JP4840022B2 - Intercom system for housing complex - Google Patents

Description

  The present invention makes it possible to establish a communication path between a common unit device installed at a common entrance of an apartment house and any one of the dwelling units installed in each dwelling unit, to make a call and to share it. The present invention relates to an intercom system for an apartment house that can display an image captured by a camera included in a section device on a monitor included in a dwelling unit.

  Conventionally, in condominiums such as condominiums, common unit devices (lobby intercoms) installed at the common entrance (lobby) and the dwelling units installed at each dwelling unit are connected by transmission lines, and visitors are in the lobby. When you enter the visited unit number by operating the selection means (numeric keypad) of the intercom, a communication path consisting of a transmission line is established between the unit and the dwelling unit installed in the unit with the selected unit number. A telephone can be communicated between the intercom and the dwelling unit, and an image captured by the camera provided in the lobby intercom is transmitted to the selected dwelling unit via the transmission line, and the display device (CRT) provided in the dwelling unit is provided. An intercom system for apartment buildings where visitors' images are displayed on a display or a liquid crystal display is used (for example, Patent references 1 and 2).

In recent years, large-scale apartment houses have increased, and there are also apartment houses with multiple common entrances. As described above, in a housing complex having a plurality of common entrances, a plurality of lobby intercoms installed at each common entrance are connected to all the dwelling units via a transmission line, and any dwelling unit can be used in any lobby intercom. You can talk to the machine. As the size of the apartment increases, the total wiring length of the transmission line connecting the lobby intercom and each dwelling unit also increases, and the video (particularly the video signal) is significantly attenuated and displayed on the dwelling unit display device. In the past, a main line control device that amplifies video signals has been provided between the lobby intercom and the dwelling unit.
JP 2000-287201 A JP 2001-69498 A

  By the way, the transmission line connecting each lobby intercom and the dwelling unit includes a main line connected to the lobby intercom and a separate dwelling line branched from the main line and connected to each dwelling unit. Is a communication line for transmitting audio signals between the lobby intercom and the dwelling unit, a video line for transmitting a frequency-modulated video signal from the lobby intercom to the dwelling unit, and a dwelling unit selected by the selection means of the lobby intercom And a control line for transmitting a control signal designating the machine. In addition, a pair line is used for all of the call line, the video line, and the control line, and for example, a transmission line is configured by a multi-pair twisted pair cable (transmission cable) having three or more pairs in the sheath.

  Here, when transmission cables connecting a plurality of lobby intercoms and a dwelling unit are stored in the same sheath, a signal level (distant) leaks from any one pair of video lines to another pair of video lines in the dwelling unit. When the signal level difference of the video signal output to each video line in the lobby intercom (or main line control device) becomes larger than the end crosstalk amount), the video signal having a relatively low signal level has a relative signal level. Since it is influenced by the far-end crosstalk (crosstalk component) from a large video signal, there is a problem that the video displayed on the display device of the dwelling unit is disturbed and the video quality is deteriorated.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to relatively compare the signal level when a frequency-modulated video signal is transmitted via a plurality of video lines housed in the same sheath. It is an object to provide an intercom system for a housing complex that can prevent signal degradation of a small video signal.

In order to achieve the above object, the first aspect of the present invention provides a plurality of shared unit devices that are installed at a common entrance of an apartment house and are capable of inputting and outputting audio, and a plurality of units installed in each dwelling unit of the apartment house. A common unit device is connected to each other via a transmission line, and when a visitor selects a selection means of the common unit device, a plurality of units establish a communication path with the common unit device. A dwell unit and a main line control device inserted into a plurality of trunk lines to which a plurality of dwell units are respectively branched and connected, and a plurality of common unit devices are connected to each other. Between the communication means for making a call through the communication path, a camera for imaging a visitor, and a video signal for transmitting a video imaged by the camera at a frequency higher than the audio signal output by the telephone communication means. Frequency modulation means The dwelling unit includes a calling means for making a call with the shared unit device via the communication path, a demodulating means for demodulating the frequency-modulated video signal, and a video by the demodulated video signal. Display means for displaying, and the transmission line includes a plurality of main lines and a separate line for each dwelling unit from each main line to each dwelling unit. A control line that transmits a control signal that is generated by an operation and instructs the start of an individual call, a call line that transmits an audio signal, and a video line that transmits a frequency-modulated video signal are stored in the same sheath. The main line control device includes amplification means for amplifying the frequency-modulated video signal transmitted from each shared device via the video line with a constant amplification degree, and amplifies by the amplification means. Lap before being done The level difference between frequency-modulated video signals output from a plurality of shared unit devices, such as a number-modulated video signal or a frequency-modulated video signal amplified by the amplifying means, is a far end crosstalk of a transmission cable. A plurality of level adjusting devices for adjusting the level to be smaller than the amount are provided , and the plurality of level adjusting devices are provided between the shared device and the main line control device in the video line of each main line or the video of each main line. It is provided in either between the trunk line control apparatus and dwelling unit in a line .

