JP3622496B2 - Living information monitoring system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a living information monitoring system applied to an apartment house including a dwelling unit where an elderly person or the like lives.
[0002]
[Prior art]
Living information monitoring systems have been introduced in apartment buildings for elderly people (silver condominiums) to detect early deaths and sick people living alone due to unexpected illnesses or accidents in the dwelling units. Yes.
FIG. 10 is a diagram showing the configuration of the life information monitoring system.
[0003]
Each dwelling unit is provided with a dwelling unit control panel 101 (life information monitoring panel), and is connected to a housing information panel 102 installed in the same dwelling unit via a signal line La. In addition, an automatic reporting device 105 is connected to report a life abnormality through the telephone line L101.
The control panel 101 for dwelling units is built in the distribution board, and includes a call push button b1 with a cancel button, a nigiri call push button b2, a call cancel button b3, etc. A sensor such as a water amount sensor S is connected to detect abnormal life. Further, a corridor warning indicator lamp l is connected to display an alarm in the corridor that an abnormality has occurred, and an occupancy management lock J and an occupancy setting button b4 are connected, and in conjunction therewith, Life abnormalities are monitored only in the room.
[0004]
Here, in addition to the water volume sensor S that detects the usage state of toilet water, etc., the human body detection sensor that detects the movement of the human body in each dwelling unit using infrared rays, etc. There are gas usage sensors to detect, electricity usage sensors to detect electricity usage, and the like.
For example, the control panel 101 for the dwelling unit does not detect that the water amount sensor S has used the water in the flush toilet for a predetermined time (for example, 12 hours) or the human body detection sensor does not exist for a predetermined time. When the movement of the human body in the room is not detected, it is determined that an abnormality has occurred in the person in the dwelling unit, and the automatic reporter 105 sends a preset external report destination (for example, via the telephone line L101). , Security companies, fire departments, etc.) automatically and report that an abnormality has occurred. Further, an alarm is output from the house information panel 102 by a contact output through the signal line La, and further, an alarm is output from the door phone slave unit D installed at the entrance via the house monitoring panel 102.
[0005]
Moreover, since the housing information panel 102 of each dwelling unit is connected to the monitoring panel 103 installed in the manager room (LSA room) or the like via the multiplex transmission line L100, an abnormality occurrence signal is transmitted from the dwelling unit control panel 101. If it receives, the emergency signal is transmitted through the multiplex transmission line L100.
The housing information panel 102 monitors security information such as fire in the dwelling unit, makes an interphone call with the door phone slave unit D, and is connected to the monitoring panel 103 and the monitoring panel 103 via the call signal line L101. A call with the lobby intercom 104 is made possible.
[0006]
For this reason, the fire detector S1 and the CO / gas detector S2 installed in the dwelling unit are connected to the house information board 102, and the door phone slave unit D installed at the entrance is connected to the housing information board 102. A monitoring panel 103 is connected via a signal line L100. Therefore, the house information panel 102 and the monitoring panel 103 are connected by a call signal line L101 in addition to a signal line L100 for transmitting an abnormal signal such as a fire or a control signal. Here, as the doorphone slave unit D, a doorphone slave unit with an inspection terminal that relays between the fire detector S1 and the house information panel 102 is shown, and a remote tester (not shown) is connected to the inspection terminal. If connected, the fire alarm test of the fire detector S can be performed from outside.
[0007]
[Problems to be solved by the invention]
However, in the conventional living information monitoring system described above, the monitoring panel 103 installed in the manager's room or the like did not know what type of abnormality occurred even if a living abnormality occurred in each dwelling unit.
That is, since the housing information board 102 can send a signal to the monitoring board 103 only in a fire / gas / very distinction, the call buttons b1, b2 from the control panel 101 for dwelling unit to the housing information board 102 through the signal line La. Even when the abnormality detection by the sensor S is notified, a signal (emergency signal) can be transmitted only from the housing information panel 102 to the monitoring panel 103 through the multiple transmission line L100 with the distinction of “emergency”. In the monitoring panel 103, whether the emergency signal indicates that the dwelling unit control panel 101 has detected a life abnormality, or indicates that the emergency switch of the housing information panel 102 has been operated, etc. I didn't understand. Therefore, in the control panel 101 for dwelling units, it is not known whether the call buttons b1 and b2 are operated, or whether the sensor S detects a life abnormality, and furthermore, it is not possible to specify the type.
[0008]
In addition, it is necessary to introduce another system for monitoring life information in order to understand what kind of life abnormality has occurred in the manager's room, but if such a system is introduced, In order to change the system of the entire apartment complex, it takes a lot of work, and in addition to changing general dwelling units (units that monitor only security information) to silver units (units that monitor security information and living information) It was also very difficult to post-install the control panel 101 for dwelling units.
