JP3716362B2 - Intercom system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an intercom system for an apartment house, for example.
[0002]
[Prior art]
As this type of intercom system, there is a system in which a control device polls at a predetermined cycle, and when an abnormality is detected by the polling, polling for specifying a terminal device is performed to collect information on the abnormality. For example, the terminal devices installed in each room (unit) of the apartment house are grouped into a plurality of groups, polling is performed for each group, and a return timing is given to each group. When there is a response at this timing, polling is performed again for each terminal device in the responding group, and a return timing is given for each terminal device. When the polling terminal device can be identified, information is collected from the terminal device. For example, if it is determined that there is a fire from this information, an instruction to ring the bell is issued to each terminal device in the surrounding room.
[0003]
[Problems to be solved by the invention]
However, in the above-described conventional intercom system, when a plurality of abnormalities occur almost simultaneously, processing is performed for the abnormality that has been captured first, and therefore, a high-risk abnormality has occurred in the abnormality. However, there was a risk that the damage would be extended until the abnormal processing in the previous stage was completed. Moreover, since polling is performed periodically, power consumption was large.
[0004]
Further, when ringing the bell, data transmission / reception is repeated at least twice between the control device and the terminal device, and it takes time because it is performed for each terminal device. In addition, since data transmission / reception is repeated a plurality of times when the call operation is performed, data is mutually confirmed, so that it takes time until a call can be made.
[0005]
The present invention has been made to solve such a problem, and even when polling is not performed periodically, when an abnormality occurs, the abnormality is reliably detected and specified, and a plurality of abnormalities occur almost simultaneously. The purpose of this invention is to provide an intercom system that can preferentially select and identify abnormalities with a higher degree of danger if they have, and can promptly ring or call due to fire or the like.
[0006]
[Means for Solving the Problems]
  The present inventionIn charge ofThe intercom systemA plurality of dwelling terminal devices installed in each dwelling unit, a management room terminal device and a collective entrance are provided as terminal devices,Control devices connected to each terminal deviceEach terminal device sends and receives data via the control deviceIn the intercom system, the terminal deviceIn order to enable communication with other terminal devices, when transmitting data in a format having a block for writing a source address, a call control command command, and a destination address, the receiver address is set to its own address and the source address. Sends data to which the address of the terminal device to be able to make a call is written to the control unit. When the data is returned from the control unit, it is determined that the data has been transmitted normally, and is sent as format data. When data with its own address written in the original address is received, the data is returned to the control unit.A data transmission / reception unit is provided.When the format data is received, the data is returned to the terminal device that has written its own address as the destination address, and the data is also transmitted to the terminal device of the transmission source address.When the data is returned, it has a terminal data transmission / reception unit that determines that the data has been transmitted normally,Among the terminal devices, a plurality of dwelling terminal devices monitor the presence or absence of abnormality through various detection means, and when a plurality of abnormalities are detected, the higher-risk abnormality is preferentially selected and the control device When the polling request data is transmitted, and when polling is performed in which a time slot is allocated for each abnormality content by this request, a polling request unit for selecting the time slot from the detected abnormality and notifying the abnormality is provided. When the control device receives data for requesting polling, polls a plurality of dwelling terminal devices by assigning a time slot for each predetermined abnormality content, and detects a plurality of abnormalities when polling is performed. , Perform the polling to search for the dwelling terminal device that gave rise to the abnormality, giving priority to the higher-risk abnormality, and When identifying the end device, to collect the information of the abnormality contents from the dwelling units terminal equipment.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing a configuration of an intercom system according to an embodiment of the present invention.
In the figure, a control device 1 is installed in a management room of an apartment house, for example, and includes a microcomputer (hereinafter referred to as “microcomputer”) 2, a current control circuit 3 that controls current and outputs a DC power supply 24 V, and a microcomputer 2. A transmission circuit 4 that converts the digital signal of the above into a pulse (data) (high level: 24 V, low level: 0 V) and transmits it to a control room terminal device 21, which will be described later, for example, a management interphone or the like, via a control path 41. A receiving circuit 5 that converts a pulse from the management room terminal device 21 into a digital signal and outputs the digital signal to the microcomputer 2, and a digital signal from the microcomputer 2 is converted into a pulse, which will be described later. The transmission circuit 6 that transmits the signal to the mobile terminal 6 and the reception that converts the pulse from the dwelling unit terminal 11 into a digital signal and outputs it to the microcomputer 2 The circuit 7 and the digital signal from the microcomputer 2 are converted into pulses and transmitted to the collective entrance 31 described later via the control path 41, and the pulses from the collective entrance 31 are converted into digital signals and the microcomputer 2 and a speech path connection circuit 10 for connecting or blocking the speech path 42 based on the control of the microcomputer 2.
[0012]
The microcomputer 2 of the control device 1 includes a terminal data transmission / reception unit, a terminal control unit, and an abnormality search unit according to the present invention. When the power is turned on, the microcomputer 2 is initialized and then enters emergency polling processing described later. The emergency polling at this time is for monitoring the state of the dwelling terminal device 11 in each room. If no abnormality is confirmed, a terminal event permission is issued to each dwelling device 11. This permission is permission to each dwelling terminal device 11 that an emergency polling request may be issued when an abnormality is detected, and is performed by simultaneous polling described later.
