JP2004186837A - Video interphone system for multiple dwelling house - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video interphone system for multiple dwelling house capable of transmitting multiplexed voice, control and video signals on the same line in order to realize wiring / installation work saving through reduction in number of wire pairs. <P>SOLUTION: A shared part apparatus 10, branches 30, 31, and interphones 20, 21 are interconnected by a pair of shared transmission lines A, the interphones 20, 21 and house doorphone slave units 60, 61 are interconnected by a house dependent transmission line B via the branches 30, 31, a video signal, voice signal, and a control signal are frequency-multiplexed on the shared transmission lines A, and when a house calls the interphone 20, power of the house doorphone slave unit 60 is superimposed on the voice signal on the house dependent transmission line B, the branch 30 receiving the power switches an opening / closing path 301 to select an interphone side branch line for a connection destination of the shared part apparatus side trunk line of the shared transmission lines A. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a television intercom device for an apartment house or the like.
[0002]
[Prior art]
FIG. 4 shows a configuration of a television intercom apparatus for a general apartment building as an example of a conventional television intercom apparatus. A TV intercom system for general apartment buildings can talk to visitors at a common entrance in each dwelling unit, and captures images of visitors with a camera-equipped lobby intercom so that they can be monitored on a monitor in each dwelling unit. Visitors can be confirmed. In FIG. 4, the common unit device 10 is provided as the lobby intercom, and the intercom 20 is installed in each dwelling unit. The trunk line from the common unit device 10 is distributed to a plurality of trunk lines (systems) by the distributor 40, and after the distribution. Each trunk line is branched by the branching device 30 to the intercom 20 of each dwelling unit. In addition, a dwelling unit door phone handset 60 is provided at the individual entrance of each dwelling unit, so that visitors at the individual entrance can talk with residents in the dwelling unit.
[0003]
From the common unit 10, a common transmission line D <b> 0 is wired as a main line via a distributor 40, and is distributed to two systems by the distributor 40. The shared transmission line D <b> 0 after the distribution is branched to each dwelling unit by the branching unit 30, and then connected to the intercom 20. The shared transmission line D0 is generally formed of a multi-core twisted pair cable, and the transmission line D1, the transmission line D2, and the transmission line D3 are a pair of cables housed in the same sheath of the shared transmission line D0.
[0004]
From the intercom 20 to the dwelling unit 60, a transmission line B for each dwelling unit composed of a pair of cables is wired. The transmission line B for each dwelling unit is generally wired with a cable having a sheath different from that of the common transmission line D0, but a pair of transmission lines in the common transmission line D0 may be used.
[0005]
Next, the configuration of each unit will be described. First, the common unit 10 includes a CPU 101 that controls an internal circuit of the common unit 10 and controls communication with the intercom 20, and a control signal transmitting / receiving circuit that sends and receives a control signal to the transmission line D1 by the CPU 101. 102, a speaker 103 that outputs an audio signal to talk with a resident in the dwelling unit, a speaker amplifier 104 that amplifies an audio signal to the speaker 103, and a microphone 105 that inputs an audio signal to talk with a resident in the dwelling unit. A microphone amplifier 106 for amplifying an audio signal from the microphone 105, an audio circuit 107 connected to the speaker amplifier 104 and the microphone amplifier 106 and including a two-wire to four-wire conversion circuit for transmitting and receiving an audio signal to the transmission line D2. A camera unit 108 for imaging a visitor at a common entrance and outputting a video signal; FM modulator 109, an amplifier 110 for amplifying the video signal, an unbalanced-balanced conversion of the video signal and sending the video signal to the transmission line D3, a transformer 111, and a 100 V AC converted to the device. A power supply unit 112 for supplying power.
[0006]
The interphone 20 controls the internal circuit of the interphone 20 and performs control for communicating with the common unit device 10, a control signal transmission / reception circuit 202 that sends and receives a control signal to the transmission line D1 by the CPU 201, A speaker 203 that outputs an audio signal for talking with visitors at the common entrance and the individual entrance, a speaker amplifier 204 that amplifies an audio signal to the speaker 203, and a conversation with the visitors at the common entrance and the individual entrance. Therefore, a microphone 205 for inputting an audio signal, a microphone amplifier 206 for amplifying the audio signal from the microphone 205, and a speaker amplifier 204 and a microphone amplifier 206 connected to the microphone amplifier 206 and including a two-wire / four-wire conversion circuit for transmitting the audio signal to the transmission line D2. An audio circuit 207 for transmitting and receiving, and a video signal for receiving from the transmission line D3. A transformer 211 for performing balanced-to-unbalanced conversion, an amplifier 210 for amplifying a video signal, an FM demodulation unit 209 for FM-demodulating the video signal, a display unit 208 for displaying the video signal, and a power supply obtained by converting AC100V into the device. And a switch circuit for connecting the audio circuit 207 and a two-way audio amplifier circuit for communication with the door phone slave unit 60 for transmitting the audio signal to the transmission line B for each unit. And a slave unit interface circuit 213, a slave unit power supply unit 214 for supplying power for operating the dwelling unit doorphone slave unit 60, and a transistor for superposing the power supply of the slave unit power supply unit 214 on the transmission line B for each dwelling unit. And a slave unit power supply superimposing section 215 composed of a circuit.
[0007]
The distributor 40 distributes the transmission line D1 for transmitting the control signal and the transmission line D2 for transmitting the audio signal to two systems without any electric circuit, and the transmission line D3 for transmitting the video signal to the video signal distribution transformer 401. Is distributed to two systems.