  According to a second aspect of the present invention, in the first aspect of the invention, at least two of the control line, speech line, and video line are shared by the same line, and among the control signal, audio signal, and video signal, Means for frequency-division multiplexing signals transmitted via a shared line and means for separating each frequency-division multiplexed signal for each signal frequency band are shared equipment, dwelling units, and trunk line control. Provided appropriately in the apparatus, and when the video signal is frequency division multiplexed with at least one of the control signal and the audio signal, the means for frequency division multiplexing the video signal and the other signal and the frequency division multiplexed The level adjusting device is provided with the means for separating the video signal and other signals for each frequency band of each signal.

  According to the invention of claim 3, according to the invention of claim 1 or 2, the main line control device distributes the frequency-modulated video signal amplified by the amplifying means to a plurality of main lines. And the plurality of level adjusting devices adjust the level of the frequency-modulated video signal before being amplified by the amplifying means.

  According to a fourth aspect of the present invention, in the first aspect of the present invention, the plurality of level adjusting devices adjust the level of the frequency-modulated video signal before being amplified by the amplifying means. The level adjustment amplifying means having a variable amplification level, the resistance detecting means for detecting the DC resistance of the video line connected to the shared device, and the output level according to the DC resistance detected by the resistance detecting means. Amplifying degree adjusting means for adjusting the amplification degree of the level adjusting amplifying means so as to be constant is provided.

  According to a fifth aspect of the present invention, in any one of the first to third aspects of the present invention, the plurality of level adjustment devices input the level adjustment attenuation means whose attenuation amount is variable and the level adjustment attenuation means. A video signal level detecting means for detecting the level of the frequency-modulated video signal, and adjusting the attenuation amount of the level adjusting attenuating means so that the output level is constant according to the level detected by the video signal level detecting means. And an attenuation amount adjusting means.

  According to a sixth aspect of the present invention, in any one of the first to third aspects, the plurality of level adjusting devices include limiter amplifying means that makes the output signal level constant regardless of the input signal level. It is characterized by that.

  According to the first aspect of the present invention, the level adjustment is performed by the plurality of level adjusting devices so that the level difference between the frequency-modulated video signals output from the plurality of shared unit devices is smaller than the far-end crosstalk amount of the transmission cable. As a result of adjustment, when a frequency-modulated video signal is transmitted through a plurality of video lines housed in the same sheath, signal deterioration of a video signal having a relatively low signal level can be prevented. The quality deterioration of the video displayed on the display means of the dwelling unit can be prevented.

  According to the second aspect of the present invention, it is possible to reduce the wiring compared to the case where the control signal, the audio signal, and the video signal are transmitted through individual lines.

  According to the third aspect of the present invention, the required number of level adjusting devices can be reduced as compared with the case of providing on the output side of the main line control device.

  According to the invention of claim 4, the amplification degree adjusting means detects the direct current resistance of the video line connected to the shared device with the resistance detecting means, and the amplification degree adjusting means is configured so that the output level becomes constant according to the detected direct current resistance. Since the amplification degree of the level adjusting amplifying means is adjusted, the level can be adjusted without human intervention.

  6. The invention according to claim 5, wherein the level of the frequency-modulated video signal input to the level adjustment attenuation means is detected by the video signal level detection means, and the attenuation amount is adjusted so that the output level becomes constant according to the detected level. Since the means adjusts the attenuation amount of the level adjusting attenuation means, the level can be adjusted without manual intervention.

  According to the invention of claim 6, since the plurality of level adjusting devices adjust the signal level by the limiter amplifying means in which the output signal level is constant regardless of the input signal level, the level adjustment is not performed manually. It can be performed.

(Embodiment 1)
The configuration of this embodiment is shown in FIG. In this embodiment, a plurality of (two in the illustrated example) shared unit devices (lobby interphones) 1 ₁ and 1 ₂ installed at the common entrance of the apartment house and a plurality of dwelling units installed in each dwelling unit. 2 and lobby intercom 1 ₁ , 1 ₂ and dwelling unit 2 are connected via a transmission line. The transmission line includes a trunk line L1 connected to the lobby intercoms 1 ₁ and 1 ₂ and a separate line L2 connected to each dwelling unit 2, and further, the lobby intercoms 1 ₁ and 1 ₂ and the dwelling units in the main line L1. 2 is provided with a trunk line control device 3. As this transmission line, a multi-pair twisted pair cable having six or more pairs in the sheath is used. In the illustrated example, each of the audio signals transmitted between the lobby interphones 1 ₁ and 1 ₂ and the dwelling unit 2 is transmitted. call lines La ₁ pair, and La _2, a lobby interphone ₁ 1, 1 ₂ video lines Lb ₁ of each pair for transmitting a video signal captured by the camera (not shown) comprising the, Lb _2, Pair wires are used for each pair of control lines (not shown) for transmitting a control signal designating the dwelling unit 2 selected by the selection means (described later) of the lobby intercoms 1 ₁ and 1 ₂ . . In other words, the transmission line of the illustrated example uses six pairs of wires. Here, the video signals transmitted via video lines Lb _1, Lb ₂ is frequency-modulated in the lobby intercom 1 _1, 1 _2, are frequency-demodulated by the FM demodulation unit 25a provided in each dwelling unit 2 as will be described later Are displayed on the monitor 22.

