JP3925399B2 - Abnormality notification system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an abnormality notification system used in an apartment house or an office building.
[0002]
[Prior art]
Conventionally, in apartment houses and office buildings, terminal devices are installed in each dwelling unit or tenant, and terminal devices are connected to the center device via signal lines. An anomaly notification system that performs simultaneous broadcasting to terminal devices is used. An example of an abnormality notification system used in an apartment is shown in FIG. In the illustrated example, a center device 1 installed in a manager's room, etc., a lobby interphone 2 installed in a lobby of an apartment house, and a terminal device 3 installed in each dwelling unit are connected via a signal line L in a wired manner. Has been. Each terminal device 3 is installed in the room of each dwelling unit, and is connected to a doorphone sub-unit 4 for talking to a customer for each dwelling unit and an abnormality detection sensor 5 for detecting the presence or absence of an abnormality (for example, a fire) for each dwelling unit Is done. The terminal device 3 is also provided with an emergency button (not shown).
[0003]
The center device 1, lobby interphone 2, terminal device 3, and door phone sub unit 4 are provided with a voice call device for enabling a voice call. The lobby intercom 2 and the door phone slave unit 4 have a built-in television camera, and the center device 1 and the terminal device 3 have a built-in display unit that displays an image captured by the television camera. The center device 1 can communicate with the lobby interphone 2 and the terminal device 3, and the terminal device 3 can communicate with the lobby interphone 2 and the door phone sub unit 4 in addition to the center device 1. The image captured by the TV camera of the lobby interphone 2 can be displayed on the display unit of the center device 1 or the terminal device 3, and the image captured by the TV camera of the door phone slave unit 4 can be displayed on the display unit of the terminal device 3. It has become. Further, an alarm signal generated by operating the abnormality detection sensor 5 or the emergency button is transferred from the terminal device 3 to the center device 1. Here, the signal line L includes an audio line La that transmits an audio signal during a voice call, a video line Lb that transmits a video signal for video display, an alarm line Lc that transmits an alarm signal, and a center device. 1 and a broadcast line Ld dedicated to the broadcast to the terminal device 3. The audio line La, the video line Lb, the alarm line Lc, and the broadcast line Ld are all pair lines, and the signal line L includes four pairs of lines.
[0004]
As described above, when four pairs of wire lines are used as the signal line L, there is a problem that the possibility of erroneous connection is increased when the signal line L is connected to the center device 1, the lobby intercom 2, and the terminal device 3. . In general, a cable in which four pairs of wires are housed in a common sheath is provided. However, since the above-described abnormality notification system already uses four pairs of wires, a new function such as data communication is provided. If it is going to be added, wiring different from the existing signal line is needed, and there is a problem that it is difficult to expand the function using the existing signal line.
[0005]
On the other hand, although there is no path for transmitting a video signal, the center apparatus 1 and the terminal apparatus 3 are connected by a multiplex transmission line for transmitting a fire signal or the like and a voice control line for transmitting a voice message. Has been proposed (see, for example, Patent Document 1).
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-213276 (page 3, FIG. 1)
[0007]
[Problems to be solved by the invention]
Since the technique described in Patent Document 1 uses multiple transmission lines for transmitting digital signals, the number of lines can be reduced by signal multiplexing. Further, Patent Document 1 describes securing a power source for a fire alarm facility system by not backing up the power source to the facility control device system at the time of a power failure.
[0008]
However, since an emergency power supply device that supplies power in the event of a power failure has a relatively small capacity, it cannot supply power for a long time, and further reduction of power consumption is required.
[0009]
The present invention has been made in view of the above reasons, and its purpose is to provide an abnormality notification system that extends the time during which power can be supplied from an emergency power supply device by reducing power consumption during a power failure. It is to provide.
[0010]
[Means for Solving the Problems]
According to the first aspect of the present invention, a terminal device connected to an abnormality detection sensor that is installed in each of the plurality of dwelling units and detects an abnormality in the dwelling unit, and the terminal device can transmit a data transmission line capable of transmitting voice data and a control signal. A center unit connected via a control line and an emergency power supply unit that supplies power to at least the terminal unit and the center unit in the event of a power failure. An abnormality occurs from the terminal unit via the control line when an abnormality is detected by the abnormality detection sensor. Is transmitted to the terminal device from the center device to the terminal device, and a voice message corresponding to the voice data is transmitted from the terminal device. The first storage unit that stores the audio data corresponding to, and when the occurrence of an abnormality is notified from the terminal device, the audio data from the first storage unit And a first control unit that outputs the data to the data transmission line as a packet, and the terminal device notifies the center device through the control line when an abnormality is detected by the abnormality detection sensor and transmits the data from the center device through the data transmission line. Stored in the second storage unit, the second control unit for unpacketizing the voice data, the second storage unit for storing the voice data unpacketized in the second control unit in the event of a power failure, and the second storage unit A voice processing unit that converts all the voice data into a voice message. At the time of a power failure, at least one of the transmission speed of the data transmission line and the processing speed of the second control unit is reduced as compared with that at the time of a non-power failure It is characterized by that.