[0008]
The branching device 30 branches the transmission line D1 for transmitting the control signal and the transmission line D2 for transmitting the audio signal into two systems without any electric circuit, and converts the transmission line D3 for transmitting the video signal into the video signal branch transformer 301. Branch into two systems. The video signal branching transformer 301 has a trunk-side impedance sufficiently higher than the characteristic impedance of the transmission line D3, and the branch-side impedance matches the characteristic impedance of the transmission line D3.
[0009]
Next, the operation of this conventional example will be described. First, when the control signal including the address of the dwelling unit number of the call destination is transmitted from the control signal transmission / reception circuit 102 of the shared device 10 to the transmission line D1, the control signal is transmitted to the CPU 201 via the control signal transmission / reception circuit 202 of the intercom 20. Upon input, intercom 20 performs an operation according to the control signal. The control signal is branched and distributed by the distributor 40 and the branching unit 30 without passing through any electric circuit. Therefore, the control signal transmitted from the common unit 10 is transmitted to all the interphones connected to the transmission line D1. Only the intercom that is transmitted and corresponds to the dwelling unit number address included in the control signal operates the audio circuit 207 and the display unit 208 according to the control signal, and enters a communication state with the shared unit device 10.
[0010]
In general, voice transmission is performed in the distributor 40 and the branching unit 30 as follows without branching and distributing without using any electric circuit. In the common unit 10, the audio signal transmitted through the transmission line D2 is output from the speaker 103 via the audio circuit 107 and the speaker amplifier 104, and the audio signal input by the microphone 105 is output from the microphone amplifier 106 and the audio circuit. The signal is transmitted to the transmission line D2 via 107. Similarly, in the intercom 20, the audio signal transmitted through the transmission line D2 is output from the speaker 203 via the audio circuit 207 and the speaker amplifier 204, and the audio signal input by the microphone 205 is output from the microphone amplifier 206 and The signal is transmitted to the transmission line D2 via the audio circuit 207. In this way, the visitor and the resident can talk with each other.
[0011]
Next, transmission of a video signal will be described below. The image of the visitor captured by the camera unit 108 in the common unit device 10 is subjected to FM modulation of the video signal by the FM modulation unit 109, and then via the amplifier 110 and the transformer 111 for performing unbalanced-balanced conversion. Output to the transmission line D3. The transmission line D3 can be distributed (branched) to a plurality of trunk lines by the distributor 40. As shown in FIG. 4, the video signal distribution includes a method using a video signal distribution transformer 401 and a method (not shown) for amplifying and distributing using a one-input / multiple-output amplifier circuit. The transmission line from the main line of the transmission line D3 to each dwelling unit is branched by interposing and connecting a branching device 30. The video signal branching transformer 301 is used to branch the video signal.
[0012]
The video signal input to the interphone 20 via the distributor 40 and the splitter 30 is input to the FM demodulation unit 209 via the transformer 211 and the amplifier 210 for balanced-to-unbalanced conversion, and is FM-demodulated. Residents within can check the visitor on the display unit 208.
[0013]
In the above conventional example, the video signal, the audio signal, and the control signal are transmitted through separate transmission lines. However, the transmission line transmits only the video signal, the audio signal, and the DC voltage by frequency multiplexing, and the control signal is transmitted. A television intercom device for a multi-family house having two transmission lines, a transmission line for transmitting only a video signal and a DC voltage by frequency multiplexing, and a transmission line for transmitting a control signal. There was also a television intercom device for apartments provided. (For example, see Patent Documents 1 and 2.)
[0014]
Further, as a conventional technique, in an intercom device of a detached house (that is, communication without using a branching device) instead of an apartment house, a DC power supply for powering a slave unit, an audio signal, a control signal, and a video signal are transmitted through a pair of transmission lines. Some are multiplexed and transmitted. FIG. 5 shows an outline of the transmission frequency band of each signal. The DC power supply is DC, the audio signal is 1 KHz band, the control signal is 100 KHz band by FSK (Frequency Shift Keying), and the video signal is 1 MHz band by FM modulation. Are distributed.
[0015]
[Patent Document 1]
Japanese Patent No. 311536 (page 6, right column, lines 24 to 29, page 7, left column, lines 23 to 38, FIG. 12)
[Patent Document 2]
JP-A-2002-94974 (page 2, right column, line 15 to line 21, page 3, right column, line 1 to right column, line 16, FIG. 1 (a), (b), FIG. 3)
[0016]
[Problems to be solved by the invention]
In a conventional TV intercom system for apartment buildings, since the audio signal, control signal, and video signal are transmitted on separate lines, the logarithm of the cable increases, which makes it difficult to handle the cable, such as it is difficult to bend and the cable cost is also low. Was higher.
[0017]
Furthermore, since the number of terminals in each device increases, there is a problem that it is difficult to understand the connection method, and a construction error easily occurs.
[0018]
The present invention has been made in view of the above circumstances, and an object of the present invention is to reduce the number of wiring pairs to realize wiring saving and construction saving, so that audio signals, control signals, and video signals are placed on the same line. It is an object of the present invention to provide a multi-unit television intercom apparatus that can be multiplexed and transmitted.
