JP4443641B2 - Power supply device for television, intercom monitor - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a television that communicates between a building entrance and individual apartments (rooms divided into households) in the building and transmits visitor images to a monitor mounted on the apartment wall. The present invention relates to a power supply device for a television, interphone, and monitor suitable for use in an interphone device.
[0002]
[Prior art]
Television intercom monitor used for entrance monitoring and communication is mainly mounted on the wall inside the apartment, and various system elements such as microphone and speaker line, video signal coaxial cable, door release line, call line, alarm line, etc. Are connected via a multi-core cable. When installing complicated devices such as multi-entrances and management stations, wiring is always extremely complicated and expensive.
[0003]
A television interphone monitor unit as described above mounted on the wall of each apartment requires a separate power source with sufficient capacity to power the monitor and intercom. Since a large number of television intercom monitor units are built in apartment units, such a system can connect a large number of power supplies and these power supplies to a large number of television monitor units, so Scale wiring is required, which is laborious and costly.
[0004]
The television interphone monitor unit may be powered from a central power source, but this power source requires a large power capacity and heavy dedicated standard lines to direct power to each television interphone monitor. To do. Although it is advantageous to supply power through the signal transmission line, the television monitor circuit consumes most of the power required to operate the television intercom monitor unit and the monitor operates randomly. For this reason, the current consumed by the television interphone monitor is not constant. Therefore, when power is supplied to the television interphone monitor via the transmission line, the signal flowing therethrough is disturbed.
[0005]
The applicantPower the television camera via the camera transmission line and transmit the audio signal, identification (ID) signal and control signal via the common transmission lineInventions related to this applicationOn March 19, 1997I have been there.
[0006]
[Problems to be solved by the invention]
An object of the present invention is to provide a television intercom monitor and an entrance unit for transmitting a video signal generated by a television camera on an entrance panel, along with bidirectional audio signals, control signals, alarm signals, and other communication signals. The power supply to the television interphone monitor is realized through an inexpensive transmission line such as a twisted pair extending between the two.
[0007]
[Means for Solving the Problems]
The apparatus of the present invention for powering a television interphone monitor via a low-cost transmission line each includes a television camera, and each or each of the electrical information signals, which may include a video signal, is processed. Entrance panels, single or multiple television interphone monitors for communicating with and monitoring visitors, and each television interphone monitor with an entrance unit or single or multiple entrance panels Single or multiple transmission lines for direct connection to the TV and a single or multiple power sources for powering the television interphone monitor via the transmission line and the entrance unit.
[0008]
The entrance unit includes a circuit that transmits an information signal to the television interphone monitor and a circuit that receives the information signal from the television interphone monitor via a corresponding transmission line. The entrance unit and the television intercom monitor connect any of the entrance panels to any of the television intercom monitors, or from one entrance panel to another entrance panel or one television. The connection may be made via a switching circuit for switching from the interphone monitor to another television interphone monitor.
[0009]
The inlet unit is a single current or a plurality of currents that supply a regulated current to the television interphone monitor via a corresponding transmission line that transmits information signals in both directions between the inlet unit and each television interphone monitor. Including supply means.
[0010]
The current supply means injects the video signal generated by the television camera together with the audio signal, the control signal and the alarm signal, and propagates the mixed signal to the television interphone monitor through the transmission line. Includes circuitry. When injected into the transmission line, the signal becomes a mixed information signal that propagates between the entrance panel and the television interphone monitor. The signal separation / injection circuit may be installed in the switching circuit in order to inject or separate the information signal from the transmission line processed by the switching circuit, and a plurality of separation / injection circuits are provided for each current supply means. Also good.
[0011]
The separation / injection circuit separates the information signal supplied from the television interphone monitor via the transmission line from the DC component existing in the transmission line, and supplies the separated information signal to the receiving circuit of the entrance unit. To do. The receiving circuit is composed of a decoding / demodulating circuit that supplies an audio signal, a control signal, and an alarm signal to a corresponding circuit.
[0012]
The electric power supplied to each television interphone monitor via the transmission line is an adjustment current, and is maintained at a predetermined level by a current control circuit included in the current supply means. This predetermined current is the sum of the standby current or control current consumed by the intercom circuit and the additional current supplied to the rechargeable battery connected to the television interphone monitor. The charged battery provides energy to operate the television monitor circuit with sufficient capacity to drive the current drain and / or current surge of the monitor circuit. Therefore, the monitor is powered on and activated by the rechargeable battery without disturbing the signal propagated through the corresponding transmission line. The rechargeable battery can also supply power to the intercom circuit when the constant current supplied to the television interphone monitor is interrupted or turned off.
