JP3312776B2 - Remote monitoring and control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a central control unit, a plurality of monitoring terminals for monitoring the operation state of switches, and a control terminal for controlling the operation of a load connected by a two-wire transmission line. A remote monitoring and control system that performs time-division multiplexed signal transmission between the central control device and each terminal via a signal line and controls the operation of the load based on a switch operation. It is about what you have.

[0002]

2. Description of the Related Art In this remote monitoring and control system, a central control unit, a plurality of monitoring terminals for monitoring the operation state of a switch, and a control terminal for controlling a load are paired (two wires).
, And signal transmission is performed by time division multiplexing between the central control unit and each terminal via the signal line, and the central control unit remotely controls the load operation based on the switch operation. Then, the operation state of the load is monitored by a central controller. Here, a unique address is set for each terminal, and each terminal is specified by a unique address in a transmission signal so that each terminal can be individually accessed.

As shown in FIG. 9, a transmission signal V _S transmitted from the central control unit to a signal line includes a start pulse ST indicating the start of transmission, mode data MD indicating a signal mode, and an address (8) of a terminal to be accessed. Bit), control data CD indicating control contents, checksum data CS, and a reply period WT provided for returning a reply signal from the terminal. The transmission signal V _S is pulse width modulated. And time-division multiplexed transmission with the multipole (± 24V) signal.

In each terminal, basically, when the address data of the transmission signal V _S received via the signal line and its own unique address data match, the transmission signal V _S
And the monitoring data is returned to the central control unit as a current mode return signal by making the signal lines substantially short-circuited in synchronization with the return period WT of the transmission signal V _S.

However, for example, when a switch is operated, the following interrupt processing is performed so that the operation of the corresponding load can be immediately controlled. Now, assuming that a switch corresponding to any one of the monitoring terminals is operated, the monitoring terminal synchronizes with the start pulse ST of the transmission signal transmitted from the central control device, and generates an interrupt shown in FIG. A signal Vi is returned to the central control unit. The central control device that has received the interrupt signal Vi specifies the interrupt occurrence monitoring terminal, accesses the monitoring terminal, and returns monitoring data. And creating control data to be transmitted to a control monitoring terminal that controls a corresponding load based on the returned monitoring data,
Sends control data to the corresponding control monitoring terminal. In this way, urgent processing can be performed quickly.

[0006]

In a conventional remote monitoring and control system of this type, in which the load is a lighting fixture, the load is turned on and off (lighting on / off control).
There was something that did, but there was nothing that controlled the lighting fixtures dimming. The present invention has been made in view of the above points, and an object of the present invention is to provide a remote monitoring control system capable of performing dimming lighting control of a lighting fixture.

[0007]

According to the first aspect of the present invention, in order to achieve the above object, a lighting fixture capable of dimming and lighting is provided as a load, and an up switch for continuously increasing the light output level of the lighting fixture. And a down switch for continuously lowering the light output level, a monitoring terminal for continuous light control for monitoring the operation state of each switch, and operation of each switch connected to a plurality of lighting fixtures and light control signal lines. And a control terminal for continuous dimming control that outputs a dimming signal via the dimming signal line based on control data provided from the central control device in accordance with the dimming signal. a pulse signal indicative of the level to obtain given the luminaire
The housing of the control terminal for continuous dimming control is large.
The size is set to the size for three of the distribution board agreement dimensions,
One end of the jing has a power input terminal and a signal terminal
The other end is provided with a terminal for the output terminal,
On the side, an address setting signal input means is provided.

According to a second aspect of the present invention, in order to achieve the above-mentioned object, a plurality of dimming switches which include a lighting device capable of dimming and lighting as a load and switch the light output level of the lighting device to a plurality of desired states. A step-dimming monitoring terminal for monitoring the operation state of each switch; and a plurality of lighting fixtures connected to the dimming signal line based on control data given from the central control device in accordance with the operation of each switch. Te and a control terminal of the stepped dimming control for outputting the dimming signals through the dimming signal line, a pulse signal indicating the dimming level at a duty ratio as the dimming signal so as to obtain given the luminaire , Above
The size of the control terminal housing for dimming control
One end of the housing, formed to the size of three of the contract dimensions
Output terminals for power input terminals and signal terminals, and output to the other end
A terminal part for terminals is provided, and an address is
Is provided.

Further, as shown in the third aspect of the present invention, the configurations of the first and second aspects of the present invention may be integrally provided. According to a fourth aspect of the present invention, in addition to the configuration of the first to third aspects, a control terminal for turning on and off the same lighting device as the control terminal for dimming control is separately provided. You may.

According to a second aspect of the present invention, as described in the fifth aspect, a variable resistor for adjusting the step dimming level of the lighting fixture to a desired state is provided for the step dimming control.
It is preferable to provide the control terminal device of (1), since the stage dimming level can be set to an arbitrary state. Further, in order to prevent an electric shock from touching the light control signal line at the time of replacing the lighting equipment, an on / off control for turning on / off the light control is provided. An off switch is provided, the duty ratio of the dimming signal output from the control terminal via the dimming signal line is 0% when the dimming control is off, and the dimming control is performed before the dimming control is turned off when the dimming control is on. You may make it return to the original dimming state.

In the case where the dimming signal is output by controlling the application state of the power supply voltage to the dimming signal line, when the short-circuit state of the power supply is avoided, the lighting equipment is turned on all the way. In this case, the duty ratio of the dimming signal is made larger than 0%, and the dimming signal line is provided with short-circuit detecting means for detecting a short-circuit state of the dimming signal line because the dimming signal line does not change to a high level state. What is necessary is just to stop the application state of the power supply voltage to the signal line.