[0019]
[Means for Solving the Problems]
The invention according to claim 1 is a camera for imaging a visitor at a common entrance of an apartment house and outputting a video signal, and inputting / outputting an audio signal for the visitor of the common entrance to talk with a resident in a dwelling unit of the apartment house. Unit and a first control signal transmitting / receiving means for receiving a control signal from an external device while outputting a control signal including an address of a dwelling unit and a video signal from a camera of the common unit A monitor for a resident in the dwelling unit to see a visitor at the common entrance, a speaker and a microphone for inputting and outputting a voice signal for the resident in the dwelling unit to talk with the visitor, between the common unit device The communication device further includes a second control signal transmission / reception unit for transmitting and receiving a control signal, and operates based on the received control signal if its own address corresponds to an address included in the control signal from the common unit. And a pair of shared transmission lines for transmitting video signals, audio signals, and control signals, and a trunk line of the shared transmission line wired from the shared unit device. And a branching device for branching a shared transmission line from the intercom to the intercom, and a unit doorphone handset for exchanging audio signals between the interphone and allowing a visitor at an individual entrance of the unit to talk with a resident in the unit. The dwelling unit doorphone handset and the interphone are connected via the branching unit, and are configured with a dwelling unit-specific transmission line through which an audio signal is transmitted, and the common unit device is a video signal, an audio signal, and A first signal demultiplexing unit that frequency-multiplexes and transmits a control signal to the shared transmission line and separates a frequency-multiplexed signal received from the shared transmission line into a voice signal and a control signal; In addition, the intercom apparatus transmits a frequency multiplexed audio signal and a control signal to the shared transmission line and transmits the signal, and separates the frequency multiplexed signal received from the shared transmission line into a video signal, an audio signal, and a control signal. And a slave unit power supply superimposing means for superimposing power supplied to the dwelling unit on the transmission line for each dwelling unit, wherein the splitter is a common unit of the shared transmission line. A switch that switches the connection destination of the side trunk line to one of the transmission side trunk line of the shared transmission line and the intercom side branch line of the shared transmission line, and is connected between the common unit side trunk line and the transmission side trunk line. A first control band pass means for passing only control signals through the control unit, and a second control band pass means connected between the common unit side trunk and the intercom branch line for passing only control signals. To the dwelling unit doorphone handset from a signal of the short circuit, a short circuit between the first and second terminals connecting the transmission line for each dwelling unit, the first and second terminals, and a signal of the short circuit. Power supply separating means for separating the supply power of the power supply, and if the power supply separated by the power supply separating means is a predetermined voltage or less, the connection destination by the switch is maintained on the sending main line; And a switch switching means for switching a connection destination of the switch to a branch line on the interphone side.
[0020]
According to a second aspect of the present invention, in the first aspect, the power supply to the dwelling unit doorphone handset superimposed by the cordless unit power supply superimposing means of the interphone is a first voltage for operating the dwelling unit doorphone handset; And a second voltage higher than the first voltage for driving the switch. The switch switching means of the branching switch outputs the first power from the power supply separated by the power separation means. If the voltage, the connection destination by the switch is maintained on the sending main line of the shared transmission line, and if the voltage is the second voltage, the connection by the switch is switched to the interphone-side branch line of the shared transmission line. Features.
[0021]
The invention according to claim 3 is a camera for imaging a visitor at a common entrance of an apartment complex and outputting a video signal, and inputting and outputting an audio signal for the visitor of the common entrance to talk with a resident in a dwelling unit of the apartment complex. A first control signal transmitting / receiving means for receiving a control signal from the outside while outputting a control signal including an address of a called dwelling unit, a shared unit device including a DC power supply, and a camera of the shared unit device. A monitor for a resident in a dwelling to see a visitor at a common entrance, a speaker and a microphone for inputting / outputting an audio signal for a resident in a dwelling unit to talk to a visitor, and the common unit device And a second control signal transmitting / receiving means for transmitting and receiving a control signal between the control unit and the control unit. If the own address corresponds to an address included in the control signal from the common unit, the control unit operates based on the received control signal. Interphone, a pair of shared transmission lines for connecting the common unit device and the interphone, and transmitting a video signal, an audio signal, a control signal, and a DC power supply, and a common line wired from the common unit device. A branching unit for branching a shared transmission line from the trunk line of the transmission line to the interphone, and a unit for transmitting and receiving a voice signal between the interphone and allowing a visitor at an individual entrance of the unit to talk with a resident in the unit A doorphone slave unit, which connects between the dwelling unit doorphone slave unit and the intercom, is configured by a transmission line for each dwelling unit in which an audio signal is transmitted, and the shared unit device is a video signal, an audio signal, a control signal, And a first signal multiplexer for frequency-multiplexing and transmitting a DC power supply to the shared transmission line and separating a frequency-multiplexed signal received from the shared transmission line into a voice signal and a control signal. Separation means, the intercom apparatus, the audio signal and the control signal are frequency-multiplexed and transmitted to the shared transmission line, and the frequency-multiplexed signal received from the shared transmission line is a video signal, an audio signal, a control signal, and A second signal demultiplexing unit for separating into a DC power supply, and a load that consumes a current supplied from the DC power supply of the shared unit device if its own address corresponds to an address included in a control signal from the shared unit device. A pair of diodes respectively connected in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines between the trunk line and the branch line of the shared transmission line; and Control band-pass means connected between the main line and the branch line of the line to pass only control signals, wherein the pair of diodes is supplied from a DC power supply of the common unit device. It is characterized in that it is made conductive by a given current.
[0022]
According to a fourth aspect of the present invention, in the third aspect, the branch unit is connected between a trunk line and a branch line of the shared transmission line in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines. A pair of first diodes, first control band-pass means connected between the trunk line and the branch line of the shared transmission line for passing only control signals, and a pair of shared transmission lines connected to the trunk line after the branch. A pair of second diodes respectively connected in a forward direction with respect to a transmission direction of each signal, and a second control band pass means connected to the branched main line and passing only a control signal, The first and second diodes are electrically connected by a current supplied from a DC power supply of the common unit.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0024]
(Embodiment 1)
In the present embodiment shown in FIG. 1, the basic configuration of the television intercom apparatus for a condominium is substantially the same as the configuration of the conventional television intercom apparatus for a condominium shown in FIG. 4, and the same configuration as in FIG. The same reference numerals are given and the description is omitted.