[0013]
Each television interphone monitor processes and mixes audio signals, control signals and alarm signals generated by the television interphone monitor, and connects the signal intercom monitor to the entry unit. Further included is an injection circuit for injecting a mixed signal for forming an information signal in the transmission line.
[0014]
Each television interphone monitor includes a DC separation circuit that separates DC from the information signal generated by the entrance unit and supplies the information signal to a signal processing circuit. The separated DC is supplied to the rechargeable battery via the battery control circuit, while a standby current that excites the intercom circuit flows from the charging battery via the standby output terminal of the battery control circuit. Alternatively, the isolated DC is supplied to the intercom circuit via the current control circuit and to the rechargeable battery via the battery control circuit. The signal processing circuit further includes a video, audio and control signal search circuit that provides a search signal to a corresponding circuit. The battery control circuit checks the battery polarity, charge state and disconnection and activates the charge current cut-off switch to prevent damage to the battery when the battery is reversely connected, or when the battery is disconnected or discharged In order to prevent interference of the information signal flow, a polarity inspection circuit, a discharge inspection circuit, and a disconnection inspection circuit for exciting the monitor current cutoff switch.
[0015]
The television intercom monitor of the present invention has a coding control such as a code for controlling an entrance door lock and / or a code for controlling an elevator or a code for controlling the lighting of a corridor and an entrance. It may further include a control circuit that generates and supplies a control signal composed of commands. The encoding control command method includes an alarm signal for warning a management counter or a safety manager. The encoding control command connects the television interphone monitor to one of the entrance panels, or switches from one entrance panel to another, or switches the television interphone monitor to the control room or It may include a switch-on control command for activating an automatic telephone dialing device that connects to the security room or forwards the warning message to the authority over a public telephone line.
[0016]
The encoding control command may use a binary or digital code composed of high-low or narrow-wide pulses, or may use a dual tone signal used for a digital telephone. Specific frequencies or pulse counts, or a mixture of different pulses and frequencies may be used. The encoding control can be AM or FM and is mixed into the audio signal that is incorporated into the audio frequency range and propagates between the television interphone monitor and the entrance unit.
[0017]
Also, individual functions related to each television interphone monitor such as ringing, monitor switch-on, fire alarm notification, general alarm notification, corridor lighting on / off or elevator blocking. Similar or identical encoding control signals are generated by the entrance unit or entrance panel for many other encoding controls, such as control and / or performance of a supervisor or guard in an apartment building.
[0018]
Video signals generated by television cameras are converted to differential signals for propagation through low cost transmission lines such as stranded wires, processed into digital video signals, or modulated to a carrier frequency Is done.
[0019]
Control and alarm signals and audio signals generated by the entrance panel or entrance unit and television interphone monitor are also converted to differential inputs or digital signals and AM to a carrier frequency having a frequency higher or lower than the video frequency. Alternatively, it is FM-modulated and propagated through a transmission line connecting the television intercom monitor and the entrance unit. Also, the audio signal together with the control signal and the alarm signal is compressed and sent to the video signal during the vertical blanking (return blanking) cycle.
[0020]
According to a preferred embodiment of the present invention, video signals, audio signals, alarm signals and control signals are transmitted bi-directionally via a low-cost transmission line extending between the entrance panel and the television interphone monitor. The current supply means supplies the adjustment current through the same low-cost transmission line to operate the intercom part of the television interphone monitor and charges the battery that operates the monitor part of the television interphone monitor. To do.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a preferred embodiment when the present invention is applied to a television interphone monitor apparatus, and shows an apparatus for supplying power to a single television interphone monitor via an information signal transmission line. In the following description, the information signal may be an audio signal alone or a video, audio and / or code signal propagated from the entrance to the television interphone monitor, and propagated from the television interphone monitor to the entrance. It may be a combination of audio and control signals. In the following description, a video signal is a video portion of a composite video signal, or a composite video signal or a digital video signal.
