JP3654070B2 - TV intercom system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a relay interphone master unit in a TV interphone system configured by connecting a camera slave unit equipped with a TV camera and an interphone master unit equipped with a monitor TV via a two-wire audio / video line. The present invention relates to a connected TV intercom system.
[0002]
[Prior art]
The basic configuration of the two-wire TV intercom system is that the camera unit is installed at the entrance, the interphone master unit is installed in the room, and they are connected to each other via a call / video line. In order to be able to answer calls with customers in several places in the room, several interphone master units can be added.
[0003]
However, in such a system, the video signal transmitted from the camera unit to the call / video line is FM-modulated in the interphone master unit in consideration of the attenuation of the video signal and the like. It is configured to be sent to the master unit (secondary master unit). This complicates the circuit configuration of the parent device and increases the product cost.
[0004]
[Problems to be solved by the invention]
In view of such circumstances, the present invention provides another master unit (sub master unit) having a monitor TV other than the master unit while the video signal remains in the baseband when the camera slave unit calls. However, it is intended to provide a simple TV intercom system that can receive and answer calls.
[0005]
That is, in a television interphone system that transmits a multiplexed signal in which an FM-modulated audio signal is superimposed on a video signal to which a camera power supply is applied, the video signal is not modulated and used as it is in the baseband. When calling from a device, a relay interphone master unit is interposed in the middle in addition to the interphone master unit so that the video signal can be displayed as it is.
[0006]
[Means for Solving the Problems]
In order to achieve such an object, in the present invention, a two-wire system includes a camera unit having a TV camera installed at a front door or the like and an interphone master unit having a monitor TV installed indoors. The interphone master unit is configured by further connecting a relay interphone master unit to a TV interphone system that displays images captured by the camera slave unit on a monitor TV. The relay interphone master unit includes a monitor TV, a camera power supply circuit, a camera power supply switching means, and a video signal detection / distribution circuit. The monitor TV of the relay interphone master unit includes the audio / video line. The video signal detection / distribution circuit connected to the interphone base unit side of the video camera and the camera power supply circuit are connected via video switching means. The camera power supply switching means is connected in a switchable manner, and is interposed in the middle of the audio / video line. The camera / child unit side of the audio / video line is connected to the interphone main unit side of the audio / video line and a camera. It is configured to perform switching control to the relay intercom base unit side connected to the power feeding circuit .
[0007]
When the relay interphone master unit configured as described above is added between the camera slave unit and the interphone master unit, the relay interphone master unit detects the call from the camera slave unit and responds until the call is answered. Since the camera power supply switching means of the master unit switches and connects the camera slave unit to the interphone master unit, the camera slave unit operates with power supplied from the interphone master unit, and further, the video switching unit of the relay interphone master unit operates. Since the relay interphone master unit's television circuit is switched and connected to the video signal detection / distribution circuit, the relay interphone master unit's monitor TV projects the image of the video signal from the camera slave unit. The same image is shown).
[0008]
On the other hand, when the relay interphone master unit detects and responds to a call from the camera slave unit, the camera power supply switching means of the relay interphone master unit switches and connects the camera slave unit to the camera power supply circuit of the relay interphone master unit. The camera slave unit operates with power supplied from the relay interphone master unit, and the video switching unit of the relay interphone master unit switches and connects the TV circuit of the relay interphone master unit to the camera power supply circuit of the relay interphone master unit. Therefore, the monitor TV of the relay interphone master unit displays the image of the video signal from the camera slave unit (at this time, the interphone master unit does not display the image on the monitor TV).
[0009]
According to a second aspect of the present invention, the interphone master unit includes a release signal transmission circuit that outputs a release signal to the audio / video line when the interphone master unit responds to the call from the camera slave unit, and the relay interphone master unit has the audio / video A release signal receiving circuit for receiving a release signal through the line, and when the release signal receiving circuit receives the release signal, the control contact of the camera power supply switching means is switched to the interphone main unit side of the audio / video line. Yes.
[0010]
According to another aspect of the present invention, the video signal detection / distribution circuit of the relay interphone master unit is configured such that an impedance element having an impedance higher than the impedance between the camera slave unit and the interphone master unit is connected in parallel to the monitor television. I have to. According to a fourth aspect of the present invention, the video signal detection / distribution circuit has an unbalanced circuit connected to the input side of the impedance element. According to a fifth aspect of the present invention, the video signal detection / distribution circuit has a diode bridge connected to the audio / video line side.