[0013]
After issuing the terminal event permission, it is determined whether there is a broadcast instruction. When there is an instruction, notification of simultaneous broadcasting is sent to each dwelling unit 11 by simultaneous polling, and when there is no instruction, it is determined whether there is received data. When data reception is detected, it is determined whether or not the data is an emergency polling request. If the data is based on an emergency polling request, the emergency polling process is started. Further, when data is received by calling from the management room terminal device 21 or the collective entrance 31, selecting described later is performed, and when an abnormality is detected in the received data, the emergency polling process is started as described above.
[0014]
When there is no received data, the presence / absence of the data reception is repeatedly determined until a predetermined time elapses (for example, 1 minute), and when the predetermined time elapses, polling for presence / absence of the terminal is performed. This polling is for monitoring whether the dwelling unit terminal equipment 11, the management room terminal equipment 21 and the collective entrance 31 of all living rooms are out of order. At the end, the terminal event permission is again issued to each dwelling unit terminal device 11, and it is determined whether there is received data.
[0015]
When performing emergency polling, first, the control path 41 is sensed through the receiving circuit 7, and when transmission is possible within the transmittable time, that is, when the control path 21 is not used by another terminal device or the like, it is divided in advance. Poll every group. For example, in the case of a 64-storied apartment house, it is performed on the 1st to 32nd floors and the 33rd to 64th floors. By this polling, the floor group (any one of the first floor to the 16th floor, the 17th floor to the 32nd floor, the 33rd floor to the 48th floor, and the 49th floor to the 64th floor) and any of the fire system, the call system, or the fault system described later For example, floor polling is performed every 8th floor. When the fire system is confirmed, fire-related floor polling is performed so that the dwelling unit 11 that has issued the response can respond. When the call system is confirmed, call-related floor polling is performed. Failure-related floor polling is performed so that the dwelling unit 11 that has issued the response can respond. In addition, when the fire system and the call system are confirmed by polling performed for each group, the fire system with high risk is selected and the fire-related floor polling is performed. Select a call system with a higher degree of risk than the system and perform polling on the call-related floor.
[0016]
When the floor can be specified by this floor polling, for example, the room polling is performed every 8th room. In this case, when the floor polling is related to fire, it is performed by polling the fire related room, and when the call is related, it is performed by polling the related room, and when it is related to failure, the related room polling is performed. When the dwelling unit terminal device 11 can be identified by this number room polling, selecting information with the dwelling unit terminal device 11 is performed to collect information on abnormal contents. In the case of a fire, for example, simultaneous polling is performed to ring the bell on the floor where the fire occurred and the floor directly above.
[0017]
In addition, simultaneous polling when issuing terminal event permission, simultaneous polling when performing broadcast, and simultaneous polling when ringing the bell correspond to the function of the terminal control unit of the present invention, and the selection according to the call is This corresponds to the function of the terminal data transmission / reception unit, and the emergency polling process performed by the emergency polling request corresponds to the function of the abnormality search unit.
[0018]
Next, the configuration of the dwelling unit terminal device will be described. The dwelling unit terminal device 11 has an interphone function and a security function, and is installed in each room, that is, in each dwelling unit. The microcomputer 12 and the digital signal from the microcomputer 12 are converted into pulses, and the control unit 41 is used. A transmission circuit 13 that transmits to the control device 1, a reception circuit 14 that converts a pulse from the control device 1 received via the control path 41 into a digital signal and outputs the digital signal, and a call based on the control of the microcomputer 12 A communication path switch 15 that connects or disconnects the path 42, and a telephone transmission / reception circuit 16 that is connected to a transmitter / receiver (not shown) and a speaker and that transmits and receives audio signals. Although not shown, a door phone, a heat detector, a gas leak detector, a security sensor, a water leak sensor, a call button, and the like are connected. A numeric keypad is provided.
[0019]
The microcomputer 12 of the dwelling unit terminal device 11 includes the data transmission / reception unit and the polling request unit of the present invention. When terminal event permission is received from the control device 1 after the initial setting, polling (broadcasting) data by broadcast is received. It is determined whether or not the data has been received, and when the data is received, the communication path switch 15 is turned on to enable simultaneous broadcasting from the management room side. When calling data is received for the device, selection is performed in the same manner as described above. When the management room calling key 17 provided on the device is operated, the control path 41 is sensed through the receiving circuit 14. When transmission is possible, the control device 1 performs call selection.
[0020]
Also, when there is no call from the device to the outside, it is first determined whether or not the fire system has been activated. When the fire system is not working, determine if the call system is working, when the call system is not working, determine if the fault system is working, and again when the malfunctioning system is not working It begins to determine whether there is data reception by broadcast. Request emergency polling when any one of fire system, call system, or fault system is detected, and select fire system with high risk when it detects fire system and call system operation at the same time. When polling is requested and the operation of a call system and a fault system is detected at the same time, a call system having a higher risk than the fault system is selected and an emergency poll is requested.
[0021]
When making an emergency polling request, first, the control path 41 is sensed, and when transmission is possible within the transmittable time, the request is sent to the control device 1. When emergency polling data is received in response to this request, the detection contents (any one of fire system, call system or failure system) are notified in a predetermined time slot to be described later, and fire-related When the call-related or failure-related floor polling data is received, the data notifying the floor is returned in a predetermined time slot, and when the room polling data is received by this data return, the predetermined time slot is returned. Return the data to inform the room, and when the selection is performed by polling the room, the information of the abnormal content is notified. At this time, when an instruction to sound a district warning sound is received by simultaneous polling, a bell (not shown) is sounded to inform the resident that a fire has occurred.