[0012]

According to the first aspect of the present invention, as described above, a dimming signal is supplied to a lighting fixture via a dimming signal line in accordance with an operation of an up switch and a down switch, thereby continuously adjusting the lighting fixture. Enables light control . further,
Install the control terminal for continuous dimming control in the switchboard
Etc. can be attached in the same way as other internal units.
Terminals for input terminals and signal terminals, and the other end for output terminals
Terminals are provided, so when installing multiple units on a distribution board,
By arranging them in the same direction, wiring inside the panel becomes easier,
Since the setting signal input means is also provided on the front side,
Address setting can be performed easily even when the device is attached. According to the second aspect of the present invention, a dimming signal is given to the lighting fixture via the dimming signal line in response to the operation of the step dimming switch, and the lighting fixture is stepwise dimmed. Is possible . Furthermore, a control terminal for the above-mentioned dimming control is separated.
It can be installed in the panel like a breaker or other internal unit.
One end has a power input terminal and a signal terminal
Terminals for output terminals are provided at the ends, so
By arranging in the same direction when several units are installed side by side, wiring inside the panel
It becomes easy, and the setting signal input means is provided on the front side.
Address setting is easy even when mounted on the panel
Can be done.

According to the third aspect of the present invention, both the continuous dimming control and the step dimming control of the lighting fixture can be performed by integrally providing the configurations of the first and second aspects as described above.
According to the fourth aspect of the present invention, a control terminal for turning on and off the same lighting device as the control terminal for dimming control is separately provided, and in addition to dimming control, turning on and off (lighting,
(Lights off) It is possible to perform control individually.

According to the fifth aspect of the present invention, the variable resistors for adjusting the step dimming levels of the lighting fixture to desired states are respectively provided by the step dimming.
Provided in a control terminal for control, it is possible to set the stage dimming level to an arbitrary state. According to the sixth aspect of the present invention, the ON / OFF operation of turning on / off the dimming control is performed. An off switch is provided, and when the dimming control is turned off, the duty ratio of the dimming signal output from the control terminal via the dimming signal line is set to 0%, so that the on. When the dimming control is turned off by the off switch, the voltage is not applied to the dimming signal line, and it is possible to prevent the electric shock from touching the dimming signal line when replacing the lighting equipment.

According to the seventh aspect of the present invention, the duty ratio of the dimming signal when the lighting apparatus is fully lit is made larger than 0%, and the dimming signal line does not change to the high level state. Providing short-circuit detection means for detecting a short-circuit state,
By stopping the application state of the power supply voltage to the dimming signal line when the short circuit is detected, it is possible to avoid the power supply short-circuit state when outputting the dimming signal by controlling the application state of the power supply voltage to the dimming signal line. .

[0016]

FIG. 1 shows a system configuration of a remote monitoring control system according to an embodiment of the present invention. The remote monitoring and control system of this embodiment is basically the same as the conventional one, and has a central control unit (hereinafter, referred to as a transmission unit) 1 and a plurality of monitoring terminals for monitoring the operation state of the switch (this embodiment). The switch and the monitoring terminal are integrated.) 2 and a control terminal 3 for controlling the operation of the load 4 are connected by a two-wire signal line 5, and the transmission unit 1 and each terminal 2 are connected. , 3 through a signal line 5 in a time-division multiplexed manner, remotely controlling the operation of the load 4 based on a switch operation, and centrally monitoring the operation state of the load 4 with the transmission unit 1. I do.

In the present invention, the load 4 is an inverter-type lighting device capable of dimming control. Therefore, the load 4 is referred to as a lighting device in the following description. Note that a system including a load other than the lighting fixture 4 may be used. The control terminal 3 includes a control terminal 3a that performs on / off control of the lighting apparatus 4 and a control terminal 3b that performs dimming control of the lighting apparatus 4.

The control terminal 3a incorporates a plurality of relays integrally, and each lighting fixture 4 is turned on and off by a relay contact.
The power supply to the lighting device 4 is controlled, and the on / off control of the lighting fixture 4 can be individually performed. The relay contacts of a plurality of relays are turned on and off at the same time, and a plurality of lighting fixtures 4 connected to the control terminal 3a are turned on and off collectively.
It can also be turned off.

The control terminal 3b is connected to each lighting fixture 4 via a signal line 5 and another two-wire signal line 6, and provides a dimming signal to the lighting fixture 4 via the signal line 6. There are two types of control terminals 3b, one that continuously controls the dimming of the luminaire 4 and one that can control the dimming stepwise to a desired dimming level. Therefore, in the following description, with referred to the former and continuous dimming terminal unit 3b _1, stage dimming terminal unit the latter 3
b _2, and collectively the dimming terminal 3 b.
The signal line 5 is called a transmission line, and the signal line 6 is called a dimming signal line.

The dimming terminal 3b receives, from the transformer unit 7, a power source (24V AC) obtained by stepping down a commercial power source (100V AC / 200V AC) with a built-in transformer, and operates the built-in dimming signal output unit with the power source. ing. The dimming terminal 3b is arranged in the distribution board 8 together with the transmission unit 1 and the transformer unit 7. Therefore,
The external shape of the dimming terminal 3b is formed to have a common size of the distribution board, and can be housed in the distribution board 8 together with a breaker or the like.

In the remote monitoring control system of this embodiment, a plurality of types of monitoring terminals 2 are provided. The types of the monitoring terminals 2 are a continuous dimming switch terminal 2a for continuously dimming the lighting fixture 4, a step dimming switch terminal 2b for stepwise dimming control, and individually turning on and off the lighting fixture 4. There is an individual control switch terminal 2c for performing pattern control, a pattern control switch terminal 2d for performing pattern control of the lighting fixture 4, and a group control switch terminal 2e for performing group control.

The continuous dimming switch terminal 2a includes an up switch 21 for continuously increasing the dimming level, a down switch 22 for continuously decreasing the dimming level, and a voltage applied to the dimming signal line 6 when the lighting equipment 4 is replaced. An on / off switch 23 for turning on / off the dimming control so as not to be applied;
Continuous dimming terminal 3 according to the operation of each switch 21 to 23
and performs connection dimming lighting control of the lighting device 4 in b _1.

The stage dimmer switch terminal unit 2b is provided with three stages (Level 1 (L1) ~ Level 3 (L3)) stage dimmer switch 24 _{1-24 3} for each switching of the case of Figure 1, the illuminator ON / OFF for turning ON / OFF the dimming control so that no voltage is applied to the dimming signal line 6 when the appliance 4 is replaced.
F) a switch 25, the switch 24 21 _to
4 _3, and performs dimming lighting control of the lighting apparatus 4 connected to the stage dimming terminal unit 3b ₂ in accordance with the 25 operation.