[0011]
In other words, a relay interphone master unit is interposed in the middle of a call / video line connecting the camera slave unit and the interphone master unit, and this relay interphone master unit is sufficiently more than the impedance between the camera slave unit and the interphone master unit. It is connected to a monitor TV through a video distribution circuit composed of high impedance elements.
In addition, since it is input to the load resistor with high impedance via the diode bridge, it can be made non-polarized. Furthermore, since it is input to the load resistor with high impedance via the unbalanced circuit, one line is connected. Even if noise is applied to the signal, it can be canceled and the noise characteristics are improved.
[0012]
According to a sixth aspect of the present invention, the release signal transmission circuit of the interphone master unit is configured to transmit a burst signal having a predetermined frequency.
According to the seventh aspect of the present invention, a color image is displayed on the monitor television of the interphone master unit and the relay interphone master unit.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a system diagram showing an example of a television intercom system. This system includes a camera slave unit 2 equipped with a TV camera installed at a front door and the like, and an interphone master unit 1 (hereinafter also simply referred to as “master unit”) equipped with a monitor TV installed indoors. A relay interphone master unit 3 (hereinafter also referred to as “relay master unit”) is connected to a system configured by connecting with a two-wire audio / video line L.
[0014]
The relay master unit 3 includes a microcomputer 30 that controls each unit, a television circuit 36 that constitutes a monitor television, a camera power supply circuit 32, a camera power supply switching unit 31, and a video signal detection / distribution circuit 34.
The television circuit 36 is switchably connected to the video signal detection / distribution circuit 34 connected to the base 1 side of the audio / video line L and the camera power supply circuit 32 via the video switching means 35. The camera power supply switching means 31 is interposed in the middle of the audio / video line L, and the camera slave unit 2 side of the audio / video line L is connected to the base unit 1 side of the audio / video line L and the camera power supply circuit 32. It is configured to perform switching control to the connected relay base unit 3 side.
[0015]
In addition, the relay base unit 3 includes a call detection circuit 33 that detects a call from the camera slave unit 2, a release signal reception circuit 37 that receives a release signal from the base unit 1, and an FM that transmits and receives a call signal. A modulation transmission circuit 38 and an FM modulation reception circuit 39, a chime circuit 40, and a power supply circuit 41 that supplies power to each unit in the relay base unit 3 are provided.
The relay base unit 3 receives the video signal by connecting the television circuit 36 to the video signal detection / distribution circuit 34 by the video switching means 35 until it detects the call from the camera slave unit 2 and responds. On the other hand, when a response is made after detecting a call from the camera unit 2, the camera power supply switching means 31 connects the camera power supply circuit 32 to the audio / video line L and the video switching means 35 connects the television circuit 36. The video signal is received by connecting to the camera power supply circuit 32.
[0016]
As described above, in the system of the present invention, the video signal detection / distribution circuit 34 composed of high impedance elements is interposed, so that it is superimposed on the camera power supply supplied from the master unit 1 and sent out from the camera slave unit 2. The video signal can be distributed in the baseband without any modulation processing, and the video can be displayed by the television circuit 36.
[0017]
On the other hand, the base unit 1 includes a microcomputer 10 that controls each part, a standby power feeding circuit 11, a camera power feeding circuit 12, a television circuit 13 that constitutes a monitor television, and a call detection that detects a call from the camera slave unit 2. A circuit 14, an FM modulation transmission circuit 15 and an FM modulation reception circuit 16 for transmitting and receiving a call signal, a chime circuit 17, a release signal transmission circuit 18 for outputting a release signal to the audio / video line L, and a master unit 1 is provided with a power supply circuit 19 for supplying power to each unit in the circuit 1.
[0018]
In the master unit 1, when the answer from the camera slave unit 2 is answered, the release signal transmission circuit 18 outputs a release signal. Therefore, in the relay master unit 3, the release signal reception circuit 37 is connected to the audio / video. When the release signal is received through the line L, the control contact of the camera power supply switching means 31 is switched to the base unit 1 side of the audio / video line L, and the television circuit 36 is disconnected from the audio / call line L by the video switching means 35. .