Note that the selection when the management room call key 17 described above is operated and the selection by the call correspond to the function of the data transmission / reception unit of the present invention.
[0022]
The fire system operation mentioned above is the operation when the heat detector or gas leak detector is activated or tested, and the call system operation is a security sensor or water leak sensor. It is the operation when the call button installed in the toilet or bathroom is turned on, and the failure system operation is due to the failure detection of the heat detector / gas leak detector, This is due to the detection of disconnection of the electric wire between.
[0023]
The management room terminal device 21 has an interphone function and a security function, and is installed in the management room. The control room terminal device 21 converts a digital signal from the microcomputer 22 and the microcomputer 22 into a pulse, and a control device via the control path 41. 1, a transmission circuit 23 that transmits to the microcomputer 1, a reception circuit 24 that converts a pulse from the control device 1 received via the control path 41 into a digital signal and outputs the digital signal to the microcomputer 22, and a communication path 42 based on the control of the microcomputer 22. A communication path switch 25 for connecting or disconnecting, and a call transmission / reception circuit 26 for transmitting / receiving an audio signal, to which a handset (not shown) and a speaker are connected. In addition, a broadcast key 27, a numeric keypad and a call key (not shown), various display units, and the like are provided on the front surface of the apparatus.
[0024]
The microcomputer 22 of the management room terminal device 21 includes the data transmission / reception unit of the present invention. For example, when a dwelling unit number is input by operating a numeric keypad, the dwelling unit number is displayed on a predetermined display unit. When turned on, select calls. If the selecting can make a call with the receiving terminal device 11, the communication path switch 25 is turned on. When the broadcast key is turned on, the selection is made to the control device 1, and when there is a response by this selection, the communication path switch 25 is turned on to enable the call. At this time, as described above, the control device 1 performs simultaneous polling to the dwelling unit terminal devices 11 in all living rooms to notify the user that broadcast is being performed. Further, when selecting is performed by a call from the dwelling unit terminal device 11, the control for connecting the communication path 42 starts as described later. Note that the selection by the call key and the selection by the call from the dwelling terminal device 11 correspond to the function of the data transmission / reception unit.
[0025]
The collective entrance machine 31 is installed in the vicinity of the entrance door of the apartment house, and includes a microcomputer 32, a transmission circuit 33 that converts a digital signal from the microcomputer 32 into a pulse, and transmits the pulse to the control device 1 via the control path 41. A receiving circuit 34 for converting a pulse received from the control device 1 received via the path 41 into a digital signal and outputting the digital signal to the microcomputer 32; a speech path switch 35 for connecting or blocking the speech path 42 based on the control of the microcomputer 32; A telephone handset (not shown) and a speaker are connected to each other, and a call transmission / reception circuit 36 for transmitting and receiving voice signals is provided. Further, on the front surface of the device, there are provided a call key 37 as an operation unit, a display unit for displaying a numeric keypad (not shown) and a dwelling unit number for call.
[0026]
The microcomputer 32 of the entrance hall 31 includes the data transmission / reception unit of the present invention, and displays the dwelling unit number on the display unit when the dwelling unit number is input by operating the numeric keypad, and then calls when the call key 37 is turned on. In addition, for example, when selection is made by a call from the management room terminal device 21, control for connecting the communication path 42 is started. The selection by these calls corresponds to the function of the data transmission / reception unit.
[0027]
Here, the simultaneous polling, selecting, and emergency polling will be described in detail. 2 is a diagram showing a format of simultaneous polling, FIG. 3 is a diagram showing a selecting format and a timing chart of data transmission / reception by selecting, FIG. 4 is a diagram showing a format of emergency polling and floor polling, and FIG. It is a figure which shows the format of.
[0028]
In the simultaneous polling, for example, as shown in FIG. 2, the blocks AS1 and 2 for writing addresses for instructing the simultaneous polling, the block CM for writing commands, the blocks DA1 and 2 for writing data, and the presence or absence of errors in the data are discriminated. For example, it is used for terminal event permission, simultaneous broadcasting in response to an instruction from the management room terminal device 21, or for sounding a district alarm sound in the event of a fire. This simultaneous polling data is repeatedly transmitted from the control device 1 three times. This is to ensure that the dwelling unit terminal device 11 can receive.
[0029]
For example, as shown in FIG. 3, the selecting includes blocks AS1 and 2 for writing the reception side as a transmission source address, a block CM for writing a command, blocks AD1 and 2 for writing the transmission side as a reception destination address, and a block for writing data. DA1 and DA2 and blocks SM1 and SM2 for discriminating whether or not there is an error in the data.
[0030]
For example, when calling the visited dwelling unit from the collective entrance machine 31, first, mutual selection is performed between the collective entrance machine 31 and the control device 1 (FIG. 3a). In this case, the collective entrance machine 31 writes the address of the called dwelling terminal device 11 based on the operation of the numeric keypad into the blocks AS1 and 2, and its own address into the blocks AD1 and AD2, respectively. Are written in the block DA1 to the effect of calling the dwelling unit terminal equipment, and transmitted to the control device 1. When the data from the entrance hall 31 is received, the control device 1 returns the received data, performs selection, and notifies that the data has been received.
[0031]
Next, selection is performed between the control device 1 and the called dwelling unit 11 (FIG. 3b). In this case, the control device 1 transmits the received data from the collective entrance machine 31 to the dwelling unit terminal side, and the received dwelling unit terminal unit 11 returns the received data as it is, performs the selection, and stores the data. Notify that it has been received.