The individual control switch terminal 2c is provided with an individual control switch 26 for individually turning on and off each lighting fixture 4, and one individual control switch terminal 2c has a plurality (in the case of this embodiment, Are provided with four individual control switches 26. Individual control switch terminal 2c
Supplies the monitoring data according to the operation of each individual control switch 26 to the transmission unit 1, and turns on and off by the control terminal 3 a to which the lighting fixture 4 corresponding to the individual control switch 26 is connected via the transmission unit 1 ( (ON, OFF) control is performed.

The pattern control switch terminal 2d is provided with a plurality (six in the present embodiment) of pattern control selection switches 27, and selects an arbitrary pattern control by selecting this switch 27. The pattern control is a control for turning on and off a plurality of lighting fixtures 4 in a combination according to a user's request. The pattern control switch terminal 2 d responds to the pattern control selected by the pattern control selection switch 27. The transmitted monitoring data is given to the transmission unit 1, and the transmission unit 1 determines a predetermined control terminal 3a based on a pattern control table indicating which lighting fixture 4 is to be turned on and off by the pattern control. , Control data for turning on and off the lighting equipment 4.

The group control switch terminal 2e is provided with a plurality (six in the present embodiment) of group control selection switches 28, and selects an arbitrary group control by selecting the switch 28. The group control is a control for turning on and off a plurality of lighting devices 4 collectively, and the group control switch terminal 2e transmits monitoring data according to the group control selected by the group control selection switch 28 to the transmission unit. 1, the transmission unit 1 sends the lighting equipment 4 to a predetermined control terminal 3a on the basis of a pattern control table indicating which lighting equipment 4 is to be controlled by the group control and which lighting equipments 4 are turned on and off collectively. 4
Control data for turning on and off.

Although not described in detail, since the transmission unit 1 is constituted by a microcomputer, the pattern control table and the group control table are stored in a memory as a component of the microcomputer in advance. These individual control, pattern control and group control are well-known controls in a conventional remote monitoring control system of this kind.

In this remote monitoring and control system, a timer 9 for setting the time for turning on and off the lighting apparatus 4 and an external input terminal 11 for receiving an input from a sensor 10 for detecting a human body are provided. The lighting equipment 4 is automatically turned on without operating the switches 21 to 28 of the terminal device 2.
Lighting control can be performed. The external input terminal 11 is housed in the distribution board 8 together with the dimming terminal 3b.

Further, in addition to the system configuration shown in FIG. 1, the configuration shown in FIG. 2 may be adopted. A feature of the system of FIG. 2 is that a relay (20A) 1 for controlling the supply of power to the lighting equipment 4 instead of the control terminal 3a having a built-in relay.
2, and a control terminal 3a ₁ which function includes only taken as the original control terminal 3a for controlling the operation of the relay 12 is provided separately, there driving power source of the relay 12 be supplied from the transformer unit 7 . This system is suitable for expanding the system scale by increasing the number of lighting fixtures 4. As the number of lighting fixtures 4 increases, the number of switches 26 to 28 provided in the individual control switch terminal 2c, the pattern control switch terminal 2d, and the group control switch terminal 2e also increases, The basic functions are the same as those of the system of FIG.

Hereinafter, the dimming terminal 3 which is a feature of this embodiment will be described.
b will be described. First, the continuous dimming terminal 3b₁Nitsu
This will be described with reference to FIG. This continuous dimming terminal 3b₁
Then, the control terminal 3a of this kind of remote monitoring control system
And a transmission processing unit similar to the basic configuration of (1). This transmission
The processing unit receives a transmission signal transmitted via the transmission line 5.
Diode bridge DB₁And this diode bridge
Ledge DB₁Receiving a transmission signal input via the
Circuit 31 and signal processing according to the reception output of reception circuit 31
A signal processing circuit 32 composed of a CPU for performing
A reply circuit 33 for replying to the knit 1;
Optical wireless signal (IR
Line), a wireless receiving circuit 34 for receiving
Transmission circuit 3 for transmitting an optical wireless signal to the setting device
5 and the address sent from the wireless setting device are stored.
An address storage circuit 36 composed of an EEPROM
Circuit 3 for generating a clock signal for signal processing circuit 32
7 and receiving the signal from the wireless setting device
And a display circuit 38 for displaying ₁
A constant voltage circuit 39 for generating a power supply for the transmission processing unit from the output
It consists of

[0031] the continuous dimming terminal unit 3b ₁ transmission line 5 is connected to the signal terminal N _1, N _2, the signal terminal N _1,
By connecting the diode bridge DB ₁ between N _2, it is a connectable nonpolar transmission line 5. And
To obtain the power of the transmission processing unit the output of the diode bridge DB ₁ to a constant voltage by using the constant-voltage circuit 31. That is, the terminals 2 and 3 of this type of remote monitoring and control system basically operate by receiving power from a transmission signal.

The transmission signal transmitted from the transmission unit 1 via the diode bridge DB ₁
And is given to the signal processing circuit 33. The signal processing circuit 33 determines whether or not the address data of the received transmission signal matches the unique address stored in the address storage unit 36. Only when the address data matches, the control data is taken in to the lighting fixture. 4 is performed. Then, control results and the like are returned to the transmission unit 1 as monitoring data during the reply period set in the transmission signal.
The above operation is similar to the operation of the ordinary control terminal 3a.

In the transmission processing section, the address can be set using a wireless setting device. That is, when transmitting a setting signal for setting the address using the wireless setting device in continuous dimming terminal unit 3b _1, the wireless signal from the address setting unit is received by the wireless receiver circuit 34, based on the received output The signal processing circuit 32 writes data corresponding to the address into the address storage unit 36. Note that the address can be changed in the same manner. Here, the wireless transmission circuit 35
Is provided for normally receiving address data from the address setting device, and is also used, for example, when returning the currently set address to the wireless setting device when confirming the address.