[0022]
Referring to FIG. 1, an apparatus for supplying power to a television interphone monitor 30 includes an entrance panel 70 including a television camera 71 that transmits and receives information signals, and receives an information signal from the entrance panel 70 and receives the entrance panel 70. And a current supply means 14 for supplying an adjustment current for supplying power to the television interphone monitor 30. Also, a transmission line 16 for propagating an information signal between the television interphone monitor 30 and the current supply means 14 and carrying an adjustment current from the current supply means 14 to the television interphone monitor 30, and current supply means A transmission line 16A for propagating an information signal between 14 and the entrance panel 70, a television monitor circuit 44 for displaying a video image, and a rechargeable battery 50 serving as an energy source necessary for operating the monitor. And an intercom circuit 45 that receives and generates an information signal.
[0023]
FIG. 2 shows a preferred embodiment when the present invention is applied to a television interphone monitor system comprising a single entrance panel 70A, and a plurality of current supply means 14 via a plurality of information signal transmission lines 16 is shown. Shows a device 2 for supplying power to a plurality of television interphone monitors 30. As shown in FIG. 2, each television intercom monitor 30 isTelevision monitor circuit44, an entrance panel 70A for transmitting and receiving information signals, a selector 90 having poles connected to the plurality of current supply means 14 via the transmission line 16A for connecting the transmission line 16A and the circuit of the entrance panel 70A, a selector It is connected to the rechargeable battery 50 to supply power to the controller 100 that controls 90 and generates a control signal or alarm signal.
[0024]
FIG. 3 illustrates the present invention in a large apartment television intercom monitor system having multiple entrance panels 70B, one or more management counters 8 and / or one or more security rooms 9. FIG. 2 shows another preferred embodiment of the apparatus 3 for supplying power to a plurality of television interphone monitors 30 via a plurality of information transmission lines 16.
[0025]
Referring to FIG. 3, an apparatus for powering a plurality of television interphone monitors 30 includes a plurality of entrance panels 70B for transmitting and receiving information signals, and a single or a plurality of televisions for generating video signals. A camera 71 and a plurality of current supply means 14 that receive or transmit information signals from or to the television interphone monitor 30 and supply adjustment current to the television interphone monitor 30. In addition, a plurality of transmission lines 16 for propagating an information signal between the television interphone monitor 30 and the current supply means 14 and carrying the adjustment current from the current supply means 14 to the television interphone monitor 30, and each television A plurality of rechargeable batteries 50 are provided that each provide the energy source required to operate the monitor 44 of the John Interphone monitor 30. Further, the information signal is propagated between the plurality of information transmission lines 16A for propagating the information signal between the current supply means and the entrance unit 14, and the plurality of entrance panels 70B, the guard counter 8, the security room 9, and the entrance unit 4. A plurality of information transmission lines 16B, a selector (circuit) 91 for connecting any of the transmission lines 16A to any of the transmission lines 16B, and a control circuit 101 for controlling the selector 91 and generating control and alarm codes are provided. . The control circuit 101 also generates control commands to control the television camera for television camera circuit or function adjustment and setup or camera position adjustment.
[0026]
Each transmission line 16 corresponds to the number of current supply means 14, television interphone monitor 30 and transmission line 16A, and each information transmission line 16A is connected to the current supply means 14 at one end. The other end is connected to the pole of the selector circuit 91 located in the inlet unit section.
[0027]
Each information transmission line 16 </ b> B corresponds to the number of the entrance panel 70 </ b> B, the guard counter 8, and the security room 9. Each information transmission line 16B in FIG. 3 is connected at one end to the entrance unit 70B, the guard counter 8 and the security room 9, and at the other end to the pole of the selector circuit 91. The current supply means 14 shown in FIGS. 1 and 2 can be incorporated into the inlet panel 70 of FIG. 1 or 70A of FIG. 2, or formed integrally with the selector 91 of FIG. In this case, the information transmission line 16 </ b> A becomes the inner connection line of the inlet panel 70 or 70 </ b> A or the inner line of the inlet unit 4.