[0009]
The present invention has been made to solve such a problem, and an object of the present invention is to provide a living information monitoring system capable of discriminating occurrence of abnormal living in each dwelling unit on a monitoring panel.
[0010]
[Means for Solving the Problems]
The living information monitoring system of the present invention proposed to achieve the above object is derived from the monitoring panel and connected to the multiplex transmission line connecting the housing information panel for monitoring the security information of each unit, the living information of each unit. Control panel for dwelling unitsAre connected directly.
[0011]
In claim 1, when the control panel for dwelling unit detects an abnormality of living information, it sends an abnormality occurrence signal to the monitoring panel through the multiplex transmission line, and the monitoring panel receives the abnormality occurrence signal from the control panel for dwelling unit. Sometimes, it is characterized by notifying abnormality of the living information of the dwelling unit.
That is, the dwelling unit control panel and the housing information panel are connected to a common multiple transmission line. In the monitoring panel, when an abnormal signal indicating the occurrence of a fire is received from the housing information panel, the abnormality of the dwelling unit is notified, and when an abnormal occurrence signal is received from the control panel for dwelling units, the life information of the dwelling unit is abnormal. Is notified.
[0012]
In Claim 2, when the monitoring board receives the abnormality occurrence signal from the control panel for dwelling units in Claim 1, the monitoring board sends the signal to the housing information board of the dwelling unit through the multiplex transmission line. When an abnormality occurrence signal is received from the monitoring panel, an abnormality of life information is notified.
In Claim 3, in Claim 1 or Claim 2, the multiplex transmission line derived from the monitoring panel and connecting the housing information panel and the multiplex transmission line connecting the dwelling unit control panel are connected in parallel. It is characterized by.
[0013]
In Claim 4, the control panel for dwelling units in Claim 1 connects the housing information panel of the dwelling unit through a signal line, and when an abnormality in living information is detected, the housing information panel through the signal line When the abnormality information signal is sent to the housing information panel and the abnormality information signal is received from the control panel for dwelling units, the housing information panel notifies the abnormality of the living information.
[0017]
Claim5Then, in claim 2 or claim 7, when the monitoring panel receives an abnormality occurrence signal from the control panel for dwelling units, it sends the signal through the multiplex transmission line to the housing information panel of the dwelling unit adjacent to the dwelling unit, A housing information board of a neighboring dwelling unit is characterized by notifying an abnormality of living information when an abnormality occurrence signal is received from the monitoring board. As a result, in the neighboring dwelling units, it is possible to quickly respond to the dwelling unit in which the life abnormality has occurred.
[0018]
Claims 6 to 8Proposes the addresses assigned to the control panel for each dwelling unit and the housing information panel.
Claim6Then, claims 1 toClaim 5The same address is assigned to the control panel for the dwelling unit and the housing information panel of the same dwelling unit, and the monitoring panel transmits the signal with the address added through the multiple transmission line, and It is characterized by monitoring or controlling the control panel for dwelling units and the housing information panel at the same time.
[0019]
Claim7Then, the claim6In addition, each of the control panel for the dwelling unit and the housing information panel of the same dwelling unit is further assigned an identification code of both, and the monitoring panel transmits a signal to which the identification code is added together with the address through the multiplex transmission line. The dwelling unit control panel or the housing information panel is individually monitored or controlled.
[0020]
Claim8Then, claims 1 to5In either of the above, a different address is assigned to each of the control panel for the dwelling unit and the housing information panel in the same dwelling unit, and the monitoring panel transmits the signal with the address added thereto through the multiplex transmission line. It is characterized by individually monitoring or controlling a control panel for a dwelling unit or a housing information panel.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a diagram schematically showing an example of the overall configuration of a life information monitoring system according to the present invention.
This living information monitoring system is applied to an apartment house where there are single-dwelling units such as elderly people, and is installed in a dwelling unit with respect to a common multiplex transmission line L derived from a monitoring panel 3 installed in a manager's room or the like. The dwelling unit control panel 1 and the house information panel 2 are connected in parallel (see L (# 1) and L (# 2) in the figure).
[0022]
The multiplex transmission line L (including L (# 1), L (# 2), and L (# 3) described later) is composed of a two-wire balanced cable, and transmits various control signals and information signals. In addition to the multiplex transmission line L, a call signal line L1 using a two-wire cable is connected between the house information board 2 and the monitoring board 3.
Here, in addition to monitoring security information by the housing information board 2, a case where a silver dwelling unit that requires monitoring of living information and a general dwelling unit that only monitors security information is mixed is shown. The structure of only a dwelling unit may be sufficient.
[0023]
Also, here, as the monitoring panel 3, when a fire signal is received from the housing information panel 2, a control signal can be sent to the housing information panel 2 in the neighboring dwelling unit to output an alarm, An example is shown.
