JP2004259566A - Sensor terminal with dimming function of remote monitoring control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sensor terminal with a dimming function of a remote monitoring control system having a function keeping a lighting space in target illumination and a function controlling illumination with an outside signal. <P>SOLUTION: An illumination detecting circuit 23 detects the illumination in the lighting space lit with a luminaire. A signal processing part 20 feedback-controls a dimming signal giving to the luminaire from a dimming signal output circuit 24 so that detected illumination with the illumination detecting circuit 23 is kept in the target illumination which is previously set. An address is set in a data storage part 22, and when an address contained in a multiplex transmission signal received through a signal terminal Ts agrees with the address set in the data storage part 22, the signal processing part 20 stops the feedback signal, and generates a dimming signal at a dimming level designated with the multiples transmission signal from the dimming signal output circuit 24. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a remote monitoring control including a human sensor for detecting the presence or absence of a person in a predetermined detection area, and using a time-division multiplexing transmission method to enable control of a load based on human detection information from the human sensor. The present invention relates to a sensor terminal with a dimming function of a system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, it has been proposed to dimming the light output of a lighting fixture so as to keep the illuminance of an illumination space illuminated by the lighting fixture substantially constant. In order to keep the illumination space at a constant illuminance, an illuminance sensor that monitors the illuminance of the illumination space and a lighting device that adjusts the light output based on the illuminance detected by the illuminance sensor are used in combination. For example, as shown in FIG. 17, an illuminating device 1 for dimming a light output in response to a dimming signal and an illuminance sensor 2 for detecting illuminance in an illumination space are provided. By generating a dimming signal so as to be maintained at the set target illuminance, and applying the dimming signal generated by the illuminance sensor 2 to the lighting fixture 1 through the dimming control line Ld, the illuminance of the illumination space is changed to the target illuminance. Configured to keep. Here, the illuminance of the illumination space may be an average illuminance of a room or the like, or may be an illuminance of a predetermined work surface such as a desk surface.
[0003]
The illuminance sensor 2 performs the detection of the illuminance of the illumination space in each prescribed capture cycle. Therefore, in the illuminance sensor 2, the detected illuminance detected in each capture cycle is compared with the target illuminance in advance, and when the detected illuminance is higher (bright) than the target illuminance, the light output of the luminaire is reduced by a specified amount. When the detected illuminance is lower (dark) than the target illuminance, the light output of the luminaire is increased by a specified amount, and an operation is performed so as to maintain the dimming signal at the time when the detected illuminance becomes substantially equal to the target illuminance. That is, the change in the light output for each capture cycle is a stepwise change in the width of the specified amount described above. If the detected illuminance does not reach the target illuminance in one change of the light output, the change in the light output Is repeated several times.
[0004]
The light output of the lighting fixture 1 is controlled by a dimming signal output from the illuminance sensor 2, and the relay terminal 12a is used to control turning on and off of the lighting fixture 1. In the illustrated example, a relay terminal device 12b for selecting whether to enable or disable the operation of the illuminance sensor 2 so that the lighting fixture 1 can be turned on and off without performing control for keeping the illuminance constant. Is also provided. The relay terminals 12a and 12b are control terminals used for a remote monitoring and control system using a time division multiplex transmission system. The remote monitoring and control system transmits the transmission unit 10 to the transmission unit 10 via a two-wire signal line Ls. The switch 11 as a monitoring terminal is connected to the relay terminals 12a and 12b as the control terminals described above, and when a monitoring input is generated by operating the switch 11, the contacts of the relays built into the relay terminals 12a and 12b are connected. It is configured to open and close. The contacts of the relays built into each of the relay terminals 12a and 12b are inserted between the luminaire 1 and the illuminance sensor 2 and the commercial power source (in the illustrated example, the illuminance sensor 2 is connected to the commercial power source via the power line Lp). Connected). The switch 11 and the relay terminals 12a and 12b are multidrop-connected to the signal line Ls, and the transmission unit 10 and the switch 11 and the relay terminals 12a and 12b can be connected only by wiring the two-wire signal line Ls. It has become. The transmission unit 10, the switch 11, and the relay terminals 12a and 12b are all configured using a microcomputer.
[0005]
The monitoring input is generated in response to the operation of the switch 11. One address is set for each of the switch 11 and the relay terminals 12a and 12b, and when a monitoring input occurs in the switch 11, monitoring data corresponding to the monitoring input is transmitted to the transmission unit 10. Further, the transmission unit 10 has a function of generating control data corresponding to the monitoring data, and the correspondence between the address of the transmission source of the monitoring data and the address of the transmission destination of the control data is set in advance. The control data is transmitted by designating the destination address corresponding to the source address of the monitoring data according to the correspondence. Although only one switch 11 is shown in the illustrated example, a plurality of switches 11 are actually connected to the signal line Ls, and the switch 11 is associated with each of the relay terminals 12a and 12b.
[0006]
Now, when the switch 11 associated with the relay terminal 12a is operated to give an instruction to turn on the built-in relay in the relay terminal 12a, the lighting fixture 1 is energized, the lighting fixture is turned on, and an instruction to turn off is given. Then, the power supply to the lighting equipment 1 is cut off, and the lighting equipment is turned off. When the switch 11 associated with the relay terminal 12b is operated to give an instruction to turn on the relay built in the relay terminal 12b, the illuminance sensor 2 is enabled, and the illuminance detected by the illuminance sensor 2 A dimming signal for maintaining the illuminance is provided from the illuminance sensor 2 to the luminaire 1. When the switch 11 is operated to give an instruction to turn off the built-in relay in the relay terminal 12b, the illuminance sensor 2 is disabled, and the lighting fixture 1 is turned on and off by the relay terminal 12a regardless of the dimming signal. Only control is possible.
[0007]
The operation of the transmission unit 10 will be described in more detail. In the following description, a terminal having a function of mainly generating a monitoring input such as the switch 11 is referred to as a monitoring terminal, and a terminal having a function mainly operating according to control data, such as the relay terminals 12a and 12b, is referred to as a terminal. It is called a control terminal. The lighting fixture 1 and the illuminance sensor 2 are collectively referred to as a load.
