JP2012109685A - Intercom system for communication network compatible apartment house - Google Patents

Intercom system for communication network compatible apartment house Download PDF

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Publication number
JP2012109685A
JP2012109685A JP2010255273A JP2010255273A JP2012109685A JP 2012109685 A JP2012109685 A JP 2012109685A JP 2010255273 A JP2010255273 A JP 2010255273A JP 2010255273 A JP2010255273 A JP 2010255273A JP 2012109685 A JP2012109685 A JP 2012109685A
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Japan
Prior art keywords
intercom
dwelling unit
content server
communication network
intercom system
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Granted
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JP2010255273A
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Japanese (ja)
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JP5775995B2 (en
Inventor
Naonori Hashimoto
Kazuhiko Mori
Satoshi Shinozaki
Takeshi Ueda
毅 上田
和彦 森
尚典 橋本
聡 篠崎
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Panasonic Corp
パナソニック株式会社
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Priority to JP2010255273A priority Critical patent/JP5775995B2/en
Publication of JP2012109685A publication Critical patent/JP2012109685A/en
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Publication of JP5775995B2 publication Critical patent/JP5775995B2/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M11/00Telephonic communication systems adapted for combination with other electrical systems
    • H04M11/02Telephonic communication systems adapted for combination with other electrical systems with bell or annunciator systems
    • H04M11/025Door telephones
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q9/00Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04QSELECTING
    • H04Q2209/00Arrangements in telecontrol or telemetry systems
    • H04Q2209/60Arrangements in telecontrol or telemetry systems for transmitting utility meters data, i.e. transmission of data from the reader of the utility meter

Abstract

An intercom system for a collective housing is provided that can display advice on the power consumption and energy of a dwelling unit on the dwelling unit interphone side without separately installing a LAN in a dwelling.
A dwelling unit interphone 11 includes a first connection terminal 11a for connecting to an interphone line 15 and a Web server 3b, and a measuring device 3 that generates a power monitor screen including the power consumption of the dwelling unit. The content server 20 includes a second connection terminal 11b for connection and downloads and displays a power usage monitor screen from the measurement device through the second connection terminal 11b, while interposing the system control device 14 as a gateway. Download and display the energy information screen provided in.
[Selection] Figure 1

Description

  The present invention relates to an intercom system for collective housing having a function of controlling communication connection between a dwelling unit intercom and a service server on a communication network such as the Internet.

  Currently, a plurality of home automation systems for controlling the equipment of dwelling units are provided. Among them, as described in Non-Patent Document 1, for example, various information such as the current power consumption is displayed on the panel. Some are displayed.

  FIG. 8 is a schematic block diagram of the system described in Non-Patent Document 1, and shows a basic configuration in which a distribution board having a power measurement function and a display operation panel are connected to a control board provided with an HA terminal and the like. The control panel is also connected to a service server on the Internet via a communication provider. This service server can be used for storing power consumption for a long period of time, in addition to providing advice for reducing energy consumption.

http://denko.panasonic.biz/Ebox/kahs_eco/index.html

  There is also a desire to reduce the power consumption of dwelling units in apartment buildings. However, if the system described in Non-Patent Document 1 is introduced into each dwelling unit of the apartment house as a solution to this problem, it is necessary to separately construct a LAN for Internet connection in the entire residence building, resulting in high costs. Recently, there is a tendency for high-speed Internet environments to be strongly demanded even in apartment buildings. However, a system that lays a LAN in the entire building and uses it jointly does not provide sufficient speed, and is not popular among residents. There was also a risk of buying.

  An object of the present invention is to solve such a problem, and it is possible to display advice on power consumption and energy of a dwelling unit on a dwelling interphone without separately laying a LAN in a dwelling. The intercom system for multi-family housing is proposed below.