The control panel 1 for dwelling units is configured to be built in a distribution board, and is notified of abnormalities such as a call push button b1 with a cancel button, a nigiri call push button b2, a call cancel button b3, etc. installed in a toilet or bath. A button for instructing cancellation is connected to a sensor such as a water amount sensor S to detect a life abnormality. In addition, the control panel 1 for dwelling units does not need to connect all the sensors and the call push buttons b1 and b2, and may connect arbitrarily according to a living environment.
[0024]
In addition, a corridor warning indicator lamp l is connected to display an alarm in the corridor that an abnormality has occurred, and an occupancy management lock J and an occupancy setting button b4 are connected, and in conjunction therewith, Life abnormalities are monitored only in the room.
Here, in addition to the water volume sensor S that detects the usage state of toilet water, etc., the human body detection sensor that detects the movement of the human body in each dwelling unit using infrared rays, etc. There are a gas usage sensor to detect, an electrical usage sensor to detect the usage state of electricity, and the like, which are connected to the control panel 1 for dwelling units via respective sensor units (not shown). The call push button also includes a wireless transmitter (not shown), and a wireless receiver (not shown) can be connected to the dwelling unit control panel 1 to detect a call from the transmitter. Yes.
[0025]
For example, the control panel 1 for dwelling unit does not detect that the water amount sensor S has used the water in the flush toilet for a predetermined time (for example, 12 hours), or the human body detection sensor does not detect the predetermined time (for example, 12 hours). ), When the movement of the human body in the room is not detected, it is determined that an abnormality has occurred in the life of the person in the dwelling unit, and an abnormality occurrence signal is sent to the monitoring panel 3 through the multiplex transmission line L. An alarm is output.
[0026]
On the other hand, in order to monitor the security information in the dwelling unit, the housing information panel 2 is installed in the dwelling unit and detects a fire detector S1 that detects the occurrence of a fire by heat or smoke, and detects carbon monoxide and harmful gases. The CO / gas detector S2 is connected. In addition, a security sensor (not shown) for detecting illegal intrusion other than residents is connected, and a doorphone slave unit D is also connected for intercom communication with the front door. Here, as a door phone slave unit D, a door phone slave unit with a check terminal that relays between the fire detector S1 and the house information panel 2 is connected, and a remote tester (not shown) is connected to the check terminal. For example, a pseudo alarm test of the fire detector S can be performed from outside.
[0027]
In addition, the house information board 2 is connected to the monitoring board 3 via the call signal line L1, and can make a call with the monitoring board 3 or the lobby intercom 4 connected to the monitoring board 3.
Therefore, when changing a general dwelling unit to a silver dwelling unit, with respect to the multiplex transmission line L among the multiplex transmission line L and the call signal line L1, which connects the alarm panel 3 and the housing information panel 2 of each dwelling unit. What is necessary is just to connect the control panel 1 for dwelling units (refer L (# 1) in the figure).
[0028]
In such a configuration, when the monitoring panel 3 receives the abnormality occurrence signal from the dwelling unit control panel 1 through the multiplex transmission line L, the monitoring panel 3 notifies the abnormality of the living information of the dwelling unit, and fires from the housing information panel 2. When an abnormal signal indicating occurrence or the like is received, the abnormality of the dwelling unit is notified.
In addition, when the monitoring panel 3 receives an abnormality occurrence signal from the control panel 1 for dwelling units, the monitoring panel 3 transmits an abnormality occurrence signal to neighboring dwelling units other than the dwelling unit where the living abnormality has occurred. However, it is possible to rush to the dwelling unit where life abnormalities occur. The neighboring dwelling units include the dwelling units on both sides and designated dwelling units set in advance on the monitoring panel 3.
[0029]
The dwelling unit control panel 1 is connected to the housing information panel 2 of the same dwelling unit via the signal line La. When an abnormality in living information is detected, an abnormality occurrence signal is sent to the housing information panel 2 through the signal line La. The housing information board 2 notifies the abnormality of the life information when receiving the abnormality occurrence signal. At this time, in the housing information board 2, the contents of the life information can be notified by voice, LED display or the like so that the residents can understand the contents.
[0030]
The signal line La can transmit a contact signal, a voltage signal, an audio signal that varies depending on the type of life abnormality, and in the house information panel 2, each call button b1, b2 is operated. When an abnormality occurs, a warning sound is output. When the audio signal is transmitted, it is possible to notify the contents of the abnormal life on the house information board 2 in a classified manner.
[0031]
As a result, in the dwelling unit, the dwellers who cannot move can confirm that an abnormality occurrence signal is output from the dwelling unit control panel 1 to the monitoring panel 3, and an alarm sound is output from the doorphone slave unit D. If it is output, it can be immediately rushed to the neighbors.
Below, an example of the detection of the life abnormality by the control panel 1 for dwelling units is demonstrated.