[0019]
Below, operation | movement of a television intercom system is demonstrated in order. First, in a standby state, a standby voltage (6 V) is supplied to the call / video line L from the standby power supply circuit 11 of the base unit 1. When the call button is operated in the camera unit 2, the voltage level of the call / video line L temporarily decreases (changes from 6V to -0.75V). Both call detection circuits 14 and 33 detect this state, and the chime circuits 17 and 40 ring the call chime. Then, camera power (14.5 V) is supplied from the camera power supply circuit 12 of the parent device 1 to the camera slave unit 2.
[0020]
In the master unit 1 and the relay master unit 3, the video signal from the camera slave unit 2 is sent to both the television circuits 13 and 36, and the video of the visitor is displayed. At this time, the video signal is superimposed on the camera power supply, and on the base unit 1 side, the video signal is sent to the TV circuit 13 through the call / video line L and the camera power supply circuit 12, and on the relay base unit 3 side, the call is made. The video signal is sent to the television circuit 36 through the video line L and the video signal detection / distribution circuit 34. In the present invention, a color video signal may be transmitted from the camera slave unit 2 and a color image may be displayed on the television circuits 13 and 36 of the master unit 1 and the relay master unit 3.
[0021]
When the base unit 1 responds in this state, a release signal is sent to the call / video line L from the release signal transmission circuit 18 of the base unit 1. This release signal is composed of a burst signal (for example, 100 msec) having a predetermined frequency (for example, 40 kHz). By using such a signal, the configuration of the base unit 1 is not complicated and can be simplified.
On the other hand, in the relay base unit 3, when the release signal receiving circuit 37 receives the release signal, the video switching means 35 is switched to the camera power supply circuit 32 side to connect the TV circuit 36 and the call / video line L. And the call / video line L is handed over only to the base unit 1. At this time, since the camera power supply switching means 31 remains connected to the base unit 1 side, the camera power supply circuit 32 of the relay base unit 3 does not operate.
[0022]
As a result, only the master unit 1 and the camera slave unit 2 can communicate through the call / video line L. At this time, a multiplexed signal in which an FM-modulated audio signal is superimposed on a video signal (baseband) is transmitted / received between the master unit 1 and the camera slave unit 2. Two-way communication with the camera slave unit 2 is possible.
On the other hand, if the relay master unit 3 responds to the calling of the camera slave unit 2, the camera power supply switching means 31 is switched to disconnect the connection between the master unit 1 and the camera slave unit 2. That is, the base unit 1 is disconnected from the call / video line L. Then, the supply of camera power from the parent device 1 to the camera slave unit 2 is interrupted, and instead, the camera power supply (14.5 V) is supplied from the camera power supply circuit 32 of the relay parent device 3. In addition, the television circuit 36 is connected to the camera power supply circuit 32 by the video switching means 35.
[0023]
As a result, the relay master unit 3 and the camera slave unit 2 can talk. At this time, a multiplexed signal in which an FM-modulated audio signal is superimposed on a video signal (baseband) is transmitted and received between the relay master unit 3 and the camera slave unit 2. A two-way call with the camera unit 2 can be performed while watching.
Next, FIG. 2 shows a system diagram showing only the main part of the present invention. Here, the configuration of the video signal detection / distribution circuit 34 of the relay master unit 3 is mainly shown.
[0024]
The video signal detection / distribution circuit 34 has a configuration in which a load resistor 34 c is connected in parallel to the television circuit 36 as an impedance element having an impedance higher than the impedance between the camera slave unit 2 and the master unit 1. . A minute DC current is passed through the load resistor 34c, so that the video signal can be distributed and received in the baseband without being amplified or modulated.
[0025]
The video signal detection / distribution circuit 34 has an unbalanced balun 34b, which is an unbalanced circuit, connected to the input side of the load resistor 34c. This makes it less susceptible to noise. Further, the video signal detection / distribution circuit 34 has a diode bridge 34a connected to the audio / video line L side. This eliminates the need to be aware of the polarity of the wiring.
