JP4187146B2 - Measurement / control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a measurement / control system that collects information about an external environment and performs control based on the collected information.
[0002]
[Prior art]
In conventional air conditioning equipment such as office buildings, data such as temperature and humidity is acquired from various sensors installed on the walls and pillars of the living space, and the primary side (heat storage side) using heat source equipment and heat storage layer ) Data such as flow rate and temperature are taken from various sensors attached to the piping and secondary side (heat radiation side) piping, and central control is performed so that the parent controller follows the set conditions.
[0003]
Now, as office circumstances in recent years, in order to realize free desk layout and office layout, a wide office space without pillars is desired, and the number of buildings such as office buildings corresponding to such office space has increased. I am doing.
In order to realize energy saving and comfort in such a wide space, it cannot be dealt with by performing air conditioning in one room as in the past. Therefore, one space is divided into multiple zones, and detailed air conditioning is performed for each zone to realize energy saving and comfort.
[0004]
However, when performing air conditioning for each zone, various sensors are required for each zone, but there is no pillar for mounting various sensors in a wide space. For this reason, although it is desirable to install in a place close to the occupants, the installation location of various sensors is limited to the ceiling and walls, especially in the center of the space, it must be installed only on the ceiling. I didn't get it.
[0005]
Among various sensors, particularly when installed on a ceiling surface, the temperature sensor is easily affected by non-uniform temperature distribution in the office space and direct air from the air outlet.
In this way, the air conditioning control based on the temperature data in a place away from the occupants below the office space (that is, the upper side of the office space) has a larger deviation from the set temperature than necessary. There has been a problem in that the loss of operating energy of the air conditioning equipment is increased due to manual operation and the like.
[0006]
It is also possible to collect temperature data below the space near the occupants by installing a temperature sensor at an arbitrary location and wiring according to the desk layout etc. Needless to say, there has been a problem that a great deal of work such as re-installing the temperature sensor is required at the time of rearrangement of the desk, book shelf, OA equipment, and the like, and wiring restrictions on the office layout occur.
[0007]
[Problems to be solved by the invention]
The present invention has been made in view of such a situation, and an object of the present invention is to eliminate the need for wiring laying work with various sensors and to collect appropriate information in the vicinity of a room occupant. To provide a measurement and control system.
Also, to provide a measurement and control system that allows various sensors to be easily moved when the desk layout or office layout is changed, and to collect appropriate information near the occupants in the room. It is in.
In general, by sharing the configuration, another measurement system is incorporated into a certain measurement / control system, thereby simplifying the configuration of the measurement / control system and realizing accurate measurement.
[0008]
[Means for Solving the Problems]
  In order to solve the above problem, according to the measurement and control system of claim 1,
  Installed in the living space and / or work space of plants, factories, buildings, etc.A measurement / control system that communicates with a center device via a control system communication line,
  Individual distributed control with open networkA transmission device connected to the control communication line;
  A measurement / control processing device connected to the transmission device;
  A control drive unit connected to the measurement / control processing device;
  A control sensor connected to the measurement / control processing device;
  A wireless receiver connected to the measurement / control processor;
  A wireless sensor that wirelessly transmits to the wireless receiver;
  A wireless transmission device for transmitting wirelessly to a wireless receiver;
  With
  The measurement / control processing device to which the command signal output from the wireless transmission device through the wireless reception unit or the measurement signal output from the control sensor is input controls the control target by driving the control drive unit, A main measurement / control system in which the measurement / control processing device transmits measurement / control information to the center device via the transmission device;
  The measurement / control processing device to which the measurement signal output from the wireless sensor is input through the wireless reception unit transmits measurement information or processing information generated based on the measurement signal to the center device via the transmission device. A measurement system;
  And share
  The main measurement and control system is the control targetOf living space and / or working spaceIt is part of a lighting dimming system that performs dimming control of lighting fixtures,
  The wireless transmitter is a remote control for lighting that outputs a command signal of the lighting fixture by infrared rays.
  The wireless receiver is an infrared receiver that receives infrared rays.