[0012]
According to the second aspect of the present invention, a terminal device installed in each of a plurality of dwelling units and connected to an abnormality detection sensor that detects an abnormality in the dwelling unit, and the terminal device can transmit a data transmission line capable of transmitting audio data and a control signal. A center unit connected via a control line and an emergency power supply unit that supplies power to at least the terminal unit and the center unit in the event of a power failure. An abnormality occurs from the terminal unit via the control line when an abnormality is detected by the abnormality detection sensor. Is transmitted to the terminal device from the center device to the terminal device, and a voice message corresponding to the voice data is transmitted from the terminal device. The first storage unit that stores the audio data corresponding to, and when the occurrence of an abnormality is notified from the terminal device, the audio data from the first storage unit And a first control unit that outputs the data to the data transmission line as a packet, and the terminal device notifies the center device through the control line when an abnormality is detected by the abnormality detection sensor and transmits the data from the center device through the data transmission line. Stored in the second storage unit, the second control unit for unpacketizing the voice data, the second storage unit for storing the voice data unpacketized in the second control unit in the event of a power failure, and the second storage unit A voice processing unit for converting all of the voice data into a voice message, Terminal device Is the first Provided with a voice output means for sending a voice message corresponding to the voice data stored in the storage unit 2 at the time of a power failure The Device De While audio data is being transmitted through the data transmission line On the second The second control unit supplies power to the second control unit and stops the power supply to the audio output unit, and stores a series of all audio data unpacketized by the second control unit in the second storage unit. The power supply to the unit is stopped and the sound output means is supplied with power.
[0015]
Claim 3 The invention is a terminal device connected to an abnormality detection sensor that is installed in each of a plurality of dwelling units and detects an abnormality in the dwelling unit, a data transmission line capable of transmitting audio data and a control line capable of transmitting a control signal to the terminal device, And an emergency power supply device that supplies power to at least the terminal device and the center device in the event of a power failure, and the abnormality is detected from the terminal device via the control line when the abnormality detection is detected by the abnormality detection sensor. Is transmitted to the terminal device from the center device and the voice message corresponding to the voice data is transmitted in the terminal device. The center device responds to the occurrence of the abnormality. A storage unit that stores audio data, and a first control unit that reads audio data from the storage unit when an abnormality is notified from the terminal device And a first switch element that forms a path for sending voice information corresponding to the voice data from the first control unit to the data transmission line when an abnormality occurrence is notified from the terminal device. A second control unit for notifying the center device via the control line when an abnormality is detected by the sensor; a voice processing unit for outputting a voice message by voice information transmitted from the center device through the data transmission line; and an abnormality by the abnormality detection sensor And a second switch element that forms a path directly connecting the data transmission line to the audio processing unit when occurrence is detected.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
(Embodiment 1)
In this embodiment, the example used for the apartment house is shown. As shown in FIG. 1, the abnormality notification system of the present embodiment includes a center device 1 installed in a manager's room R1, a lobby interphone 2 installed in a lobby R2 of an apartment house, and terminals installed in each dwelling unit R3. Device 3. Each terminal device 3 is connected to a door phone sub-unit 4 that can communicate with a visitor for each dwelling unit R3, and an abnormality detection sensor 5 that detects an abnormality such as a fire for each dwelling unit R3. The terminal device 3 is provided with a voice input / output unit 23 (see FIG. 2) including a microphone and a speaker in order to enable a hands-free call without using a handset. 6 is connectable.
[0017]
In this embodiment, a digital signal is transmitted among the center device 1, the lobby interphone 2, and the terminal device 3 via the data transmission line Lr and the control line Ls. The data transmission line Lr is a signal line used for data transmission and has a transmission speed larger than that of the control line Ls, and the control line Ls is used to transmit a control command. Center device 1, lobby interphone 2 and terminal device 3 are connected to hub 7 through data transmission lines Lr, respectively, and data transmission among center device 1, lobby interphone 2 and terminal device 3 is performed through hub 7. . On the other hand, the control line Ls is connected without using the hub 7. A repeater 8a installed on each floor of the apartment house is inserted between the terminal device 3 of each dwelling unit R3 and the hub 7 to connect the center device 1 and the lobby intercom 2 to the terminal device 3 of each dwelling unit R3. The repeater 8b installed for each floor of the housing complex is also inserted into the control line Ls. An emergency power supply line Lp is connected to the center device 1, the terminal device 3, the hub 7, and the relays 8a and 8b between the emergency power supply device 9, and power is supplied from the emergency power supply device 9 through the emergency power supply line Lp in the event of a power failure. It is like that. However, the emergency power line Lp is not connected to the lobby intercom 2, and the lobby intercom 2 cannot be used during a power failure.