[0034] The continuous dimming terminal unit 3b ₁ is provided in addition to the dimming signal output part of the transmission processing unit. The dimming signal output unit operates with a power supplied from the power supply circuit 40. The power supply circuit 40 includes a step-down transformer T ₁ , a diode bridge DB _2, and a constant voltage circuit 40 a using a so-called three-terminal regulator. The power supply (24 VAC) supplied from the transformer unit 7 is stepped down by the step-down transformer T ₁ . and rectifies the buck output by the diode bridge DB _2, have created a supply of constant voltage to the dimming signal output unit further at a constant voltage circuit 40a.

The dimming signal output unit outputs a dimming signal supplied from an output terminal (pin 19 output) of the signal processing circuit 32.
It is given to the lighting equipment 4 via the dimming signal line 6 connected to the output terminals S ₁ and S ₂ . Here, the dimming signal is output as a pulse signal (or a rectangular wave signal) having two values of high and low, and indicates the dimming level by the duty ratio of the pulse signal. In the case of this embodiment, when the duty ratio is small, the lighting fixture 4 has a small dimming level (large light output), and as the duty ratio increases, the lighting fixture 4
Has a large dimming level (light output is narrowed down).

A dimming signal corresponding to the output of the signal processing circuit 32
Output to the lighting equipment 4 via the light control signal line 6
41 is a transistor Q₁~ Q_ThreeAnd photo coupler PC
₁It consists of. In addition, the photo coupler PC₁Is dimming
The effect of the power supply short-circuit on the signal output section affects the signal processing section.
It is used to prevent spills. Now, signal processing
When the output of the path 32 is at a high level,
TA Q ₁Turns on and the photocoupler PC₁Light emitting diode
The photo diode emits light and the phototransistor turns on (however,
And the phototransistor is turned on as described later.
Has a transistor Q_FourIs turned on.
And transistor Q)_TwoTurns on
Thus, the power supply voltage of the power supply circuit 40 is applied to the dimming signal line 6.
It is. Then, the output of the signal processing circuit 32 goes low.
Then, the transistor Q₁Is off, photocoupler PC₁
Photo transistor is off, transistor Q_TwoIs off
As a result, the dimming signal line 6 is connected to the negative electrode of the power supply circuit 40.
Reduced to level.

The transistor Q ₃ is turned on and off contrary to the transistor Q _1, and the transistor Q ₁ is turned off and the light emitting diode of the photocoupler PC ₁ is turned off together with the resistor connected in series with the transistor Q _3. When in the state, the power from the constant voltage circuit 39 is consumed by the resistor,
It is different duty cycle of the output of the signal processing circuit 32, as the difference in power consumption is not out of when the transistor Q ₁ is is emitting light on to photo-coupler PC ₁ of the light-emitting diode, the constant voltage circuit 39 Is provided in order to reduce the fluctuation of the output voltage.

Further, the dimming signal output section detects that the dimming signal line 6 is short-circuited,
There when shorted, is provided with a short-circuit protection circuit 42 to prevent the output of the power supply circuit 40 to the transistor Q ₂ as an off are short-circuited. The short-circuit protection circuit 42 includes three comparators CP ₁ ~ CP _3, transistor Q _4, the Zener diode ZD _1, diode D _1, a light emitting diode LED _3, capacitor C _1, are constituted by a resistor R ₁ to R _5.

Comparator CP₁Is a Zener diode
ZD₁The Zener voltage of the resistor R_Four, R _FiveThe voltage divided by
It operates as a reference voltage, and the reference voltage and the capacitor C₁
Is compared with the voltage between both ends. Where conden
Sa C₁Is usually the output terminal S ₁, S_TwoConnected at both ends
Resistance R_TwoAnd the output terminal S_TwoAnd the negative electrode of the power supply circuit 40
Resistor R connected between₁And the transistor Q_TwoThrough
The voltage obtained by dividing the output voltage of the power supply circuit 40 applied
Charged / discharged and charged by diode D₁Done through and release
Electricity is resistance R_ThreeDone through.

When the dimming signal line 6 is not short-circuited and is normal, the divided voltages of the resistors R ₁ and R ₂ are low, and the voltage across the capacitor C ₁ is set to be lower than the reference voltage. For example, the largest state the dimming level is high duty, the duty ratio in this case was 100%, the transistor Q ₂ is turned on at all times. In this case also, the voltage across the capacitor C ₁ is are as does not exceed the reference voltage.

[0041] Thus, the output of the comparator CP ₁ during normal is at a high level, the comparator CP _2, CP ₃ as a reference voltage a Zener voltage of the Zener diode ZD ₁
Are pulled up by a resistor connected to the output of the power supply circuit 40, so that the comparison input becomes the output voltage of the power supply circuit 40, and their outputs also become high level. Thus, the transistor Q ₄ are biased to an ON ready during on of the phototransistor of the photocoupler PC _1. In addition, light emitting diode LED for short circuit indication
₃ is off.

Next, when the dimming signal line 6 is short-circuited, both ends of the resistor R ₂ are short-circuited, and the transistor Q ₂
Is turned on, the output voltage of the power supply circuit 40 is applied via the transistor Q ₂ and the diode D ₁ . For this reason,
Voltage across the capacitor C ₁ is increased to approximately the output voltage of the power supply circuit 40. Therefore, exceeds the reference voltage is the voltage across the capacitor C ₁ at the time of short circuit, the output of the comparator CP ₁ becomes low level. At this time, the comparators CP ₂ ,
Both outputs of CP ₃ become low level, and the transistor Q
₄ to a state in which a bias is not applied, therefore the phototransistor of the photocoupler PC ₁ is not turned on, the state of the transistor Q ₂ is also not turned on. At the same time, the light emitting diode LED ₃ is turned on to indicate that the light control signal line 6 is in a short circuit state.