The lobby intercoms 1 ₁ and 1 ₂ are provided with microphones and speakers for inputting / outputting sound, a camera for imaging a visitor, and selection means having a number key for designating a dwelling unit number and a call button. When the call button is operated after the number key is operated and the visited unit number is selected, the dwelling unit 2 corresponding to the unit number is selected. Here, the lobby intercom 1 ₁ , 1 ₂ is connected to a call control device (management room intercom) 5 via the call lines La ₁ , La ₂ and the control line, and is selected by the lobby intercom 1 ₁ , 1 _2. When the dwelling unit number is transmitted to the management room intercom 5 via the control line (not shown), the management room interphone 5 sends a control signal (calling) to the dwelling unit 2 corresponding to the dwelling unit number via the control line. Command).

On the other hand, the dwelling unit 2 includes a microphone 21a and a speaker 21b for inputting and outputting audio, and the microphone 21a and the speaker 21b are connected to an audio circuit 24c via amplifiers 24a and 24b, respectively. The audio circuit 24c includes a circuit for converting the two call lines La ₁ and La ₂ and the input lines and output lines of the two amplifiers 24a and 24b into two lines and four lines, and converts an audio signal input from the microphone 21a. sending the call line La ₁ or La _2, the audio signal from the call line La ₁ or La ₂ has a function of outputting to the speaker 21b side. Thus, between the lobby intercom 1 ₁ and dwelling unit 2, and it is possible to transmit and receive voice signals through the respective call lines La ₁ or La ₂ between the lobby intercom 1 ₂ and dwelling unit 2, visitor lobby interphone By using 1 ₁ or 1 ₂ and the resident using the dwelling unit 2, a maximum of two pairs of voice calls can be made between the visitor and the resident.

In the dwelling unit 2, a liquid crystal display or a CRT is used for the monitor 22. A frequency-modulated video signal (hereinafter referred to as FM video signal) input to the dwelling unit ₂ through the video lines Lb ₁ and Lb ₂ is supplied to the amplifier 25b through a coupling transformer 25c for balanced-unbalanced conversion. After being input and amplified by the amplifier 25b, the FM demodulator 25a performs FM demodulation. The video signal output from the FM demodulator 25 a is input to the monitor 22, thereby displaying the video on the screen of the monitor 22. That is, since the lobby intercom 1 _1, 1 visitor image captured in the _second camera is displayed on the monitor 22 of the dwelling unit 2, resident in the dwelling unit is to be able to confirm the visitor.

The dwelling unit 2 is provided with a CPU (not shown) for controlling an internal circuit, and a control signal transmission / reception circuit (not shown) serving as an interface with a control line (not shown) is connected to the CPU. The control signal transmission / reception circuit has a function of sending a control signal output from the CPU to the control line and delivering the control signal received from the control line to the CPU. The internal power supply of the dwelling unit 2 is generated from a commercial power supply (AC 100 V) by a power supply unit (not shown). The dwelling unit 2 includes speech line switches 26a and 26b that selectively connect _one of the two pairs of speech lines La ₁ and La ₂ to the audio circuit 24c, and two pairs of video lines Lb ₁ , Video line switches 27a and 27b that selectively connect one of Lb ₂ to the coupling transformer 25c, and a main line connection switch 28a inserted between the speech line switches 26a and 26b and the audio circuit 24c, A main line connection switch 28b inserted between the video switchers 27a and 27b and the coupling transformer 25c is provided.