[0032]
Further, when the dwell unit 11 detects a hook-on when the handset is removed for a call, selection is performed with the control device 1 (FIG. 3c). In this case, the dwelling unit terminal device 11 rewrites the address of the collective entrance 31 to the blocks AS1 and 2 and rewrites its own address to the blocks AD1 and AD2 and writes the hook state to the block DA1 and transmits it to the control device 1. When the data from the dwelling unit terminal device 11 is received, the control device 1 returns the received data, performs selection, and notifies that the data has been received.
[0033]
Finally, selection is performed between the control device 1 and the collective entrance 31 (FIG. 3d). In this case, the control device 1 transmits the received data from the dwelling unit terminal device 11 to the collective entrance machine 31, and the received collective entrance machine 31 returns the received data as it is to perform selection, and selects the data. Notify that it has been received.
[0034]
In the emergency polling, for example, as shown in FIG. 4A, blocks AS1 and 2 for writing a source address, a block CM for writing a command, blocks DA1 and 2 for writing data, and the presence / absence of an error in the data are determined. In the case of a 64-storied apartment house, this is performed for the 1st to 32nd floors and the 33rd to 64th floors. For the first polling, time slots (fire system, call system, failure system) are set for the 1st to 16th floors and 17th to 32nd floors respectively, and for the next polling, the 33rd to 48th floors and the 49th floor Time slots are set on the 64th floor.
[0035]
Floor polling has the same block configuration as the polling, and time slots (for 8 floors) are set so that the dwelling unit 11 that detects an abnormality can notify the floor (see FIG. 4b). When a fire system is detected by the polling, the fire-related floor polling is selected. When the call system is used, the call-related floor polling is selected. When the failure system is detected, the failure-related floor polling is selected. The
[0036]
The room polling has the same block configuration as the floor polling, and time slots (for room 8) are set so that the dwelling unit terminal device 11 that has notified the floor can notify the room (see FIG. 5). When floor polling is fire-related, fire-related room polling is selected. Selected.
[0037]
Next, the operation of this embodiment will be described. 6, 7 and 8 are flowcharts showing the operation of the control device, FIGS. 9 and 10 are flowcharts showing the operation of the dwelling unit terminal equipment, and FIG. 11 is a timing chart of data transmission / reception by emergency polling.
[0038]
The dwelling unit 11 operates by requesting emergency polling according to the detected abnormality (fire system, call system or failure system), but the operations are the same, so the flowchart of FIG. 10 is shared. To explain. In addition, the control device 1 performs fire-related floor polling and room polling when an emergency poll is confirmed, and calls-related floor polling and room polling when a call malfunction is confirmed. In addition, when an abnormality in the failure system is confirmed, failure-related floor polling and room number polling are performed. Since the respective operations are the same, a description will be given by sharing the flowchart of FIG.
[0039]
When the initial setting is completed (step (S) 1), the control device 1 enters an emergency polling process (S2). First, measurement of the transmittable time is started, and it is determined by sensing the control path 41 to determine whether transmission is possible within that time (S21 to S23 in FIG. 7). When transmission is not possible even after the transmittable time elapses, that is, when the control path 41 is used, the measurement time is cleared and time measurement is started again (S32, S21), and whether or not transmission is possible is entered. (S22, S23).
[0040]
Here, when it is detected that transmission is possible within the transmittable time, emergency polling data is transmitted with the 1st to 32nd floors as one group and the 33rd to 64th floors as another group, respectively (S24). At this time, time slots are set for the 1st to 16th floors and the 17th to 32nd floors for the 1st to 32nd floors, respectively, and for the 33rd to 64th floors, the 33rd to 48th floors and the 49th floor are set. Time slots are set for the 64th floor (see FIG. 4).
[0041]
When this emergency polling is performed, the measurement of the standby time is started and the system waits until the time is up (S25, S26). When the time is up, the measurement time is cleared and it is determined whether or not data has been received from the dwelling terminal device 11 (S27, S28). When the reception of data is detected, it is sequentially determined whether it is a fire system, a call system, or a failure system from the time slot of the data (S29 to S31), but when the reception of data cannot be detected, This emergency polling process is terminated and a terminal event permission is issued to the dwelling unit terminal equipment 11 in all rooms (S3). This terminal event permission is performed by repeating simultaneous polling three times.
[0042]
After issuing the terminal event permission, it is determined whether or not there is received data by turning on the broadcast key 27 of the control room terminal device 21 (S4). It transmits to the terminal device 11 (S5). In this case, the simultaneous polling is repeated three times. On the other hand, when there is no received data due to the simultaneous broadcast key 27 being turned on, it is determined in S6 whether there is other received data. When the data is not received, it is determined whether a predetermined time (for example, 1 minute) has elapsed (S7). When the predetermined time has not elapsed, the process returns to S4 and the same operation is repeated. When the predetermined time has elapsed, terminal presence / absence polling is performed and terminal event permission is again issued (S8, S3).
[0043]
When data reception is detected in S6, it is determined whether it is an emergency polling request (S9). When the request is detected, emergency polling processing is entered (S12), but it is not an emergency polling request. Is confirmed, it is determined whether or not the data is received by calling (S10). When receiving the data, as will be described in detail later, the address written in the data is inverted and returned to the transmission source, and the reception data is selected to be received at the reception destination (S13). If there is an abnormality in the received data, the emergency polling process is entered (S11, S12).