  The control drive unit is an inverter control unit that performs dimming control on the lighting fixture,
  The control sensor is a system that is an illuminance sensor that detects illuminance and a human sensor that detects the presence or absence of a person,
  Also,
  Sub measurement systemLiving space and / or workA system for providing information on temperature and / or humidity to an air conditioning control system that performs air conditioning control in a space,
  Measurement information based on a measurement signal related to the temperature and / or humidity of the space output via radio between the wireless sensor and the wireless reception unit, or processing information generated based on the measurement signal is transmitted to the center device. System like
  The measurement / control processing device that controls the main measurement / control system and the sub-measurement system is installed on the ceiling of the living space and / or work space as a lighting controller configured integrally with the transmission device,
  A measurement / control processing device that controls the main measurement / control system receives a measurement signal output from a control sensor, and controls a control target by driving a control drive unit according to the measurement signal. On the other hand, when a target value is set by a command signal output from the illumination remote controller through the wireless receiver, control is performed so as to follow this target value, and measurement / measurement is performed via the transmission device. Send control information to the center unit,
  The measurement / control processing device that controls the sub measurement system is output from the wireless sensor through the wireless receiver during the surplus time zone of the lighting remote control that is used only a few times a day and manually for only a short time. The measurement signal that changes every moment is taken, and the measurement information or processing information generated based on the measurement signal is transmitted to the center device via the transmission device,
  The measurement / control processor that controls the main measurement / control system and sub-measurement system discards both signals when a command signal is sent from the lighting remote control and a measurement signal is sent from the wireless sensor at the same time. Input command signals and measurement signals that are transmitted at different times with the illumination remote control and wireless sensor.Based on the sensation of the occupants, appropriate air conditioning control and management of living space temperature and / or humidity is performed in real time.It is characterized by that.
[0009]
  Moreover, according to the measurement / control system of claim 2,
  Installed in the living space and / or work space of plants, factories, buildings, etc.A measurement / control system that communicates with a center device via a control system communication line,
  Individual distributed control with open networkA transmission device for the main measurement / control system connected to the control communication line;
  Individual distributed control with open networkA transmission device for a sub-measuring system connected to the control communication line;
  A main measurement / control system processing device connected to the main measurement / control system transmission device;
  A sub-measurement system processing device connected to the sub-measurement system transmission device;
  A control drive connected to the processing device for the main measurement and control system;
  A control sensor connected to the processing device for the main measurement and control system;
  A wireless receiver connected to the main measurement / control system processor and the sub-measurement system processor;
  A wireless sensor that wirelessly transmits to the wireless receiver;
  A wireless transmission device for transmitting wirelessly to a wireless receiver;
  With
  The main measurement / control system processing device to which the command signal output from the wireless transmission device through the wireless reception unit or the measurement signal output from the control sensor is input drives the control drive unit to control the control target. And a main measurement / control system in which the main measurement / control system processing device transmits measurement / control information to the center device via the main measurement / control system transmission device;
  The processing device for the sub measurement system to which the measurement signal output from the wireless sensor is input through the wireless receiver receives the measurement information or the processing information generated based on the measurement signal via the transmission device for the sub measurement system. A sub-measuring system to send to the device;
  And share
  The main measurement and control system is the control targetOf living space and / or working spaceIt is part of a lighting dimming system that performs dimming control of lighting fixtures,
  The wireless transmitter is a remote control for lighting that outputs a command signal of the lighting fixture by infrared rays.
  The wireless receiver is an infrared receiver that receives infrared rays.