[0028]
The current supply means 14 shown in FIG. 8 is supplied from an unregulated DC power supply or a rectified AC power supply via the power input terminal 12. Further, the current supply means 14 employs a known current regulator 13, and is obtained by adding a charging current for charging the rechargeable battery 50 shown in FIGS. 1 to 3 to the consumption current of the intercom circuit 45. Is supplied to the television interphone monitor 30. The battery charging current may be set to any calculated value via the current regulator 13A shown in FIG. 8, so that the rechargeable battery is charged enough to operate the monitor for a precalculated time. A rechargeable battery 50 such as a nickel-cadmium battery having different dimensions and power capacity may be used, and any other type and capacity of rechargeable battery may be used instead. The battery 50 may be installed in the housing of the television interphone monitor or in an apartment and connected to the television interphone monitor 30 via a separate electric wire. The rechargeable battery is also used to supply power to the television interphone monitor when power to the current supply means 14 is cut off. Battery capacity and charging current are selected by calculating the operating time and power consumption of the monitor. For example, if the monitor operates at 12 V and consumes 500 mA, a 12 V battery with a capacity of 500 mA / hr can operate the monitor for 1 hour. If the monitor is operated 60 times a day for 1 minute each time, a total of 500 mA / hr is consumed. Therefore, when the battery is charged for 24 hours, the charging current required for charging the battery is 500 mA / 24, that is, 21 mA or less.
[0029]
As shown in FIGS. 4 and 5, the transmission line 16 is connected via a terminal 17 to a DC / signal separation injector 31 for separating DC and signals. The separation injector 31 includes a known coupling capacitor that couples signals and blocks DC from the signal processing circuit, and a known RF filter that removes signals from the DC. This separation injector31May comprise a signal converter that retrieves information signals from DC and a known RF trap that removes information signals from DC. The DC that has passed through the filter is supplied from the separation injector 31 to the current controller 51. The current controller 51 includes a dummy load (pseudo load) DL that replaces the battery charging current when the battery polarity is reversely connected to the battery terminal 53 or when the battery 50 is disconnected.
[0030]
If the battery is connected in reverse polarity or disconnected, the battery charging current disappears, the adjustment current supplied to the television interphone monitor 30 causes overcurrent to be supplied to the interphone circuit 45, and the interphone circuit 45 is damaged. Sometimes. In order to avoid such damage, the current controller 51 shown in FIGS. 6 and 7 receives a “no charge” signal from the battery control circuit 52 and connects a dummy load to release a current equal to the charging current. . As a result, proper control or standby current supply to the intercom circuit 45 is ensured.
[0031]
The current controller 51 may employ a switching transistor for connecting the dummy load resistor DL, and the transistor switching signal in this case is a high-low signal supplied from the battery controller (control circuit) 52. As shown in FIG. 6, the battery controller 52 includes a discharge inspection circuit 55 for inspecting battery voltage supply, a reverse polarity inspection circuit 54 for inspecting battery polarity connection, and a battery polarity reversely connected. A charge cut-off switch SW1 for cutting off the charge current when the battery is discharged, an output switch SW2 for cutting off the output power from the monitor to prevent interference with the propagation of the information signal when the battery is discharged or disconnected, It consists of two diodes D1 and D2 to be directed, a charging current limiting resistor R1, and a Zener diode D3 for overvoltage protection.
[0032]
The discharge inspection circuit 55 and the reverse polarity inspection circuit 54 receive a reference supply from the charging line 56 and the battery terminal 53, and when the battery 50 is disconnected or discharged, generates a “cutoff” signal at the output switch SW2 and monitors it. The random current drain flowing through the charging line 56 is removed by cutting off the output current to the output line 44, so that the information signal flow is caused by the unstable current drain when the battery is discharged, when the reverse polarity battery is connected, or when the battery is disconnected. Prevent interference. Also, the reversely connected battery is not configured to provide a wrong polarity output that could damage the monitor circuit 44. The reverse polarity inspection circuit 54 also generates a “reverse polarity” signal that turns off the charging switch SW1 to prevent damage to the battery 50 when there is a reverse polarity connection. The diode D1 prevents the reverse unnecessary current from the battery to the monitor circuit 44 when the current supply means 14 is switched off, and the resistor R1 limits the charging current to the battery, whereas the diode D2 / D3 protects the battery from overvoltage and surge. However, there are many other known device and component options for battery polarity connection, current direction, current flow protection, current surge and overvoltage protection.
[0033]
The discharge inspection circuit 55 and the reverse polarity inspection circuit 54 may employ a known differential or comparison circuit for level detection. The charge cutoff switch SW1 and the output cutoff switch SW2 include a switching transistor, a photocoupler, A relay or other known circuit breaker may be employed. The battery 50 shown in FIG. 6 supplies current to the output terminal 58 via the output cutoff switch SW2. As shown in FIG. 4, the output terminal 58 is connected to the monitor circuit 44 to supply power to the monitor and to the pole of SW3. SW3 is controlled by a control current supplied to the intercom circuit 45. Therefore, SW3 switches and connects the line for supplying power from the control current line output 57 to the intercom circuit 45 to the power output terminal 58 when there is no control current.