[0025]
In the present embodiment, the common unit 10, the branching devices 30 and 31, and the interphones 20 and 21 are connected by a pair of shared transmission lines A, and the interphone 20 branches from the trunk line of the shared transmission line A at the branching device 30. The interphone 21 is branched from the trunk line of the shared transmission line A by the branch unit 31 and connected. Each of the interphones 20 and 21 and each of the dwelling unit doorphone handsets 60 and 61 are connected by a dwelling unit-specific transmission line B via branching devices 30 and 31, respectively.
[0026]
The control signal transmitting / receiving circuit 102 for transmitting / receiving a control signal, the audio circuit 107 for transmitting / receiving an audio signal, and the transformer 111 for transmitting a video signal in the common unit 10 are a control signal demultiplexing unit 115 and an audio signal demultiplexing unit, respectively. 113 and the shared transmission line A via the video signal multiplexing unit 114.
[0027]
The audio signal multiplexing / demultiplexing unit 113, the video signal multiplexing unit 114, and the control signal multiplexing / demultiplexing unit 115 in the common unit 10 are for multiplexing / demultiplexing each transmission signal for each transmission frequency band. The frequency band is a video signal, a control signal, and an audio signal in descending order. The audio signal multiplexing / demultiplexing unit 113 is mainly composed of an inductor or the like, and serves to increase the impedance of each transmission band of the video signal and the control signal higher than the audio signal. The video signal multiplexing section 114 is mainly composed of a capacitor or the like, and serves to increase the impedance of each transmission band of the control signal and the audio signal lower than the video signal. The control signal demultiplexing unit 115 is mainly configured by a band-pass filter in which an inductor, a capacitor, and the like are combined, and increases the impedance of each transmission band between an audio signal lower than the control signal and a video signal higher than the control signal. It is for doing.
[0028]
Also, a control signal transmitting / receiving circuit 202 for transmitting / receiving a control signal within the intercom 20, an audio circuit 207 for transmitting / receiving an audio signal, and a transformer 211 for receiving a video signal are respectively a control signal demultiplexing unit 218, an audio signal demultiplexing unit 216, And via the video signal separation unit 217 to the shared transmission line A.
[0029]
The audio signal demultiplexing unit 216, video signal demultiplexing unit 217, and control signal demultiplexing unit 218 in the interphone 20 are for multiplexing / demultiplexing each transmission signal for each transmission frequency band. The audio signal multiplexing / demultiplexing unit 216 is mainly configured by an inductor or the like, and serves to increase the impedance of each transmission band of the video signal and the control signal higher than the audio signal. The video signal separation unit 217 is mainly configured by a capacitor or the like, and is for increasing the impedance of each transmission band of the control signal and the audio signal lower than the video signal. Further, the control signal demultiplexing unit 218 is mainly configured by a band-pass filter in which an inductor, a capacitor, and the like are combined, and increases the impedance of each transmission band between an audio signal lower than the control signal and a video signal higher than the control signal. It is for doing.
[0030]
The intercom 21 is also configured in the same manner as the intercom 20, and includes a slave unit power supply unit 224 for supplying power for operating the dwelling unit doorphone slave unit 61 and a unit for superimposing the power of the slave unit power supply unit 224 on the transmission line B for each dwelling unit. And a slave unit power supply superimposing section 225 composed of a transistor circuit.
[0031]
The switches 30 and 31 are switches 301 and 311 for switching the connection destination of the common line device side main line of the shared transmission line A to either the transmission side main line of the shared transmission line A or the interphone side branch line, and the shared transmission line. Control signal multiplexing / demultiplexing units 302 and 312, which are connected between the trunk line on the common side of the line A and the trunk line on the sending side and pass only control signals, and the common unit on the common line A Terminals for connecting control signal multiplexing / demultiplexing units 303 and 313, which are connected between the main trunk line and the intercom branch line, and formed of band-pass filters that pass only control signals, and the transmission line B for each dwelling unit from the intercom 20. 304 and 314, terminals 305 and 315 for connecting the transmission line B for each dwelling unit from the dwelling unit doorphone devices 60 and 61, and between the terminals 304 and 305 and the terminal 314-3. The power supply superimposed by the power supply superimposition units 215 and 225 of the interphones 20 and 21 is separated from the signals of the short circuits 309 and 319 by increasing the impedance of the audio signal transmission band by increasing the impedance of the audio signal transmission band. Switch power supply separation units 306 and 316 for switching the connection by the switches 301 and 311 to the interphone-side branch line of the shared transmission line A by the separated power supply.
[0032]
Regardless of which of the paths by the switches 301 and 311 is switched, the control signal can pass through the control signal demultiplexing units 303 and 313, and the control signal sent from the common unit 10 is shared. The signal is transmitted to all the interphones 20 and 21 connected to the transmission line A.
[0033]
Hereinafter, a series of operations of the present embodiment will be described. When a visitor presses a call button (not shown) of the common unit 10, the common unit 10 sends a control signal including a dwelling unit number address of the corresponding dwelling unit via the control signal transmitting / receiving circuit 102 and the control signal demultiplexing unit 115 from the CPU 101. To the shared transmission line A, and sends the video signal imaged by the camera unit 108 and FM-modulated by the FM modulation unit 109 via the amplifier 110, the transformer 111, and the video signal multiplexing unit 114. , The microphone amplifier 106, the audio circuit 107, and the like.
[0034]
Then, the audio signal, the video signal, and the control signal are frequency-multiplexed and transmitted to the shared transmission line A by the audio signal multiplexing / demultiplexing unit 113, the video signal multiplexing unit 114, and the control signal multiplexing / demultiplexing unit 115. At this time, the connection destination of the common line device side trunk line of the shared transmission line A by the switches 301 and 311 of the branching devices 30 and 31 is the transmission side trunk line of the shared transmission line A, and only the control signal is a control signal multiplex. After passing through the band-pass filters of the separation units 303 and 313, the signals are multiplexed again on the branch line of the shared transmission line A branched from the trunk of the shared transmission line A, and reach the interphones 20 and 21.
