by the remaining battery detection means But When the amount of power generation of the solar battery detected by the power generation amount detection means is equal to or greater than a predetermined amount in the case of the fixed amount or less, the charging power supplied by the sub battery charging means is switched to the power generated by the solar battery. When the power generation amount of the solar cell detected by the power generation amount detection means is less than or equal to a predetermined amount, the sub battery charging means is connected to the power source by the sub charging power on / off means and the sub battery charging means The charging power supplied from the power source is switched to the power of a predetermined voltage obtained by converting the power from the power source, and the state is maintained for a predetermined time, and the output from the remaining amount detecting means is monitored again after each processing. communication terminal device characterized by comprising a charging control unit. 4. The communication terminal apparatus according to claim 3 , wherein the main device power-on unit includes a remaining amount display unit that displays a remaining amount detected by the remaining amount detecting unit.

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