[0018]
Addresses are set in the center device 1, the lobby interphone 2, and the terminal devices 3, respectively, and when performing data transmission using the data transmission line Lr, packets with addresses are transmitted. Data that can be transmitted through the data transmission line Lr includes audio data, video data, and broadcast data. These data will be described later.
[0019]
As shown in FIG. 2, the center apparatus 1 includes a data transmission interface 1a that connects the data transmission line Lr and a control signal interface 1b that connects the control line Ls. The data transmission interface 1a and the control signal interface 1b are connected to a control unit 10 which is a microcomputer (hereinafter abbreviated as “microcomputer”), and the control unit 10 processes and controls data transmitted through the data transmission line Lr. Processing is performed on the control signal transmitted through the line Ls. A storage unit 11 is connected to the control unit 10, and an area for storing audio data, video data, and addresses is provided in the storage unit 11. The storage unit 11 uses a nonvolatile memory such as an EEPROM so that the stored contents can be maintained even in the event of a power failure. Further, a display unit 12 capable of displaying an image is connected to the control unit 10 via a video processing unit 12a, and an audio input / output unit 13 capable of inputting / outputting a voice is connected via an audio processing unit 13a. Is done. The display unit 12 is a liquid crystal display or a CRT. The voice input / output unit 13 includes a speaker and a microphone. The speaker and the microphone are arranged so that they can be used hands-free without using a handset. An operation unit 14 including a switch group or a touch panel is also connected to the control unit 10. As shown in FIG. 2, the center device 1 may be provided with a switch element 15 that can directly connect the data transmission line Lr to the control unit 10 without going through the data transmission interface 1a in the case of simultaneous broadcasting. The function of each part of the center device 1 will be described later.
[0020]
On the other hand, as shown in FIG. 3, in addition to the data transmission line Lr and the control line Ls, the terminal device 3 can connect the door phone slave unit 4, the abnormality detection sensor 5, and the additional speaker 6 as external devices, A data transmission interface 3a for connecting the data transmission line Lr, a control signal interface 3b for connecting the control line Ls, a doorphone interface 3c for connecting the doorphone slave unit 4, a sensor interface 3d for connecting the abnormality detection sensor 5, and an additional speaker 6 are connected. The additional speaker interface 3e is provided. Each interface 3 a to 3 e is connected to the control unit 30. A storage unit 31 is connected to the control unit 10, and an area for storing audio data, addresses, and the like is provided in the storage unit 31. The storage unit 31 uses a nonvolatile memory such as an EEPROM so that the stored contents can be maintained even during a power failure. Further, a display unit 32 capable of displaying an image is connected to the control unit 30 via a video processing unit 32a, and an audio input / output unit 33 capable of inputting / outputting a voice is connected via an audio processing unit 33a. Is done. The configurations of the display unit 32 and the voice input / output unit 33 are the same as those of the center device 1. The control unit 30 is also connected to an operation unit 34 that includes a switch group or a touch panel and includes an emergency button. As shown in FIG. 3, the terminal device 3 may be provided with a switch element 35 that can directly connect the data transmission line Lr to the audio processing unit 33a without going through the data transmission interface 3a during simultaneous broadcasting. .
[0021]
The control unit 30 of the terminal device 3 supervises the internal processing of the terminal device 3 and includes a main processing unit 30a that performs data packet processing (packetization and unpacketization), and a sub-processing unit 30b that performs other processing. And different microcomputers are used for the main processing unit 30a and the sub-processing unit 30b. The sub processing unit 30b performs processing corresponding to the control signal transmitted through the control line Ls, the output of the abnormality detection sensor 5, the operation of the operation unit 34, and the like, and the load of the processing performed by the control unit 30 is small. Process. That is, the power consumption of the sub processor 30b is smaller than that of the main processor 30a.
[0022]
The doorphone sub unit 4 is assumed to be provided with a TV camera, and an audio signal is transmitted bidirectionally between the door phone sub unit 4 and the terminal device 3, and an image from the door phone sub unit 4 toward the terminal device 3 is displayed. A signal is transmitted. Since the audio signal and the video signal are analog signals, the door phone interface 3c has functions of A / D conversion and D / A conversion in order to input the audio signal and the video signal to the control unit 30 via the door phone interface 3c. Prepare. Similarly, the extension speaker interface 3d has a D / A conversion function in order to transmit sound from the extension speaker 6 by data from the control unit 30.