  The present invention relates to a communication network-compatible apartment house intercom system having a function of controlling connection between a dwelling unit interphone installed in a residential building and a content server on an external network. A first connection terminal for connection, and a second connection terminal for connecting to a measuring device that has a built-in Web server and generates a power monitor screen including the power consumption of a dwelling unit For the measurement device, the power usage monitor screen generated by the measurement device is downloaded and displayed through the second connection terminal, while for the content server, the system control device is used as a gateway. The energy information screen provided by the content server is downloaded and displayed. There.

  The dwelling unit intercom may include a web browser for downloading and displaying the power monitor screen from the measurement device and downloading and displaying the energy information screen from the content server.

  The power usage measured by the measurement device may be notified to the content server device through the interphone line and stored and stored in a predetermined database.

  The content server may provide an energy information screen including advice on energy consumption.

  According to the present invention, the dwelling unit intercom includes the first connection terminal for connecting to the interphone line and the second connection terminal for connecting to the measurement device. Then, the browser is operated to download the power usage monitor screen from the measuring device, while the condominium HA device on the interphone line is used as a gateway to download the energy information screen provided by the content server. For this reason, it is possible to display advice on the power consumption and energy of the dwelling unit on the dwelling intercom without installing a separate LAN in the dwelling.

It is a functional block diagram including the dwelling unit intercom which makes the principal part of this invention system. It is an external view of a dwelling unit intercom. It is the block diagram which showed the basic composition of this invention system. (A) is an example of an energy information screen, (b) is an example of a power monitor screen. It is the flowchart which showed the basic signal transmission in this invention system. It is the flowchart which showed the signal transmission regarding the electric power consumption of a dwelling unit.

FIG. 3 shows the overall basic configuration of a system to which the system of the present invention is applied.
The intercom system for collective housing shown in the figure includes a dwelling unit intercom 11 installed in each dwelling unit of the dwelling unit, a lobby intercom 12 installed in the dwelling unit lobby, and a system control device 14, as will be described later. It is configured to include the device. However, the intercom system 1 to which the present invention can be applied only needs to have at least a basic function of calling the dwelling unit interphone 11 installed in each dwelling unit from the lobby interphone 12 and performing call control.

  The dwelling unit intercom 11 is configured as a house information board with a built-in web browser unit 11h having a so-called browsing function, and is connected to a door phone 15, a security sensor 16, and the like. A first connection terminal 11a for connecting to the intercom line 15 and a second connection terminal 11b for connecting to the measuring device 3 or the like to be described later are provided. Thereby, the dwelling unit intercom 11 can download and display homepage contents from the content server 20 on the external network. Here, the external network is typically the Internet 21 that opens users to the general public, but it may be a dedicated network with limited subscribers. Note that the present invention can also be applied to a configuration using a residence building network instead of an external network. In this case, the content server 20 described later may be connected to the residence building network.

  As shown in FIG. 2, the dwelling unit intercom 11 further includes a touch panel 11c, a menu key 11d, a call key 11e, a speaker 11f, a microphone 11g, and the like that form a call unit. Here, in the menu key 11d, the letters “energy” are displayed on the keys related to the present invention. In the illustrated example, a handset is not provided assuming a hands-free call, but a configuration in which a handset is provided may be used.

  As shown in FIG. 1, the dwelling unit intercom 11 constituting the main part of the present invention includes a first connection terminal 11a and a second connection terminal 11b, and the first connection terminal 11a is, for example, a twisted pair cable. This is a terminal for connecting to the intercom line 15 constituted by The second connection terminal 11b is a terminal for connecting to the communication line 17 such as a LAN cable, for example, and may be different in shape from the first terminal. The dwelling unit intercom 11 is connected to the measuring device 3 that measures the power consumption of the dwelling unit by the signal line 17 connected to the second connection terminal 11b. Note that the second connection terminal 11b is connected not only to the measuring device 3, but also to a housing equipment LAN or the like, and an equipment controller 5 or the like that controls equipment equipment 6 such as lighting equipment or air conditioning equipment. Good. The measuring device 3 is configured as a switchboard and is connected to a power meter 4 managed by a power company.