[0032]
The control panel 1 for each dwelling unit has a human body detection sensor such as a water amount sensor S for monitoring life information by the amount of water used in each dwelling unit and an infrared sensor for monitoring life information by the movement of the human body. The control panel for dwelling unit 1 determines whether a resident is present or absent, and activates a sensor in accordance with this determination to detect an abnormality in life.
[0033]
Specifically, the dwelling unit control panel 1 determines that the dweller has gone out when the door is closed from the outside of each room and the occupant management lock J is locked, and shifts to the absence mode. If it is locked or locked from the inside, it is determined that the user has returned from going out, and the mode is shifted to the occupancy mode. However, even when locking from the outside, people may remain in the room, so if you lock from the outside after operating the occupancy setting button b4, the occupancy mode is maintained without switching to the absence mode. To do.
[0034]
For example, if the water amount sensor S is installed on the backbone of a water pipe and detects the use of water such as a toilet in daily life, the amount of water is set by the water amount sensor S when the occupancy mode is set. When a certain amount or more of water is not continuously used for a predetermined time (for example, 12 hours), the dwelling unit control panel 1 is used for the management room monitoring panel 3, the housing information panel 2 and the door phone. Abnormality is notified from the child device D or the like by a voice message, an alarm sound, or the like. On the other hand, when the absence mode is set, the abnormality monitoring by the water amount sensor S is canceled.
[0035]
In the occupancy mode, the non-use time of the water amount is timed by the dwelling unit control panel 1, the time is reset every time a certain amount or more of water is used, and the time keeping time is set in advance. When the time is exceeded, the abnormality is notified to the monitoring panel 3 or the like.
Further, the control panel 1 for dwelling units has a call push button b1 installed on the wall surface as an operation button to be operated by a dweller when an abnormality occurs, a nigiri call push button that is easy for a sick person or the like to operate. Since b2 is connected, if the cancel operation is not performed with the cancel button b3 or the like within a predetermined time after operating these, it is determined that an abnormality has occurred and the same as when the sensor is used to determine an abnormality. The abnormality is notified to the monitoring panel 2 or the like.
[0036]
Next, FIG. 2A is a block diagram showing the configuration of the main part of the dwelling unit control panel 1, FIG. 2B is a housing information panel 2, and FIG. 3 is a monitoring panel 3.
As shown in FIG. 2 (a), the dwelling unit control panel 1 is a transmission input / output that controls transmission through the multiplex transmission line L (# 1) between the control circuit 11 that controls the following units and the monitoring panel 3. A life abnormality detection circuit 13 that connects a circuit 12, a sensor for detecting a life abnormality such as a water amount sensor S, a call input detection circuit 14 that detects an operation of the call push button b1 and the nigiri call push button b2, and the house information board 2 And a signal output circuit 15 for transmitting an abnormality occurrence signal through the signal line La.
[0037]
The control circuit 11 monitors the abnormality occurrence signal through the transmission input / output circuit 12 when the life abnormality detection circuit 13 determines that an abnormality has occurred or when the call input detection circuit 14 detects the operation of the call push buttons b1 and b2. Send to board 3. In addition, an abnormality occurrence signal is sent to the house information panel 2 through the signal output circuit 15.
As shown in FIG. 2 (b), the housing information board 2 includes a CPU 21, a transmission input / output circuit 22 that controls transmission through the multiple transmission line L (# 2) between the monitoring board 3, and a monitoring board using a handset H. A call control circuit 23 for controlling a call with 3 etc., an alarm output circuit 24 for outputting an alarm from the speaker SP2, and an alarm input circuit for receiving an alarm signal from the connected fire detector S1, CO / gas detector S2, etc. 25, a switch input circuit 26 that receives various switch operations, and a signal input circuit 27 that receives an abnormality occurrence signal from the control panel 1 for dwelling units.
[0038]
When the alarm input circuit 25 receives an alarm signal such as a fire signal or the signal input circuit 27 receives an abnormality occurrence signal from the dwelling unit control panel 1, the CPU 21 of the house information panel 3 generates an alarm sound by the alarm output circuit 24. Output.
When an abnormality occurrence signal is received from the monitoring panel 3 through the multiplex transmission line L (# 2), the alarm output circuit 24 outputs an alarm, assuming that the dwelling unit control panel 1 of the same dwelling unit has detected a living abnormality. With such a configuration, it is possible to notify the occurrence of a life abnormality from the housing information panel 2 without connecting the dwelling unit control panel 1 and the housing information panel 2 via the signal line La.
[0039]
As shown in FIG. 3, the monitoring panel 3 includes a CPU 31, a transmission input / output circuit 32 that controls transmission through the multiplex transmission line L, and a display circuit 33 that displays security information abnormality and life information abnormality in each dwelling unit. And a sound generation circuit 34 for outputting an alarm from the speaker SP3, a key scan input circuit 35 for detecting a key operation, and an interphone for controlling a call with the house information panel 2 and the lobby intercom 4 of each dwelling unit. A control circuit 36 and a transfer contact output circuit 37 for transferring an alarm or the like are provided.