[0023]
By the way, since the digital signal is transmitted through the data transmission line Lr among the center device 1, the lobby intercom 2, and the terminal device 3, the video is displayed on the display units 12 and 32, and the audio input / output units 13 and 33 are displayed. D / A conversion or A / D conversion is required to perform voice input / output. That is, the video processing units 12a and 32a have a function of D / A conversion for decoding video data from the control units 10 and 30 and converting the video data into analog signals and outputting them to the display units 12 and 32. The audio processing units 13a and 33a also decode the audio data from the control units 10 and 30, convert the analog data into analog signals, and send them to speakers provided in the audio input / output units 13 and 33. And an A / D conversion function that converts an analog signal from a microphone provided in the voice input / output units 13 and 33 into a digital signal, encodes the signal, and inputs the digital signal to the control units 10 and 30. Video data input to the video processing units 12a and 32a or audio data input to the audio processing units 13a and 33a in the center device 1 and the terminal device 3 are transmitted through the data transmission line Lr and are unpacketized in the control units 10 and 30. Video data or audio data stored in the storage units 11 and 31 is used in addition to the converted data.
[0024]
Below, the specific operation | movement by the structure mentioned above is demonstrated. Here, it is assumed that the abnormality detection sensor 5 is a fire detector, a fire is detected by the fire detector 5 installed in one of the dwelling units, and a power outage occurs. Assuming that a fire is detected by the fire detector 5, the terminal device 3 notifies the sub-processing unit 30 b of the control unit 30 through the sensor interface 3 d, and the sub-processing unit 30 b generates a fire due to an input from the fire detector 5. After determining that there is a fire, the control signal interface 3b sends a control signal for notifying the fire to the control line Ls with the center device 1 as the notification destination. As a process for determining the occurrence of a fire in response to an input from the fire detector 5, the fire detector 5 is temporarily reset with respect to the first input indicating the occurrence of a fire from the fire detector 5, and a predetermined value is determined from the input indicating the occurrence of a fire. After the predetermined time elapses, a process is adopted in which it is determined that a fire has occurred when an input indicating the occurrence of a fire is still being output from the fire detector 5.
[0025]
When the center device 1 receives a control signal notifying the occurrence of a fire from the terminal device 3 through the control signal interface 1b, the control unit 10 reads out the audio data corresponding to the occurrence of the fire stored in the storage unit 11, and this audio data is read out. The voice message is transmitted from the voice input / output unit 13 to the voice processing unit 13a.
[0026]
In the present embodiment, not only the voice data read from the storage unit 11 in the center device 1 is transferred to the voice processing unit 13a but also packetized in the control unit 10 and voiced to the data transmission line Lr via the data transmission interface 1a. Send data. The notification destination of the audio data sent to the data transmission line Lr is the terminal device 3 that has notified the occurrence of the fire. In the terminal device 3, the main processing unit 30a unpackets the audio data received through the data transmission interface 3a. Stored in the storage unit 31. Here, if large audio data is transmitted from the center device 1 to the terminal device 3 at once, the load for unpacketization becomes large and high throughput is required for the main processing unit 30a. Divided into packets and transmitted. In this case, by storing and storing the audio data in the storage unit 31, it is possible to collect the audio data necessary for reconstructing the audio data finally in the storage unit 31. When all the series of audio data from the center device 1 is accumulated in the storage unit 31, the sub-processing unit 30b converts the audio data accumulated in the storage unit 31 into the audio processing unit 33a, the door phone interface 3c, and the additional speaker interface. 3e, and a voice message is transmitted from the voice input / output unit 33, the door phone slave unit 4, and the additional speaker 6. That is, the door phone sub unit 4 and the additional speaker function as voice output means attached to the terminal device 3 and outputting a voice message.
[0027]
In the present embodiment, since voice data is transmitted by packets when transferring from the center apparatus 1 to the terminal apparatus 3, it is assumed that the transmission speed of the data transmission line Lr is reduced in order to reduce power consumption during a power failure. Also, the voice data can be transferred from the center device 1 to the terminal device 3. That is, it is possible to reduce the processing speed of the main processing unit 30a performing the unpacketization process in the terminal device 3 as compared with the normal time (non-power failure), and the data transmission line Lr is used during the power failure. However, it is possible to reduce the power consumption by lowering the transmission speed and lowering the processing speed of the main processing unit 30a than when there is no power failure, and for a relatively long time from the emergency power supply device 9. It becomes possible to supply power. Note that the timing at which the processing speed of the main processing unit 30a and the transmission speed of the data transmission line Lr (controlled by the data transmission interfaces 1a and 3a) are reduced is the time when a power failure is detected or the output of the fire detector 5 What is necessary is just to be the time when occurrence is confirmed.
[0028]
In the present embodiment, information can be transmitted between the center device 1 and the terminal device 3 only by using two pairs of control lines Ls and data transmission lines Lr. Compared to the conventional equipment that required the use of three pairs of lines, the number of lines is reduced.