[0026]
In this figure, the camera power supply switching means 31 is also shown. When the standby unit or the base unit 1 responds and power is supplied from the base unit 1 to the camera unit 2, switching to the a side is performed. On the other hand, when the relay base unit 3 responds, the switch is made to the b side, and power is supplied from the camera power supply circuit 32 to the camera slave unit 2. At the same time, the video switching means 35 is also switched, and the connection of the television circuit 36 is switched from the video signal detection / distribution circuit 34 to the camera power supply circuit 32.
[0027]
From the above, according to the TV intercom system of the present invention, it is possible to add the relay master unit 3 as compared with the conventional system composed of the master unit 1 and the slave unit 2. It is possible to cope with camera calling, recall detection, power supply (environment), heterogeneous phase, wiring length, and the like.
Next, FIG. 3 is a time chart for explaining the basic operation of the present invention. FIG. 3A shows a case where a call is received from the camera slave unit 2 in the standby state, and the call can be detected by the master unit 1 and the relay master unit 3 when the standby voltage V0 drops. . FIG. 3B shows a baseband video signal transmitted from the camera slave unit 2 after calling. In addition, the arrow in a figure has shown the synchronizing signal. FIG. 3C shows a state in which the base unit 1 or the relay base unit 3 responds and is talking to the camera slave unit 2 thereafter. At this time, an FM-modulated audio signal is superimposed on the baseband video signal to realize a mutual call.
[0028]
FIG. 4 is a diagram for explaining the basic operation of the present invention. FIG. 4A shows a state in which a call is made from the camera slave unit 2. When the call button is operated on the camera slave unit 2, each of the master unit 1 and the relay master unit 3 The captured video is displayed and a chime sound is output. Further, a chime sound is transmitted from the master unit 1 to the camera slave unit 2 as a back tone.
[0029]
FIG. 4B shows a state in which the base unit 1 responds by operating the call button or the like from the state shown in FIG. 4A, while the base unit 1 is watching the video on the camera slave unit 2 side. Two-way calling is possible. At this time, in the relay master unit 3, the unnecessary video on the side of the slave unit 2 disappears, and it becomes impossible to make a call.
FIG. 4C shows a state in which the relay base unit 3 responds by operating a call button or the like from the state shown in FIG. Enables two-way calls. At this time, in the base unit 1, unnecessary video on the side of the handset 2 disappears, and it becomes impossible to make a call.
[0030]
【The invention's effect】
As can be understood from the above description, according to the television interphone system according to claims 1 to 7 of the present invention, the relay interphone parent is configured with a simple configuration between the camera slave unit and the interphone master unit. You can add more machines.
That is, in claim 1, the camera power supply switching means of the relay interphone master unit switches the camera slave unit to the interphone master unit until the relay interphone master unit detects a call from the camera slave unit and responds. Since the camera slave unit operates by being supplied with power from the interphone master unit, the video switching unit of the relay interphone master unit switches the television circuit of the relay interphone master unit to the video signal detection / distribution circuit. Therefore, the monitor TV of the relay interphone master unit can display the image of the video signal of the camera slave unit (at this time, the same image is also displayed on the monitor TV of the interphone master unit).
On the other hand, when the relay interphone master unit detects a call from the camera slave unit and responds, the camera power supply switching means of the relay interphone master unit switches the camera slave unit to the camera power supply circuit of the relay interphone master unit. The slave unit operates with power supplied from the relay interphone master unit, and the video switching means of the relay interphone master unit switches and connects the TV circuit of the relay interphone master unit to the camera power supply circuit of the relay interphone master unit. The monitor TV of the relay interphone master unit can display the image of the video signal of the camera slave unit (at this time, the interphone master unit does not display the image on the monitor TV).
[0031]
In claim 2, when the interphone master unit responds to the call from the camera slave unit, it outputs a release signal to the audio / video line, while the relay interphone master unit receives the release signal through the audio / video line. For example, since the control contact point of the camera power supply switching means is on the interphone master unit side, when the interphone master unit responds with a simple configuration, the relay master unit releases the line and displays the image displayed on the monitor TV. It can be erased.
[0032]
According to a third aspect of the present invention, the video signal detection / distribution circuit of the relay interphone master unit is configured such that an impedance element having an impedance higher than that between the camera slave unit and the interphone master unit is connected in parallel to the monitor television. Therefore, the video signal superimposed from the camera power source and transmitted from the camera slave unit can be distributed without being subjected to any modulation processing in the baseband and projected onto the monitor television.