[0034]
FIG. 5 is a block diagram of a television interphone monitor 30A according to a preferred embodiment in which the interphone circuit 45 receives standby current from a charged battery 50 via a power output terminal 58A of the battery controller 52. In this configuration, SW3 shown in FIG. 4 is not used, and video intercom monitor 30A is powered by charged battery 50 when the adjustment current is turned off without using SW3. In order to ensure at least proper operation of the intercom circuit 45 when the rechargeable battery is disconnected, reversely connected or discharged, the battery control circuit 52A shown in FIG. 7 uses the current from the battery terminal 53 as a standby current supply terminal. Includes an additional diode D4 pointing to 58A. Diode D4 prevents reverse polarity current when the battery is reverse connected or discharged. All other circuits of the battery control circuit 52A are equivalent to the circuit of the battery control circuit 52 of FIG. 6 except for the charge cutoff switch SW1A having a switching function shown in FIG. When the battery 50 is disconnected or reversely connected, the charge cut-off switch SW1A is switched to trip to connect the output terminal 58A via the line 57A to supply a control current equal to the standby current for operating the intercom circuit 45. . Again, many other device and component options are conceivable for battery polarity connection, current direction, current flow and current surge protection, and overvoltage protection.
[0035]
The selector 90 shown in FIG. 2 as a mechanical selector switch may comprise a relay or a known IC multiplexer switch or other known electronic switch device. The selector circuit 91 shown in FIG. 3 has a plurality of television interphone monitors 30 and an entrance panel 70B, a guard counter 8, and a security room 9 for connecting a plurality of information signals to be propagated. It is composed of a plurality of switches corresponding to the information transmission line 16A and the transmission line 16B.
[0036]
As a result, one or more information signals propagated through the information transmission line 16 can be selected and supplied from the selector (selection circuit) 91 to any of the information transmission lines 16B. Although the selector 91 in FIG. 3 is shown as a mechanical selector switch, it may be a known IC such as an electronic multiplexer or matrix switch having a number of outputs that can be freely selected as an input to which output. Good.
[0037]
The controller 100 of the entrance panel 70, 70A, 70B and the controller 101 of the entrance unit 4 shown in FIGS. 1, 2 and 3 and the controller 102 of the guard counter 8 and / or the security counter 9 shown in FIG. 9 and is shown in FIG. However, the controller 100 shown in FIG. 9 of the inlet panel 70A of FIG. 2 and the controller 100 of the inlet panel 70B of FIG. 3 are connected via the selector 90 of FIG. 2 or the single selector subgroup of the selector 91 of FIG. A selection signal for connecting a single television intercom monitor 30 via the. On the other hand, the controller 101 of the entrance unit 4 and the controller 102 of the guard counter 8 and the guard counter 9 of FIG. 3 are connected to the plurality of entrance panels 70B, the guard counter 8 and the guard room 9 via the selector 91. A simultaneous selection signal for connecting the intercom monitor 30 can be generated. The controller 100 of FIG. 1 does not provide a selection signal because the entry panel 70 does not include a selector.
[0038]
The controller 100 of FIG. 2 and the controller 101 of FIG. 3 employ a microprocessor or digital circuit using a known microprocessor or digital IC that generates a selector selection signal and a control or alarm signal for operating the television interphone system. To do. The controller 100 or the controller 101 is a known microprocessor that is operated by a personal computer programmed to generate a selector selection signal and a control or alarm signal for operating the television interphone system of FIGS. May be used. Control and alarm signals generated by the controller 100 of FIGS. 1, 2 and 3 or the controller 101 of FIG. 3 can be used to activate a ringer, power on the monitor, switch lights on or off or It is an encoding command such as calling to a predetermined floor. Similarly, a code for controlling the selector may be generated via the transmission line 16B of FIG. This control code may use a combination of apartment numbers and may use a combination of entrance, floor and apartment numbers to operate or address selector 90 of FIG. 2 or selector 91 of FIG. . The selector selection signal generated by the controller 100 of FIG. 2 and the controller 100, 101 or 102 of FIG. 3 is directly supplied to the selector 90 or 91 to operate the selector, and operates the television interphone system. The control command code for causing the transmission is injected into the transmission line 16 via the line 16D in FIG. 9 or the line 16B in FIG.