[0029]
(Embodiment 2)
In the present embodiment, voice data is transferred from the center device 1 to the terminal device 3 as in the first embodiment. However, in the first embodiment, in order to reduce the power consumption at the time of a power failure than at the time of a non-power failure, the transmission speed of the data signal line Lr is decreased and the processing speed of the main processing unit 30a is decreased. In this embodiment, in order to reduce power consumption, the point which controls the power supply with respect to the door phone subunit 4 and the expansion speaker 6, and the power supply with respect to the main process part 30a is different. That is, in the present embodiment, power is supplied to the main processing unit 30a so as not to reduce the unpacketization processing speed while the main processing unit 30a performs unpacketization processing, and no operation is required at this time. The power supply to the parts related to the door phone slave unit 4 and the additional speaker 6 is stopped. On the other hand, after the unpacketization process is completed and the audio data is stored in the storage unit 31, the main processing unit 30a becomes unnecessary, so power supply to the main processing unit 30a is stopped, and the doorphone sub unit 4 and the extension are added. Electric power is supplied to the portion related to the speaker 6.
[0030]
This will be described in more detail. In this embodiment, when a fire occurrence is detected by the fire detector 5 and a power outage has occurred, the power supply to the parts related to the doorphone slave unit 4 and the additional speaker 6 is first performed when the power outage occurs or when the fire occurrence is confirmed. Stop supplying. Thereafter, when the sub-processing unit 30 determines the occurrence of a fire, the center device 1 is notified of the determination of the occurrence of a fire, and audio data from the center device 1 is received. The audio data is unpacketized in the main processing unit 30 a and stored in the storage unit 31. When the series of all the audio data is accumulated in the storage unit 31, the main processing unit 30a is not required. Therefore, when all the series of audio data is accumulated in the storage unit 31, power is supplied to the main processing unit 30a. Is stopped, and the power supply to the parts related to the doorphone slave unit 4 and the additional speaker 6 is resumed. The sub processing unit 30 b transfers the audio data stored in the storage unit 31 to the audio processing unit 33 a, the door phone slave unit 4, and the additional speaker 6. As described above, the voice message is transmitted from the door phone sub unit 4, the additional speaker 6, and the voice input / output unit 33. Other configurations and operations are the same as those of the first embodiment.
[0031]
In the configuration of the present embodiment, even when a fire occurrence is detected and a power failure occurs, the transmission speed of the data transmission line Lr does not change, and the processing of the center device 1 is the same as in the case of a non-power failure. Since the power consumption is reduced only by controlling the supply of power in the system, it can be easily realized without affecting other operation contents.
[0032]
(Embodiment 3)
In each of the above-described embodiments, the switch elements 15 and 35 are not used, but this embodiment shows an example in which the switch elements 15 and 35 are used. If both switch elements 15 and 35 are turned on, the control unit 10 of the center device 1 and the voice processing unit 33a of the terminal device 3 pass through the data transmission line Lr and the repeater 7a without passing through the data transmission interfaces 1a and 3a. Connected by route. That is, since the data transmission line Lr is directly connected to the audio processing unit 33a, the audio data can be directly transferred from the control unit 10 to the audio processing unit 33a without using a packet. As a result, if the same amount of audio data is transferred, the time required for transmission can be shortened compared to packetization.
[0033]
This will be described in more detail. Also in this embodiment, it is assumed that a power failure has occurred when the fire detector 5 detects the occurrence of a fire. When the sub-processing unit 30b determines that a fire has occurred, the terminal device 3 notifies the center device 1 of the occurrence of a fire via the control line Ls, and at this time, the sub-processing unit 30b turns on the switch element 35 at the same time. On the other hand, when the center device 1 receives a control signal for determining the occurrence of a fire from the terminal device 3, the control unit 10 turns on the switch element 15. That is, the control unit 10 of the center device 1 and the voice processing unit 33a of the terminal device 3 are connected through the switch elements 15 and 35 and the data transmission line Lr. Further, the audio data corresponding to the occurrence of the fire stored in the storage unit 11 is read out and transferred to the audio processing unit 13 a and the terminal device 3. Therefore, a voice message is transmitted from the voice input / output unit 13. In the terminal device 3, the voice processing unit 33 a receives voice data and sends a voice message from the voice input / output unit 33.
[0034]
As described above, since packetization is not performed when voice data is transferred from the center apparatus 1 to the terminal apparatus 3, the terminal apparatus 3 does not need to operate the main processing unit 30a and can reduce power consumption. . Other configurations and operations are the same as those of the first embodiment.
[0035]
By the way, in the above configuration, the voice data from the control unit 10 of the center device 1 is directly transmitted as voice information to the voice processing unit 33a of the terminal device 3 without being packetized, and D / A conversion is performed in the voice processing unit 33a. However, when the center device 1 is notified of the occurrence of a fire, the voice data read out from the storage unit 11 by the control unit 10 is D / A converted by the voice processing unit 13a, so that the center device 1 supports the voice data. An audio signal that is an analog signal to be generated may be generated, and this audio signal may be sent as audio information to the data transmission line Lr via the switch element 15. In this case, the voice processing unit 33a of the terminal device 3 gives the voice signal received from the data transmission line Lr via the switch element 35 to the voice input / output unit 33 as it is, and sends a voice message corresponding to the voice data.