[0040]
When the CPU 31 of the monitoring panel 3 receives the abnormality occurrence signal from the control panel 1 for the dwelling unit through the multiplex transmission line L, the display unit 33 displays the dwelling unit number and the alarm content of the dwelling unit, and activates the sound generation circuit 34. Then, the sound is output from the speaker SP3. Similarly, when an abnormality occurrence signal is received from the house information panel 2 through the multiplex transmission line L, the dwelling unit number and alarm content of the dwelling unit are displayed and output by voice or the like.
[0041]
Furthermore, when an abnormality occurrence signal is received from the dwelling unit control panel 1, the signal can be sent to the dwelling unit 2 or the dwelling unit information panel 2 of the neighboring dwelling unit via the multiplex transmission line L so that the abnormality of the living information can be notified.
FIG. 4 schematically shows the alarm output mode described above. 4A to 4C show different embodiments, and (1) to (4) in each figure indicate the order of processing.
[0042]
In FIG. 4A, when the dwelling unit control panel 1 detects an abnormality in the living information, it sends an abnormality occurrence signal to the monitoring panel 3 through the multiplex transmission line L ((1)). The board 3 outputs an alarm for abnormalities in the living information of the dwelling unit ((2)).
In FIG. 4 (b), when the control panel 1 for dwelling unit detects an abnormality in living information, it sends an abnormality occurrence signal to the monitoring panel 3 through the multiplex transmission line L ((1)). The board 3 outputs an alarm for abnormalities in the living information of the dwelling unit ((2)) and sends the signal to the housing information board 2 of the dwelling unit via the multiplex transmission line L ((3)). When the housing information board 2 receives an abnormality occurrence signal from the monitoring board 3, it outputs a warning of an abnormality in living information ((4)).
[0043]
In FIG. 4 (c), when the dwelling unit control panel 1 detects an abnormality in living information, it sends an abnormality occurrence signal to the housing information panel 2 through the signal line La ((1)). The information board 2 outputs an alarm for abnormalities in life information ((2)).
In addition, by combining (a) and (c), the control panel 1 for dwelling units sends an abnormality occurrence signal to both the monitoring panel 3 and the housing information panel 2 when detecting an abnormality in living information. An alarm may be output for abnormalities in life information.
[0044]
Next, another configuration of the life information monitoring system according to the present invention is shown in FIG.
Compared with the configuration of FIG. 1, this living information monitoring system is configured such that the control panel 1 for dwelling units installed in each dwelling unit and the housing information panel 2 are arranged in parallel with respect to the common multiplex transmission line L derived from the monitoring panel 3. Instead, they are connected in series (see L (# 2) and L (# 3) in the figure). That is, the housing information panel 2 and the dwelling unit control panel 1 are connected by the feed wiring L (# 3). Specifically, for example, the multiplex transmission lines L (# 2) and L (# 3) are connected to a common terminal of the house information board 3, and both are directly connected and wired.
[0045]
In this figure, the dwelling unit control panel 1 is connected to the rear side of the monitoring panel 3 of the housing information panel 2, but the housing information panel 2 may be connected to the rear side of the dwelling unit control panel 1. . By connecting the dwelling unit control panel 1 to the housing information panel 2 conventionally installed as a collective housing monitoring system, the ordinary dwelling unit can be easily changed to a silver dwelling unit.
[0046]
When the dwelling unit control panel 1 detects an abnormality in the living information, it sends an abnormality occurrence signal to the monitoring panel 3 through the multiplex transmission line L (L (# 3), L (# 2)) and receives it. The monitoring board 3 notifies the abnormality of the living information of the dwelling unit. On the other hand, when the monitoring panel 3 receives an abnormal signal indicating the occurrence of a fire or the like from the house information panel 2 through the multiplex transmission line L (L (# 2)), the monitoring panel 3 notifies the abnormality of the dwelling unit.
[0047]
Further, when the monitoring panel 3 receives the abnormality occurrence signal from the control panel 1 for dwelling units, the monitoring panel 3 sends the signal to the housing information panel 2 of the dwelling unit through the multiplex transmission line L (L (# 2)). In the house information board 2 that has been received, it is possible to report abnormality of life information.
At this time, the monitoring panel 3 can send an abnormality occurrence signal to neighboring dwelling units other than the dwelling unit in which the abnormal living has occurred, so that the neighboring dwelling person can quickly run to the dwelling unit in which the abnormal living has occurred. You may do it.
[0048]
Further, when the dwelling unit control panel 1 detects an abnormality in the living information, the dwelling unit control panel 1 sends an abnormality occurrence signal to the housing information panel 2 through the multiplex transmission line L (# 3) (feed wiring), and receives the housing information. The board 2 can also notify the abnormality of the living information of the dwelling unit. At this time, in the housing information board 2, the contents of the life information can be notified by voice, LED display or the like so that the residents can understand the contents.