By the way, the control line (not shown) is directly connected to the trunk line L1 and the dwelling unit separate line L2, and the control signal sent from the lobby intercom 1 ₁ , 1 _{2 is} transmitted to all the dwelling units 2 connected to the control line. Is done. Here, individually addressed to the CPU of the dwelling unit machine 2 (for example, dwelling number) is set, also the lobby intercom 1 _1, 1 ₂ and a unique ID is set in the lobby intercom 1 _1, 1 ₂ By selecting an address, a control signal (call command) for designating the address can be transmitted from the management room intercom 5 to all the dwelling units 2 via the control line. If the address included in the control signal is its own address, the CPU of the dwelling unit 2 activates the FM demodulator 25a and the monitor 22, and controls the video line switchers 27a and 27b to control the ID included in the control signal. lobby intercom 1 ₁ or 1 ₂ video lines Lb ₁ or Lb ₂ corresponding to the coupling transformer 25c closes the switch connected and mains connection switch 28b lobby intercom 1 ₁ or 1 visitor image captured in the _second camera Is displayed on the monitor 22, and a ringing tone is transmitted from the speaker 21b through the voice circuit 24c. Then, if the resident presses a response button (not shown) of the dwelling unit 2 in response to the ringing tone, the CPU controls the call line switchers 26a and 26b and the lobby intercom 1 with the ID included in the control signal. _The communication line La ₁ or La ₂ corresponding to ₁ or 1 ₂ is switched and connected to the audio circuit 24c, and the main line connection switch 28a is closed to establish a communication path with the lobby intercom 1 ₁ or 1 _2. It is possible to make a call only between the intercom 1 ₁ or 1 ₂ and the selected dwelling unit 2, and to display on the monitor 22 visitors captured by the camera only in the selected dwelling unit 2. It becomes possible. However, the telephone lines La ₁ and La ₂ and the video lines Lb ₁ and Lb ₂ are branched from the trunk line L 1 via the branching unit 7 among the dwelling unit separate lines L ₂ .

The state in which the dwelling unit 2 selected in the lobby intercom 1 ₁ or 1 ₂ as described above has established a communication path with the lobby intercom 1 ₁ or 1 ₂ is the lobby intercom 1 ₁ , 1 ₂ or dwelling unit. When the end of the call is detected in the machine 2, the process ends. In other words, when using the handset for the lobby intercom 1 ₁ , 1 ₂ or the dwelling unit 2, the end of the call can be detected by on-hooking the handset, and when using a hands-free call, the call can be ended using an appropriate operation button. I can tell you.

In the trunk line control device 3, FM video signals input from the lobby intercoms 1 ₁ and 1 ₂ via the video lines Lb ₁ and Lb ₂ are amplified via the coupling transformers 31a ₁ and 31a ₂ for balanced-unbalanced conversion. 31b ₁ and 31b ₂ , amplified by amplifiers 31b ₁ and 31b ₂ , and then output to level adjusting devices 6 ₁ and 6 ₂ through coupling transformers 31c ₁ and 31c ₂ and video lines Lb ₁ and Lb _2. . Note that the internal power supply of the main line power supply 3 is generated from the commercial power supply (AC 100 V) by the power supply circuit 32.

The management room intercom 5 includes a microphone 51a and a speaker 51b for inputting and outputting audio, and the microphone 51a and the speaker 51b are connected to an audio circuit 54c via amplifiers 54a and 54b, respectively. The audio circuit 54c includes a circuit that converts the two lines of speech lines La ₁ and La ₂ and the input lines and output lines of the two amplifiers 54a and 54b into two lines and four lines, and converts an audio signal input from the microphone 51a. sending the call line La ₁ or La _2, the audio signal from the call line La ₁ or La ₂ has a function of outputting to the speaker 51b side. Therefore, it is possible to exchange between, as well as an audio signal through the respective call lines La ₁ or La ₂ between the dwelling units machine 2 and control room intercom 5 the lobby intercom 1 ₁ or 1 ₂ and control room intercom 5.

Next, the level adjusting devices 6 ₁ and 6 ₂ which are the gist of the present invention will be described. In the level adjusting devices 6 ₁ and 6 ₂ , the FM video signal input from the main line control device 3 via the video lines Lb ₁ and Lb ₂ is supplied with a low frequency cut capacitor and a coupling transformer 61a for balanced-unbalanced conversion. And is amplified by the amplifier 61b and then sent to the video lines Lb ₁ and Lb ₂ through the coupling transformer 61c and the low frequency cut capacitor. Further, variable resistors VR1 and VR2 are inserted between the input terminal of the amplifier 61b and between the input terminal and the output terminal in order to adjust the amplification degree of the amplifier 61b. The internal power supplies of the level adjusting devices 6 ₁ and 6 ₂ are generated from a commercial power supply (AC 100 V) by the power supply circuit 62.