[0036]
(Embodiment 4)
In each of the above-described embodiments, a configuration that reduces the power consumption of the terminal device 3 is adopted. However, this embodiment is intended to reduce the power consumption by controlling the power supply to the repeaters 8a and 8b. is there. That is, the center apparatus 1 can individually control the power supply to the repeaters 8a and 8b. That is, an address is given to each repeater 8a, 8b, and the power supply to the repeaters 8a, 8b can be controlled by designating the address from the center device 1.
[0037]
In the present embodiment, when the terminal apparatus 3 notifies the center apparatus 1 that the fire has been confirmed through the control line Ls in the same manner as in the first embodiment, the control section 10 reads out the voice data from the storage section 11 and plays the voice. The voice message is sent from the voice input / output unit 13 to the processing unit 13a. Further, the address of the terminal device 3 that has notified the occurrence of a fire is used to store the address of the repeaters 8a and 8b that are inserted in the path between the terminal device 3 that has notified the occurrence of a fire and the center device 1. 11 and gives an instruction to stop the operation to the other repeaters 8a and 8b. As a result, power supply to the intermediate devices 8a and 8b except for the repeaters 8a and 8b inserted between the center device 1 and the terminal device 3 is stopped, and the power supplied from the emergency power supply device 9 is reduced. be able to.
[0038]
After controlling the power supply of the repeaters 8a and 8b as described above, the control unit 10 of the center device 1 packetizes the voice data read from the storage unit 11, and sends the voice data to the terminal device 3 through the data transmission line Lr. Forward. The subsequent steps are the same as in the first embodiment, and the terminal device 3 unpacks the voice data and sends a voice message from the voice input / output unit 33, the door phone slave unit 4, and the additional speaker 6.
[0039]
In the present embodiment, since the power supply excluding the necessary repeaters 8a and 8b is stopped, the power consumption of the entire system is reduced, and the emergency power supply device 9 can be used for a relatively long time. . If the terminal device 3 uses the power obtained by stopping the power to the repeaters 8a and 8b, the operation of the main processing unit 30a can be continued as in the case of a non-power failure, and the processing speed is reduced. It is possible to shorten the time until the output of the voice message without using the first embodiment. Other configurations and operations are the same as those of the first embodiment.
[0040]
(Embodiment 5)
In each of the above-described embodiments, when the occurrence of a fire is confirmed, the control line Ls is used only for notification of the occurrence of a fire from the terminal device 3 to the center device 1. However, in the present embodiment, the center device 1 to the terminal device 3 are used. The control line Ls is also used for the control command for. That is, the present embodiment reduces power consumption by controlling the power supply to the main processing unit 30 a provided in the control unit 30 of the terminal device 3, and the main processing unit 30 a generates a fire by the fire sensor 5. Is detected, the center apparatus 1 instructs the main processing unit 30a to start when the main processing unit 30a needs to operate, and the main processing unit 30a is not required to operate. Then, the main processing unit 30a is stopped.
[0041]
This will be described more specifically. As in the above-described embodiments, it is assumed that a fire is detected by the fire detector 5 and a power failure occurs. In the terminal device 3, when a fire occurrence is notified by the fire detector 5, the sub-processing unit 30 b stops the operation of the main processing unit 30 a, and when the fire occurrence is confirmed thereafter, the center device 1 is notified of the fire occurrence confirmation. . When the center device 1 receives the control signal indicating the occurrence of the fire, the center device 1 reads the voice data from the storage unit 11 and gives it to the voice processing unit 13a, and sends the voice message from the voice input / output unit 13.
[0042]
Here, the control unit 10 of the center device 1 inquires of the control unit 30 of the terminal device 3 whether or not voice data can be received through the control line Ls. When the sub processing unit 30b provided in the control unit 30 of the terminal device 3 receives the inquiry control signal from the center device 1, the sub processing unit 30b resumes power supply to the main processing unit 30a and starts the main processing unit 30a. When the main processing unit 30a is activated in this way, the sub-processing unit 30b notifies the center device 1 that the audio data can be received through the control line Ls.
[0043]
Upon receiving a notification from the terminal device 3 that the voice data can be received, the center device 1 sends the packetized voice data to the data transmission line Lr, and the terminal device 3 unpacks the received voice data. Store in the storage unit 31. When all the series of audio data is transferred to the terminal device 3 and unpacketization is completed, the main processing unit 30a becomes unnecessary, and the main processing unit 30a operates after storing all the series of audio data in the storage unit 31. To stop. Thereafter, the sub processing unit 30b transfers the audio data from the storage unit 31 to the audio processing unit 33a, the door phone interface 1c, and the additional speaker interface 1e to send out an audio message.
