JP3605204B2 - Surveillance TV camera device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
[0002]
The present invention relates to a surveillance television camera device, and more particularly to a surveillance television camera device capable of achieving line saving in connecting a plurality of surveillance television camera slave units and a master unit.
[Prior art]
[0003]
Conventionally, a surveillance television camera device as shown in FIG. 2 has been proposed.
[0004]
In this surveillance television camera device, a plurality of surveillance television camera slaves SQ11 to SQ18 (the number of surveillance television camera slaves is assumed to be 8 for explanation) is connected to common two lines L11 and L12, It is monitored by the monitor television 39. Each of the surveillance television camera slave units SQ11 to SQ18 is connected to common two lines L11 and L12 via a constant current circuit 32 that changes the output current according to the video signal f1. Termination resistors R11 and R12 for converting the output current into voltages are provided at both ends of the common two lines L11 and L12, respectively. Surveillance television camera slave units SQ11 to SQ18 are connected in parallel to master unit MQ11 through common six lines L11 to L16.
[0005]
The master unit MQ11 includes a video signal demodulation circuit 38, a monitoring monitor television 39, a camera power supply circuit 40, a DTMF receiver 42, a balanced / unbalanced conversion coil 37, a DTMF generator 43, a numeric keypad 44, and a decoder 41. The video terminals T1 and T2 to which L12 is connected are connected to the input side of the balanced / unbalanced conversion coil 37 via capacitors C11 and C12, respectively. One end of the output side of the balanced / unbalanced conversion coil 37 is connected to the other end of the load resistor R11 whose one end is connected to a reference potential point, and is connected to a monitor television 39 via a video signal demodulation circuit 38.
[0006]
The camera power supply circuit 40 is connected to common power supply lines L13 and L14 via common power supply terminals T3 and T4. The decoder 41 is connected to data terminals T5 and T6 via a DTMF receiver 42, and the numeric keypad 44 is connected to data terminals T5 and T6 via a DTMF generator 43. Common data lines L15 and L16 are connected to the data terminals T5 and T6, respectively.
[0007]
The surveillance camera unit 30 to which a video signal is input from the camera eyes 30a of the surveillance television camera slaves SQ11 to SQ18 is connected to a constant current circuit 32 via a video signal modulation circuit 31, and the constant current circuit 32 includes capacitors C13 and C14. Are connected to video terminals T1 and T2 via A power supply circuit 33 connected to the common power supply terminals T3 and T4 is connected to the power supply side of the monitoring camera unit 30, and a DTMF receiver 36 connected to the data terminals T5 and T6 is a digital comparator 34 connected to a number setting switch 35. Is connected to The comparison output side of the digital comparator 34 is connected to the power supply circuit 33.
[0008]
In the thus-configured surveillance television camera device, for example, when the surveillance television camera slave SQ11 is selected by the numeric keypad 44 of the master unit MQ11, a DTMF signal corresponding to the surveillance television camera slave SQ11 is output from the DTMF generator 43, The data is input to the data terminals T5 and T6 of the surveillance television camera slave SQ11 via the common data lines L15 and L16.
[0009]
The DTMF signal is converted into a digital signal by a DTMF receiver 36 of the slave unit SQ11 of the monitoring television camera, and is compared with its own station number set in a number setting switch 35. The camera power is supplied to the unit 30.
[0010]
The video signal input from the camera eye 30a of the monitoring camera unit 30 of the monitoring television camera slave SQ11 is FM-modulated by the video signal modulation circuit 31, and is sent from the constant current circuit 32 to the common two lines L11 and L12. The video signal transmitted from the constant current circuit 32 to the common two lines L11 and L12 is demodulated by the video signal demodulation circuit 38 of the master unit MQ11 and monitored by the monitor TV 39.
[Problems to be solved by the invention]
[0011]
In such a surveillance television camera device, there is a problem that a total of six lines are required for power supply, video signal, and control signal.
[0012]
An object of the present invention is to provide a surveillance television camera device capable of reducing the line in connecting a plurality of surveillance television camera slaves and a master unit in order to solve such a difficulty.