[0008]
The transmission unit 10 transmits a multiplex transmission signal Vs having a format as shown in FIGS. 18A and 18B to the signal line Ls. That is, the multiplex transmission signal Vs includes a start pulse signal SY indicating the start of signal transmission, a mode data signal MD indicating a signal mode, an address data signal AD transmitting an address for individually calling a monitoring terminal or a control terminal, and a load. Control data signal CD for transmitting control data for controlling the transmission, a checksum data signal CS for detecting a transmission error, and a signal return period WT which is a time slot for receiving a return signal from the monitoring terminal or the control terminal. It is a multipole (± 24 V) time division multiplexed signal, and data is transmitted by pulse width modulation.
[0009]
In the monitoring terminal and the control terminal, when the address of the multiplex transmission signal Vs received via the signal line Ls matches the set address, control data is taken from the multiplex transmission signal Vs and the multiplex transmission signal The monitoring data is returned as a current mode signal (a signal transmitted by short-circuiting the signal line Ls via an appropriate low impedance) in synchronization with the Vs signal return period WT.
[0010]
In addition, the transmission unit 10 includes always-on polling means for constantly changing the address included in the multiplexed transmission signal Vs and constantly performing polling for sequentially accessing the monitoring terminal and the control terminal. At the time of constant polling, a monitoring terminal or a control terminal in which the addresses included in the multiplex transmission signal Vs match will take in the control data included in the multiplex transmission signal Vs. On the other hand, the transmission unit 10 generates the interrupt signal Vi when receiving an interrupt signal Vi as shown in FIG. 18C output in response to the generation of the monitoring input in any of the monitoring terminals. After detecting the monitoring terminal, there is also provided an interrupt polling means for accessing the monitoring terminal and returning the monitoring data.
[0011]
That is, the transmission unit 10 always sends the multiplex transmission signal Vs whose address is cyclically changed by the polling means to the signal line Ls, and transmits the interrupt signal Vi generated from the monitoring terminal to the multiplex transmission signal Vs. Upon detection in synchronization with the start pulse signal SY, the multiplex transmission signal Vs in which the mode data signal MD is set to the interrupt polling mode is transmitted from the transmission unit 10 by the interrupt polling means. The monitoring terminal that has generated the interrupt signal Vi, if the upper bits of the address included in the multiplex transmission signal Vs in the interrupt polling mode match, monitors in synchronization with the signal return period WT of the multiplex transmission signal Vs. The lower bits of the address set in the terminal are returned as reply data. In this way, the transmission unit 10 obtains the address of the monitoring terminal that generated the interrupt signal Vi, and accesses the monitoring terminal using the obtained address, thereby responding to the monitoring input input to the monitoring terminal. The received monitoring data is received as reply data. The interrupt polling means in the transmission unit 10 changes the upper address and retransmits the multiplex transmission signal Vs in the interrupt polling mode if the lower address is not returned from the monitoring terminal that generated the interrupt signal Vi.
[0012]
In this way, when the transmission unit 10 acquires the address of the monitoring terminal that has generated the interrupt signal Vi, the transmission unit 10 sends the multiplex transmission signal Vs requesting the monitoring terminal to return monitoring data, The monitoring terminal returns monitoring data corresponding to the monitoring input to the transmission unit 10. Upon receiving the monitoring data, the transmission unit 10 generates control data for the control terminal previously associated with the monitoring terminal based on the address correspondence, and sends a multiplex transmission signal Vs including the control data to the signal line Ls. And control the load through the control terminal. Here, the addresses (individual addresses) individually set for the monitoring terminal and the control terminal correspond to a channel set for each terminal, a monitoring input (for example, corresponding to a switch) and a load circuit. This is a set of load numbers to be identified. In the current product, the number of channels is 64, and the number of load is four for each channel. That is, a channel is set for each monitoring terminal and each control terminal, and a maximum of four monitoring inputs can be input to each monitoring terminal, and a maximum of four loads are connected to each control terminal. It is possible. Therefore, loads of a total of 256 circuits can be controlled. Here, the circuit of the monitor input and the load means a set of the monitor input and the load related by the correspondence of the address, and the load controlled in response to the input of the monitor input is one circuit. Constitute.
[0013]
The correspondence between the monitoring input and the load as described above is set in the memory of the transmission unit 10 as related data. That is, at the time of construction, after the setting of the addresses to the monitoring terminal and the control terminal is completed, the correspondence between the monitoring input and the load is set as related data, so that the desired input can be associated with the monitoring input. It becomes possible to control the load.
[0014]
By the way, in the example shown in FIG. 17, the configuration in which the validity and the invalidity of the illuminance sensor 2 are controlled by the relay terminal 12b is shown. However, as shown in FIG. 19, the dimming control terminal is replaced with the relay terminal 12b. A configuration is also conceivable in which a dimming switch 14 corresponding to the dimming control terminal 13 is provided as a monitoring terminal in addition to using the dimming switch 13. A configuration in which a dimming signal output from the dimming control terminal 13 is provided to the illuminance sensor 2 is also conceivable. The light control switch 14 includes an up operation unit Su, a down operation unit Sd, and an on / off operation unit Sf. The on / off operation unit Sf is associated with the relay terminal device 12a, and alternately switches on and off the contacts of a relay built in the relay terminal device 12a for each pressing operation. Further, the up operation unit Su and the down operation unit Sd generate the dimming data so that the dimming level is increased or decreased stepwise within a specified amount during the pressing operation. That is, every time the dimming level is increased or decreased by a specified amount, the data of the dimming level is transmitted to the transmission unit 10. On the other hand, the dimming control terminal 13 receives the dimming data generated by the dimming switch 14 from the transmission unit 10 by the multiplex transmission signal Vs, and generates a dimming signal corresponding to the dimming data.
[0015]
The dimming control terminal 13 is normally used to provide a dimming signal to the lighting fixture 1, but the example shown in FIG. 19 employs a configuration in which a dimming signal is given to the illuminance sensor 2. This is because the illuminance sensor 2 uses the dimming level of the dimming signal provided from the dimming control terminal 13 as the target illuminance, and the illuminance sensor 2 matches the detected illuminance detected with the target illuminance. Generate a dimming signal. With the above-described configuration, the target illuminance of the illuminance sensor 2 can be changed, and the illuminance of the illumination space illuminated by the lighting fixture 1 can be adjusted by operating the dimming switch 14, and the illuminance of the illumination space can be adjusted. Control to keep the illuminance selected by the optical switch 14 is possible.