  The lobby intercom 12 includes an operation unit for designating a room number of a call destination, a speaker and a microphone (none of which are not shown) constituting a call unit.

  The authentication terminal 7 is an operation terminal for authenticating a resident with a card key or the like, for example, and is provided in the vicinity thereof as an integral part of the lobby interphone or as a separate body. The information on the card key read by the authentication terminal 7 is authenticated by the authentication device 8 connected to the system control device 14, and the electric lock (not shown) of the lobby door and the dwelling door can be unlocked.

  The alarm monitoring panel (administrator room) 13 includes a touch panel that constitutes a display operation unit, a handset that constitutes a call unit, an alarm lamp that constitutes an abnormality notification means, and a speaker (none of which are shown). .

  The system control device 14 is basically a device that controls communication between the dwelling unit interphone 11, the lobby intercom 12, and the alarm monitoring panel 13, and further, the server unit installed in the dwelling unit intercom 11 and the Internet 21. In order to perform communication control with a gateway function, at least an address conversion function is provided.

  The content server 20 is a server device that provides an energy information screen with statistical information and advice regarding power usage as content. The content may store and accumulate energy information about each dwelling unit and include, for example, advice on energy consumption. In this way, the dweller can easily obtain knowledge about ecology, and thus can curb power consumption.

  With reference to FIG. 3, the functional configuration of the system according to the present invention will be described below.

  The dwelling unit intercom 11 includes a web browser unit 11h and a gateway unit 11i. The gateway unit 11i includes a first connection terminal 11a side, the first connection terminal 11a is connected to the system control device 14 by an interphone line 15, and the second connection terminal 11b is measured by a signal line 17 such as a LAN cable. In order to be connected to the device 3 and function as a communication terminal in each system, a communication address corresponding to the system is set.

  The system control device 14 includes a first connection terminal 14 a connected to the interphone line 15, a second connection terminal 14 b connected to the Internet 21, and a gateway unit 14 c. Addresses are set on the first connection terminal side and the second connection terminal side, respectively, and communication control is performed with the content server 20 through the Internet 21 and with the dwelling unit intercom 11 through the interphone line 15.

  The measuring device 3 provides a monitor screen including the measured power consumption in order to respond to the access from the web browser 11h of the dwelling unit intercom 11 with the measuring means 3a that measures the current power consumption of the dwelling unit. And a server unit 3b.

  The content server 20 includes a web server unit 20a that generates and provides an energy information screen, and a database 20b that accumulates the power usage of each dwelling unit collected from the measurement device 3.

  Next, the basic operation of the intercom system 1 will be described. The dwelling unit interphone 11 and the system control device 14 constitute a residential building LAN connected to each other via an interphone line 15 and perform communication by TCP / IP. For this reason, the address on the first connection terminal side of the dwelling unit intercom 11 and the address of the system control device 14 have a common network address part. Note that the communication between the dwelling intercom 11 and the system control device 14 may be a unique protocol, but in that case, communication by TCP / IP is enabled by protocol conversion.

  Similarly, the dwelling unit intercom 11 and the measuring device 3 constitute a dwelling unit LAN and perform communication by TCP / IP. Therefore, the addresses of the dwelling unit intercom 11 and the measuring device 3 also have a common network address part.

  The system control device 14 and the lobby interphone 12 or the alarm monitoring panel 13 may communicate with each other using TCP / IP.

  The basic operation of interphone call communication control in this system is the same as that in the conventional system. That is, when a calling operation is performed with the dwelling unit number specified on the lobby interphone 12, the system control device 14 specifies the address of the called dwelling unit and the corresponding dwelling unit intercom 11 is called. When the call key 11e is operated with the called dwelling unit intercom 11, the system control device 14 configures an exclusive audio channel between the lobby intercom 12 and the dwelling unit intercom 11, and the visitor and the dweller. Allow phone calls. Thereafter, when the call key 11e is operated again or when a predetermined time has elapsed, the audio channel is released. Note that there may be a plurality of lobby interphones 12, and even in this case, the audio channel is exclusively controlled.