[0043] Here, the transistor Q ₂ is in a state that does not turn on, the duty ratio of the dimming signal is 0% state. Even if a short circuit occurs in the dimming signal line 6 when the duty ratio of the dimming signal is 0%, the short-circuit protection circuit 42 can distinguish between the short-circuit state and the state where the duty ratio of the dimming signal is 0%. Absent. Therefore, in the case of the embodiment, in the case of full lighting luminaire 4 is also not the 0% duty ratio, so as to turn on the slightly transistor Q ₂ (e.g., the minimum duty ratio 5% ), And the short circuit protection circuit 42 can identify a short circuit.

As described above, the transistor Q_TwoIs off
After that state is maintained, the capacitor C₁Is
Anti-R_ThreeIs discharged through. And the capacitor C₁When
Resistance R_ThreeAfter the discharge time determined by
P₁Returns to the high level, and the transistor Q_FourBut
LED is restored to a state in which_ThreeAlso goes out
I do. However, if the short-circuit state is maintained at this time,
Is a photo coupler PC ₁Turn on the phototransistor
From the transistor Q_TwoIs turned on, the capacitor
C₁Is charged up to the output voltage of the power supply circuit 40, and
The same signal is output as when the duty ratio of the dimming signal is 0%.
Is forced. That is, if the light control signal line 6 is in a short-circuit state,
The output of the dimming signal is continuously stopped.

When the short-circuit protection circuit 42 is configured as described above, when the short-circuit state of the dimming signal line 6 is eliminated, the short-circuit protection circuit 42 automatically returns to the normal state. Also, when the short-circuit protection circuit 42 operates, since the light control signal having a duty of 0% is supplied to the lighting equipment 4 as described above, the lighting equipment 4 is fully lit. Therefore, only not applied continuously dimming terminal unit 3b ₁ dimming control, lighting fixture 4 can be maintained in the lighted state. In addition,
At this time, light emitting diode LED ₃ depending substantially discharge time constant of the capacitor C ₁ intermittently turned on, but off, as in the visual looks continuous lighting state, the discharge time constant of the capacitor C ₁ is is set.

The operation of continuously dimming the lighting fixture 4 using the continuous dimming switch terminal 2a will be briefly described.
Here, the continuous dimming control is performed for luminaires 4 connected with each successive dimming terminal unit 3b ₁ DOO dimming signal line 6.
Now, when the up switch 21 of any of the continuous light control switch terminals 2a is pressed, monitoring data indicating that the operation of increasing the light output of the lighting fixture 4 is started is output from the continuous light control switch terminal 2a. given to the transmission unit 1, control data is applied to the continuous dimming terminal unit 3b ₁ (down as dimming level) for up the light output of the luminaire 4 from the transmission unit 1. The control data is received by the signal processing circuit 32 via the receiving circuit 31 and a pulse signal with a gradually reduced duty ratio is output from the output terminal, and the output circuit 41 operates via the dimming signal line 6 in the above-described operation. A light control signal is sent to the lighting fixture 4. The lighting fixture 4 detects the duty ratio of the dimming signal, increases the output power of the inverter circuit according to the duty ratio, and increases the light output of the lamp. This operation of increasing the light output is continued while the up switch 21 is pressed.

When the pressed state of the up switch 2 is released when a desired light output state of the lighting apparatus 4 is obtained, monitoring data indicating that the operation of increasing the light output of the lighting apparatus 4 is stopped at that time. There is given a continuous dimmer switch terminal unit 2a to the transmission unit 1, thereby controlling the data to stop the control for varying the transmission unit 1 dimming level is applied to the continuous dimming terminal unit 3b _1. At this time, the continuous dimming terminal unit 3b ₁ of the signal processing circuit 32, to fix the output at release duty ratio of the pressing operation of the up switch 21, thereby the light output state of the luminaire 4, that is, the dimming level In the desired state.

When the light output of the lighting apparatus 4 is reduced, the monitoring data for starting the operation of lowering the dimming level when the down switch 22 is depressed is continuously dimmed in the same manner as when the down switch 22 is pressed. The control data which is given from the switch terminal 2a to the transmission unit 1 and which lowers the dimming level from the transmission unit 1 is continuously dimmed terminal 3b.
Given _1, reducing the power supplied to the lamp in the luminaire 4 according to the dimming signal from the continuous dimming terminal unit 3b _1, bring down the light output of the lamp. When the down switch 22 is released from the pressed state, the lighting state of the lighting apparatus 4 can be changed to a desired dimming level.

When the on / off switch 23 is operated, monitoring data indicating that the output of the dimming signal is stopped is supplied from the continuous dimming switch terminal 2a to the transmission unit 1, and the transmission unit 1 outputs the dimming signal. control data for stopping the output is given to the continuous dimming terminal unit 3b _1. At this time, the signal processing circuit 32 sets the output duty ratio to 0%.
And Therefore, the transistor Q ₂ of the output circuit 41 is turned off, a state where no voltage is applied to the light control signal line 6.

Here, as described above, the output of the dimming signal is stopped, that is, the duty ratio of the dimming signal is set to 0% because the voltage is applied to the dimming signal line 6 when the lighting equipment 4 is replaced. This is done so that no electric shock is caused even if the light control signal line 6 is touched. In addition, lighting equipment 4
When the lighting device 4 is replaced, the lighting device 4 is turned off, that is, power is supplied to the lighting device 4 by operating the individual control switch 26 or the like corresponding to the lighting device 4 to be replaced, together with the operation of stopping the output of the dimming signal. Needless to say, it is not kept.

After the replacement of the luminaire 4, the on / off switch 23 is operated again. At this time, monitoring data indicating that the output stop state of the dimming signal is released is provided from the continuous dimming switch terminal 2a to the transmission unit 1,
Control data for releasing the output stop state of the transmission unit 1 dimming signal is applied to the continuous dimming terminal unit 3b _1. At this time, the signal processing circuit 32 outputs a pulse signal having a duty ratio before the output is stopped, and lights the lighting device 4 in the same dimming state as before the replacement.