[0016]
Although the illuminance sensor 2 does not have a function of changing the target illuminance by using the multiplex transmission signal Vs by operating the dimming switch 14 as in the illuminance sensor 2 described above, the luminaire 1 of the luminaire 1 is controlled so that the illuminance detected by the illuminance sensor 2 is maintained at a constant illuminance. 2. Description of the Related Art A technique for controlling optical output and utilizing data transmission by a time division multiplex transmission method is known (for example, see Patent Document 1).
[0017]
[Patent Document 1]
JP-A-11-185975 (page 3-5, FIG. 1)
[0018]
[Problems to be solved by the invention]
In the configuration shown in FIG. 17 described above, the multiplex transmission signal Vs is used to select whether the illuminance sensor 2 is enabled or disabled. In the configuration shown in FIG. Vs is used. That is, if the function of the illuminance sensor 2 is to be controlled from the outside, a relay terminal 12b and a dimming control terminal 13 are required separately, and a system for controlling the light output of the lighting fixture 1 by the illuminance sensor 2 is constructed. However, there is a problem that the number of members required for the operation increases.
[0019]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a sensor with a dimming function of a remote monitoring control system having a function of maintaining an illumination space at a target illuminance and a function of controlling the illuminance by an external signal. Terminal equipment is provided.
[0020]
[Means for Solving the Problems]
According to the first aspect of the present invention, a terminal device having an address is connected to a signal line, and data transmission by a multiplex transmission signal in a time division multiplex transmission system between a transmission unit connected to the signal line and the terminal device. The load is controlled by another terminal in accordance with the monitoring input to one of the terminals using the address correspondence set in the transmission unit, and the signal provided separately from the power supply path An illuminance detection circuit for detecting an illuminance of a lighting space illuminated by the luminaire, the illuminance detection circuit being used in a remote monitoring and control system including a luminaire that controls a light output in response to a dimming signal from a path, the at least one address; And a light storage signal to the lighting equipment to maintain the detected illuminance including the information on the illuminance detected by the illuminance detection circuit at the target illuminance, and multiplex transmission. Address contained in which is characterized in that a signal processing unit for generating a dimming signal of the dimming level specified by the multiplex transmission signal to match the address set in the data storage unit.
[0021]
According to a second aspect of the present invention, in the first aspect of the present invention, a relay driving circuit including a relay having a contact inserted into a power supply path to the lighting fixture is added, and the signal processing unit performs multiplex transmission. When an address included in the signal matches a second address set separately from the address in the data storage unit, a contact of a relay provided in the relay drive circuit is opened and closed according to the on / off content specified by the multiplex transmission signal. It is characterized by.
[0022]
According to a third aspect of the present invention, in the first aspect of the present invention, a semiconductor switch circuit having a semiconductor switch element inserted into a power supply path to the lighting fixture is added, and the signal processing unit is configured to add a multiplex transmission signal to the multiplexed signal. When an included address matches a second address set separately from the address in the data storage unit, the semiconductor switch element provided in the semiconductor switch circuit is opened and closed according to the on / off content specified by the multiplex transmission signal. And
[0023]
According to a fourth aspect of the present invention, in the first aspect of the present invention, a power supply circuit is provided as a power supply for an internal circuit by rectifying and stabilizing the multiplex transmission signal.
[0024]
According to a fifth aspect of the present invention, in the first aspect of the present invention, a variable resistor capable of setting an upper limit value and a lower limit value of the control range of the dimming signal is provided.
According to a sixth aspect of the present invention, in the first aspect of the present invention, the signal processing unit has a function of setting an upper limit value and a lower limit value of a control range of the dimming signal in response to the multiplexed transmission signal. I do.
[0025]
According to a seventh aspect of the present invention, in the first aspect of the present invention, a slave unit signal transmitting / receiving circuit for connecting a separately provided slave unit and taking in the illuminance detected by the slave unit into the signal processing unit is added. It has a function of determining the detected illuminance using the illuminance detected by the illuminance detection circuit and the illuminance detected by the slave unit.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
The present embodiment is, as shown in FIG. 2, a sensor terminal 3 with a dimming function connected to the lighting fixture 1 via a dimming control line Ld, and a signal line Ls for transmitting a multiplex transmission signal Vs. It is connected to the transmission unit 10 through the transmission line. Further, in the present embodiment, basically, a feedback control function of generating a dimming signal to the lighting apparatus 1 so that the detected illuminance detected by the light receiving element is maintained at the target illuminance, and a dimming level from the outside. A forced control function for stopping the feedback control when instructed and generating a dimming signal to the lighting fixture 1 so as to attain the instructed dimming level. In the example shown in FIG. 2, the relay terminal 12a and the dimming switch 14 are connected to the signal line Ls, and commercial power is supplied to the transmission unit 10 through the power line Lp. Here, the power supply line Lp for supplying commercial power to the lighting fixture 1 is omitted in the figure. The light control switch 14 includes an up operation unit Su, a down operation unit Sd, and an on / off operation unit Sf, each of which is operated in a push button manner, similarly to the conventional configuration.
[0027]
As shown in FIG. 1, the sensor terminal device with a dimming function of the present embodiment includes a multiplex transmission signal transmission / reception circuit 21 connected to a signal line Ls. It has a function of converting the multiplexed transmission signal Vs into a TTL level signal and providing it to the signal processing unit 20, and a function of converting a signal transmitted from the signal processing unit 20 to the signal line Ls into a current mode signal. The signal processing unit 20 has a microcomputer as its main configuration, and uses an address stored in a data storage unit 22 composed of a non-volatile memory such as an EEPROM, which retains storage contents even when power is not supplied. Here, a plurality of addresses are stored in the data storage unit 22, and the data storage unit 22 functions as an address storage unit. The data storage unit 22 also stores target illuminance data.