[Means for Solving the Problems]
[0013]
In order to achieve the above-mentioned object, a surveillance television camera device according to the present invention comprises connecting a plurality of surveillance television cameras each having a surveillance television camera and a microphone to a common two-wire cable, and connecting the surveillance television camera to the common two-wire cable. monitor television that monitors the video signals from, and connect the master unit having a speaker, a tuning circuit for selecting a one of a plurality of video surveillance cameras handset to monitor the audio signal from the microphone, monitor Terebikamerako The unit is connected to a common two-wire cable and transmits / receives a control carrier signal assigned to the unit itself. The sub unit carrier transmission / reception circuit, and a video signal high-impedance for transmitting a video signal output from a monitoring television camera with high impedance.・ The impedance transmission circuit, the audio signal from the microphone, and the control carrier signal from the slave carrier transmission / reception circuit It has a high impedance transmission circuit for audio and control signals to be sent at impedance, a sensor for sensing a human, and a slave unit carrier transceiver changeover switch for switching transmission and reception of control carrier signal by the signal input from the sensor, the parent The main unit is connected to a common two-wire cable and transmits / receives a control carrier signal. A high-impedance transmission circuit for transmitting a control carrier signal from the main unit carrier transmission / reception circuit with high impedance. And a master carrier transmission / reception switch for switching transmission / reception of a control carrier signal from a control signal high impedance transmission circuit and a master carrier transmission / reception circuit, so that the master monitors one surveillance television camera subunit. Signal has been input from the sensor of another slave TV camera In this case, the slave carrier transmission / reception changeover switch is switched to the transmission side, and the control carrier signal output from the slave carrier transmission / reception circuit is transmitted to the reception side of the master carrier transmission / reception changeover switch corresponding to another monitoring television camera slave. Is transmitted to the channel selection circuit to detect only the master carrier transmission / reception circuit corresponding to the other surveillance television camera slave, and the master carrier transmission / reception changeover switch corresponding to the other surveillance television camera slave is transmitted to the transmission side and other A signal for switching the master carrier transmission / reception changeover switch to the receiving side is output from the switch control side of the channel selection circuit to turn off one surveillance television camera subunit and turn on another surveillance television camera subunit .
[0014]
In this way, the surveillance TV camera slave unit has a high impedance transmission circuit for video signals and a high impedance transmission circuit for audio and control signals, and the master unit has a high impedance transmission circuit for control signals. Since signals, audio signals, and carrier signals for control signals are output in high impedance and multiplexed on a common two-wire cable, line saving can be achieved in connecting a plurality of surveillance television camera slave units to the master unit.
BEST MODE FOR CARRYING OUT THE INVENTION
[0015]
Hereinafter, a preferred embodiment of a surveillance television camera device according to the present invention will be described in detail with reference to the drawings.
[0016]
A surveillance television camera apparatus as shown in FIG. 1 is a surveillance television camera having a camera eye 1a for inputting a video signal to a common two-wire cable L1, L2 having one end connected to a terminating resistor R1 having a resistor r1, capacitors C7, C8. 1, a plurality of surveillance television camera slave units SQ1, SQ2,... Each having a microphone 10 are connected by a bus, and a surveillance monitor television 19 for monitoring video signals from the surveillance television camera 1 to common two-wire cables L1, L2; A master unit MQ1 including a speaker 15 for monitoring an audio signal from the base station 10, and a tuning circuit 11 having tuning switches 11a, 11b,... For selecting one of a plurality of slave TV sets SQ1, SQ2,. Connected.
[0017]
A plurality of surveillance television camera slaves SQ1, SQ2,... Are connected to common two-wire cables L1, L2 and each have a slave carrier transmission / reception circuit 6 for transmitting and receiving control carrier signals fa, fb,. , A carrier transmission / reception changeover switch 5, a video signal modulation circuit 2, a control carrier signal setting switch 7, a sensor I / F 8, a sensor 9, capacitors C1, C2, C3, and coils K1, K2. A video signal high impedance transmission circuit 3 having a constant current circuit 3a and a balun 3b for transmitting a video signal output from the monitoring television camera 1 with high impedance; an audio signal from the microphone 10; .. Which transmit control carrier signals fa, fb,... From the circuit 6 at high impedance and have a transmission amplifier 4a, a constant current circuit 4b, and a hybrid circuit 4c. And a high impedance transmission circuit 4 for control signals.