By the way, the continuous dimming switch terminal 2
When the switches of all the monitoring terminals 2 including “a” are operated, using the interrupt processing described in the section of the related art,
Monitoring data is provided to the transmission unit 1 quickly. In the case of a remote monitoring and control system using this kind of lighting equipment 4 as a load, the control state can be determined by looking at the lighting state of the lighting equipment 4, so that the lighting state of the lighting equipment 4 is displayed on the monitoring terminal 2. There is no need to provide an indicator or the like. Therefore, since there is no controlling the monitoring terminal device 2 in the normal control mode, given the same address and the unique address set in the continuous dimming terminal unit 3b ₁ for continuous dimmer switch terminal unit 2a, continuous dimming terminal unit 3b ₁ corresponding the address data of the continuous dimming switch terminal unit 2a in the transmission unit 1 is adapted to be easily discriminated.

[0053] The appearance of a continuous dimming terminal unit 3b ₁ of the present embodiment shown in FIG. 4, showing the exploded perspective view in FIG. The continuous dimming housing 50 of the terminal unit 3b ₁ is composed of a box-shaped body 50a whose upper surface is open, and a cover 50b which is deposited on the upper surface of the body 50a. As described above, the housing 50 is formed to have a common size of a distribution board (three module sizes in this embodiment). A boss 50c protrudes from the bottom surface of the body 50a, and a fixing screw 50d is screwed through an insertion hole formed in the boss 50c.
And the cover 50b are integrally combined.

A printed circuit board 52 constituting the circuit described with reference to FIG. 3 is housed inside the housing 50. The upper surface of the cover 50b corresponding to the light emitting diode LED ₂ of the photodiode PD and a wireless transmission circuit 35 of the wireless receiver circuit 34 mounted on the printed circuit board 52 is provided with a transparent window 54 infrared transmission filter 54a is attached, A wireless signal can be transmitted to and received from a wireless setting device. Further, the light emitting diodes LED ₁ and the display window 55a to expose the light emitting diode LED ₃ for short-circuiting the display displays the received state of the wireless signal from the address setting unit of the display circuit 38, to form 55b on the upper surface of the cover 50b is there. The cover 50b
A nameplate 57 is attached to the center of the upper surface of the . In addition, this embodiment
Now, the light transmission with the infrared transmission filter 54a attached
The window 54 constitutes an address setting signal input means.
I have.

The signal terminals N ₁ and N ₂ are connected to one end of the cover 50b.
Further, a terminal 51a for a power input terminal is provided, and a terminal 51b for output terminals S ₁ and S ₂ is provided at the other end. Each of the terminals N ₁ , N ₂ , S ₁ , and S ₂ and the power input terminal (collectively referred to as terminals 58) includes an L-shaped terminal plate 58a and a terminal screw 58b with a washer. Here, the terminal 58 is directly connected to the printed board 52 by inserting a hanging piece into an insertion hole 59 formed in the printed board 52 and soldering. Next, a description will be given stage dimming terminal unit 3b _2. Construction stage dimming terminal unit 3b ₂ also, as shown in FIG. 6, is basically the same as the continuous dimming terminal unit 3b _1. It is a feature of this stage dimming terminal unit 3b ₂ sets the three-stage dimming level in response to the voltage applied to the input terminal of the signal processing circuit 32 (pin 5 from the third pin) At one point. When the voltage applied to the input terminal is set to the power supply voltage (the output voltage of the constant voltage circuit 39) as shown in FIG. 3, the state is set to the state without the step dimming, that is, the continuous dimming state. You.

[0056] Here, in the case of the step dimming terminal unit 3b ₂ of the present embodiment, each variable resistor VR ₁ ~V for setting the input voltage
R ₃ is provided so that the dimming level can be set arbitrarily in three stages. FIG. 7 shows a step dimming terminal 3 according to this embodiment.
shows the appearance of b _2, shows the exploded perspective view in FIG. In the case of the present embodiment, the operation knobs 60 of the variable resistors VR _{1 to} VR ₃ mounted on the printed board 52 are
It is exposed from the upper surface through the insertion hole 61 of b and can be adjusted from the outside.

The step dimming control by the operation of the step dimming switch terminal 2b will be described. A step dimmer switch terminal unit 2b, the switch 24 _{1-24 3} for selecting a dimming level corresponding to the setting of the variable resistor VR ₁ to VR ₃ individually (In the following description, the switch 24 ₁ and the variable resistor V
R ₁ , switch 24 ₂ and variable resistor VR ₂ , switch 24
₃ and the variable resistor VR ₃ provided with it is assumed that the corresponding), by either manipulating any switch 24 _{1-24 3,} it is possible to light the lighting fixture 4 dimming at any dimming state.

[0058] Now, when the switch 24 ₁ is operated, monitoring data at that time is given to the transmission unit 1, control data corresponding from the transmission unit 1 to the switch 24 ₁ is supplied to the stage dimming terminal unit 3b ₂ . Here and have set a unique address that is respectively corresponding to each dimming level stage dimming terminal unit 3b ₂ to stage dimming terminal unit 3b _2, to each of the dimming levels respectively corresponding unique address identical to the set the address to each switch 24 _{1-24 3,} it is to be able to select stage dimming state in response to the address data. That is, when the switch 24 ₁ is operated, the signal processing circuit 32 is a variable resistor VR from the address data of the transmission signal
₁ by determining that turns on stage dimming level regulates the luminaire 4 with light, to output the dimming signal having a duty ratio corresponding to the setting of the variable resistor VR ₁ via the output circuit 41.

The stage dimming switch terminal 2b is also provided with an on / off switch 25 for turning on / off dimming control. The unique address corresponding to the on / off state of dimming control is also provided in the stage dimming terminal. 3b ₂ , and the same address is set in the switch 25. Accordingly, there is to be able to perform on / off control of the dimming control from the address stage dimming terminal unit 3b ₂ in the transmission signal.