[0028]
When the address included in the multiplex transmission signal Vs received through the multiplex transmission signal transmission / reception circuit 21 matches one of the addresses stored in the data storage unit 22, the signal processing unit 20 transmits the control data CD of the multiplex transmission signal Vs. It receives and operates according to the control data CD, and sends out the reception of the multiplex transmission signal Vs to the signal line Ls through the multiplex transmission signal transmission / reception circuit 21. Further, the signal processing unit 20 performs A / D conversion of the illuminance detected by the illuminance detection circuit 23 including the photoelectric element, compares the A / D converted with the target illuminance stored in the data storage unit 22, and outputs the light output of the lighting fixture 1 to the target illuminance. The dimming signal output circuit 24 is controlled so as to generate a dimming signal approaching the following. Although a photodiode is assumed as a photoelectric element provided in the illuminance detection circuit 23, various elements such as a CdS, a phototransistor, and a solar cell can be used.
[0029]
In the present embodiment, an address setting circuit 25 is provided to set an address stored in the data storage unit 22. Since the sensor terminal with dimming function 3 is often arranged at a high place such as a ceiling, the address setting circuit 25 is provided separately from the sensor terminal with dimming function 3 and uses infrared light as a transmission medium. An optical wireless signal is transmitted to and received from a remote control type setting device (not shown) using the optical wireless signal.
[0030]
The target illuminance stored in the data storage unit 22 is set by transmitting and receiving an optical wireless signal to and from a remote control type setting device (not shown) through the wireless signal transmitting and receiving circuit 26. That is, by transmitting and receiving an optical wireless signal to and from a setting device that is provided separately from the sensor terminal device 3 with a dimming function and uses an optical wireless signal using infrared light as a transmission medium, the target illuminance given from the setting device is transmitted. Is set in the data storage unit 22. When a remote control type setting device is used to set the address, the setting device may also be used as a setting device for setting the target illuminance.
[0031]
Power to internal circuits such as the signal processing circuit 20 and the dimming signal output circuit 24 is supplied by rectifying and stabilizing the multiplex transmission signal Vs transmitted through the signal line Ls in the power supply circuit 27. That is, by connecting the signal terminal Ts to the signal line Ls, not only data transmission by the multiplex transmission signal Vs but also power supply by the multiplex transmission signal Vs is performed. Has become possible. The dimming control line Ld connecting the lighting device 1 is connected to the dimming terminal Td.
[0032]
Next, the operation of the present embodiment will be described. As described above, the target illuminance and the address are set in the data storage unit 22. The address used in the present embodiment is to provide or not to provide a dimming signal from the sensor terminal with dimming function 3 to the lighting apparatus 1, that is, to enable or disable the function of the illuminance detection circuit 23. Used to select In other words, when the signal processing unit 20 is instructed to turn off the address, the detected illuminance detected from the illumination space using the target illuminance stored in the data storage unit 22 is maintained at the target illuminance. When a turn-on instruction is given to the address, a dimming signal is generated such that an optical output corresponding to the dimming level given from the dimming switch 14 is obtained without detecting the illuminance. . By operating the dimming switch 14 in this way, the feedback control for keeping the detected illuminance at the target illuminance is stopped, and the dimming switch 14 is forcibly controlled to the dimming level specified by the dimming switch 14. The forced control is continued until the lighting fixture 1 is turned off, and when the lighting fixture 1 is turned off, the control returns to the feedback control at the next lighting.
[0033]
When the address stored in the data storage unit 22 is instructed to be turned off and the feedback control is performed, the signal processing unit 20 captures the illuminance by the illuminance detection circuit 23, and the detected illuminance detected from the illumination space is higher than the target illuminance. If it is low, the dimming signal output circuit 26 is instructed to output a dimming signal in the direction of increasing the light output. If the detected illuminance detected from the illumination space is higher than the target illuminance, dimming in the direction of decreasing the light output is performed. An instruction is given to the dimming signal output circuit 26 to output a signal. On the other hand, when the above-mentioned address is instructed to be turned on, the signal processing unit 20 does not use the information from the illuminance detection circuit 23 and uses the dimming level received from the multiplex transmission signal Vs transmitted through the signal line Ls. Is generated by the dimming signal output circuit 24. That is, when the address is instructed to turn on, the terminal operates as a normal dimming control terminal.
[0034]
As described above, the illuminance sensor of the conventional configuration does not have the function of data transmission by the multiplex transmission signal Vs, and it is necessary to provide a control terminal having the function of data transmission by the multiplex transmission signal Vs separately from the illuminance sensor. On the other hand, in the configuration of the present embodiment, data transmission by the multiplex transmission signal Vs is possible only by connecting the signal line Ls to the signal terminal Ts without using a control terminal separately. A system linked with a system using Vs can be easily constructed. Further, since power for supplying to internal circuits such as the signal processing unit 20 and the dimming signal output circuit 24 is taken out from the signal line Ls, it is connected only to two sets of the signal terminal Ts and the dimming terminal Td. Connection work is easy.
[0035]
By the way, the sensor terminal device 3 with the dimming function described above is attached with the ceiling surface as a construction surface. As shown in FIGS. 3 to 5, the body 30 of the sensor terminal device 3 with the dimming function is provided integrally with a main body 31a inserted into a mounting hole formed in a ceiling plate and at a lower end of the main body 31a. A base 31 having an outer periphery in contact with the lower surface of the ceiling plate and a circular flange portion 31b is provided. The base 31 is formed by covering the upper surface of a main body 31a provided on the base 31 with a cover 32. The base 31 and the cover 32 are provided with an assembly hole 31 provided at the tip of an assembly piece 31c extending upward from the upper edge of the peripheral wall of the main body 31a, and an assembly projection 32a projecting from the outer surface of the cover 32. They are joined by engaging.
[0036]
On the upper surface of the cover 32, a terminal block 33 including a signal terminal Ts and a dimming terminal Td is provided. For the signal terminal Ts and the dimming terminal Td, screw terminals for screwing terminal screws to the terminal plate are used. A terminal cover 33a is mounted on the terminal block 33 so as to be openable and closable.