[0049]
FIG. 6 is a block diagram showing the main components of the dwelling unit control panel 1 and the house information panel 2 in this system. The configuration of the monitoring panel 3 in this system is the same as the configuration shown in FIG.
As shown in FIG. 6 (a), the control panel 1 for dwelling units does not include the signal output circuit 15 as compared with the configuration of FIG. 2 (a), and the transmission input / output circuit 12 includes the housing information panel 2 And a feed line L (# 3).
[0050]
When the control circuit 11 determines that an abnormality has occurred in the life abnormality detection circuit 13 or the call input detection circuit 14 detects an operation of the call push buttons b1 and b2, an abnormality occurrence signal is transmitted through the transmission input / output circuit 12. , And sent to the monitoring board 3 (housing information board 2 side).
On the other hand, the housing information panel 2 shown in FIG. 6B does not include the signal input circuit 27 as compared with the configuration of FIG. 2B, and is sent from the transmission input / output circuit 22 by the feed wiring L (# 3). The control panel 1 for dwelling units is connected. Specifically, in the house information board 2, the terminal for connecting the multiplex transmission line L (# 2) is shared and the feed wiring L (# 3) is connected.
[0051]
When the alarm input circuit 25 receives an alarm signal such as a fire signal, the CPU 21 causes the alarm output circuit 24 to output an alarm sound and sends an abnormality occurrence signal to the monitoring panel 3 through the multiplex transmission line L (# 2). To do.
Further, when an abnormality occurrence signal is sent from the control panel for dwelling unit 1 through the feed wiring L (# 3), the transmission input / output circuit 22 does not perform any processing because it is not a signal addressed to itself. Is sent to the monitoring board 3 through the multiplex transmission line L (# 2) as it is. However, at this time, the house information board 2 may detect a signal to be transmitted and output a warning.
[0052]
As described above, the dwelling unit control panel 1 can be easily changed to a silver dwelling unit by connecting the dwelling unit control panel 1 to the housing information panel 2 that has been conventionally installed as a collective housing monitoring system.
Next, the addresses assigned to the dwelling unit control panel 1 and the house information panel 2 of each dwelling unit in the system of FIG. 1 or FIG. 5 will be described.
[0053]
FIG. 7 shows an example of the address. The monitoring panel 3 stores address information of the terminals of the entire system as shown in the figure (such as the control panel 1 for the dwelling unit and the housing information panel 2). Based on this information, a multiplexed signal with an address added is transmitted. The terminal of each dwelling unit is controlled, and the terminal of each dwelling unit is monitored by receiving the multiplexed signal to which the address is added. At this time, in the dwell unit control panel 1 and the house information panel 2 of each dwelling unit, its own address is registered in advance by setting a dip switch or setting a memory by key operation.
[0054]
In the configuration shown in FIG. 7A, the same address is assigned to the dwelling unit control panel 1 and the house information panel 2 of the same dwelling unit. As a result, the monitoring panel 3 can transmit a signal to which an address is added through the multiplex transmission line L, and simultaneously monitor or control the dwelling unit control panel 1 and the house information panel 2 of the dwelling unit. That is, in the monitoring panel 3, if a signal designating one address is transmitted to the dwelling unit, the two can be controlled in conjunction with each other.
[0055]
Therefore, even when the control panel 1 for the dwelling unit is additionally connected, the address for the dwelling unit can be obtained without newly setting an address in the monitoring panel 3 or registering the dwelling unit control panel 1 and the housing information panel 2 in association with each dwelling unit. The control panel 1 and the house information panel 2 can be easily linked and controlled.
In addition, here, each of the control panel 1 and the housing information panel 2 of the same unit has an address and an identification code of both of them (here, “0” is the housing information panel 2 and “1” is the housing control panel). 1) is assigned. As a result, the monitoring panel 3 can individually monitor or control the dwelling unit control panel 1 or the housing information panel 2 of the dwelling unit by transmitting a signal to which an identification code is added together with the address through the multiplex transmission line L. Can do.
[0056]
In addition, it is good also as a system which can monitor or control both simultaneously without assigning only an address and assigning an identification code to the dwelling unit control panel 1 and the housing information panel 2 of the same dwelling unit.
On the other hand, in the configuration shown in FIG. 7B, different addresses are assigned not only to different dwelling units but also to the dwelling unit control panel 1 and the house information board 2 of the same dwelling unit. In this case, the monitoring board 3 transmits a signal to which an address is added through the multiplex transmission line L, and individually monitors or controls the dwelling unit control board 1 or the house information board 2 of all the dwelling units. In this way, even when the control panel 1 for dwelling units is post-constructed, a new address may be set in the same manner as the housing information panel 2.