[0044]
On the other hand, when the terminal event permission is received after the initial setting (S61, S62), the dwelling terminal device 11 in each room determines whether there is data reception by simultaneous broadcasting (S63), and there is no reception of the data. If so, it is determined whether there is data reception by calling (S64). When the data is received, the operation is performed based on the received data, and the selection for notifying the reception of the data is performed (S65). When no data is received by calling, the management room call key 17 provided in the apparatus is used. It is determined whether or not a call operation has been performed (S66).
[0045]
When there is no call operation, it is sequentially determined whether or not a fire system, a call system, or a failure system has been activated (S67 to S69). When neither is operating, the process returns to S63 and the above-described operation is repeated. When a call operation is performed using the management room call key 17, measurement of the transmittable time is started (S70), and it is determined whether transmission is possible within that time (S71, S72). This senses the control path 41 through the receiving circuit 14 to determine whether data is received. If the control path 41 is still used even after the transmittable time has elapsed, although not shown, the data transmission by the call operation is discarded, the measurement time is cleared (S75), and the process returns to S63. Further, when it is detected through sensing that transmission can be performed within the transmittable time, selection for calling the management room terminal device 21 is entered (S73). As will be described later, it is determined whether or not a call signal is transmitted / received by this selecting (S74), and when the call is not made, the process returns to S71 to determine whether the measurement time has passed the transmittable time, When a call is made, the process returns to S63 to determine whether there is data reception by simultaneous broadcasting.
[0046]
Here, (1) an operation when calling the visited residence unit from the collective entrance 31 and (2) an operation when calling the management room from the dwelling terminal device 11 will be described in detail. The operation (1) will be described with reference to the timing chart of FIG.
(1) When a dwelling unit number is input by operating a numeric keypad (not shown) and then the call key 37 is turned on, the collective entrance 31 displays the dwelling unit number on a display unit (not shown) and measures the transmission possible time. To start. Then, it is determined by sensing the control path 41 through the receiving circuit 34 whether or not transmission is possible within that time, and when transmission is possible, the formatted data is sent to the control path 41 as shown in FIG. This is sent to the control device 1 for calling selection. In this data, the address (dwelling unit number) of the destination dwelling unit 11 is written in the blocks AS1 and AS2 as the transmission source, and an instruction for causing the block CM to perform the call control is sent to the blocks AD1 and 2 in the collective entrance The address of the machine 31 is written as the receiving destination, and the call data is written in the block DA1.
[0047]
When the received data is confirmed in S6 of FIG. 6, the control device 1 determines whether or not the received data is an emergency polling request (S9). If not, it determines whether or not the data is received by calling (S10). ). When it is determined that the call is made, the selection is performed on the collective entrance 31 of the transmission source and the dwelling unit 11 of the reception destination (S13). First, the data in the received format is returned to the collective entrance 31 to notify the data reception (see FIG. 3A). Next, when the control path 41 is sensed through the receiving circuit 7 and can be transmitted, the data in the format received from the collective entrance 31 is transmitted to the control path 41 and selected for the destination dwelling unit 11. (See FIG. 3B). In this case, when there are a plurality of communication paths 42, which communication path is used is instructed, for example, in block DA2.
[0048]
At this time, the corresponding dwelling unit terminal equipment 11 receives the data (S64 in FIG. 9) and performs selection on the control device 1 (S65). In this selecting, the received data is returned to the control device 1 to notify the reception of the data (see FIG. 5B). Further, when data is received, a ringing tone is emitted through a speaker (not shown), and the speech path switch 15 is turned on to connect to the speech path 42. When a hook-on of a handset (not shown) is detected by the ringing tone, data having its own address as the receiving side and the address of the collective entrance 31 as the transmitting side is transmitted to the control path 41, and the control device 1 is selected (see FIG. 3C). This data includes the addresses of the collective entrance 31 in the blocks AS1 and 2, the command for controlling the call to the block CM, the address of the dwelling unit 11 in the blocks AD1 and the hook-on detection in the block DA1. Each data is written.
[0049]
When the data is received (S6), the control device 1 determines whether the received data is an emergency polling request as described above (S9). Determine (S10). When it is determined that the call has been made, the selection is performed on the transmission source dwelling unit 11 and the reception destination entrance 31 (S13). First, the data of the received format is returned to the dwelling unit terminal device 11 to notify that the hook-on confirmation has been made (see (c) in the figure). At this time, the communication path connection circuit 10 is controlled to connect the communication path 42 on the dwelling unit terminal 11 side and the communication path 42 on the collective entrance 31 side. Next, a control command for connecting the communication path 42 to the collective entrance 31 is placed on the format data and selected (see FIG. 3D). In this case, the data from the dwelling unit terminal device 11 is transmitted to the collective entrance 31.
[0050]
When the data is received, the collective entrance machine 31 turns on the communication path switch 35 to enable a call with the dwelling terminal device 11 as the reception destination, and returns the received format data to the control device 1. The fact that the data has been received is notified (see (d) in the figure), and the operation by the dwelling unit call from the collective entrance 31 is terminated.