[0037]
An opening window 31e is formed in the bottom wall of the main body 31a, and a lower portion of the movable body 34 is exposed through the opening window 31e. The movable body 34 is formed in a spherical shape in which a hemispherical holding body 34a and a hemispherical lens body 34b are connected, and a circuit board 35a on which a photoelectric element is mounted is housed inside the movable body 34. A ring-shaped receiving frame 34c is mounted in the opening of the opening window 31e, and the movable body 34 is inserted into the receiving frame 34c. A pair of shaft pins 34d protrude from the outer surface of the holding frame 34a, and the movable body 34 swings with respect to the base 31 by receiving the shaft pins 34d by bearings 31f provided around the opening window 31e. It is kept possible. An annular regulating frame 34e is formed on the upper outer surface of the holder 34a. A presser plate 36b fixed to the base 31 is fixed to the base 31 using a pair of fixing screws 36a inside the main body portion 31a, and a presser 36d urged downward by a presser spring 36c at the center of the presser plate 36b. Is attached. The lower end of the presser 36d is an upper outer surface of the holding body 34a and elastically contacts the inside of the regulating frame 34e, thereby elastically holding the movable body 34 between the receiving frame 34c and the presser 36d. That is, if the movable body 34 is released after being rotated in a desired direction while being pushed up from below, the orientation of the movable body 34 is maintained by the frictional force between the receiving frame 34c and the movable body 34. The swing range of the movable body 34 is regulated by the movement range of the pusher 36d in the regulation frame 34e.
[0038]
The circuit board 35b is accommodated in the main body 31a above the pressing plate 36b. The circuit board 35b mounts electronic components constituting the circuit of FIG. 1 together with the circuit board 35a housed in the movable body 34, and is fixed to the base 31 using a pair of mounting screws 35c. Further, the circuit board 35a and the circuit board 35b are connected using a connection line 35d. The signal terminal Ts and the dimming terminal Td described above are connected to the circuit board 35b.
[0039]
By the way, a pair of mounting bases 38 for mounting the mounting brackets 37 and direct mounting holes 38c for inserting wood screws to be screwed into the ceiling plate are provided on the periphery of the flange 31b. The mounting base 38 includes a screw hole 38a penetrating through the front and back of the flange 31b, and mounting holes 38b formed on both sides of the screw hole 38a in the circumferential direction of the flange 31b. The mounting bracket 37 has a mounting leg 37b to be fitted into the mounting hole 38b. The mounting bracket 37 has a lower end portion and a rectangular column-shaped column 37a with one side open. A tightening screw 37c is provided in the column 37a in the vertical direction. It has a configuration in which one end of a sandwiching plate 37d protruding from the open side surface of the column 37a is screwed into the fastening screw 37c. The head, which is the lower end of the tightening screw 37c, is exposed from the screw hole 38a, and after inserting the main body 31 into the mounting hole of the ceiling plate with the sandwiching plate 37d positioned near the upper end of the column 37a, tightening is performed. When the screw 37c is rotated to move the sandwiching plate 37d downward, the ceiling plate is sandwiched between the flange 31b and the sandwiching plate 37d, whereby the body 30 is fixed to the ceiling plate. . It is not always necessary to fix the mounting bracket 37 to the mounting base 34. When a box such as a switch box is embedded in the construction surface, a box screw to be screwed into the box is inserted into the screw hole 38a. It is also possible to fix the container 30 to the construction surface.
[0040]
On the lower surface side of the flange portion 31b, a decorative plate 39 having a circular outer peripheral shape and having a window hole 39a at the center thereof for exposing the movable body 34 is fitted. The above-described lens body 34b has a transmission / reception window 31g for taking in the light to the photoelectric element provided in the illuminance detection circuit 23 in a central portion and a transmission / reception window 31g for transmitting / receiving a wireless signal in the wireless signal transmission / reception circuit 26 in a peripheral portion. Further, a transmission / reception window 31h for transmitting / receiving a wireless signal in the address setting circuit 25 is provided in a portion which is a peripheral portion of the flange portion 31b and is covered with the decorative plate 39. In the above-described example, the movable body 34 can be swung with respect to the body 30 in order to detect illuminance within a relatively wide viewing angle and to detect illuminance in a desired direction. When the average illuminance is detected and the viewing angle is wide, or when the illuminance immediately below is detected, it is not necessary to be able to swing.
[0041]
(2nd Embodiment)
In the first embodiment, the power of the internal circuit is obtained from the multiplex transmission signal Vs transmitted through the signal line Ls. However, in the present embodiment, the power of the internal circuit is obtained from the commercial power. That is, as shown in FIG. 7, not only the transmission unit 10 but also the sensor terminal 3 with the dimming function is connected to the power line Lp to supply the commercial power. Therefore, the power supply circuit 27 is connected to the power supply terminal Tp provided separately from the signal terminal Ts as shown in FIG. 6, converts the commercial power supplied through the power supply line Lp into a DC power supply, converts the It is supplied to an internal circuit such as the signal output circuit 24. Other configurations and operations are the same as those of the first embodiment. In the configuration of the present embodiment, power is supplied from a commercial power supply. Therefore, although a power supply terminal Tp is separately required, a relatively large current is secured. For example, it is possible to increase the reach of a wireless signal.
[0042]
(Third embodiment)
In the present embodiment, as shown in FIG. 8, a relay drive circuit 28 is added to the configuration of the second embodiment. The relay drive circuit 28 has a built-in relay, and includes a power supply terminal Tp to which a commercial power supply is connected, a power supply terminal of the lighting fixture 1, and a load terminal Tc which is electrically connected via a load line Lc (see FIG. 9). The circuit between them is opened and closed by the relay contacts. Therefore, it is possible to open and close the power supply path to the lighting fixture 1, and not only to control the light output of the lighting fixture 1, but also to turn on and off the lighting fixture. However, the up operation part Su and the down operation part Sd of the light control switch 14 correspond to the light control signal output from the light control signal output circuit 24, while the on / off operation part Sf of the light control switch 14 is a relay drive circuit. 29, the data storage unit 22 stores two addresses, one for the control data of the multiplex transmission signal Vs and the other for the control of the dimming signal output circuit 24 and the relay drive circuit 28. Address is required. When receiving the multiplex transmission signal Vs, the signal processing unit 20 determines which address the address matches, and sends the signal to either the dimming signal output circuit 24 or the relay drive circuit 28 according to the matched address. Correlate control data.
[0043]
In the configuration of the present embodiment, as shown in FIG. 9, four sets of electric wires of a power supply line Lp, a signal line Ls, a load line Lc, and a dimming control line Ld are connected to the sensor terminal with dimming function 3. Although it is necessary, since the relay terminal device 12a becomes unnecessary, the control of turning on and off the lighting device 1 and the dimming control can be performed without using other members. That is, in the conventional configuration, the wires that are distributed and wired to each member can be intensively connected to the sensor terminal device 3 with the dimming function, so that the wiring work is easy. Further, in the present embodiment, since power is supplied from the commercial power supply to the power supply circuit 27, sufficient electric power for operating the relay drive circuit 28 having a built-in relay can be secured. Other configurations and operations are the same as those of the second embodiment.