[0035]
The control signal is transmitted through the control signal demultiplexing units 303 and 313 of the splitters 30 and 31 connected to the shared transmission line A, and the control signal demultiplexing unit 218 and the control signal transmitting / receiving circuit 202 in the interphones 20 and 21 are transmitted. Via the CPU 201. Then, when the own unit is the corresponding dwelling unit called, the intercom 20 operates the speaker amplifier 204, the microphone amplifier 206, and the audio circuit 207 according to the control signal, and switches the slave unit power supply unit 214 to the slave unit power supply superimposing unit 215. The power supply to the dwelling unit doorphone handset 60 is superimposed on the dwelling unit transmission line B via.
[0036]
In the branching device 30 that relays the transmission line B for each dwelling unit, the power is separated from the signal transmitted through the short circuit 309 by the switching power supply separation unit 306, and the switching path 301 is switched using this power to switch the shared transmission line A. The connection destination of the common unit side trunk is the intercom branch line. Since the interphone 21 that is not called does not supply power to the dwelling unit 61, the open / close path 311 of the branching unit 31 maintains the connection to the main trunk on the sending side.
[0037]
Therefore, the video signal and the audio signal frequency-multiplexed by the common unit 10 are transmitted only to the interphone 20 via the switching path 301 of the branching device 30. The interphone 20 transmits and receives an audio signal via the audio signal multiplexing / demultiplexing unit 216, enters a communication state with the common unit 10, activates the display unit 208, and transmits the video signal received via the video signal separating unit 217. Is demodulated by the FM demodulation unit 209 and displayed on the display unit 208. This allows the resident to talk to the visitor and monitor the visitor.
[0038]
As described above, according to the present embodiment, even when the splitter 30 is connected to the shared transmission line A between the shared unit device 10 and the interphone 20, the video signal, the audio signal, and the control signal are not changed. It becomes possible to transmit by the pair of shared transmission lines A.
[0039]
Further, the branching from the main line of the shared transmission line A to the branch line from the trunk line to the interphones 20 and 21 is realized by switching by the open / close paths 301 and 311 of the branching units 30 and 31, so that the video signal and the audio signal are frequency-multiplexed. It can be passed through the branching devices 30, 31.
[0040]
The drive power for the switching paths 301 and 311 is superimposed on the transmission lines B and B for each dwelling unit, which are wired in parallel with the transmission lines A and A extending from the branching devices 30 and 31 to the interphones 20 and 21. Therefore, there is no need to connect a power supply separation unit for driving the switching paths 301 and 311 to the shared transmission line A, and the impedance of the audio signal transmission band and the video signal transmission band of the shared transmission line A does not decrease.
[0041]
In addition, in FIG. 1 of the present embodiment, two splitters and two intercoms are shown, but more splitters and intercoms may be similarly provided.
[0042]
(Embodiment 2)
In the present embodiment, among the constituent elements shown in FIG. 1, the slave unit power supply units 214 and 224 in the intercoms 20 and 21 can operate the dwelling unit door phone slave units 60 and 61 as shown in FIG. The first voltage level V1 and the second voltage level V2 capable of driving the switching paths 301 and 311 in the branching devices 30 and 31 can be switched and output.
[0043]
The second voltage level V2 is set to a level higher than the first voltage level V1, and the switching power supply separation units 306 and 316 in the branching units 30 and 31 identify the two voltage levels described above, The switching paths 301 and 311 are switched to the branch side only when the second voltage level is detected, and when the first voltage level is detected and when power is not supplied to the dwelling unit 60 and 61. The open / close paths 301 and 311 are maintained in a state where they are connected to the feed main line. Therefore, for example, when the common unit 10 and the interphone 20 are in a talking state, the dwelling unit 61 of the intercom 21 connected to the common transmission line A from the common unit 10 to the interphone 20 operates, The switching circuit 311 of the branching unit 31 to which the intercom 21 is connected is switched to the branch side, and the problem that the communication between the common unit 10 and the intercom 20 is disconnected is eliminated.
[0044]
(Embodiment 3)
In the present embodiment shown in FIG. 3, a switch 219 and capacitors 220 and 221 are added to the interphone 20 shown in FIG. And the connection point between the shared transmission line A and the capacitor 220 is connected to the audio circuit 207 through a series circuit of a switch 219, an audio signal multiplexing / demultiplexing unit 216, and a capacitor 221. The connection point with the unit 216 is connected to the video signal separation unit 217. By opening the switch 219, transmission of the audio signal and the video signal to the audio signal demultiplexing unit 216 and the video signal separating unit 217 is cut off. The intercom 21 also includes a switch 229 in the same manner.
[0045]
The common unit apparatus 10 further includes a power supply superposition unit 116 and capacitors 117 and 118 in the configuration shown in FIG. 1, and the power supply superposition unit 116 supplies power from the power supply unit 112 to the interphones 20 and 21. Capacitors 118 and 117 are provided as a DC power supply for superimposing on the audio signal, the video signal, and the control signal of the shared transmission line A. To block the DC power supply. The video signal multiplexing unit 114 also blocks input of DC power to the transformer 111.
[0046]
Further, the intercom 20 is provided with a load circuit 222 between the connection point of the switch 219 and the video signal separation unit 217 and the circuit ground, and the intercom 21 is also provided with a load circuit 232. Is for consuming the DC current supplied from the common unit 10. Capacitors 221 and 220 are provided for the audio circuit 207 and the control signal demultiplexing unit 218 that do not require a DC power supply, thereby blocking the DC power supply. Note that the video signal separation unit 217 also blocks DC power input to the transformer 211.