Here, FM video signals having a signal level of 20 dBm are output from the lobby intercom 1 ₁ , 1 ₂ to the video lines Lb ₁ , Lb _2, and the amplification degree in the amplifiers 31 b ₁ , 31 b ₂ of the trunk control device 3 is 10 dB Furthermore sufficiently long line length of the video line Lb ₁ from one lobby intercom 1 ₁ to trunk controller 3 as compared with the line length of the video line Lb ₂ from the other lobby intercom 1 ₂ to mains control unit 3, a video the FM video signals transmitted via video lines Lb ₂ whereas FM video signal transmitted via the line Lb ₁ is attenuated by -40dB assumed that little attenuation. At this time, the signal level of the FM video signal that is attenuated by −40 dB and input to the trunk control device 3 while the FM video signal output from one lobby intercom 11 _{1 at} 20 dBm is transmitted through the video line Lb ₁ is the -20dBm, but the signal level of the FM video signal input to the level adjusting units ₆₁ to be 10dB amplified by the amplifier 31b ₁ becomes -10dBm. On the other hand, the FM video signal output at ₂₀ dBm from the other lobby interphone 12 ₂ hardly attenuates while being transmitted through the video line Lb _{1, so} that the signal level of the FM video signal input to the trunk control device 3 remains 20dBm, the signal level of the FM video signal input to the level adjusting apparatus 6 ₂ to be 10dB amplified by the amplifier 31b ₂ becomes 30 dBm. That is, a level difference of 40 dBm is generated between the signal levels of the FM video signals output from the main line control device 3 to the video lines Lb ₁ and Lb ₂ . And if the far-end crosstalk amount of the pair line used for the video lines Lb ₁ and Lb ₂ from the trunk line control device 3 to each dwelling unit 2 is about 20 to 40 dB with a line length of 100 m, as described above When a level difference of 40 dBm occurs between the signal levels of the FM video signals output to the video lines Lb ₁ and Lb ₂ accommodated in the same sheath, the line from the main line control device 3 to the dwelling unit 2 If the length exceeds 100 m, the FM video signal transmitted through the other video line Lb ₁ is affected by the far-end crosstalk in one video line Lb _2, and the D / U ratio (desired signal to interference) Signal ratio) decreases, and the video demodulated by the dwelling unit 2 is disturbed in the FM video signal transmitted via the video line Lb ₁ , and the quality deteriorates.

Therefore, in the present embodiment, the installer adjusts the resistance values of the variable resistors VR1 and VR2 in _one level adjusting device 61 so that the image displayed on the monitor 22 of the dwelling unit 2 is not disturbed. with increasing the amplification degree adjusting the resistance value of the variable resistor VR1, VR2 at the other level adjuster 6 ₂ reduces the amplification degree of Te. For example, when the default gain of the amplifier 61b is to be 35 dB, the amplification degree in one level adjusting units ₆₁ and 45 dB, if the amplification degree in the other level adjusting apparatus 6 ₂ and 5 dB, the level adjustment device The signal levels of the FM video signals output from 6 ₁ and 6 ₂ to the video lines Lb ₁ and Lb ₂ are both 35 dBm, and the level difference is 0 dBm. That is, since the line length of the transmission cable from the main line control device 3 to each dwelling unit 2 is the same for any of the video lines Lb ₁ and Lb ₂ , it is output from the main line control device 3 to the respective video lines Lb ₁ and Lb ₂ . Level adjustment devices 6 ₁ and 6 ₂ adjust the level so as not to cause a difference in the signal level of the FM video signal to be transmitted, so that the FM video signal having a relatively low signal level when input to the trunk control device 3 Disturbance can be prevented from occurring in the video demodulated by the dwelling unit 2 (FM video signal transmitted via the video line Lb ₁ ). In addition, since the line length of the transmission cable from the trunk line control device 3 to each dwelling unit 2 is the same for any of the video lines Lb ₁ and Lb _{2 as} described above, any one of the plurality of dwelling units 2 If the signal level is adjusted by the level adjusting devices 6 ₁ and 6 ₂ so that the image displayed on the monitor 22 in one unit is not disturbed, the image is not disturbed in all other dwelling units 2. Therefore, it is not necessary for the constructor to confirm whether or not the image displayed on the monitor 22 is disturbed for all the dwelling units 2.

By the way, in the present embodiment, the level adjusting devices 6 ₁ and 6 ₂ are provided on all the video lines Lb ₁ and Lb ₂ from which the FM video signal is output from the main line control device 3, but the signal level becomes relatively small. Even if the level adjusting device 6 is provided only for one of the video lines Lb ₁ and the level is adjusted, the same effect can be obtained. Alternatively, as shown in FIG. 2, level adjusting devices 6 ₁ and 6 ₂ are connected to video lines Lb ₁ and Lb ₂ connecting the trunk line control device 3 to the input side of the main line control device 3, that is, the lobby intercoms 1 ₁ and 1 _2. Even if it provides, the same effect can be produced.

In addition, as a level adjusting means in the level adjusting devices 6 ₁ and 6 ₂ , a configuration in which an attenuator 63 whose attenuation is variable as shown in FIG. 3 is provided in place of the amplifier whose amplification is variable as described above. It doesn't matter. The attenuator 63 includes a series circuit of variable resistors VR3a, VR4a and VR3b, VR4b inserted between the coupling transformers 61a and 61c, and a connection point between the variable resistors VR3a, VR4a and VR3b, VR4b and the ground. It is composed of the inserted variable resistors VR5a and VR5b, and the signal level of the FM video signal is adjusted by changing the attenuation amount by increasing / decreasing the resistance values of the plurality of variable resistors VR3a,. It is possible. Then, by making the attenuation amount for the FM video signal having a relatively high signal level larger than the attenuation amount for the FM video signal having a relatively low signal level, the video lines Lb ₁ and Lb ₂ are used. The level can be adjusted so that the difference between the signal levels of the FM video signals transmitted in this way becomes zero. The resistance values of the variable resistors VR3a,... May be automatically adjusted by a microcomputer (not shown) or the like so as to be a target attenuation amount, or manually adjusted by the installer. It does not matter if it is made. However, even when the attenuator 63 is provided in the level adjusting devices 6 ₁ and 6 ₂ instead of the amplifier, the level adjusting device 6 is provided only for one video line Lb ₂ having a relatively high signal level. The same effect can be obtained by adjusting the level or by providing level adjusting devices 6 ₁ and 6 ₂ on the input side instead of the output side of the main line control device 3.