[0044]
(Fourth embodiment)
In the third embodiment, a configuration in which a relay contact is inserted into a power supply path to the lighting fixture 1 is adopted. However, as shown in FIG. 10 in this embodiment, the relay drive circuit 28 of the third embodiment is replaced with the relay drive circuit 28 of the third embodiment. And a semiconductor switch circuit 28 '. The semiconductor switch circuit 28 'has a semiconductor switch element such as a triac inserted between a power supply terminal Tp and a load terminal Tc, and receives a command from the signal processing unit 20 to connect the power supply terminal Tp to the load terminal Tc. The circuit between Tc and Tc is opened and closed.
[0045]
In the configuration of the present embodiment, in addition to the same operation as that of the third embodiment, since the semiconductor switch element is used without using the relay having the mechanical contact, the lighting fixture 1 is turned on and off at the same time. Since no operation sound is generated by opening and closing, and no unnecessary sound is generated during operation, a sense of quality can be expected. Other configurations and operations are the same as those of the third embodiment.
[0046]
(Fifth embodiment)
In the present embodiment, a function of setting the upper and lower limits of the control range of the dimming signal is added to the configuration of the second embodiment. Here, the dimming signal is a rectangular wave signal having a constant period and a constant amplitude, and the dimming level is indicated by the duty (pulse width). Therefore, the control range of the dimming signal is defined by the upper limit and the lower limit of the duty. As shown in FIG. 11, the duty setting circuit 29 is added to the configuration of the second embodiment shown in FIG. The added configuration is adopted. The duty setting circuit 29 specifically includes two variable resistors. One variable resistor sets an upper limit value of the duty, and the other variable resistor sets a lower limit value of the duty. As shown in FIG. 12, both variable resistors are arranged so that the knobs 29a and 29b are exposed on the lower surface of the flange 31b of the body 30. The knobs 29a and 29b are arranged at the site covered by the decorative plate 39. In the illustrated example, the upper limit of the duty is set by the knob 29a.
[0047]
According to the configuration of this embodiment, in addition to the operation of the second embodiment, it is possible to adjust the upper and lower limits of the duty in the dimming signal. Even if the possible duty changes, it is possible to cope with various lighting fixtures 1 only by adjusting the duty setting circuit 29. Other configurations and operations are the same as those of the second embodiment.
[0048]
(Sixth embodiment)
In the present embodiment, the upper and lower limits of the control range of the dimming signal can be set as in the fifth embodiment, but a duty setting circuit 29 having a variable resistor is provided in the sensor terminal 3 with a dimming function. However, the fifth embodiment differs from the fifth embodiment in that a function of receiving the multiplex transmission signal Vs and setting the upper and lower limits of the duty is added to the signal processing unit 20. That is, in the present embodiment, two addresses for setting the upper limit value and the lower limit value of the duty are added to the data storage unit 22 by the control data of the multiplex transmission signal Vs. When the multiplex transmission signal Vs having the address corresponding to the address is received, the upper limit value or the lower limit value of the duty designated by the control data is set in the data storage unit 22, and the upper limit value and the lower limit value set in the data storage unit 22 are set. It is used to regulate the control range of the dimming signal.
[0049]
Since the control range of the dimming signal is set using the multiplex transmission signal Vs as described above, the setting switch 15a, which is an operation terminal device for setting the upper limit value of the dimming signal, and the lower limit value are set on the signal line Ls. A setting switch 15b, which is an operation terminal for setting, is connected. The setting switches 15a and 15b each include an up operation unit Pu, a down operation unit Pd, and an on / off operation unit Pf that are pressed. The on / off operation unit Pf selects whether the operation of the up operation unit Pu and the down operation unit Pd is valid or invalid. Even if the on / off operation unit Pf is pressed, data transmission by the multiplex transmission signal Vs is performed. Absent. Each of the setting switches 15a and 15b is associated with an address for setting an upper limit value and a lower limit value of the duty set in the sensor terminal device 3 with the dimming function, and is operated by operating the up operation unit Pu or the down operation unit Pd. When the generated control data is transmitted to the sensor terminal with dimming function 3, the sensor terminal with dimming function 3 changes the dimming signal to increase or decrease the light output of the lighting fixture 1. Therefore, the control range of the dimming signal can be adjusted by the setting switches 15a and 15b while checking the light output of the lighting fixture 1. Further, in the present embodiment, since the control range of the dimming signal is set using the multiplex transmission signal, work at a high place is unnecessary, and the dimming range is adjusted while confirming the light output of the lighting fixture 1. The lighting control range of the lighting fixture 1 can be used to the maximum. Other configurations and operations are the same as in the fifth embodiment.
[0050]
Since the multiplex transmission signal Vs is used, it is possible to associate a plurality of sensor terminals 3 with dimming functions with one setting switch 15a, 15b by the correspondence of addresses set in the transmission unit 10. Instead of individually setting the control range of the dimming signal for each sensor terminal 3 with a dimming function, it is possible to collectively set a plurality of sensor terminals 3 with a dimming function. In the fifth and sixth embodiments, a configuration is used in which an optical output is designated by a duty as a dimming signal. However, a configuration in which an optical output is designated by other information, for example, a configuration in which a DC voltage is designated. May be adopted.
[0051]
(Seventh embodiment)
In each of the above-described embodiments, the sensor terminal device 3 with the dimming function employs a configuration in which the illuminance of the illumination space is detected at one location. However, when the illumination space is wide, the average value of the illuminance at multiple locations is used. It is required to determine the light output of the lighting apparatus 1 in accordance with the above, or to control the light output of the lighting apparatus 1 so as to secure a predetermined illuminance or more in a part of the illumination space where the illuminance is the lowest. May be required. For example, if the brightness of each part of the illumination space changes due to the formation of a shadow with respect to external light or illumination light, or the change in the degree of incidence of external light into the room, etc. In some cases, even if the illuminance is detected, the light output of the lighting fixture 1 cannot be properly controlled.