[0057]
Next, still another configuration of the life information monitoring system according to the present invention will be described with reference to the system configuration diagrams of FIGS.
In the illustrated system, a silver HA monitoring panel 5 and a living building receiver 6 are installed as a monitoring panel in an administrator room or the like. The dwelling unit control panel 1 and the housing information panel 2 installed in each dwelling unit are connected to the multiplex transmission line L derived from the monitoring panel 5, and the dwelling unit information panel 2 is further provided for each floor. It is connected via a repeater 7 to a control signal line LA derived from the dwelling unit receiver 6 for each predetermined area. Therefore, the house information board 2 is provided with a means for transmitting signals to and from the housing ridge receiver 6 in addition to the configurations of FIGS. 2B and 6B. Here, the house information panel 2 connects the fire detector S1 without relaying the door phone slave unit D.
[0058]
In the silver dwelling unit having the configuration of FIG. 8, the dwelling unit control panel 1 and the house information panel 2 are connected in parallel to the multiple transmission line L, and the configuration corresponds to FIG. 1. That is, the same operation as between the monitoring panel 3, the dwelling unit control panel 1 and the housing information panel 2 in FIG.
[0059]
Moreover, in the silver dwelling unit of the structure of FIG. 9, the control panel 1 for dwelling units and the housing information panel 2 are connected in series with respect to the multiplex transmission line L, and it has the structure corresponding to FIG. That is, the same operation as between the monitoring panel 3, the dwelling unit control panel 1 and the housing information panel 2 in FIG. 5 is performed between the monitoring panel 5, the dwelling unit control panel 1 and the housing information panel 2 in FIG.
[0060]
The monitoring panel 5 outputs an alarm when an abnormality occurrence signal is received from the dwelling unit control panel 1 or when an abnormality signal such as a fire is received from the housing information panel 2. On the other hand, when receiving a fire confirmation signal from the housing information board 2, the housing ridge receiver 6 sends an alarm output signal to the preset housing information board 2 of the neighboring dwelling unit to output an alarm. .
[0061]
Even in such a system, it is possible to easily change a general dwelling unit to a silver dwelling unit by connecting the dwelling unit control panel 1 to the housing information panel 2 that has been conventionally installed as an apartment housing monitoring system. I can do it.
As described above, in the systems shown in FIGS. 1, 5, 8, and 9, the monitoring panels 3 and 5 can know the contents of life abnormalities detected by the control panel for dwelling units 1 in each dwelling unit. I can do it. For example, it is possible to determine whether it is a life abnormality due to the operation of the push buttons b1 and b2 or a life abnormality due to the sensor S not reacting for a certain time.
[0062]
Moreover, the change from a general dwelling unit to a silver dwelling unit is attained by the post-construction of the dwelling unit control panel 1 as needed. Furthermore, the life abnormality of each dwelling unit can be seen on the monitoring panels 3 and 5 side using the multiplex transmission line L of the conventional apartment house system.
[0063]
【The invention's effect】
Claim 1 to Claim of the present invention8In the living information monitoring system described in the above, the control panel for the dwelling unit is connected to the housing information panel derived from the monitoring panel.Connect directly todoing. Therefore, it is possible to notify the life abnormality of each dwelling unit on the monitoring panel. Moreover, since the multiplex transmission line of the conventional apartment house system is shared, it is possible to reduce the number of lines, and the life abnormality of each dwelling unit can be reported on the monitoring panel.
[0064]
In claim 1, when the monitoring panel receives an abnormality signal from the housing information panel, the monitoring panel notifies the abnormality of the dwelling unit, and also when receiving an abnormality occurrence signal from the control panel for dwelling unit, the living information of the dwelling unit It is possible to notify the abnormality.
According to claim 2, when the monitoring panel receives an abnormality occurrence signal from the control panel for dwelling units, it sends the signal to the housing information panel of the dwelling unit through the multiplex transmission line, and the living information abnormality from the housing information panel Can be notified.
[0065]
In Claim 3, since the housing information panel and the control panel for dwelling units should just be connected in parallel to a multiple transmission line, construction is easy.
In Claim 4, since the control panel for dwelling units sends out the abnormality occurrence signal directly to the housing information board of the dwelling unit through the signal line to notify the abnormality of the life information, the dweller has a life abnormality. This is surely and quickly understood.
[0068]
Claim5Then, when the monitoring panel receives an abnormality occurrence signal from the control panel for the dwelling unit, it sends the signal to the housing information panel of the dwelling unit adjacent to the dwelling unit through the multiplex transmission line, so that there is an abnormality in the living information in the neighboring dwelling unit. Therefore, it is possible to promptly respond to a dwelling unit where a living abnormality has occurred.
[0069]
Claim6Then, since the same address is assigned to the control panel for the dwelling unit and the housing information panel of the same dwelling unit, the monitoring panel transmits a signal specifying one address, and the dwelling unit control panel for the dwelling unit and the dwelling unit The information panel can be monitored or controlled simultaneously.