  Furthermore, if the intercom system 1 is a television system, a video camera (not shown) provided on the lobby intercom 12 side and a call destination are displayed after the call operation is performed on the lobby intercom 12 until the call channel is released. An exclusive video channel is configured with the dwelling intercom 11. If it does in this way, it can respond, monitoring the visitor's picture with dwelling intercom 11.

  The basic functions and operations as an alarm monitoring system are the same as those of the conventional system. That is, when the security sensor 16 detects the occurrence of an abnormality, the dwelling unit intercom 11 displays an alarm screen on the touch panel 11c and outputs an alarm message from the speaker 11f. Further, the dwelling unit intercom 11 notifies the alarm monitoring panel 13 of the occurrence of the abnormality. Upon receiving the notification, the alarm monitoring panel 13 outputs an alarm, and outputs an evacuation message or the like from the dwelling unit interphone 11 that has notified the occurrence of an abnormality or the neighboring dwelling unit intercom 11 according to the operation of the manager. In addition, the occurrence of abnormalities can be transferred to disaster prevention centers.

  Next, characteristic functional operations in the system of the present invention, that is, basic operations related to the display of the energy information screen and the power monitor screen will be described. In short, when the dwelling unit intercom 11 receives a predetermined operation, the dwelling unit intercom 11 operates the web browser unit 11h to download the power monitor screen generated by the measuring device 3 and display it on the display unit. Similarly, the energy information screen provided by the content server 20 is downloaded and displayed on the display unit using the system control device 14 as a gateway. In such a system, a power monitor screen, an energy information screen, and the like can be displayed on the dwelling intercom 11 without separately laying a LAN in the residence building, and costs can be reduced. Further, since the energy information screen and the power monitor screen are downloaded and displayed by the web browser unit 11h, those screens can be easily created by using a well-known homepage creation technique.

In order to display the energy information screen, for example, the menu key 11d of the dwelling unit intercom 11 may be operated. In the web browser unit 11h, the address (or URL) of the content server 20 and the address of the measuring device 3 are stored in advance, and connection to the content server 20 is started when the menu key 11d is operated. On the other hand, the gateway unit 11i determines the transmission destination address (global IP on the Internet) of the connection request signal output from the web browser unit 11h and selects communication on the first connection terminal side. Therefore, the connection request signal is output to the intercom line 15 and reaches the system control device 14 that is a gateway of the intercom line 15.

  The gateway unit 14 c of the system control device 14 determines the transmission destination address of the connection request signal and sends the connection request signal to the Internet 21. The connection request signal sent to the Internet 21 reaches the content server 20 via a plurality of routers by a known routing technique. The content server 20 outputs a response signal to the connection request signal, and the response signal is transmitted to the dwelling unit intercom 11 along the path opposite to the previous connection request signal. As a result, the dwelling unit intercom 11 and the content server 20 are transmitted. Establish a connection with. Thereafter, the content server 20 downloads the energy information screen according to the request of the web browser unit 11h of the dwelling unit intercom 11, and displays it on the display unit of the web browser unit 11h, that is, the touch panel 11c. The energy information screen displayed in this way includes a link for switching the display on the power monitor screen.

  Thereafter, to display the power monitor screen, the link may be operated. Then, the dwelling unit intercom 11 sends out a connection request signal for starting connection to the measuring device 3. The gateway unit 11i determines the transmission destination address (local IP on the dwelling unit LAN) of the connection request signal output from the dwelling unit intercom 11 and selects communication on the second connection terminal side. Thereby, the connection request signal is transmitted to the measuring device 3. On the other hand, the measuring device 3 returns a response signal, and when the dwelling unit intercom 11 receives the response signal, the connection between the dwelling unit intercom 11 and the measuring device 3 is established. Thereafter, the measurement device 3 downloads the information on the power monitor screen according to the request of the web browser unit 11 h and displays the screen on the touch panel 11 c of the dwelling unit intercom 11.