[0039]
As shown in FIG. 4, the television intercom monitor 30 is a command generated by the controller 100 or the controller 101 such as releasing a door lock, bringing an elevator to a predetermined floor, or switching lights on / off. A code setting circuit 34 (see FIG. 4) for setting a control code similar to the code and / or a code for operating the selector 90 of FIG. 2 or the selector 91 of FIG. 3 is included. The alarm contact 35 of FIG. 4 sets an alarm command code when activated automatically or manually via a peripheral alarm device such as a burglar alarm. The code generator 33 is composed of a dual-tone dialer IC that generates a known dual-tone (two-tone) frequency used in the telephone network, and coding control composed of the dual-tone frequency. The signal is supplied to the audio signal processor / mixer 32 and mixed with the audio signal, and the signal is injected into the transmission line 16 via the DC / signal separation injector 31. The DC / signal separation injector 31 injects the mixed audio signal through a known coupling capacitor or signal converter. A known transistor / buffer amplifier circuit may be used for feeding the mixed signal to the transmission line 16.
[0040]
Code generator33May comprise a digital signal generator that transmits a digital pulse signal corresponding to the selection code, in which case the audio signal processor / mixer 32 generates a pulse signal within the audio frequency bandwidth and the digital pulse Is mixed with the audio signal, and the mixed audio signal is injected into the transmission line 16 via the DC / signal separation injector 31.
[0041]
As shown in FIG. 9, the entrance panel 70A is used for activating a ringer (alarm), opening a door lock, calling an elevator to a predetermined floor, or switching lights on / off. A code setting circuit 82 for setting a control code similar to the command code generated by the code setting circuit 34, and an alarm command code that is automatically or manually activated via a peripheral alarm device such as a theft alarm device. An alarm contact 83 to be set and a code signal generator 81 composed of a dual tone dialer IC for generating a known dual tone frequency used for a telephone network are included. An encoded control signal composed of a single or group of dual tone frequencies is mixed with an audio signal and transmitted through an information signal separating injector 11 of the current supply means 14 shown in FIG. To the audio signal processor / mixer 78 from the code signal generator. The information signal separation injector 11 injects the mixed audio signal via a known coupling capacitor or signal converter. A known transistor / buffer amplifier circuit may be used to supply the mixed signal into the transmission line 16.
[0042]
The code generator 81 shown in FIG. 9 may be composed of a digital pulse generator for transmitting a digital pulse signal corresponding to the selected code. In this case, the audio signal processor / mixer 78 is within the audio frequency bandwidth. The pulse signal is generated and mixed with the audio signal, and the mixed audio signal is injected into the transmission line 16 via the information signal separation injector 11 of the current supply means 14 shown in FIG.
[0043]
As shown in FIG. 4, the television interphone monitor 30 decodes an audio signal extractor / processor 38 that extracts an audio signal from an information signal and a control code supplied from the audio signal extractor / processor 38. It includes a code decoder 41 and a functional driver 42 for driving a ringer call, turning on / off a light, or activating an alarm notice. The code decoder 41 includes a dual tone decoder IC that decodes a known dual tone frequency used in the telephone network, and supplies a decoding control signal to the function driver 42. The functional driver 42 comprises a transistor or multiplexer IC or an electronic switching / driving device such as a photocoupler or other known switching / driving device.
[0044]
The audio signal extractor / processor 38 extracts the audio signal from the information signal using a known low-pass filter to extract the low frequency audio signal from the information signal supplied from the information signal line 16C. The extracted audio signal is also supplied to the speaker amplifier 39 and the speaker 40. The microphone 37, the microphone amplifier 36, the speaker 40, and the speaker amplifier 39 use known audio components that amplify the received audio signal and microphone / audio signal. The microphone amplifier 36 supplies the microphone signal to the audio signal processor / mixer, supplies the mixed audio and microphone signal to the information signal separator / injector via the information signal line 16C, and transmits the mixed audio signal and microphone signal to the transmission line 16. Inject.