  The control drive unit is an inverter control unit that performs dimming control on the lighting fixture,
  The control sensor is a system that is an illuminance sensor that detects illuminance and a human sensor that detects the presence or absence of a person,
  Also,
  Sub measurement systemLiving space and / or workA system for providing information on temperature and / or humidity to an air conditioning control system that performs air conditioning control in a space,
  Measurement information based on a measurement signal related to the temperature and / or humidity of the space output via radio between the wireless sensor and the wireless reception unit, or processing information generated based on the measurement signal is transmitted to the center device. System like
  The measurement / control processing device that controls the main measurement / control system and the sub-measurement system is installed on the ceiling of the living space and / or work space as a lighting controller configured integrally with the transmission device,
  A measurement / control processing device that controls the main measurement / control system receives a measurement signal output from a control sensor, and controls a control target by driving a control drive unit according to the measurement signal. On the other hand, when a target value is set by a command signal output from the illumination remote controller through the wireless receiver, control is performed so as to follow this target value, and measurement / measurement is performed via the transmission device. Send control information to the center unit,
  The measurement / control processor that controls the sub-measurement system uses the wireless receiver to Based on the measurement information or measurement signal, the measurement signal output from the wireless sensor is taken in the surplus time zone of the lighting remote controller that is used only for a short time per manual operation for a short time. Send the generated machining information to the center device via the transmission device,
  The processing device for the main measurement / control system of the main measurement / control system and the processing device for the sub-measurement system of the sub-measurement system, when the command signal is sent from the lighting remote controller and the measurement signal is sent simultaneously from the wireless sensor, Discard both signals, and then input the command signal and measurement signal that were transmitted with the lighting remote control and wireless sensor shifted in time.Based on the sensation of the occupants, appropriate air conditioning control and management of living space temperature and / or humidity is performed in real time.It is characterized by that.
[0010]
Moreover, according to the measurement / control system of claim 3,
In the measurement and control system according to claim 1 or 2,
A plurality of the measurement / control systems are connected to a control communication line.
[0011]
According to the measurement / control system of claim 4,
In the measurement and control system according to any one of claims 1 to 3,
The control communication line is an LON line.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an embodiment of the invention according to claim 1 of the present invention, and is a configuration diagram of an example of a measurement / control system.
As shown in FIG. 1, the overall system is a control in which a multi-unit measurement / control system 10 is a LON (abbreviation of Local Operating Network and a registered trademark of Echelon, USA) adopting a LONTALK protocol. This is a system connected to the system communication line 20. The control system communication line 20 is connected to a center device (not shown) to transmit and receive various kinds of information.
The measurement / control system 10 includes a transmission device 11, a measurement / control processing device 12, a control drive unit 13, a control sensor 14, a wireless reception unit 15, a wireless transmission device 16, and a wireless sensor 17.
[0016]
The transmission device 11 is connected to the control system communication line 20 so that information can be transmitted and received according to a communication protocol (protocol) used in the control system communication line 20.
The measurement / control processing device 12 is connected to the transmission device 11, the control drive unit 13, the control sensor 14, and the wireless reception unit 15. The functions performed by the measurement / control processing device 12 will be described later.
The control drive unit 13 is a drive unit for controlling the control target 30 based on a control signal output from the measurement / control processing device 12.
[0017]
The control sensor 14 measures a necessary physical quantity related to the control of the control target 30 and outputs a measurement signal to the measurement / control processing device 12.
The wireless receiver 15 is a device for receiving a wireless signal.
The wireless transmission device 16 is a device for transmitting a wireless signal, for example, a remote controller that outputs infrared rays (hereinafter, the remote controller is simply referred to as a remote controller), and wirelessly transmits a command signal output in response to a resident's operation. It is a device that can output as a signal.
[0018]
More specifically, the wireless sensor 17 includes a wireless transmission unit 171 and a sensor 172, measures a predetermined physical quantity, and outputs a wireless measurement signal to the wireless reception unit 15.
[0019]
In detail, in such a measurement / control system 10, two systems are constructed.
The first system is the main measurement / control system. The main measurement / control system includes a measurement / control processing device 12, a control drive unit 13, a control sensor 14, a wireless reception unit 15, and a wireless transmission device 16.
[0020]
An outline of the measurement / control processing of the main measurement / control system will be described.
First, an automatic control system is constructed in the main measurement / control system, and a measurement signal output from the control sensor 14 is input to the measurement / control processing device 12, and the measurement / control processing device 12 performs this measurement. In accordance with the signal, the control drive unit 13 is driven to control the control object 30.
In this case, when a target value (for example, a set temperature or the like) is set by a command signal output from the wireless transmission device 16 through the wireless receiver 15, control is performed so as to follow this target value.