[0051]
(2) When the management room calling key 17 provided in the dwelling unit terminal device 11 is turned on, the dwelling unit terminal device 11 determines that the calling operation has been performed and starts measuring the transmission possible time (FIG. 9). S66, S70). Then, it is determined by sensing the control path 41 through the receiving circuit 14 whether or not transmission is possible within that time (S71, S72). When transmission is possible, data formatted in the same manner as described above is transmitted to the control path 41 and selected to the control device 1 (S73). This data includes the addresses of the control room terminal devices 21 in the blocks AS1 and 2, the command for controlling the call to the block CM, the addresses of the dwelling terminal devices 11 in the blocks AD1 and AD, and the control room call in the block DA1. Are written respectively. Thereafter, it is determined whether or not transmission / reception by a call has been performed (S74).
[0052]
When the received data is confirmed in S6 of FIG. 6, the control device 1 determines whether or not the received data is an emergency polling request (S9). If not, it determines whether or not the data is received by calling (S10). ). When it is determined that the call has been made, selection is performed on the transmission source dwelling unit terminal device 11 and the reception destination management room terminal device 21 (S13). First, the data of the received format is returned to the dwelling unit terminal device 11 to notify the data reception. Next, when the control path 41 is sensed through the receiving circuit 5 and can be transmitted in the same manner as described above, the data in the format for calling the management room is transmitted to the control path 41 and sent to the management room terminal device 21 as the reception destination. Select against.
[0053]
At this time, the management room terminal device 21 receives the data and selects the control device 1. In this selecting, the received data is returned to the control device 1 to notify the data reception. When the data is received, a ringing tone is emitted through a speaker (not shown), and the speech path switch 25 is turned on to connect to the speech path 42. When the hook-on of the handset (not shown) is detected by the ringing tone, the data formatted in the same manner as described above is transmitted to the control path 41 and selected to the control device 1. This data includes the address of the dwelling unit terminal device 11 in the blocks AS1 and 2, the command for performing the call control in the block CM, the address of the control room terminal device 21 in the blocks AD1 and 2, and the block DA1 in the block DA1. Each hook-on detection data is written.
[0054]
When the data is received (S6), the control device 1 determines whether the received data is an emergency polling request as described above (S9). Determine (S10). When it is determined that the call has been made, selection is performed on the transmission source dwelling unit terminal device 11 and the reception destination management room terminal device 21 (S13). First, the data in the received format is returned to the management room terminal device 21 to notify the hook-on confirmation. At this time, the communication path connection circuit 10 is controlled to connect the communication path 42 on the dwelling unit terminal device 11 side and the communication path 42 on the management room terminal device 21 side. Next, a control command for connecting the communication path 42 to the dwelling unit terminal device 11 is placed on the format data and selected. In this case, data from the management room terminal device 21 is transmitted to the dwelling unit terminal device 11.
[0055]
When the data is received, the dwelling unit terminal device 11 turns on the communication path switch 15 to enable communication with the receiving management room terminal device 21 and returns the received format data to the control device 1. To notify that data has been received. At this time, when a call is transmitted / received by calling this management room (S74), it is determined whether there is data reception by simultaneous polling (S63).
[0056]
Next, (3) an emergency polling request and an operation when emergency polling is performed in response to the request and (4) an operation when simultaneous polling is performed will be described in detail.
(3) When there is no call operation, the dwelling unit 11 selects, for example, a call system with a high degree of danger when it detects the activation of the call system and the failure system at the same time (S68 in FIG. 9), and makes an emergency poll request. Measurement of the transmittable time is started (S81 in FIG. 10). At this time, although it is determined whether or not the time has elapsed, the control path 41 is immediately sensed to determine whether or not an emergency polling request can be transmitted (S82, S83).
[0057]
When the transmission impossible state continues for the transmission possible time, the measurement time is cleared, and it is determined whether or not the fire system is activated (S93, S67), but transmission is performed before the transmission possible time elapses. When it is detected that it is possible, as shown in FIG. 11A, an emergency polling request is transmitted to the control device 1 to wait for emergency polling data reception (S84, S85).
[0058]
On the other hand, when detecting the reception of data (S6 in FIG. 6), the control device 1 determines whether or not the data is an emergency polling request (S9). Polling processing is entered (S12). First, measurement of the transmittable time is started (S21 in FIG. 7), and it is determined whether transmission is possible (sensing) within that time (S22, S23). When transmission is not possible, the measurement time is cleared and measurement of the time is started again (S32, S21), but when sensing that transmission is possible through sensing, the first to 32nd floors are grouped as described above, The emergency polling data is transmitted with the 33rd to 64th floors as separate groups, respectively (S24). When this data is transmitted, time slots are set for the 1st to 16th floors and the 17th to 32nd floors for the 1st to 32nd floors, and the 33rd to 48th floors for the 33rd to 64th floors. And the 49th to 64th floors are set with time slots (see FIG. 11A). When this emergency polling is performed, the measurement of the standby time is started and the system waits until the time is up (S25, S26).
[0059]
At this time, the dwelling unit 11 that has requested emergency polling receives emergency polling data (S85 in FIG. 10). Then, as shown in FIG. 11 (a), in response to a command written in the emergency polling data, the notification of the call system detection is made in a predetermined time slot (S86), and the reception of the call-related floor polling data is received. Wait (S87). Here, for example, when the dwelling unit 11 in any of the 17th to 32nd floors detects a fire system, a fire system detection notification is returned in a predetermined time slot as shown in FIG. To do.