(Embodiment 2)
The configuration of the present embodiment is shown in FIG. However, since the basic configuration of the present embodiment is substantially the same as the configuration of the first embodiment shown in FIG. 2, the same components are denoted by the same reference numerals and description thereof is omitted.

In the present embodiment, the FM video signal input from the lobby intercom 1 ₁ , 1 ₂ via the video lines Lb ₁ , Lb ₂ in the trunk line control device 3 is amplified by the amplifiers 31 b ₁ , 31 b ₂ and then distributed to the distribution circuits 31 d ₁ , 31 d ₁ , 31 b ₁ . It differs from the first embodiment shown in FIG. 2 in that it is distributed to two systems by 31d ₂ . As described above, even if the main line control device 3 includes the distribution circuits 31d ₁ and 31d ₂ for distributing the FM video signal to a plurality of systems, the FM video transmitted through the video lines Lb ₁ ,. By adjusting the signal level of the FM video signal with the level adjusting devices 6 ₁ ,... So that there is no difference in the signal level of the signal, the signal level when input to the trunk control device 3 is relatively the same as in the first embodiment. Therefore, it is possible to prevent the image obtained by demodulating the small FM video signal by the dwelling unit 2 from being disturbed.

Moreover in the present embodiment, the input side of the main line control device 3, i.e., provided lobby intercom 1 _1, 1 ₂ and video lines Lb ₁ which connects the mains control unit 3, Lb ₂ to level adjusting units ₆₁ and 62 ₂ Therefore, there is an advantage that the number of necessary level adjusting devices 6 ₁ ,... Can be reduced from four to two as compared with the case where the main line control device 3 is provided on the output side.

(Embodiment 3)
The configuration of the present embodiment is shown in FIG. However, since the basic configuration of the present embodiment is substantially the same as the configuration of the first embodiment shown in FIG. 2, the same components are denoted by the same reference numerals and description thereof is omitted.

This embodiment includes a resistance detection circuit 64 for detecting the DC resistance of the lobby intercom 1 ₁ or 1 ₂ and connected to the video line Lb ₁ or Lb _2, the output level corresponding to the DC resistance detected by the resistance detection circuit 64 The level adjusting devices 6 ₁ and 6 ₂ are characterized in that the level adjusting devices 6 ₁ and 6 ₂ include an amplification degree adjusting circuit 65 that adjusts the amplification degree by changing the resistance values of the variable resistors VR1 and VR2 so as to be constant.

The resistance detection circuit 64 detects a DC resistance by applying a DC voltage between the video lines Lb ₁ or Lb ₂ connected to the lobby intercom 1 ₁ or 1 ₂ and simultaneously measuring a DC current flowing between the lines. . The amplification adjustment circuit 65 estimates the line length of the video line Lb ₁ or Lb ₂ connected to the lobby interphone 1 ₁ or 1 ₂ from the DC resistance detected by the resistance detection circuit 64 and calculates the FM video from the estimated line length. The attenuation amount of the signal is obtained, and the output level of the level adjusting devices 6 ₁ and 6 ₂ becomes constant according to the attenuation amount, that is, the signal level of the FM video signal input to the main line control device 3 is not different. Then, the amplification factor is adjusted by changing the resistance values of the variable resistors VR1 and VR2. For example, the amplification degree adjustment circuit 65 is configured by a microcomputer, and the amplification degree is adjusted with reference to a look-up table that stores correspondence relationships between DC resistance, line length, attenuation, and resistance values of the variable resistors VR1 and VR2. That's fine. At this time, a predetermined target value is predetermined for the video output value of the amplifier 61b and stored in the look-up table, for example, and is variable from the input stage of the coupling transformer 61a through the resistance detection circuit 64 and the amplification degree adjustment circuit 65. By adjusting the value of the resistor VR2, feedforward control is performed toward the predetermined target value.

As described above, according to the present embodiment, the level adjustment in the level adjusting devices 6 ₁ and 6 ₂ can be performed without the operator manually changing the resistance values of the variable resistors VR1 and VR2 as in the _first and _second embodiments. However, there is an advantage that the construction work of the installer can be simplified.