[0033]
According to the fourth aspect of the present invention, since the video signal detection / distribution circuit has an unbalanced circuit connected to the input side of the impedance element, noise can be reduced and the influence of the noise becomes less likely.
According to the fifth aspect of the present invention, since the video signal detection / distribution circuit has a diode bridge connected to the audio / video line side, it can be made non-polar and it is not necessary to be aware of the polarity of the wiring during construction.
[0034]
According to the sixth aspect of the present invention, since the interphone master unit transmits a burst signal having a predetermined frequency as a release signal, it is possible to notify the relay interphone master unit of a response in the interphone master unit with a simple configuration.
According to the seventh aspect of the present invention, since a color image is displayed on the monitor television of the interphone master unit and the relay interphone master unit, the video on the camera slave unit side can be easily recognized and the commercial value is increased.
[Brief description of the drawings]
FIG. 1 is a system diagram showing an example of a television intercom system according to the present invention.
FIG. 2 is a system diagram showing only the main part of the present invention.
FIG. 3 is a time chart illustrating the basic operation of the present invention.
FIG. 4 is a diagram for explaining a basic operation of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Interphone main unit 11 Standby power supply circuit 12 Camera power supply circuit 13 Television circuit 18 Release signal transmission circuit 2 Camera sub unit 3 Relay interphone main unit 31 Camera power supply switching means 32 Camera power supply circuit 34 Video signal detection distribution circuit 34a Diode bridge 34b Balun for balancing 34c Load resistor 35 Video switching means 36 Television circuit 37 Release signal receiving circuit L Audio / video line

Claims (7)

A camera slave equipped with an installed television cameras etc. entrance, the intercom master unit having a installed a monitor TV like in a room, is constituted by connecting in the two-wire audio / video line, the The interphone master unit is a TV interphone system configured by further connecting a relay interphone master unit to a TV interphone system configured to project images captured by the camera slave unit on a monitor TV ,
The above relay interphone master unit is
Monitor TV, camera power supply circuit, camera power supply switching means, video signal detection distribution circuit,
The monitor TV of the relay intercom base unit is connected to the video signal detection / distribution circuit connected to the interphone base unit side of the audio / video line and the camera power supply circuit through a video switching unit, and is switchable. The camera power supply switching means is interposed in the middle of the audio / video line, and the camera unit side of the audio / video line is connected to the interphone main unit side of the audio / video line and a camera power supply circuit. It is configured to switch to the relay intercom master unit side,
The above relay interphone master unit is
Until the call from the camera slave unit is detected and answered, the monitor TV of the relay interphone master unit is connected to the video signal detection / distribution circuit, and the video imaged by the camera slave unit is transmitted to the relay interphone unit. While projected on the monitor TV of the parent machine ,
When detect and respond to the call from the camera slave unit is in the audio / video line connecting the camera feed circuit, and a monitor TV of the relay intercom master unit connected to the camera feed circuit, the Kamerako A TV intercom system that projects images taken by the projector on the monitor TV of the relay intercom master unit . In claim 1,
The interphone master unit includes a release signal transmission circuit that outputs a release signal to the audio / video line when responding to a call from the camera slave unit, and the relay interphone master unit includes the audio / video line. A release signal receiving circuit for receiving the release signal through the control unit, and when the release signal receiving circuit receives the release signal, the control contact of the camera power supply switching means is switched to the interphone master side of the audio / video line. TV intercom system. In any one of Claims 1, 2.
The television intercom system, wherein the video signal detection / distribution circuit is configured such that an impedance element having an impedance higher than that between the camera slave unit and the interphone master unit is connected in parallel to the monitor television. In claim 3,
The video intercom system wherein the video signal detection / distribution circuit has an unbalanced circuit connected to the input side of the impedance element. In any one of Claims 1, 2.
The video signal detection and distribution circuit is a television intercom system in which a diode bridge is connected to the audio / video line side. In claim 2,
The TV intercom system, wherein the release signal transmission circuit is configured to transmit a burst signal having a predetermined frequency. In any one of Claims 1-6,
A television intercom system configured to display a color image on the monitor television of the interphone master unit and the relay interphone master unit.

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