[0018]
The master unit MQ1 is connected to the common two-wire cables L1 and L2 and sends and receives control carrier signals fa, fb,..., And carrier transmission / reception circuits 12a, 12b,. It has a power supply circuit 16, a balanced / unbalanced coil 17, a video signal demodulation circuit 18, capacitors C4, C5, C6, coils K3, K4, and a terminating resistor R2, and master carrier transmission / reception circuits 12a, 12b, Are provided with a high-impedance transmitting circuit 14 for transmitting control carrier signals fa, fb,...
[0019]
The surveillance television camera 1 of the surveillance television camera slave unit SQ1 is connected to the input side of the constant current circuit 3a of the video signal high impedance transmission circuit 3 via the video signal modulation circuit 2, and the output side of the constant current circuit 3a is It is connected to the balun 3b. The output side of the video signal high impedance transmission circuit 3 is connected to common two-wire cables L1, L2 via capacitors C1, C2. Further, a coil K2 having one end connected to a reference potential point is connected to the common line cable L2.
[0020]
The common line cable L1 connected to the surveillance television camera slave unit SQ1 is connected to the hybrid circuit 4c of the audio / control signal high impedance transmission circuit 4 via the coil K1 and the capacitor C3. A connection point between the coil K1 and the capacitor C3 is connected to a slave carrier transmitting / receiving circuit 6. The hybrid circuit 4c is connected from the reception side of the carrier transmission / reception changeover switch 5 to a slave carrier transmission / reception circuit 6 connected to the control carrier signal setting switch 7, and the slave carrier transmission / reception circuit 6 includes the monitoring television camera 1, the video modulation circuit 2 Are connected to the transmission amplifier 4a and the constant current circuit 4b of the video signal high impedance transmission circuit 3 and the audio / control signal high impedance transmission circuit 4. The sensor 9 is connected to the control side of the carrier transmission / reception changeover switch 5 via the sensor I / F 8, and the transmission side of the carrier transmission / reception changeover switch 5 is connected to the constant current circuit 4b of the high impedance transmission circuit 4 for voice / control signals. Have been. The constant current circuit 4b of the high impedance transmission circuit 4 for voice / control signal is connected to the transmission amplifier 4a connected to the microphone 10 and the hybrid circuit 4c.
[0021]
The common line cable L1 connected to the master unit MQ1 is connected to a coil K4, one of which is connected to a reference potential point, and connected to the input side of the balanced / unbalanced coil 17 via a capacitor C5. The output side of the balanced / unbalanced coil 17 is connected to a monitor television 19 via a video signal demodulation circuit 18 and a terminating resistor R2, one of which is connected to a reference potential point.
[0022]
In the parent machine MQ1, the common line cable L2 is connected to the input side of the balanced / unbalanced coil 17 via the capacitor C4. The common line cable L2 is connected to a power supply circuit 16 via a coil K3 and to a control signal high impedance transmission circuit 14 via a capacitor C6. The control signal high impedance transmission circuit 14 is connected to a speaker 15 and a plurality of carrier transmission / reception changeover switches 13a, 13b,. Are respectively connected to the master carrier transmission / reception circuits 12a, 12b,..., And the master carrier transmission / reception circuits 12a, 12b, etc. are connected to the tuning switches 11a, 11b,. It is connected to the circuit 11. The switch control side of the tuning circuit 11 is connected to the control side of the carrier transmission / reception changeover switches 13a, 13b,.
[0023]
In the above description, the configuration of one surveillance television camera slave unit SQ1 has been described. However, since the other surveillance television camera slave units SQ2 have the same configuration, the other surveillance television camera slave units SQ2. The description of is omitted.
[0024]
In the thus-configured surveillance television camera device according to the present invention, a case will be described in which, for example, surveillance television camera slave SQ1 is monitored by master unit MQ1.