[0052]
Thus, in the present embodiment, it is possible to add a slave 4 having a photoelectric element to the sensor terminal 3 with a dimming function (see FIG. 16), and provide the illuminance detected by the slave 4 to the signal processing unit 20. This allows the signal processing unit 20 to refer to the illuminance at a plurality of locations. That is, the signal processing unit 20 determines the detected illuminance of the illumination space (for example, adopts an average value or a minimum value of the detected illuminance) using the illuminance obtained by the illuminance detection circuit 23 and the slave unit 4, A function is provided for determining the light output of the lighting fixture 1 so that the detected illuminance is maintained at the target illuminance. Thus, as shown in FIG. 14, a slave unit signal transmission / reception circuit 41 is added, and a signal from the slave unit 4 connected to the slave terminal Te is taken into the signal processing unit 20 through the slave unit signal transmission / reception circuit 41. It is. The slave unit signal transmitting / receiving circuit 41 has a function corresponding to the transmission unit 10 with respect to the slave unit 4 connected via the slave unit signal line Le (see FIG. 16), and the slave unit signal which is time-division multiplexed. Is transmitted to the slaves 4, it is possible to individually recognize the plurality of slaves 4 connected to the slave signal line Le and individually receive the information on the illuminance detected in each slave 4. ing. In general, since the number of slaves 4 is relatively small, the slave unit signal transmitting / receiving circuit 41 may call up the slaves 4 in a certain order in a cyclic manner, so that information from the slaves 4 may be collected. The power of the slave unit 4 is supplied by the slave unit signal, and the information from the slave unit 4 is received by only the two slave unit signal lines Le without using a separate supply wire. Power supply is enabled.
[0053]
As shown in FIG. 15, the slave unit 4 includes a slave terminal Tm for connecting the slave signal line Le. The slave terminal Tm receives a slave signal from the slave signal transmission / reception circuit 41, and A transmission / reception circuit 42 that returns illuminance information to the device signal transmission / reception circuit 41 and a power supply circuit 45 that uses power supplied from the child device signal transmission / reception circuit 41 as a power source for an internal circuit of the child device 4 are connected. The power supplied from the slave unit signal transmission / reception circuit 41 can be supplied from the signal power transmitted to the slave unit 4. However, a DC voltage must be superimposed on the slave unit signal line Le separately from the signal transmitted to the slave unit 4. The power may be supplied to the slave unit 4 by the power supply.
[0054]
The slave unit 4 is provided with a signal processing unit 40 composed of a microcomputer, and a slave unit number setting circuit 44 for setting a slave unit number for distinguishing a plurality of slave units 4. Dip switches and jumper switches may be used for the slave unit number setting circuit 44. Further, the slave unit 4 is provided with an illuminance detection circuit 43 including a photoelectric element for detecting the illuminance of the illumination space, and the signal processing unit 40 matches the slave unit number set in the slave unit number setting circuit 44. When the slave unit signal is transmitted from the slave unit signal transmission / reception circuit 41, the illuminance detected by the illuminance detection circuit 43 is returned to the slave unit signal transmission / reception circuit 41.
[0055]
With the above-described configuration, as shown in FIG. 16, the slave unit 4 can be connected to the sensor terminal unit 3 with the dimming function via the slave unit signal line Le, and the illuminance information obtained by the slave unit 4 is obtained. The light output of the lighting fixture 1 can be determined using the illuminance information obtained by the sensor terminal device 3 with the dimming function. That is, even if the illumination space is wide due to the addition of the slave units 4, the illuminance can be detected even when the illuminance of each part of the illumination space changes. The output can be set appropriately. Other configurations and operations are the same as those of the second embodiment.
[0056]
【The invention's effect】
According to the first aspect of the present invention, a terminal device having an address is connected to a signal line, and data transmission by a multiplex transmission signal in a time division multiplex transmission system between a transmission unit connected to the signal line and the terminal device. The load is controlled by another terminal in accordance with the monitoring input to one of the terminals using the address correspondence set in the transmission unit, and the signal provided separately from the power supply path An illuminance detection circuit for detecting an illuminance of a lighting space illuminated by the luminaire, the illuminance detection circuit being used in a remote monitoring and control system including a luminaire that controls a light output in response to a dimming signal from a path, the at least one address; And a light storage signal to the lighting equipment to maintain the detected illuminance including the information on the illuminance detected by the illuminance detection circuit at the target illuminance, and multiplex transmission. And a signal processing unit for generating a dimming signal having a dimming level designated by the multiplex transmission signal when an address included in the multiplex transmission signal matches the address set in the data storage unit. Since it has a function to generate an optical signal, it does not need to use the dimming control terminal to change the target illuminance of the illuminance sensor as in the conventional configuration. It becomes possible to control the light output of the instrument. In other words, the operation that could not be achieved without using the dimming control terminal with the conventional configuration can be realized without using the dimming control terminal. Becomes easier.
[0057]
According to a second aspect of the present invention, in the first aspect of the present invention, a relay driving circuit including a relay having a contact inserted into a power supply path to the lighting apparatus is added, When the included address matches the second address set separately from the address in the data storage unit, the contact of the relay provided in the relay drive circuit is opened and closed according to the on / off content specified by the multiplex transmission signal. There is no need for a separate relay terminal for turning on and off the power of the device, and the number of members used when constructing the system is reduced, thereby facilitating the connection work.
[0058]
According to a third aspect of the present invention, in the first aspect of the present invention, a semiconductor switch circuit having a semiconductor switch element inserted into a power supply path to the lighting fixture is added, and the signal processing unit is included in the multiplex transmission signal. When the address matches a second address set separately from the address in the data storage section, the semiconductor switch element provided in the semiconductor switch circuit is opened and closed according to the on / off content specified by the multiplex transmission signal. Since a relay terminal for turning on and off the power is not separately required, the number of members used when constructing the system is reduced, and the connection work is facilitated. In addition, there is an advantage that an operation sound due to turning on / off the power of the lighting apparatus is not generated as compared with the case where a relay is used.
[0059]
According to a fourth aspect of the present invention, in the first aspect of the present invention, a power supply circuit is provided as a power supply for an internal circuit by rectifying and stabilizing the multiplex transmission signal, and there is no need to connect a power supply line. And the lighting equipment only need to be connected.