(Embodiment 4)
The configuration of the present embodiment is shown in FIG. However, since the basic configuration of the present embodiment is substantially the same as the configuration of the first embodiment shown in FIG. 3, the same reference numerals are given to the common components and the description thereof is omitted.

In this embodiment, the video signal level detection circuit 66 detects the signal level of the FM video signal input to the attenuator 63, and the output level becomes constant according to the signal level detected by the video signal level detection circuit 66. A characteristic is that the level adjustment devices 6 ₁ and 6 ₂ include an attenuation adjustment circuit 67 that adjusts the attenuation of the attenuator 63.

The video signal level detection circuit 66 detects the signal level of the FM video signal output from the main line control device 3 via the video line Lb ₁ or Lb ₂ . The attenuation adjustment circuit 67 makes the output level constant according to the signal level detected by the video signal level detection circuit 66, that is, eliminates the difference in the signal level of the FM video signal output from the trunk control device 3. Further, the attenuation value of the attenuator 63 is adjusted by increasing / decreasing the resistance values of the plurality of variable resistors VR3a,. For example, the attenuation adjustment circuit 67 is configured by a microcomputer, and the attenuation may be adjusted with reference to a look-up table that stores the correspondence between the signal level of the FM video signal and the resistance values of the variable resistors VR3a,. .

As described above, according to the present embodiment, the level adjustment in the level adjusting devices 6 ₁ and 6 ₂ can be performed without the operator manually changing the resistance values of the variable resistors VR1 and VR2 as in the _first and _second embodiments. However, there is an advantage that the construction work of the installer can be simplified. At this time, a predetermined target value is predetermined for the video output value of the attenuator 63 and stored in, for example, the look-up table, and the video signal level detection circuit 66 and the attenuation amount adjustment circuit 67 are output from the subsequent output of the coupling transformer 61a. Then, feedforward control toward the predetermined target value is performed by adjusting six resistance values of the variable resistors VR3a, VR3b, VR4a, VR4b, VR5a, and VR5b in the attenuator 63.

Incidentally, in the present embodiment is provided with the level adjusting units ₆₁ and 62 ₂ on the output side of the main line control device 3, the level adjustment device to the input side of the main line control device 3 as shown in FIG. 7 6 _1, 6 ₂ Even if it provides, the same effect can be produced. At that time, the level adjustment device 6 may be provided only for one video line Lb ₂ having a relatively high signal level to adjust the level.

(Embodiment 5)
The configuration of the present embodiment is shown in FIG. However, since the basic configuration of the present embodiment is almost the same as the configuration of the first embodiment shown in FIG. 1, the same components are denoted by the same reference numerals and description thereof is omitted.

The present embodiment is characterized in that the level adjustment devices 6 ₁ and 6 ₂ are provided with limiter amplifiers 68 that make the output signal level constant regardless of the input signal level.

The limiter amplifier 68 is a differential amplifier and reproduces an input signal into a rectangular wave. Therefore, the FM video signal input to the level adjusting devices 6 ₁ and 6 ₂ is always level-adjusted to a rectangular wave having a constant signal level and output from the level adjusting devices 6 ₁ and 6 ₂ regardless of the signal level. Therefore, the level adjustment in the level adjusting devices 6 ₁ and 6 ₂ can be automatically performed without manual intervention, so that the construction work of the installer can be simplified, and the resistance detection circuit 64 and the amplification as in the third and fourth embodiments. Since the degree adjustment circuit 65 or the video signal level detection circuit 66 and the attenuation amount adjustment circuit 67 need not be provided, there is an advantage that the circuit configuration of the level adjustment devices 6 ₁ and 6 ₂ is simplified.

Although this embodiment is provided with the level adjusting units ₆₁ and 62 ₂ on the output side of the main line control device 3, the level adjustment device to the input side of the main line control device 3 as shown in FIG. 9 6 _1, 6 ₂ Even if it provides, the same effect can be produced.

In the first to fifth embodiments described above, control signals, audio signals, and video signals are transmitted via individual lines (control line, call line La, video line Lb). It is also possible to share the signal line and video line using the same pair line by frequency division multiplexing of the signal. In this case, means for frequency-division multiplexing the audio signal and the video signal is provided in the trunk line control device 3 and the level adjusting devices 6 ₁ and 6 ₂ , and the frequency-division multiplexed audio signal and the video signal are respectively transmitted to the frequency of each signal. Means for separating the bands (for example, bandpass filters having a passband in the frequency band of the video signal) are provided in each dwelling unit 2 and the level adjusting devices 6 ₁ and 6 ₂ . However, the combination for frequency division multiplexing is not limited to this, and the control signal and the audio signal or the video signal or the control signal, the audio signal and the video signal are all frequency division multiplexed and the same pair line is used. You may make it transmit. At that time, the lobby intercom 1, the main line control device 3, the dwelling unit 2, and the level adjustment devices 6 ₁ and 6 ₂ each have means for frequency-division-multiplexing two or three signals, and frequency-division-multiplexed signals respectively. Needless to say, means for separating the frequency bands is provided as appropriate. Thus, there is an advantage that wiring can be saved by sharing a pair line with two or three signals.