[0047]
The branching devices 30 and 31 include a pair of diode pairs connected in a forward direction with respect to a transmission direction of each signal of a pair of electric wires between the trunk line of the shared transmission line A and the branch line, and a pair of diode pairs in the trunk line after branching. A pair of diode sets 308 and 318 connected in the forward direction with respect to the transmission direction of each signal of the electric wire of the above, and a band pass connected between the trunk line and the branch line of the shared transmission line A and passing only the control signal A control signal multiplexing / demultiplexing unit composed of a filter, and control signal multiplexing / demultiplexing units 307 and 317 each including a band-pass filter connected to the trunk after branching and allowing only the control signal to pass therethrough. The pair of diode sets 308 and 318 are constituted by PIN diodes.
[0048]
The control signal can pass through the control signal demultiplexing units 307 and 317, and the control signal transmitted from the common unit 10 is transmitted to all interphones connected to the transmission line A.
[0049]
Hereinafter, a series of operations of the present embodiment will be described. When a visitor presses a call button (not shown) in the common unit 10, a control signal including a dwelling unit number address is connected to the common transmission line A via the control signal demultiplexing units 317 and 307 from the common unit 10. The opening / closing path 219 is closed by the CPU 212 that has received the control signal only in the intercom 20 transmitted to all the intercoms 20 and 21 corresponding to the dwelling unit number address. When the switching circuit 219 is closed, the load circuit 222 is connected to the transmission line A, the diode set 308 connected between the trunk line of the shared transmission line A of the branch unit 30 and the branch line, and the trunk line of the branch unit 31 after branching. A current flows in the forward direction through the diode group 318 connected to the power supply unit, and the DC current superimposed by the power supply superimposing unit 116 of the shared unit device 10 is consumed by the load circuit 222.
[0050]
Then, the diode group 308 connected between the trunk line and the branch line of the shared transmission line A and the diode group 318 connected to the branched trunk line become conductive (on state) due to the flow of forward current, and are transmitted. The branch line leading to the interphone 20 is connected to the main line of the line A.
[0051]
Since the open / close path 229 of the interphone 21 that has not been called is not closed, the diode set 318 connected between the trunk line and the branch line of the shared transmission line A of the branching device 31 remains in the off state, and the branching to the interphone 21 is continued. The line is not connected to the trunk of transmission line A.
[0052]
Therefore, the video signal and the audio signal frequency-multiplexed by the common unit 10 are supplied to the diode group 318 connected to the trunk of the branch unit 31 after branching, and between the trunk line and the branch line of the shared transmission line A of the branch unit 30. The signal is transmitted only to the interphone 20 via the connected diode set 308, and can be passed through the branching device while the video signal and the audio signal are frequency-multiplexed.
[0053]
【The invention's effect】
The invention according to claim 1 is a camera for imaging a visitor at a common entrance of an apartment house and outputting a video signal, and inputting / outputting an audio signal for the visitor of the common entrance to talk with a resident in a dwelling unit of the apartment house. Unit and a first control signal transmitting / receiving means for receiving a control signal from an external device while outputting a control signal including an address of a dwelling unit and a video signal from a camera of the common unit A monitor for a resident in the dwelling unit to see a visitor at the common entrance, a speaker and a microphone for inputting and outputting a voice signal for the resident in the dwelling unit to talk with the visitor, between the common unit device The communication device further includes a second control signal transmission / reception unit for transmitting and receiving a control signal, and operates based on the received control signal if its own address corresponds to an address included in the control signal from the common unit. And a pair of shared transmission lines for transmitting video signals, audio signals, and control signals, and a trunk line of the shared transmission line wired from the shared unit device. And a branching device for branching a shared transmission line from the interphone to the interphone, and a doorphone handset for transmitting and receiving an audio signal between the interphone and allowing a visitor at an individual front door of the dwelling unit to talk with a resident in the dwelling unit. The dwelling unit doorphone handset and the interphone are connected via the branching unit, and are configured with a dwelling unit-specific transmission line through which an audio signal is transmitted, and the common unit device is a video signal, an audio signal, and A first signal demultiplexing unit that frequency-multiplexes and transmits a control signal to the shared transmission line and separates a frequency-multiplexed signal received from the shared transmission line into a voice signal and a control signal; The intercom apparatus transmits the frequency-multiplexed audio signal and the control signal to the shared transmission line, and transmits the frequency-multiplexed signal received from the shared transmission line into a video signal, an audio signal, and a control signal. And a slave unit power supply superimposing means for superimposing power supplied to the dwelling unit on the transmission line for each dwelling unit, wherein the branching device is a common unit of the shared transmission line. A switch that switches the connection destination of the side trunk line to one of the transmission side trunk line of the shared transmission line and the intercom side branch line of the shared transmission line, and is connected between the common unit side trunk line and the transmission side trunk line. A first control band pass means for passing only control signals through the control unit, and a second control band pass means connected between the common unit side trunk and the intercom branch line for passing only control signals. To the dwelling unit doorphone handset from a signal of the short circuit, a short circuit between the first and second terminals connecting the transmission line for each dwelling unit, the first and second terminals, and a signal of the short circuit. Power supply separating means for separating the supply power of the power supply, and if the power supply separated by the power supply separating means is equal to or less than a predetermined voltage, the connection destination of the switch is maintained on the sending main line; Since there is provided a switch switching means for switching a connection destination of the switch to the interphone-side branch line, a switch is interposed and connected to a shared transmission line between the common unit and the interphone as in a TV intercom device for apartment housing. In this case, the video signal, the control signal, and the audio signal are frequency-multiplexed, and can be transmitted through a pair of shared transmission lines. There is an effect that it is possible to realize a Senka-saving and construction of. In addition, the video signal and the audio signal can be passed through the branching device while being frequency-multiplexed, and the power supply separation unit for driving the switching path is not required in the transmission line of the video / audio multiplex signal. The impedance of the shared transmission line does not decrease due to the connection of the sections.