  In the above, the energy display screen is displayed by the operation of the menu key 11d, and then the power monitor screen is displayed by the link operation on the screen. However, the menu key 11d for displaying the energy information screen and the menu key 11d for displaying the power monitor screen may be provided independently. Alternatively, a common top screen is displayed by operating the menu key 11d, and a link for switching the display on the energy information screen and a link for switching the display on the power monitor screen are arranged on the screen. Also good.

  The measuring device 3 regularly notifies the content server 20 of the power usage of the dwelling unit, and the content server 20 records the power usage of the dwelling unit transmitted from the measuring device 3 in the database. . In this way, since the storage capacity for storing and holding the power usage amount in the measuring device 3 is small, the cost can be reduced. The notification by the measuring device 3 may be performed spontaneously, for example, every predetermined time. This is a desirable configuration because the measuring device 3 is behind a plurality of gateways when viewed from the Internet 21 side and cannot be easily connected. However, it goes without saying that the content server 20 may connect to the measuring device 3 every predetermined time to request notification of power usage. The content server 20 analyzes the history of the power consumption of the dwelling unit notified from the measurement device 3, and generates content related to the power usage.

  FIG. 4A is an example of an energy information screen regarding power usage. Here, the monthly power consumption change is displayed in a graph. Below that, advice on ecology is displayed, and further below that, a plurality of links such as links for switching the display on the power monitor screen are displayed. There are no particular restrictions on the content of the energy information screen. For example, a change in weekly power consumption, a change in monthly power usage, a change in annual power usage, and the like may be simultaneously displayed or switched.

  FIG. 4B is an example of a power monitor screen. Here, along with the time, the current power consumption of the dwelling unit is displayed in a graph similar to an analog meter, and the value is also displayed numerically. The graph display and the numerical display may be updated and displayed every 10 seconds, for example. In addition, a warning message such as “Exceeding the reference level” may be appropriately displayed on this screen based on the power consumption. The reference level may be set in the measuring device 3 in advance, but the management screen may be called from the power monitor screen and may be freely set there. A plurality of links such as a link for switching the display to the content screen are displayed at the bottom of the screen.

  FIG. 5 is a flowchart showing the basic signal transmission related to the display of the energy information screen and the power monitor screen in time series.

  In this flow, the menu key 11d is operated with the dwelling unit intercom 11 at time T1, a connection request signal is transmitted from the dwelling unit intercom 11 to the content server 20, and a response signal in response thereto is returned from the content server 20. After the connection is established, a screen request signal is transmitted from the dwelling unit intercom 11 to the content server 20, and screen information corresponding thereto is returned from the content server 20 to the dwelling unit intercom 11. At time T2, an energy information screen constituted by the screen information is displayed on the dwelling unit intercom 11.

  After that, at time T3, the link for switching the display on the power monitor screen is operated on the energy information screen, and the dwelling intercom 11 receives it and transmits a connection request signal to the measuring device 3, and the response signal to that is measured. It is returned from the device 3. After the connection is established, a screen request signal is transmitted from the dwelling intercom 11 to the measuring device 3, and screen information corresponding thereto is returned from the measuring device 3 to the dwelling intercom 11. At time T4, the screen information is displayed on the dwelling intercom 11 as a power monitor screen.

  FIG. 6 is a flow diagram showing, in time series, signal transmission when notifying the content server 20 of the power usage of the dwelling unit. In this flow, at time T5, a connection request signal is transmitted from the measurement device 3 to the content server 20 based on the time, and a response signal to the connection request signal is returned from the content server 20. After the connection is established, the power usage amount is notified from the measuring device 3 to the content server 20. At time T6, the content server 20 stores the power usage amount in the database 14c.