[0025]
When the monitoring TV camera slave unit SQ1 is tuned by the tuning switch 11a of the master unit MQ1, a tuning signal is transmitted from the switch control side of the tuning circuit 11 to the control side of the carrier transmission / reception changeover switch 13a. Switches to the sending side. (At this time, the other carrier transmission / reception changeover switches 13b remain at the reception side.) The master carrier transmission / reception circuit 12a is formed of a PLL IC circuit, and the carrier transmission / reception changeover switch 13a is switched to the transmission side. The control carrier signal fa of the master carrier transmission / reception circuit 12a is transmitted to the control signal high impedance transmission circuit 14. The control carrier signal fa is also transmitted to the speaker 15 at the same time, but the sound by the control carrier signal fa is not output because the frequency band is set to other than the audible band.
[0026]
The control carrier signal fa transmitted at high impedance from the control signal high impedance transmission circuit 14 is transmitted to each of the monitoring television camera slave units SQ1, SQ2,. The signal is input to the hybrid circuit 4c of the signal high impedance transmission circuit 4. From the hybrid circuit 4c of the high-impedance transmitting circuit 4 for voice / control signal, the signal is input to the slave carrier transmitting / receiving circuit 6 through the receiving side of the carrier transmitting / receiving switch 5. At this time, the detection frequency of the slave carrier transmission / reception circuit 6 of each of the slave TV camera slaves SQ1, SQ2,... Is controlled by the control carrier signal setting switch 7 so that the slave TV camera slave SQ1 is controlled by the control carrier signal fa, Since the camera subunit SQ2 is set to the control carrier signal fb, the control carrier signal fa output from the master unit MQ1 is detected only by the subunit carrier transmission / reception circuit 6 of the surveillance television camera subunit SQ1. is there.
[0027]
When the control carrier signal fa is detected by the slave carrier transmission / reception circuit 6 of the slave TV camera slave SQ1, the monitor TV camera 1, the video signal modulation circuit 2, the video signal high impedance transmission circuit 3, and the audio / control signal high Power is supplied to the transmission amplifier 4a and the constant current circuit 4b of the impedance transmission circuit 4. When power is supplied, the video signal input from the camera eye 1a of the monitoring television camera 1 is FM-modulated by the video signal modulation circuit 2 and transmitted to the video signal high impedance transmission circuit 3. The video signal high impedance sending circuit 3 sends the video signal to the common line cables L1 and L2 with high impedance. The video signal transmitted with high impedance is demodulated by a video signal demodulator 18 via a balanced / unbalanced coil 17 and monitored by a monitor TV 19.
[0028]
The voice signal from the microphone 10 is transmitted to the common line cables L1 and L2 with high impedance by the transmission amplifier 4a, the constant current circuit 4b, and the hybrid circuit 4c of the voice / control signal high impedance transmission circuit 4. It is monitored by the speaker 15 of MQ1.
[0029]
Next, a case where a signal is input from the sensor 9 that senses, for example, a person added to the surveillance television camera slave SQ2 while the parent machine MQ1 monitors the surveillance television camera slave SQ1 as described above. State.
[0030]
The signal input from the sensor 9 of the surveillance television camera slave SQ2 switches the carrier transmission / reception switch 5 connected to the slave carrier transmission / reception circuit 6 via the sensor I / F 8 to the transmission side. As a result, the control carrier signal fb output from the slave carrier transmission / reception circuit 6 is connected to the high impedance common line cable via the constant current circuit 4b and the hybrid circuit 4c of the voice / control signal high impedance transmission circuit 4. It is sent to L1 and L2.
[0031]
This control signal is transmitted to the receiving side of the carrier transmission / reception changeover switch 13b via the control signal high impedance transmission circuit 14 of the master unit MQ1. The control carrier signal fb is set so as to detect only the master carrier transmission / reception circuit 12b, and the detection signal is transmitted to the channel selection circuit 11. A signal for switching the carrier transmission / reception changeover switch 13b to the transmission side and the other carrier transmission / reception changeover switches to the reception side is output from the switch control side of the tuning circuit 11, and turns off the surveillance television camera slave SQ1 and the surveillance television camera slave SQ2. Turn ON. The video signal output from the surveillance television camera slave unit SQ2 is demodulated by the video signal demodulation circuit 18 of the master unit MQ1 following the above-described path, and the surveillance television camera 19 monitors the surveillance television camera slave unit SQ2. Following the above-described route, monitoring is performed by the speaker 15 of the master unit MQ1.