[0054]
According to a second aspect of the present invention, in the first aspect, the power supply to the dwelling unit doorphone handset superimposed by the cordless unit power supply superimposing means of the interphone is a first voltage for operating the dwelling unit doorphone handset; And a second voltage higher than the first voltage for driving the switch. The switch switching means of the branching switch outputs the first power from the power supply separated by the power separation means. If the voltage, the connection destination by the switch is maintained on the sending main line of the shared transmission line, and if the second voltage, the connection by the switch is switched to the interphone-side branch line of the shared transmission line, There is an effect that the opening / closing path is not unnecessarily switched during the operation of the dwelling unit doorphone.
[0055]
The invention according to claim 3 is a camera for imaging a visitor at a common entrance of an apartment complex and outputting a video signal, and inputting and outputting an audio signal for the visitor of the common entrance to talk with a resident in a dwelling unit of the apartment complex. A first control signal transmitting / receiving means for receiving a control signal from the outside while outputting a control signal including an address of a called dwelling unit, a shared unit device including a DC power supply, and a camera of the shared unit device. A monitor for a resident in a dwelling to see a visitor at a common entrance, a speaker and a microphone for inputting / outputting an audio signal for a resident in a dwelling unit to talk to a visitor, and the common unit device And a second control signal transmitting / receiving means for transmitting and receiving a control signal between the control unit and the control unit. If the own address corresponds to an address included in the control signal from the common unit, the control unit operates based on the received control signal. Interphone, a pair of shared transmission lines for connecting the common unit device and the interphone, and transmitting a video signal, an audio signal, a control signal, and a DC power supply, and a common line wired from the common unit device. A branching unit for branching a shared transmission line from the trunk line of the transmission line to the interphone, and a unit for transmitting and receiving a voice signal between the interphone and allowing a visitor at an individual entrance of the unit to talk with a resident in the unit A doorphone slave unit, which connects between the dwelling unit doorphone slave unit and the intercom, is configured by a transmission line for each dwelling unit in which an audio signal is transmitted, and the shared unit device is a video signal, an audio signal, a control signal, And a first signal multiplexer for frequency-multiplexing and transmitting a DC power supply to the shared transmission line and separating a frequency-multiplexed signal received from the shared transmission line into a voice signal and a control signal. Separation means, the intercom apparatus, the audio signal and the control signal are frequency-multiplexed and transmitted to the shared transmission line, and the frequency-multiplexed signal received from the shared transmission line is a video signal, an audio signal, a control signal, and A second signal demultiplexing unit for separating into a DC power supply, and a load that consumes a current supplied from the DC power supply of the shared unit device if its own address corresponds to an address included in a control signal from the shared unit device. A pair of diodes respectively connected in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines between the trunk line and the branch line of the shared transmission line; and Control band-pass means connected between the main line and the branch line of the line to pass only control signals, wherein the pair of diodes is supplied from a DC power supply of the common unit device. The video signal, the control signal, and the audio signal are transmitted even when a splitter is interposed and connected to the common transmission line between the common unit and the interphone, such as a TV intercom device for a multi-family house, because the current is conducted. The transmission can be multiplexed and transmitted by a pair of shared transmission lines, wiring can be performed with a small number of cables, and there is an effect that wiring and construction can be reduced. Furthermore, since the video signal and the audio signal can be passed through the branching device while being frequency-multiplexed, and the switching line is not used for the transmission line of the video / audio multiplexed signal, a power supply separation unit for driving the switching path is used. Is unnecessary, and the impedance of the transmission line does not decrease due to the connection of the power supply separation unit.
[0056]
According to a fourth aspect of the present invention, in the third aspect, the branch unit is connected between a trunk line and a branch line of the shared transmission line in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines. A pair of first diodes, first control band-pass means connected between the trunk line and the branch line of the shared transmission line for passing only control signals, and a pair of shared transmission lines connected to the trunk line after the branch. A pair of second diodes respectively connected in a forward direction with respect to a transmission direction of each signal, and a second control band pass means connected to the branched main line and passing only a control signal, Since the first and second diodes are turned on by the current supplied from the DC power supply of the common unit, there is an effect that transmission of unnecessary video / audio multiplex signals to a stage subsequent to the branch unit can be prevented.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a part of a configuration according to a second embodiment of the present invention.
FIG. 3 is a diagram showing a configuration of a third embodiment of the present invention.
FIG. 4 is a diagram showing a configuration of a conventional example.
FIG. 5 is a diagram showing a transmission frequency band of the above signal.