[0060]
On the other hand, the control device 1 determines whether or not the standby time has expired (S26 in FIG. 5), and when the time has expired, the measurement time is cleared to determine whether or not there is received data ( S27, S28). When there is no received data, as described above, the emergency polling process is terminated and a terminal event permission is issued to the dwelling terminal device 11 in all the rooms (S3). It is determined whether a fire system exists from the slot, and a floor group is determined although not shown. In this case, a fire system which is a call system and a fire system but has a high risk level is selected (S29), and the floor groups of the 17th to 32nd floors are determined.
[0061]
Then, as shown in FIG. 11B, first, fire-related floor polling data is transmitted to the 17th to 24th floor groups (S41 in FIG. 8). At this time, if data notifying the floor is not received from each dwelling unit terminal device 11, it is determined whether or not the floor group is ended (S <b> 42, S <b> 43). Although permission is issued (S51), but the floor group has not ended, as shown in FIG. 11 (b), the next floor group 25th to 32nd floors are selected and fire-related floor polling data is transmitted. (S44, S41). Then, similarly to the above, it is determined whether there is received data (S42).
[0062]
The dwelling unit 11 that has notified the fire system detection receives fire-related floor polling data (S87 in FIG. 10). Then, as shown in FIG. 11 (b), data is transmitted to the control device 1 in a predetermined time slot in order to inform the floor (S88), and the reception of fire related room polling data is awaited (S89). Since the dwelling unit 11 that has requested emergency polling is call-based detection, it does not take in even if fire-related floor polling is transmitted, and waits until call-related floor polling is transmitted.
[0063]
When the control device 1 detects reception of data from the dwelling unit terminal device 11 (S42 in FIG. 8), the control device 1 confirms the 18th floor from the time slot of the data, and as shown in FIG. Fire-related room polling data is transmitted to each dwelling unit 11 in the first room group (rooms 1801 to 1808) (S45). At this time, it is determined whether or not the data for informing the dwell unit number has been received from each dwelling unit terminal device 11 (S46). When the received data is detected, the selection for collecting information is entered (S49). If there is no data, it is determined whether or not the 18th-floor room group ends (S47). When the room group is finished, the terminal event permission is issued to the dwelling terminal equipment 11 in all the rooms (S51), and the process returns to S4 in FIG. 4, but when the room group exists, the next room group (1809- 1816 room) is selected, and fire-related room polling data is transmitted to each dwelling unit terminal device 11 (S48, S45), and it is determined whether or not data is received in the same manner as described above (S46).
[0064]
At this time, the dwelling unit 11 that has detected the fire system receives fire-related room polling data (S89 in FIG. 10). And as shown in FIG.11 (c), in order to notify a dwelling unit number, data are transmitted to the control apparatus 1 by a predetermined time slot (S90), and the selection from the control apparatus 1 is waited (S91).
[0065]
When the control device 1 detects data reception by polling a fire related room (S46 in FIG. 8), the control device 1 determines the dwell unit number from the time slot of the data, and as shown in FIG. 11 is selected (S49), and the information from the specified dwelling unit 11 is awaited (S50).
[0066]
When the specified dwelling unit 11 is selected by the control device 1 (S91 in FIG. 10), in response to this, for example, the control device 1 is notified of information indicating that the heat sensor has been activated (S92). .
[0067]
At this time, the control device 1 determines whether or not information has been received as described above (S50 in FIG. 8), and when information is received, recognizes the occurrence of a fire from the information. Then, for example, an alarm sound is generated for each of the dwelling unit terminals 11 on the 18th floor and immediately above the floor where the fire occurred.
[0068]
(4) This alarm sound is generated by simultaneous polling, and the data in the format shown in FIG. 2 is repeatedly transmitted three times to each dwelling unit 11 on the 18th floor and each dwelling unit 11 on the immediately upper floor. . As for the data, the addresses of the transmission source and the reception destination are in blocks AS1 and 2, the call control command to the block CM, that is, the command to generate an alarm sound, and the data to call each receiving unit 11 in the block DA1. Has been written. At this time, each dwelling unit 11 on the 18th floor and the directly above floor receives the simultaneous polling data. Then, a built-in bell (not shown) is activated to generate an alarm sound to notify the resident.
[0069]
In addition, when the control device 1 does not perform emergency polling, selection by calling, or the like, that is, when there is no reception data, the control device 1 receives the broadcast data (S4 in FIG. 6), and the dwelling terminal device 11 in all the rooms. Are simultaneously polled (S5). The broadcast data is based on the selection from the control room terminal device 21 that has detected that the broadcast key 27 is turned on. In response to this selection, the reception data is returned to the control room terminal device 21. Perform simultaneous polling. When performing simultaneous polling, the communication path connection circuit 10 is controlled to connect the communication path 42 on the management room terminal device 21 side and the communication path 42 on the dwelling terminal device 11 side in all rooms, and the data for simultaneous polling is controlled. It transmits to 41 and makes each dwelling unit terminal device 11 receive. This data is transmitted three times repeatedly.
[0070]
On the other hand, when the data for simultaneous polling is received (S63 in FIG. 9), each dwelling unit terminal device 11 turns on the communication path switch 15 (S63a). At this time, a ringing tone is generated from a speaker (not shown) to notify the resident.
[0071]
As described above, in the present embodiment, when the same data is received when the data is transmitted based on the calling operation, it is determined that the data has been transmitted normally. Compared with the conventional device that checks the data, the connection with the receiver is made more quickly, and when the bell rings or broadcasts in the event of a fire, the data is transmitted three times repeatedly. There is an effect that the device 11 side can surely receive and notify that effect.