[0060]

According to the first aspect of the present invention, as described above, a lighting fixture capable of dimming and lighting is provided as a load, an up switch for continuously increasing the light output level of the lighting fixture, and a continuous light output level. A down switch for turning down the switch, a monitoring terminal for continuous light control for monitoring the operation state of each switch, and a plurality of lighting fixtures connected to the light control signal line and provided from the central control device in accordance with the operation of each switch. A control terminal device for continuous dimming control that outputs a dimming signal via the dimming signal line based on the control data obtained, and a pulse signal indicating a dimming level with a duty ratio as a dimming signal. to grant obtaining manner, the control terminal for the continuous dimming control
The size of the housing of the container is large enough for three
Power input terminal and signal
Terminal for the output terminal and the other end for the output terminal.
The signal input for setting the address is on the front side of the housing.
Since the stage is provided, a lighting control signal is supplied to the lighting fixture via the light control signal line in accordance with the operation of the up switch and the down switch, and the lighting fixture can be continuously controlled .
In addition, the control terminal for continuous dimming control is installed in the distribution board.
Can be installed like other internal units such as breakers.
Terminal for power input terminal and signal terminal at one end and output at the other end
Terminals for terminals are provided, so multiple units are installed on the distribution board
When arranging in the same direction, wiring inside the panel becomes easier.
In addition, the setting signal input means is provided on the front side.
Address can be set easily even when mounted on the panel
You.

According to a second aspect of the present invention, a lighting device capable of dimming and lighting is provided as a load, a plurality of step dimming switches for switching the light output level of the lighting device to a plurality of desired states, and an operation state of each switch. A monitoring terminal device for step dimming to be monitored, and a plurality of lighting fixtures connected to the dimming signal line via the dimming signal line based on control data given from the central control device in accordance with the operation of each switch. and a control terminal for control stage dimming outputs a dimming signal Te, the pulse signal indicating the dimming level with a duty ratio to obtain given the luminaire as dimming signal, for the stepped dimming control Control terminal
The size of the housing is the size for three of the distribution board agreement dimensions
Power supply input terminal, signal end
A terminal section for the output terminal is provided at the other end, and a terminal section for the output terminal is provided at the other end.
On the front side of the housing, a signal input means for address setting is provided.
Therefore , a lighting control signal can be given to the lighting equipment via the light control signal line in accordance with the operation of the step light control switch, and the lighting equipment can be stepwise light controlled . Furthermore, for the above-mentioned step dimming control
Install the control terminal inside the distribution board in the same way as a breaker or other internal unit.
One end for power input terminal and signal terminal
And the other end is provided with a terminal for the output terminal.
When installing multiple units on the distribution board, arrange them in the same direction
This makes wiring inside the panel easy, and also provides a signal input means for setting.
Is installed on the front side, so that it can be
Settings can be easily performed.

[0062] In the invention of claim 3, a central controller, a plurality of monitoring terminal unit each individually address of monitoring the operation state of the set switch, and a control terminal for controlling the operation of the load Remote monitoring control that connects with a two-wire transmission line, performs signal transmission by time division multiplexing between the central control unit and each terminal via the transmission line, and controls the operation of the load based on the switch operation In the system, a lighting device capable of dimming and lighting is provided as a load, and an up switch for continuously increasing the light output level of the lighting device, a down switch for continuously decreasing the light output level, and an operation state of each switch. A monitoring terminal for continuous dimming to be monitored, and a dimming signal based on control data which is connected to a plurality of lighting fixtures via dimming signal lines and is given from a central control unit in response to operation of each switch. Monitoring and control terminal of the continuous dimming control for outputting the dimming signals on line, and a plurality of stages dimmer switch for switching the light output level to a plurality of desired state of the luminaire, the operation states of the switches A monitoring terminal for step dimming and a control terminal for continuous dimming control are connected to a plurality of lighting fixtures and dimming signal lines, and a central control unit is operated according to the operation of each step dimming switch. And a control terminal for step dimming control that outputs a dimming signal via the dimming signal line based on control data provided from the control terminal. a pulse signal indicating the light level to obtain given the luminaire, each dimmer system
The size of the housing of the control terminal you are using
The size of the housing is three, and one end of the housing is
Terminal part for source input terminal and signal terminal, the other end for output terminal
Terminals are set and addresses are set on the front side of the housing.
Are those is provided a use signal input means, so that integrally includes the configuration of the invention 請 Motomeko 1 and claim 2, continuous dimming control and variable dimming control of the lighting fixture is made possible both .
In addition, a control terminal for each dimming control described above is installed in the distribution board.
Can be mounted like other internal units such as
Terminals for power input terminals and signal terminals, and output terminals at the other end.
Since multiple terminals are provided, multiple units can be installed on the distribution board.
When arranging in the same direction, wiring inside the panel becomes easy.
In addition, the setting signal input means is provided on the front side.
Address can be set easily even when mounted on the panel
You.

According to the invention of claim 4, the same lighting equipment as the control terminal for dimming control is turned on. Since a control terminal for turning off the lighting equipment is provided separately, in addition to dimming control, the lighting equipment is turned on and off. Off (lighting, extinguishing) control can be individually performed. According to the fifth aspect of the present invention, the variable resistors for adjusting the step dimming level of the lighting fixture to respective desired states are used for the step dimming control.
Is provided in the control terminal, so that the step dimming level can be set to an arbitrary state.

According to a sixth aspect of the present invention, there is provided an on / off switch for turning on / off the dimming control, and the dimming signal output from the control terminal via the dimming signal line when the dimming control is off. When the dimming control is turned off by the on / off switch, no voltage is applied to the dimming signal line, and when the lighting equipment is replaced, the dimming signal line is touched to cause an electric shock. Can be prevented.

According to the seventh aspect of the present invention, the duty ratio of the dimming signal when the lighting apparatus is fully lit is made larger than 0%, and the dimming signal line does not change to the high level state. Providing short-circuit detection means for detecting a short-circuit state,
Since the power supply voltage application state to the dimming signal line is stopped when a short circuit is detected, the power supply short-circuit state is avoided when the dimming signal is output by controlling the power supply voltage application state to the dimming signal line. Can be done .

[Brief description of the drawings]

FIG. 1 is a system diagram of an embodiment of the present invention.

FIG. 2 is a system diagram of another configuration.

FIG. 3 is a circuit diagram of a continuous dimming terminal.