1 Intercom system
3 Measuring equipment
3b Web server
11 Intercom intercom
11a First connection terminal
11b Second connection terminal
11h Web browser
11i gateway
12 lobby intercom
14 System controller
15 Intercom line 17 Signal line
20 Content server
20b database
21 Internet

Claims (4)

  1. In the intercom system for housing a communication network that has the function of controlling the connection between the dwelling unit intercom installed in the residence building and the content server on the external network.
    The dwelling unit intercom has a first connection terminal for connecting to an intercom line and a web server, and is connected to a measuring device configured to generate a power monitor screen including the power consumption of the dwelling unit. A second connection terminal;
    For the measurement device, the power usage monitor screen generated by the measurement device is downloaded and displayed through the second connection terminal, while the system controller is interposed as a gateway for the content server. An intercom system for collective housing corresponding to a communication network, configured to download and display an energy information screen provided by the content server.
  2. In the communication network-compatible apartment house intercom system according to claim 1,
    The dwelling unit intercom includes a web browser for downloading and displaying the power monitor screen from the measuring device and downloading and displaying the energy information screen from the content server. Intercom system for.
  3. In the intercom system for collective housing corresponding to a communication network according to claim 1 or 2,
    The communication network compatible apartment house intercom system, wherein the power usage measured by the measuring device is notified to the content server device through the interphone line and stored and stored in a predetermined database.
  4. In the communication network-compatible apartment house intercom system according to any one of claims 1 to 3,
    The content server is an intercom system for collective housing corresponding to a communication network that provides an energy information screen including advice on energy consumption.
JP2010255273A 2010-11-15 2010-11-15 Intercom system for collective housing with communication network Active JP5775995B2 (en)

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JP2014150457A (en) * 2013-02-01 2014-08-21 Panasonic Corp Collective housing information transition system and communication control unit
JP2015070370A (en) * 2013-09-27 2015-04-13 株式会社ノーリツ Resource use amount display device and remote controller for hot water supply
WO2016121133A1 (en) * 2015-01-30 2016-08-04 アイホン株式会社 Intercom system for collective housing
JP2017011380A (en) * 2015-06-17 2017-01-12 パナソニックIpマネジメント株式会社 Interphone for collective housing, relay server device, and network communication system
TWI573429B (en) * 2013-05-03 2017-03-01 南臺科技大學 A versatile voice and video intercom.
JP2017050899A (en) * 2016-12-15 2017-03-09 パナソニックIpマネジメント株式会社 Information transmission system for multiple dwelling house and communication control device

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ES1141495Y (en) * 2015-06-24 2015-10-07 Fermax Design & Dev S L U Multichannel porter video system with access to advanced digital services

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JP2010128617A (en) * 2008-11-25 2010-06-10 Panasonic Electric Works Co Ltd Usage monitoring system

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2014150457A (en) * 2013-02-01 2014-08-21 Panasonic Corp Collective housing information transition system and communication control unit
TWI573429B (en) * 2013-05-03 2017-03-01 南臺科技大學 A versatile voice and video intercom.
JP2015070370A (en) * 2013-09-27 2015-04-13 株式会社ノーリツ Resource use amount display device and remote controller for hot water supply
WO2016121133A1 (en) * 2015-01-30 2016-08-04 アイホン株式会社 Intercom system for collective housing
JP2016143997A (en) * 2015-01-30 2016-08-08 アイホン株式会社 Collective housing intercom system
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JP2017011380A (en) * 2015-06-17 2017-01-12 パナソニックIpマネジメント株式会社 Interphone for collective housing, relay server device, and network communication system
JP2017050899A (en) * 2016-12-15 2017-03-09 パナソニックIpマネジメント株式会社 Information transmission system for multiple dwelling house and communication control device

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