[0072]
Furthermore, when the dwelling unit terminal device 11 detects an abnormality, the control device 1 is requested to perform urgent polling so as to perform polling, so that the power consumption is reduced as compared with the conventional device that periodically performs polling. In addition, when the dwelling unit terminal device 11 detects a plurality of abnormalities, the abnormalities with high risk are preferentially selected to request emergency polling, and the control device 1 performs polling according to the emergency polling request. Sometimes when a plurality of abnormalities are confirmed, a high-risk abnormality is preferentially selected and polling is performed to identify the dwelling terminal device 11 that has generated the abnormality. It can be processed from the one with the highest degree of danger, and this has the effect of minimizing the damage.
[0073]
In the embodiment, the communication path 42 is described as one line, but a plurality of lines may be used. In that case, the control device 1 determines a free call path and notifies the transmission source and the reception destination during call control.
[0074]
Moreover, although the intercom for collective housing has been described, it goes without saying that it can be applied to an intercom device for a detached house. A management intercom may be provided outside the management room.
[0075]
【The invention's effect】
  As aboveDepartureAccording to Ming,When a terminal device transmits data in a format having a block for writing a transmission source address, a call control command command, and a reception destination address in order to enable communication with another terminal device, the terminal device has its own address as the reception destination address, Send data to the control device, each of which is written the address of the terminal device that wants to be able to make a call to the source address, when the data is returned from the control device, determine that the data has been transmitted normally, When the format data is received, the data is returned to the terminal device that has written its own address as the destination address, and the data is also transmitted to the terminal device of the transmission source address. When returnedSince it is determined that the data has been normally transmitted, there is an effect that the connection with the receiving destination is quickly performed as compared with the conventional device in which data is transmitted and received a plurality of times for confirmation.
[0076]
  Also,Multiple dwelling unit terminal devices monitor the presence or absence of abnormalities through various detection means, and when multiple abnormalities are detected, preferentially select the higher-risk abnormality and request polling from the control device Since data is transmitted, it is possible to reduce power consumption compared to the conventional system that periodically polls, and in response to this polling request, polling is performed in which time slots are assigned for each abnormal content. Since the time slot is selected from the detected abnormality and the abnormality is notified, there is an effect that the damage in the room can be minimized.
[0077]
  Also,When the control device receives data for requesting polling, polls a plurality of dwelling terminal devices by assigning a time slot for each predetermined abnormality content, and detects a plurality of abnormalities when polling is performed. , If you select a higher-risk abnormality preferentially, perform polling to search for the dwelling terminal device that issued the abnormality, and specify the dwelling terminal device by this polling, the abnormality content from that dwelling terminal device Collect information onAs a result, even if a plurality of abnormalities occur at the same time, processing can be performed from the higher risk level, and damage can be minimized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an intercom system according to an embodiment of the present invention.
FIG. 2 is a diagram showing a simultaneous polling format.
FIG. 3 is a diagram showing a selecting format and a timing chart of data transmission / reception by selecting.
FIG. 4 is a diagram showing a format of emergency polling and floor polling.
FIG. 5 is a diagram showing a format of number room polling.
FIG. 6 is a flowchart showing the operation of the control device.
FIG. 7 is a flowchart following FIG. 6;
FIG. 8 is a flowchart following FIG. 7;
FIG. 9 is a flowchart showing the operation of the dwelling unit terminal device.
FIG. 10 is a flowchart following FIG. 9;
FIG. 11 is a timing chart of data transmission / reception by emergency polling.
[Explanation of symbols]
1 Control device
11 Dwelling unit terminal equipment
21 Management room terminal equipment
31 Collective entrance
41 Control path
42 Call path

Claims (1)

A plurality of dwelling unit terminals installed in each dwelling unit, a management room terminal device and a collective entrance are provided as terminal devices, each having a control device connected to each terminal device, each terminal device having a control device In the intercom system that sends and receives data via
When the terminal device transmits data in a format having a block for writing a transmission source address, a call control command command, and a reception destination address in order to enable communication with other terminal devices, the terminal device has its own address as the reception destination address. , Transmitting data to which the address of the terminal device that is desired to be able to make a call is transmitted to the transmission source address to the control device, and when the data is returned from the control device, it is determined that the data has been normally transmitted; The data transmission / reception unit when the data having the address written in the transmission source address is received as the data of the format is returned to the control device ,
When the control device receives the data of the format , the control device returns the data to the terminal device that has written its own address as the destination address, and sends the data to the terminal device of the transmission source address. sent, comprises a terminal data reception unit determines that the time data is returned has been successfully sent,
Among the terminal devices, a plurality of dwelling terminal devices monitor the presence or absence of abnormality through various detection means, and when a plurality of abnormalities are detected, preferentially select an abnormality with a higher degree of risk and perform the control When a polling request is sent to the device, and when polling is received with a time slot assigned for each abnormality content, a polling request unit that selects a time slot from the detected abnormality and notifies the abnormality is sent. Prepared,
When receiving the data requesting the polling, the control device polls the plurality of dwelling terminal devices by assigning time slots for each predetermined abnormality content, and performs a plurality of abnormalities when the polling is performed. When it is detected, the higher risk abnormality is preferentially selected, and polling is performed to search for a dwelling terminal device that has issued the abnormality. An intercom system that collects information on abnormal contents from equipment .

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