[0032]
In the above-described embodiment, the description has been given of the case of performing the balanced transmission. However, the same effect can be obtained even with the unbalanced transmission.
【The invention's effect】
[0033]
As apparent from the above description, according to the surveillance television camera device of the present invention, the surveillance television camera slave unit has a video signal high impedance transmission circuit and an audio / control signal high impedance transmission circuit, and the master unit has Since the control signal high impedance transmission circuit is provided, the video signal, the audio signal, and the control signal carrier signal are output in high impedance and multiplexed on a common two-wire cable. Line saving can be achieved in the connection of machines.
[Brief description of the drawings]
[0034]
FIG. 1 is a circuit diagram showing one embodiment of a monitoring television camera device according to the present invention.
FIG. 2 is a circuit diagram showing a conventional surveillance television camera device.
[Explanation of symbols]
[0035]
L1, L2 {Common 2-wire cable MQ1} Master unit SQ1, SQ2, {Monitoring TV camera slave unit 1} Monitoring TV camera 3 {High impedance transmission circuit 4 for video signal} {High-impedance transmitting circuit 6 for voice / control signal} Remote device carrier transmitting / receiving circuit 10 Microphone 11 Tuning circuits 12a and 12b {Main device carrier transmitting / receiving circuit 14} Control signal High impedance sending circuit 15 {speaker 19} monitoring monitor television fa, fb, control carrier signal
9 ‥‥‥ sensor
5 ‥‥‥ Receiver unit carrier transmission / reception switch
13 a, 13 b, ‥‥‥ parent machine carrier transmission and reception change-over switch

Claims (1)

A plurality of surveillance television camera units (SQ1, SQ2,...) Each having a surveillance television camera (1) and a microphone (10) are connected to the common two-line cable (L1, L2) by bus, and the common two-line cable is connected to the common two-line cable. A monitoring monitor television (19) for monitoring a video signal from a monitoring television camera, a speaker (15) for monitoring an audio signal from the microphone, and a tuning circuit for selecting one of the plurality of slave TV cameras ( 11) is connected to the master unit (MQ1),
The surveillance television camera slave unit is connected to the common two-wire cable and transmits / receives control carrier signals (fa, fb,...) Respectively assigned to itself, and the surveillance television camera transmission / reception circuit (6); A video signal high impedance transmission circuit (3) for transmitting the video signal output from the camera at a high impedance; and a high level control of the audio signal from the microphone and the control carrier signal from the slave unit carrier transmission / reception circuit. A high-impedance transmitting circuit (4) for voice / control signals transmitted by impedance, a sensor (9) for detecting a person, and a slave carrier for switching transmission / reception of the control carrier signal according to a signal input from the sensor. and a transmission and reception change-over switch (5), wherein the base unit is connected to said common two-wire cable feeding the control carrier signal Parent device carrier transceiver circuit (12a, 12b, ...) and the base unit carrier the control carrier signal from the transmission and reception circuit sends a high-impedance control signal for the high impedance transmission circuit (14), the control parent device carrier transceiver changeover switch for switching the transmission and reception of the control carrier signal from the signal for high impedance transmission circuit and base unit carrier transceiver circuit (13 a, 13 b, ... ) and by having the parent device 1 When a signal is input from the sensor of another surveillance television camera slave while monitoring one surveillance television camera slave, the slave carrier transmission / reception switch is switched to the transmission side to switch the slave carrier. The control carrier signal output from the transmission / reception circuit transmits / receives the master carrier transmission / reception corresponding to the another monitoring television camera slave. The changeover switch is transmitted to the receiving side, and is transmitted to the channel selection circuit so as to detect only the master unit carrier transmission / reception circuit corresponding to the other surveillance television camera slave unit, and is transmitted to the other surveillance television camera slave unit. A signal for switching the master carrier transmission / reception changeover switch to the transmission side and the other master carrier transmission / reception changeover switch to the reception side is output from the switch control side of the tuning circuit, and turns off the one surveillance television camera slave unit. A surveillance television camera device characterized by turning on another surveillance television camera slave unit.

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