[0045]
When the encoding control signal generated by the code generator 33 shown in FIG. 4 or the code generator 81 shown in FIG. 9 is a digital signal or pulse signal in the audio frequency range, the code decoder 41 shown in FIG. The code decoder 73 shown in FIG. 9 employs a known bandpass filter for extracting a digital signal or pulse signal and a digital decoder for decoding the encoded signal.
[0046]
As is clear from the above, the bidirectional audio signal generated by the entrance panel 70A shown in FIG. 9 and the audio signal generated by the television interphone monitor 30 are the interphone circuit 45 of the television interphone monitor 30. A rechargeable battery 50 for operating the monitor 44 of the television intercom monitor 30 without interfering with the information signal by the regulated current for operating the monitor and the current surge and / or random current drain generated by the random activation of the monitor. Propagating with a bidirectional control signal and an alarm signal between the television intercom entrance panel and the television interphone monitor via a transmission line 16 carrying a charging current for charging the television. Also, the television interphone monitor itself operates with an associated battery when the supply of adjustment current is cut.
[0047]
As shown in FIG. 9, a known television camera 71 provides a composite video signal to an audio signal processor / mixer 72. The audio signal processor / mixer uses a known frequency modulation IC that modulates the composite video signal to the carrier frequency. This carrier frequency keeps the low frequency range of the modulated video signal above the high frequency range of the audio signal and injects the video signal into the common transmission line 16D used for the audio signal without interfering with the audio signal. Allow. In the preferred embodiment, the audio signal processor / mixer converts the modulated video signal into a differential input and injects it into the transmission line 16D and the information transmission line 16 via the selector 90 and the current supply means 14. A conversion IC may be further included.
[0048]
As shown in FIG. 4, the video signal extractor / demodulator 43 extracts a frequency modulated video signal or differential input from the line 16C using a known bandpass filter, and uses a known IC and other peripheral components. The demodulated video signal is demodulated, the demodulated composite video signal is supplied to the monitor circuit, and the visitors at the entrance are displayed on the screen of the monitor 44.
[0049]
As is clear from the above description, an information signal composed of a video signal, an audio signal, a control signal, and an alarm signal is transmitted from the entrance panel and / or the entrance unit to the television interphone monitor via a common transmission line. Sent to.
[0050]
As shown in FIG. 3, the controller 102 of the guard counter 8 and the controller 102 of the security room 9 can receive control data from the controller 101 and the selector 91, and can transmit an override control and a selector selection signal to the controller 101 and the selector 91. . The signal supplied from the selector 91 to the controller 101 or 102 includes switch-on or switching data that informs the security officer and manager of visitor, caller and alarm information and status.
[0051]
The intercom circuit 6 of the guard counter 8 and the security room 9 is the same as the interphone circuit 45 of FIG. 4, and the monitor circuit 5 may be similar to the monitor circuit 44 of FIG. 4 or other television monitor circuit. . Accordingly, the guard counter 8 or security room 9 can receive audio, control or alarm signals and transmit these signals to the individual television intercom monitor 30 and can also transmit audio, Control or alarm signals and video signals can be received and audio, control and / or alarm signals can be sent to any of the entry panels 70B. With this configuration, the management or security guard can communicate with each tenant or visitor and can interrupt the visitor's call in case of an emergency.
[0052]
In the apparatus for supplying power to the television interphone monitor through the common transmission line shown in FIGS. 1, 2 and 3, the television interphone monitor corresponds to each other by a simple apparatus in any combination. It is fed via a transmission line and connected to an entrance panel or entrance unit or to a management or security guard. As a result, one, two or any number of entrance panels can be connected to any number of television interphone monitors via a current supply means via a transmission line connecting the television interphone monitors. It becomes possible to do.
[Brief description of the drawings]
FIG. 1 is a block diagram of an apparatus for supplying power to a television interphone monitor via an information transmission line according to a preferred embodiment of the present invention.
FIG. 2 is a block diagram of an apparatus for feeding a number of television interphone monitors via corresponding information transmission lines according to a preferred embodiment of the present invention.
FIG. 3 is another block diagram of an apparatus for powering multiple television intercom monitors via corresponding information transmission lines according to a preferred embodiment of the present invention.
FIG. 4 is an electrical circuit block diagram of a television interphone monitor of the preferred embodiment of the apparatus shown in FIGS. 1, 2 and 3;
FIG. 5 is another electrical circuit block diagram of a television interphone monitor of the preferred embodiment of the apparatus shown in FIGS. 1, 2 and 3;
FIG. 6 is a current and battery control circuit block diagram of a preferred embodiment of the apparatus shown in FIG.