[0060]
According to a fifth aspect of the present invention, in the first aspect of the present invention, there is provided a variable resistor capable of setting an upper limit value and a lower limit value of the control range of the dimming signal, respectively, and the dimming according to the specification of the lighting fixture. It is possible to limit the control range of the signal, and when changing the light output of the luminaire using the multiplex transmission signal, there is no region where the change in brightness becomes large or the change in brightness hardly occurs Thus, the control range of the dimming signal suitable for the lighting fixture can be set.
[0061]
According to a sixth aspect of the present invention, in the first aspect of the invention, the signal processing unit has a function of receiving the multiplex transmission signal and setting the upper limit value and the lower limit value of the control range of the dimming signal, respectively. It is possible to limit the control range of the dimming signal according to the specifications of the fixture, and when changing the light output of the lighting fixture using multiplexed transmission signals, the change in brightness increases or the change in brightness hardly It is possible to set a control range of a dimming signal suitable for a lighting fixture so that a region that does not occur does not occur. Moreover, even when the apparatus is arranged at a high place such as a ceiling, the control range of the dimming signal can be set without performing work at a high place.
[0062]
According to a seventh aspect of the present invention, in the first aspect of the present invention, a slave unit signal transmission / reception circuit for connecting the slave unit separately provided and taking in the illuminance detected by the slave unit into the signal processing unit is added, and the signal processing unit detects the illuminance. It has the function of determining the detected illuminance using the illuminance detected by the circuit and the illuminance detected by the slave unit, and is used in a case where the illumination space is relatively large or uneven illumination occurs in the illumination space. Also, by detecting the illuminance at multiple locations, it is possible to appropriately control the light output of the lighting fixture.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of the present invention.
FIG. 2 is a schematic diagram showing a system configuration example using the above.
FIG. 3 is an exploded perspective view of the same.
FIG. 4 is a side view of the same.
FIG. 5 is a bottom view of the above.
FIG. 6 is a block diagram showing a second embodiment of the present invention.
FIG. 7 is a schematic diagram showing a system configuration example using the above.
FIG. 8 is a block diagram showing a third embodiment of the present invention.
FIG. 9 is a schematic diagram showing a system configuration example using the above.
FIG. 10 is a block diagram showing a fourth embodiment of the present invention.
FIG. 11 is a block diagram showing a fifth embodiment of the present invention.
FIG. 12 is a bottom view of the above.
FIG. 13 is a schematic diagram illustrating an example of a system configuration using a sixth embodiment of the present invention.
FIG. 14 is a block diagram showing a seventh embodiment of the present invention.
FIG. 15 is a block diagram showing a slave unit used in the embodiment.
FIG. 16 is a schematic diagram showing an example of a system configuration using the above.
FIG. 17 is a schematic diagram showing a system configuration example according to a conventional example.
FIG. 18 is a diagram illustrating a multiplex transmission signal used in the above.
FIG. 19 is a schematic diagram showing a system configuration example according to another conventional example.
[Explanation of symbols]
1 lighting equipment
3 Sensor terminal with dimming function
4 child
10 Transmission unit
12a Relay terminal
14 Light control switch
20 signal processing unit
22 Data storage unit
23 Illuminance detection circuit
27 Power supply circuit
28 Relay drive circuit
28 'Semiconductor switch circuit
29 Duty setting circuit
41 Slave unit signal transmission / reception circuit
43 Illuminance detection circuit
Ls signal line
Vs multiplex transmission signal

Claims (7)

Terminals each having an address are connected to a signal line, and data transmission is performed between the transmission unit connected to the signal line and the terminal using multiplexed transmission signals in a time-division multiplex transmission system, and the transmission unit is set. The load is controlled by another terminal in accordance with the monitoring input to one of the terminals by using the correspondence relationship of the address, and the dimming signal is received from a signal path provided separately from the power supply path. An illuminance detection circuit for detecting the illuminance of an illumination space illuminated by the luminaire, the illuminance detection circuit being used in a remote monitoring control system including a luminaire that controls a light output in a load, and a data storage unit in which at least one address is set And generating a dimming signal to the lighting apparatus so as to maintain the detected illuminance including the information on the illuminance detected by the illuminance detection circuit at the target illuminance, and the address included in the multiplex transmission signal. A signal processing unit that generates a dimming signal having a dimming level specified by the multiplex transmission signal when the address matches an address set in the data storage unit. Terminal device. A relay drive circuit including a relay having a contact inserted into a power supply path to the lighting apparatus is added, and the signal processing unit stores an address included in a multiplex transmission signal in the data storage unit as the address. 2. The remote monitoring and control system according to claim 1, wherein when the second address coincides with a second address set separately, a contact of a relay provided in the relay drive circuit is opened and closed according to the on / off contents specified by the multiplex transmission signal. Sensor terminal with dimming function. A semiconductor switch circuit having a semiconductor switch element inserted in a power supply path to the lighting fixture is added, and the signal processing unit stores an address included in a multiplex transmission signal in the data storage unit separately from the address. 2. The dimming control system according to claim 1, wherein when the second address coincides with the set second address, the semiconductor switch element provided in the semiconductor switch circuit is opened and closed according to the on / off contents specified by the multiplex transmission signal. Sensor terminal with function. 2. The sensor terminal with a dimming function of a remote monitoring and control system according to claim 1, further comprising a power supply circuit that rectifies and stabilizes the multiplex transmission signal and uses the multiplexed transmission signal as a power supply for an internal circuit. The sensor terminal with a dimming function of a remote monitoring and control system according to claim 1, further comprising a variable resistor capable of setting an upper limit and a lower limit of a control range of the dimming signal. 2. The dimming function of the remote monitoring control system according to claim 1, wherein the signal processing unit has a function of receiving the multiplexed transmission signal and setting an upper limit value and a lower limit value of a control range of the dimming signal. With sensor terminal. A slave unit signal transmitting / receiving circuit for connecting a separately provided slave unit and taking in the illuminance detected by the slave unit into the signal processing unit is added, and the signal processing unit includes an illuminance detected by an illuminance detection circuit and an illuminance detected by the slave unit. 2. The sensor terminal with a dimming function of the remote monitoring control system according to claim 1, further comprising a function of determining the detected illuminance using the following.

Images