[Explanation of symbols]
10 Common unit equipment
20, 21 intercom
30,31 turnout
60,61 dwelling unit door phone cord
301,311 switching path
302, 303, 312, 313 Control signal demultiplexing section
304, 305, 314, 315 terminals
306,316 Switch circuit power supply separation unit
A Shared transmission line
B. Transmission line by dwelling unit

Claims (4)

A camera that images the visitors at the common entrance of the apartment complex and outputs a video signal, speakers and microphones that input and output audio signals for the visitors at the common entrance to talk with residents in the apartment house, and the call destination A common unit including a first control signal transmitting / receiving means for outputting a control signal including an address of a dwelling unit and receiving a control signal from the outside;
A monitor for inputting a video signal from the camera of the common unit to see a visitor at a common entrance of a dwelling in the dwelling unit, a speaker for input / output of an audio signal for a dwelling in the dwelling unit to talk to the visitor, and A second control signal transmitting / receiving means for transmitting and receiving a control signal between the microphone and the common unit; and a control signal received if the own address corresponds to an address included in the control signal from the common unit. An intercom that operates based on
Connecting between the common unit and the intercom, a video signal, an audio signal, and a pair of shared transmission lines through which a control signal is transmitted,
A branching device that branches the shared transmission line from the trunk line of the shared transmission line wired from the shared unit device to the interphone,
A unit doorphone handset for transmitting and receiving a voice signal between the intercom and a visitor at an individual entrance of the unit to talk with a resident in the unit,
The dwelling unit doorphone slave unit and the interphone are connected via the branching unit, and are configured by a transmission line for each dwelling unit through which an audio signal is transmitted,
The sharing unit apparatus frequency-multiplexes and transmits a video signal, an audio signal, and a control signal to the shared transmission line, and separates the frequency multiplexed signal received from the shared transmission line into an audio signal and a control signal. Signal demultiplexing means,
The intercom apparatus transmits a frequency-multiplexed audio signal and a control signal to the shared transmission line and transmits the signal, and separates a frequency-multiplexed signal received from the shared transmission line into a video signal, an audio signal, and a control signal. Signal demultiplexing means, and a slave unit power supply superimposing means for superimposing power to be supplied to the dwelling unit doorphone handset on the transmission line for each dwelling unit,
A switch for switching a connection destination of a common unit device-side main line of the shared transmission line to one of a transmission main line of the shared transmission line and an interphone-side branch line of the shared transmission line; and First control band-pass means connected between the device-side main line and the sending-side main line to pass only control signals; and only control signals connected between the common-unit-side main line and the intercom-side branch line. A second control band pass means for passing the transmission line, first and second terminals for connecting the transmission line for each dwelling unit, a short circuit between the first and second terminals, and a short circuit between the first and second terminals. A power supply separating means for separating a power supply to the door phone slave unit from the signal, and a power supply separated by the power supply separating means, if the power supply is equal to or lower than a predetermined voltage, the connection destination of the switch is maintained on a sending main line; If above, separate power supply Therefore collective housing television interphone device characterized by comprising a switch switching means for switching the connection destination of the switch on the intercom side branch line. A power supply to the dwelling unit doorphone handset superimposed by the handset power supply superimposing means of the interphone is a first voltage for operating the dwelling unit doorphone handset and the first voltage for driving the switch. A second voltage higher than the voltage, and the switch switching means of the branching device switches the connection destination by the switch if the power supply separated by the power supply separating means is the first voltage. 2. The television for an apartment complex according to claim 1, wherein the connection by the switch is switched to a branch line on the intercom side of the shared transmission line if the second voltage is maintained at the sending main line of the shared transmission line. Intercom equipment. A camera that images the visitors at the common entrance of the apartment complex and outputs a video signal, speakers and microphones that input and output audio signals for the visitors at the common entrance to talk with residents in the apartment house, and the call destination A first control signal transmitting / receiving unit that outputs a control signal including an address of a dwelling unit and receives an external control signal, a common unit including a DC power supply,
A monitor for inputting a video signal from the camera of the common unit to see a visitor at a common entrance of a dwelling in the dwelling unit, a speaker for input / output of an audio signal for a dwelling in the dwelling unit to talk to the visitor, and A second control signal transmitting / receiving means for transmitting and receiving a control signal between the microphone and the common unit; and a control signal received if the own address corresponds to an address included in the control signal from the common unit. An intercom that operates based on
Connecting between the common unit and the interphone, a video signal, an audio signal, a control signal, and a pair of shared transmission lines through which DC power is transmitted,
A branching device that branches the shared transmission line from the trunk line of the shared transmission line wired from the shared unit device to the interphone,
A unit doorphone handset for transmitting and receiving a voice signal between the intercom and a visitor at an individual entrance of the unit to talk with a resident in the unit,
It connects between the dwelling unit doorphone handset and the intercom, and is configured by a dwelling unit-specific transmission line through which an audio signal is transmitted,
The common unit device frequency-multiplexes and transmits a video signal, an audio signal, a control signal, and a DC power supply to the common transmission line, and separates a frequency-multiplexed signal received from the common transmission line into an audio signal and a control signal. A first signal demultiplexing means,
The intercom apparatus frequency-multiplexes and transmits an audio signal and a control signal to the shared transmission line, and separates the frequency-multiplexed signal received from the shared transmission line into a video signal, an audio signal, a control signal, and a DC power supply. A second signal demultiplexing unit, and a load that consumes a current supplied from a DC power supply of the common unit if the own address corresponds to an address included in the control signal from the common unit.
The splitter includes a pair of diodes connected in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines between a trunk line and a branch line of the shared transmission line, and a trunk line of the shared transmission line. A control band-passing means connected between the branch line and the control line for passing only a control signal, wherein the pair of diodes conducts by a current supplied from a DC power supply of the common unit. Residential TV intercom equipment. A pair of first diodes respectively connected in a forward direction with respect to a transmission direction of each signal of the pair of shared transmission lines between a trunk line and a branch line of the shared transmission line; A first control band-pass means connected between the trunk line and the branch line for passing only control signals, and a forward direction with respect to the transmission direction of each signal of the pair of shared transmission lines on the trunk line after the branch. A pair of connected second diodes, and a second control band-pass unit connected to the branched main line and passing only a control signal, wherein the pair of first and second diodes are connected to the common unit. The television intercom device for a multi-family house according to claim 3, wherein conduction is provided by a current supplied from a DC power supply of the device.

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