Claim7Then, since the same address is assigned to the control panel for the dwelling unit and the housing information panel of the same dwelling unit, and the identification code of both is assigned, the monitoring board transmits a signal specifying the identification code together with the address, and The dwelling unit control panel or the housing information panel can be individually monitored or controlled.
[0070]
Claim8Then, since a different address is assigned to each of the control panel for residential units and the housing information panel of the same unit, the control panel for residential units and the housing information panel can be individually monitored or controlled by the monitoring panel. .
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of the overall configuration of a life information monitoring system according to the present invention.
FIG. 2 is a block diagram showing an example of the internal configuration of a dwelling unit control panel and a house information panel in the system of FIG.
FIG. 3 is a block diagram illustrating an example of an internal configuration of a monitoring panel.
FIG. 4 is a diagram schematically showing a procedure of alarm output.
FIG. 5 is a diagram showing another example of the overall configuration of the life information monitoring system according to the present invention.
6 is a block diagram showing an example of the internal configuration of a dwelling unit control panel and a house information panel in the system of FIG. 5. FIG.
FIG. 7 is a diagram showing an example of addresses assigned to a dwelling unit control panel and a house information panel.
FIG. 8 is a diagram showing another example of the overall configuration of the life information monitoring system according to the present invention.
FIG. 9 is a diagram showing another example of the overall configuration of the life information monitoring system according to the present invention.
FIG. 10 is a diagram showing an overall configuration of a conventional living information monitoring system.
[Explanation of symbols]
1 ... Control panel for dwelling units
11 ... Control circuit
12. Transmission I / O circuit
13 ... Life abnormality detection circuit
14 ... Call input detection circuit
15 ... Signal output circuit
2 ... Housing information board
21 ... CPU
22 ... Transmission input / output circuit
25 ... Alarm input circuit
27 ... Signal input circuit
3 ... Monitoring board (integrated housing monitoring integrated board)
L: Multiple transmission line
La: Signal line
5 ... Monitoring board (Silver HA monitoring board)
6 ... Housing ridge receiver

Claims (8)

A living information monitoring system in which a control panel for a dwelling unit that monitors life information of each dwelling unit is directly connected to a multiplex transmission line that is derived from the monitoring panel and connects a housing information board that monitors the security information of each dwelling unit,
When the control panel for dwelling unit detects an abnormality in living information, it sends an abnormality occurrence signal to the monitoring panel through the multiplex transmission line,
When the monitoring panel receives an abnormality occurrence signal from the control panel for dwelling units, the monitoring information panel notifies the abnormality of the living information of the dwelling unit. When the monitoring panel receives an abnormality occurrence signal from the control panel for dwelling units, the signal is sent to the housing information panel of the dwelling unit through the multiplex transmission line,
The living information monitoring system according to claim 1, wherein the housing information board reports an abnormality of living information when receiving an abnormality occurrence signal from the monitoring board. The multiplex transmission line derived from the monitoring panel and connecting the housing information panel and the multiplex transmission line connecting the dwelling unit control panel are connected in parallel. Life information monitoring system described in 1. The control panel for the dwelling unit connects the housing information panel of the dwelling unit via a signal line. When an abnormality in living information is detected, an abnormality occurrence signal is sent to the housing information panel via the signal line. ,
The living information monitoring system according to claim 1, wherein the housing information board reports an abnormality of living information when receiving an abnormality occurrence signal from the dwelling unit control panel. When the monitoring board receives an abnormality signal from the control panel for the dwelling unit, the signal is sent to the housing information board of the dwelling unit adjacent to the dwelling unit through the multiplex transmission line,
The living information monitoring system according to claim 2, wherein the housing information panel of the neighboring dwelling unit reports an abnormality of living information when receiving an abnormality occurrence signal from the monitoring panel. The same address is assigned to the control panel and the housing information panel for the same dwelling unit,
The monitoring panel, through the multiplex transmission line, and transmit the signal address is added, the dwelling units for control panel and housing information panel of the dwelling units, according to claim 1 wherein, wherein the monitoring or control at the same time Item 6. The life information monitoring system according to any one of Items 5 to 6. Both the control panel for dwelling units and the housing information panel of the same dwelling unit are further assigned both identification codes,
The monitoring board transmits a signal to which an identification code is added together with an address through the multiplex transmission line, and individually monitors or controls the dwelling unit control panel or the housing information panel of the dwelling unit. Item 7. A lifestyle information monitoring system according to item 6 . A different address is assigned to each control panel and housing information panel for the same unit,
The monitoring panel, through the multiplex transmission line, and transmits an address is added signal, the dwelling units for control panel or housing information panel of the dwelling units, claim, characterized in that individually monitor or control 1 The life information monitoring system according to claim 5 .

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