[0044]
Other configurations and operations are the same as those in the first embodiment. In this embodiment, the main processing unit 30a is activated only during the unpacketization process, so that power consumption in the terminal device 3 can be reduced. The power can be supplied from the emergency power supply device 9 for a relatively long time.
[0045]
(Reference example)
In the above-described embodiment, the voice data is transferred from the center device 1 to the terminal device 3, but the voice data is not transferred from the center device 1, and both the center device 1 and the terminal device 3 have the voice data. By doing so, it is also possible to output voice messages individually by both the center device 1 and the terminal device 3. In this example, when power is supplied from the emergency power supply device 9 to the terminal device 3 due to a power failure, the control unit 30 stops the operation of the main processing unit 30a and operates only the sub-processing unit 30b. Is to be reduced. Therefore, at the time of a power failure, the operation of the main processing unit 30a of the terminal device 3 is stopped and packet processing cannot be performed.
[0046]
In this example, if a fire is detected by the fire detector 5, the terminal device 3 is notified to the sub-processing unit 30 b of the control unit 30 through the sensor interface 3 d, and the sub-processing unit 30 b receives an input from the fire detector 5. After determining whether or not a fire has occurred and confirming that a fire has occurred, voice data corresponding to the fire detector 5 stored in the storage unit 31 is read out. When a fire occurrence is confirmed in the terminal device 3, the terminal device 3 reads out voice data corresponding to the fire occurrence stored in the storage unit 31, and sends a voice message from the voice input / output unit 32 through the voice processing unit 32a. Let A voice message corresponding to the voice data read from the storage unit 31 is not only sent from the voice input / output unit 32, but also sent from the doorphone sub unit 4 and the additional speaker 6, and a fire occurs inside and outside the dwelling unit R3. Is notified by voice message. Furthermore, the sub-processing unit 30b refers to the address of the notification destination stored in the storage unit 31 when the occurrence of a fire is confirmed, thereby setting the notification destination as the center device 1, and sending a control signal notifying the occurrence of the fire to the control signal interface 3b. To the control line Ls.
[0047]
When the center device 1 receives a control signal for notifying the occurrence of a fire transmitted through the control line Ls by the control signal interface 1b, the control unit 10 reads out and reads out the sound data relating to the occurrence of the fire stored in the storage unit 11. The voice data is given to the voice processing unit 13a to send a voice message from the voice input / output unit 13. When the center device 1 is notified of the occurrence of a fire, the center device 1 performs a process corresponding to the fire notification by, for example, performing broadcast.
[0048]
As is clear from the above-described operation, when the fire occurrence is confirmed in the terminal device 3, the terminal device 3 only notifies the center device 1 of the fire occurrence by the control signal, and the center device 1 and the terminal device 3 Since the voice data is read from each of the storage units 11 and 31, and the voice message is sent out by the center device 1 and the terminal device 3, respectively, the fire is generated by using the low-speed control line Ls without using the data transmission line Lr in the event of a fire. Can be notified by voice message. Moreover, in this example, since the operation of the main processing unit 30a of the terminal device 3 is stopped at the time of a power failure, the power consumption at the time of the power failure can be reduced, and the power supply from the emergency power supply device 9 for a relatively long period of time. Can be supplied. Other configurations and operations are the same as those of the above-described embodiment.
[0049]
【The invention's effect】
Invention of Claim 1 According to the configuration of Since the packetized voice data is transferred from the printer device to the terminal device, the voice data is stored in the second storage unit provided in the terminal device, and a voice message is output when a series of all voice data is stored. In order to reduce power consumption, it is possible to transmit an accurate voice message from a terminal device even if the transmission speed of voice data is reduced or the processing speed of packet processing is reduced. That is, it is possible to reduce power consumption while allowing an accurate voice message to be transmitted from the terminal device, and it is possible to supply power from the emergency power supply device for a relatively long time.
[0050]
Moreover, During a power failure De Data transmission line transmission speed And second Since at least one of the processing speeds of the control unit 2 is reduced as compared with the time of non-power failure, power consumption is reduced. One layer Can be reduced.
[0051]
According to the configuration of the second aspect of the invention, the packetized voice data is transferred from the center device to the terminal device, and is stored in the second storage unit provided in the terminal device. When stored, a voice message is output. To reduce power consumption, even if the transmission speed of voice data is reduced or the processing speed of packet processing is reduced, an accurate voice message is sent from the terminal device. It is possible. That is, it is possible to reduce the power consumption while allowing an accurate voice message to be transmitted from the terminal device, and it is possible to supply power from the emergency power supply device for a relatively long time. And sound Power consumption is reduced by stopping power supply during a period when no operation is required for one of the voice output means and the second control unit. One layer Can be reduced.
[0054]
Claim 3 Invention According to the configuration of It is possible to reduce power consumption because packet processing is not performed when audio data is transmitted from the terminal device to the terminal device.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an embodiment of the present invention.