It is a block diagram which shows Embodiment 1 of this invention. It is another block diagram same as the above. It is a circuit block diagram which shows another structure of the level adjustment apparatus same as the above. It is a block diagram which shows Embodiment 2 of this invention. It is a block diagram which shows Embodiment 3 of this invention. It is another block diagram same as the above. It is a block diagram which shows Embodiment 4 of this invention. It is a block diagram which shows Embodiment 5 of this invention. It is another block diagram same as the above.

Explanation of symbols

1 ₁ , 1 ₂ lobby intercom (common equipment)
2 Dwelling unit 3 Trunk line control device 6 ₁ , 6 ₂ level adjustment device L1 Trunk line L2 Dwelling unit separate line La ₁ , La ₂ call line Lb ₁ , Lb ₂ video line

Claims (6)

The multiple shared unit devices installed at the common entrance of the apartment house and capable of voice input and output, and the multiple shared unit devices installed at each dwelling unit of the apartment house are connected to each other via a transmission line. When a visitor selects the selection means of the shared unit, a plurality of dwelling units that establish a communication path with the shared unit and a plurality of dwelling units are branched and connected, respectively. And a main line control device to be inserted into a plurality of main lines to which a plurality of shared unit devices are respectively connected,
The common unit device includes a calling unit that makes a call with the dwelling unit via the communication path, a camera that images a visitor, and a voice that the calling unit outputs a video signal that transmits an image captured by the camera. Frequency modulation means for frequency modulation at a higher frequency than the signal,
The dwelling unit includes a calling unit that performs a call with the shared unit via the communication path, a demodulating unit that demodulates the video signal that has been frequency-modulated, and a display unit that displays an image using the demodulated video signal. And
The transmission line includes a plurality of trunk lines and a separate line for each unit branching from the trunk line of each line to each dwelling unit. A control line for transmitting a control signal for instructing a start, a speech line for transmitting an audio signal, and a video cable for transmitting a frequency-modulated video signal are composed of a transmission cable housed in the same sheath,
The main line control device includes an amplifying unit that amplifies the frequency-modulated video signal transmitted from each shared unit device via the video line with a constant amplification degree,
The frequency-modulated video signal before being amplified by the amplifying means or the frequency-modulated video signal after being amplified by the amplifying means, between the frequency-modulated video signals output by a plurality of shared unit devices A plurality of level adjusting devices are provided to adjust the level so that the level difference is smaller than the far-end crosstalk amount of the transmission cable . These multiple level adjusting devices are connected to the common unit device and the main line control in the video line of each main line. An intercom system for collective housing, characterized in that it is provided either between the devices or between the main line control device and the dwelling unit for each main video line .   At least two of the control line, speech line, and video line are shared by the same line, and the signal transmitted through the shared line of control signal, audio signal, and video signal is frequency-divided A means for multiplexing and a means for separating each frequency-division multiplexed signal for each frequency band of the signals are provided as appropriate in the shared device, dwelling unit, and main line control device, and the video signal is a control signal or audio signal. The above-mentioned means for frequency-division multiplexing video signals and other signals when frequency-division-multiplexed with at least one of the video signals and frequency-division multiplexed video signals and other signals for each frequency band 2. The intercom system for an apartment house according to claim 1, wherein the level adjusting device is provided with the means for separating the two. The main line control device includes a distribution unit that distributes the frequency-modulated video signal amplified by the amplification unit to a plurality of main lines,
The intercom system for an apartment house according to claim 1 or 2, wherein the plurality of level adjusting devices adjust the level of the frequency-modulated video signal before being amplified by the amplification means.   The plurality of level adjusting devices adjust the level of the frequency-modulated video signal before being amplified by the amplifying unit, and are connected to the level adjusting amplifying unit whose amplification degree is variable and the common unit device Detecting means for detecting the direct current resistance of the video line, and amplification adjusting means for adjusting the amplification degree of the level adjusting amplification means so that the output level is constant according to the direct current resistance detected by the resistance detecting means The intercom system for collective housing according to any one of claims 1 to 3, characterized by comprising:   The plurality of level adjusting devices include a level adjusting attenuating means whose attenuation is variable, a video signal level detecting means for detecting the level of a frequency-modulated video signal input to the level adjusting attenuating means, and a video signal level. 4. An attenuation amount adjusting means for adjusting the attenuation amount of the level adjusting attenuation means so that the output level becomes constant according to the level detected by the detecting means. The intercom system for collective housing as described in item 1.   The multi-unit level adjusting device includes a limiter amplifying unit that makes a signal level of an output constant regardless of an input signal level. Intercom system.

Images