7 is another current and battery control circuit block diagram of the preferred embodiment of the apparatus shown in FIG.
8 is an electrical circuit block diagram of the inlet unit of the preferred embodiment of the apparatus shown in FIGS. 1, 2 and 3. FIG.
9 is an electrical circuit block diagram of the inlet unit of the preferred embodiment of the apparatus shown in FIG.
[Explanation of symbols]
1, 2, 3 Feeder
8 Guard counter
9 Security counter
14 Adjustment current supply means
16, 16A, 16B Transmission line
30 Television intercom monitor
44 Television monitor circuit
45 Intercom circuit
50 rechargeable battery
70, 70A, 70B Television intercom entrance panel
71 Television Camera
90, 91 selector
100, 101 controller

Claims (6)

Information signals including video signals, audio signals, control signals and alarm signals are transmitted and received between the television interphone monitor and the entrance panel including the television camera via a transmission line, and between the entrance panel and the television interphone monitor. The transmission line includes current supply means that can supply an adjustment current maintained at a predetermined level by the current control circuit to the television interphone monitor. The transmission line between the entrance panel and the current supply means and the current supply means Each transmission line between the current supply means and the television interphone monitor propagates the information signal, and the transmission line between the current supply means and the television interphone monitor is further supplied from the current supply means to the television interphone monitor. The television interphone monitor A television interphone comprising: a television monitor circuit including a rechargeable battery that is charged by a regulated current supplied from a current supply means and that supplies power to the television interphone monitor and enables its operation; A power supply device for monitoring,
The entrance panel processes a first multiplexed electrical information signal including a video signal, an audio signal, a control signal, and an alarm signal, and outputs the signal to a television interphone monitor via a transmission line, and an audio signal, A controller for receiving and processing a second multiplexed electrical information signal including a control signal and an alarm signal from the television interphone monitor;
The television interphone monitor receives and processes the first multiplexed electrical information signal from the entrance panel via the transmission line and activates the second when an alarm is activated on the entrance panel side. Includes an intercom circuit for processing the multiplexed electrical information signal and outputting it to the entrance panel via the transmission line,
The adjustment current supplied by the current supply means is adjusted to be approximately equal to the sum of the consumption current of the interphone circuit and the current required for charging the rechargeable battery of the television monitor circuit. -Monitor power supply device. The power supply device for a television intercom monitor according to claim 1,
When the adjustment current supply from the current supply means to the television interphone monitor is cut off, the television interphone monitor is switched from the rechargeable battery so that the operation is possible. A power supply device for television, intercom, and monitor. In the television interphone monitor power supply device according to claim 1,
The current supply means is included in the inlet panel;
A power transmission device for a television, intercom monitor, wherein the transmission line between the entrance panel and the current supply means is an internal connection line of the entrance panel. A power supply device for a television interphone monitor according to claim 1,
A plurality of television interphone monitors are provided for at least one entrance panel, and a plurality of transmission lines between each television interphone monitor and the entrance panel are provided corresponding to each television interphone monitor. Each transmission line between the television interphone monitor and the entrance panel is provided with current supply means that can supply the adjustment current maintained at a predetermined level by the current control circuit to the corresponding television interphone monitor. A transmission line between the entrance panel and the current supply means and a transmission line between the television interphone monitor corresponding to each current supply means propagates the information signal, and the television interphone corresponding to the corresponding current supply means. The transmission line between monitors is further connected to the television input from the current supply means. Propagation current supplied to the phone monitor is propagated, and each television interphone monitor is charged by the adjustment current supplied from the corresponding current supply means to supply power to the television interphone monitor, A television interphone monitor power supply apparatus to which a television monitor circuit including a rechargeable battery to be connected is connected and included. The power supply device for a television interphone monitor according to claim 4,
Each of the television interphone monitors is supplied with power from the rechargeable battery when the supply of the adjustment current from the corresponding current supply means to the television interphone monitor is cut off, thereby enabling the operation. A power supply device for a television, an interphone, and a monitor characterized by switching. In the power supply device for a television interphone monitor according to claim 4,
The current supply means is included in the inlet panel;
A power transmission device for a television, intercom monitor, wherein the transmission line between the entrance panel and the current supply means is an internal connection line of the entrance panel.

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