FIG. 4 is a perspective view showing the appearance of the above.

FIG. 5 is an exploded perspective view of the same.

FIG. 6 is a circuit diagram of a step dimming terminal.

FIG. 7 is a perspective view showing the appearance of the above.

FIG. 8 is an exploded perspective view of the same.

FIG. 9 is an explanatory diagram of a transmission signal.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Transmission unit 2a Continuous dimming switch terminal 2b Step dimming switch terminal 3a Control terminal 3b ₁ Continuous dimming terminal 3b _Two- stage dimming terminal 4 Lighting equipment 21 Up switch 22 Down switch 24 ₁ -24 ₃ steps dimming switches 23 and 24 oN, oFF switch 42 short-circuit protection circuit VR ₁ to VR ₃ variable resistor

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-4-56587 (JP, A) JP-A-3-283386 (JP, A) JP-A-54-156360 (JP, A) JP-A-56- 23096 (JP, A) Hira 4-46397 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04Q 9/00 H05B 37/02

Claims (7)

(57) [Claims] 1. The central controller and the address of each are individually
A plurality of monitoring terminal unit that monitors the operation state of the set switch, and a control terminal for controlling the operation of the load connected in two-wire transmission line, between the central controller and each terminal unit Biography
In a remote monitoring control system that performs signal transmission by time division multiplexing via a transmission line and controls the operation of a load based on a switch operation, a lighting fixture capable of dimming and lighting is provided as a load, and the light output level of the lighting fixture is adjusted. An up switch that continuously increases, a down switch that continuously lowers the light output level, a monitoring terminal for continuous dimming that monitors the operation state of each switch, a plurality of lighting fixtures and a dimming signal line. A control terminal for continuous dimming control that outputs a dimming signal via the dimming signal line based on control data supplied from the central control device in accordance with the operation of each of the switches, a pulse signal indicating the dimming level at a duty ratio so as to obtain given the luminaire as a signal, the continuous
The size of the control terminal housing for dimming control
One end of the housing, formed to the size of three of the contract dimensions
Output terminals for power input terminals and signal terminals, and output to the other end
A terminal part for terminals is provided, and an address is
A remote monitoring control system characterized by comprising a setting signal input means . 2. The central controller and the address of each are individually
A plurality of monitoring terminal unit that monitors the operation state of the set switch, and a control terminal for controlling the operation of the load connected in two-wire transmission line, between the central controller and each terminal unit Biography
In a remote monitoring control system that performs signal transmission by time division multiplexing via a transmission line and controls the operation of a load based on a switch operation, a lighting fixture capable of dimming and lighting is provided as a load, and the light output level of the lighting fixture is adjusted. A plurality of stage dimming switches for switching to a plurality of desired states, a stage dimming monitoring terminal for monitoring the operation state of each switch, and operation of each switch connected to a plurality of lighting fixtures and dimming signal lines A dimming control terminal for outputting a dimming signal via the dimming signal line based on control data given from the central control device in accordance with the control signal. a pulse signal indicative of the level to obtain given the luminaire,
The size of the housing of the control terminal for the step dimming control
Formed in the size of three for distribution board agreement size, housing
At one end is a terminal for power input terminal and signal terminal, and at the other end
The terminal portions of the output terminals provided, the front side of the housings A
A remote monitoring control system comprising a dress setting signal input means . 3. The central controller and the address of each are individually
A plurality of monitoring terminal unit that monitors the operation state of the set switch, and a control terminal for controlling the operation of the load connected in two-wire transmission line, between the central controller and each terminal unit Biography
In a remote monitoring control system that performs signal transmission by time division multiplexing via a transmission line and controls the operation of a load based on a switch operation, a lighting fixture capable of dimming and lighting is provided as a load, and the light output level of the lighting fixture is adjusted. An up switch that continuously increases, a down switch that continuously lowers the light output level, a monitoring terminal for continuous dimming that monitors the operation state of each switch, a plurality of lighting fixtures and a dimming signal line. A control terminal device for continuous dimming control that outputs a dimming signal via the dimming signal line based on control data supplied from the central control device in accordance with the operation of each connected switch; a plurality of stages dimmer switch for switching the output level to a plurality of desired conditions, and monitor terminal device for stage dimming to monitor the operation states of the switches, separate from the control terminals for controlling the continuous dimming Stage tone outputs a dimming signal through the dimming signal line based on the control data provided from the central controller in response to the operation of the connected respectively stepped dimmer switch on the luminaire and the dimming signal line number And a control terminal for light control, and a pulse signal indicating a dimming level with a duty ratio as a dimming signal is given to the lighting fixture from each of the control terminals.
The housing of the control terminal for dimming control
The size of the ring is set to the size of three of the distribution board agreement dimensions
One end of the housing has a power input terminal and a signal terminal.
A terminal section is provided at the other end, and a terminal section for an output terminal is provided.
An address setting signal input means is provided on the front side of the
Remote monitoring and control system characterized by that. 4. The control device according to claim 1, further comprising a control terminal for turning on and off the same luminaire as the control terminal for dimming control. A remote monitoring and control system as described. 5. The control terminal for controlling the step dimming, wherein a variable resistor for adjusting the step dimming level of the lighting fixture to a desired state is provided in the control terminal.
A remote monitoring and control system as described. 6. An on / off switch for turning on / off dimming control, wherein a duty ratio of a dimming signal output from the control terminal via a dimming signal line by the control terminal in a state of dimming control is set to 0.
The remote monitoring control system according to any one of claims 1 to 3, wherein the light control is returned to the original light control state before the light control is turned off when the light control is on. 7. In a case where a dimming signal is output by controlling an application state of a power supply voltage to a dimming signal line, a duty ratio of the dimming signal when the lighting apparatus is fully lit is set to be greater than 0%. Providing a short-circuit detecting means for detecting a short-circuit state of the dimming signal line because the dimming signal line does not change to a high level state, and stopping a power supply voltage application state to the dimming signal line when the short-circuit is detected. Claims 1 to 3 characterized by the following:
The remote monitoring and control system according to any one of the above .