FIG. 2 is a block diagram showing a center device used in the above.
FIG. 3 is a block diagram showing a terminal device used in the above.
FIG. 4 is a schematic configuration diagram showing a conventional example.
[Explanation of symbols]
1 Center device
3 Terminal equipment
4 Doorphone handset
5 Anomaly detection sensor
6 Additional speakers
8a, 8b repeater
9 Emergency power supply
10 Control unit
11 Memory unit
15 Switch element
30 Control unit
30a Main processing part
30b Sub-processing section
31 Memory unit
33a Audio processing unit
35 switch elements
Lr data transmission line
Ls control line
R3 dwelling unit

Claims (3)

A terminal device installed in each dwelling unit and connected to an anomaly detection sensor that detects an anomaly in the dwelling unit is connected to the terminal device via a data transmission line capable of transmitting voice data and a control line capable of transmitting a control signal. And the emergency power supply device that feeds power to at least the terminal device and the center device in the event of a power failure, and the occurrence of an abnormality is notified from the terminal device to the center device via the control line when the abnormality detection is detected by the abnormality detection sensor, An abnormality notification system in which voice data corresponding to occurrence of an abnormality is transferred from a center device to a terminal device, and a voice message corresponding to the voice data is transmitted in the terminal device, the center device storing voice data corresponding to the occurrence of the abnormality When the occurrence of abnormality is notified from the first storage unit and the terminal device, the voice data is read from the first storage unit and packetized And a first control unit that sends the data to the data transmission line, and the terminal device notifies the center device through the control line when the abnormality detection is detected by the abnormality detection sensor and transmits the voice data transmitted from the center device through the data transmission line. A second control unit for unpacketizing, a second storage unit for storing voice data unpacketized in the second control unit at the time of a power failure, and a series of all stored in the second storage unit And a voice processing unit that converts the voice data into a voice message, and at the time of a power failure, at least one of a transmission speed of the data transmission line and a processing speed of the second control unit is reduced as compared with a non-power failure time. Anomaly notification system. A terminal device installed in each dwelling unit and connected to an anomaly detection sensor that detects an anomaly in the dwelling unit is connected to the terminal device via a data transmission line capable of transmitting voice data and a control line capable of transmitting a control signal. And the emergency power supply device that feeds power to at least the terminal device and the center device in the event of a power failure, and the occurrence of an abnormality is notified from the terminal device to the center device via the control line when the abnormality detection is detected by the abnormality detection sensor, An abnormality notification system in which voice data corresponding to occurrence of an abnormality is transferred from a center device to a terminal device, and a voice message corresponding to the voice data is transmitted in the terminal device, the center device storing voice data corresponding to the occurrence of the abnormality When the occurrence of abnormality is notified from the first storage unit and the terminal device, the voice data is read from the first storage unit and packetized. And a first control unit that sends the data to the data transmission line, and the terminal device notifies the center device through the control line when the abnormality detection is detected by the abnormality detection sensor and transmits the voice data transmitted from the center device through the data transmission line. A second control unit for unpacketizing, a second storage unit for storing voice data unpacketized in the second control unit at the time of a power failure, and a series of all stored in the second storage unit And a voice processing unit for converting the voice data into a voice message. The terminal device includes voice output means for sending a voice message corresponding to the voice data stored in the second storage unit. While the audio data is being transmitted through the data transmission line, power is supplied to the second control unit and power supply to the audio output means is stopped, and the second control unit Abnormal notification system that is characterized in that the feed to the audio output means with a series of all audio data down packetized to stop power supply to the second control unit after being stored in the second storage unit . A terminal device installed in each dwelling unit and connected to an anomaly detection sensor that detects an anomaly in the dwelling unit is connected to the terminal device via a data transmission line capable of transmitting voice data and a control line capable of transmitting a control signal. And the emergency power supply device that feeds power to at least the terminal device and the center device in the event of a power failure, and the occurrence of an abnormality is notified from the terminal device to the center device via the control line when the abnormality detection is detected by the abnormality detection sensor, An abnormality notification system in which voice data corresponding to occurrence of an abnormality is transferred from a center device to a terminal device, and a voice message corresponding to the voice data is transmitted in the terminal device, the center device storing voice data corresponding to the occurrence of the abnormality A storage unit, a first control unit that reads audio data from the storage unit when an abnormality is notified from the terminal device, and a terminal device And a first switch element that forms a path for sending voice information corresponding to the voice data from the first control unit to the data transmission line when the occurrence of the abnormality is notified from the terminal device. Detection of occurrence of abnormality by second control unit for notifying center device through control line at occurrence detection, voice processing unit for outputting voice message by voice information transmitted from center device through data transmission line, and abnormality detection sensor abnormal notification system you anda second switch elements forming a path for directly coupled to the audio processing unit a data transmission line when.

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