The measurement / control processing device 12 transmits information related to measurement / control (hereinafter referred to as measurement / control information) to the center device via the transmission device 11.
[0021]
The second system is a sub measurement system. This sub-measurement system includes a measurement / control processing device 12, a wireless receiver 15, and a wireless sensor 17. In this case, the measurement / control processing device 12 and the wireless reception unit 15 have the same configuration as the main measurement / control system.
[0022]
Next, the measurement process of the sub measurement system will be outlined.
The measurement / control processing device 12 to which the measurement signal output from the wireless sensor 17 is input via the wireless receiver 15 transmits the measurement information or the processing information generated based on the measurement signal to the transmission device 11 / control system. The data is transmitted to the center device via the communication line 20.
[0023]
Thus, the main measurement / control system and the sub-measurement system share a part of the configuration, and the overall configuration of the measurement / control system 10 is reduced.
Specifically, the wireless transmission device 16 is an infrared remote control by manual operation and is not frequently used, and is used several times a day and only for a short time per time. Due to such circumstances, the measurement signal changing from the wireless sensor 17 in the surplus time zone can be taken in, and there is no practical problem.
[0024]
Even if a command signal from the wireless transmission device 16 or a measurement signal from the wireless sensor 17 is transmitted at the same time and cannot be received, for example, the wireless transmission device 16 immediately resends thereafter. However, if the wireless sensor 17 transmits data after several minutes, the command signal and the measurement signal can be input. Such a processing method is appropriately selected.
[0025]
Next, further specific examples of the wireless sensor 17, the wireless receiver 15, the measurement / control processing device 12, and the transmission device 11 will be described with reference to the drawings.
FIG. 2 is a configuration diagram of a wireless sensor, and FIG. 3 is a configuration diagram of a wireless reception unit, a measurement / control processing device, and a transmission device. In this specific example, the sub-measuring system measures temperature and humidity.
[0026]
The wireless sensor 17 in FIG. 2 includes a wireless transmission unit 171 and a sensor 172.
The wireless transmission unit 171 includes an E / O conversion unit 171a, a modulation unit 171b, a pattern pulse generation unit 171c, a pattern setting unit 171d, and a power supply control unit 171e.
The sensor 172 includes an A / D converter 172a, a temperature sensor 172b, and a humidity sensor 172c.
[0027]
As shown in FIG. 3, the transmission apparatus 11 includes an LON transceiver 11a and an LON controller 11b.
The measurement / control processing device 12 includes a CPU (Central Processing Unit) 12a, a measurement number setting unit 12b, and a pattern pulse determination unit 12c.
The wireless reception unit 15 includes an amplification / demodulation unit 15a and an O / E conversion unit 15b.
These are each provided with a battery or an AC / DC conversion power supply unit (not shown).
[0028]
Next, temperature / humidity measurement by the sub measurement system including the wireless sensor 17, the wireless receiver 15, the measurement / control processing device 12, and the transmission device 11 having the above configuration will be described.
The temperature sensor 172b is composed of various sensors such as a semiconductor thermocouple, bimetal, thermistor, or thermofuse, and performs temperature measurement and outputs an analog temperature measurement signal.
The humidity sensor 172c measures humidity and outputs an analog humidity measurement signal.
[0029]
The A / D conversion unit 172a A / D converts the analog temperature measurement signal and the analog humidity measurement signal to generate digital temperature measurement data and digital humidity measurement data, and outputs them to the wireless transmission unit 171.
[0030]
The digital temperature measurement data and digital humidity measurement data are output to the pattern pulse generation unit 171c via the power supply control unit 171e. The pattern pulse generation unit 171c holds a pattern of an infrared signal set in advance corresponding to the digital temperature measurement data or the digital humidity measurement data based on the input digital temperature measurement data and digital humidity measurement data. The pattern pulse signal is generated by the unit 171d and output to the modulation unit 171b.
[0031]
The modulation unit 171b modulates the pattern pulse signal and outputs the modulation pulse to the E / O conversion unit 171a.
The E / O conversion unit 171a includes an infrared LED as an infrared light emitting element, and transmits a modulation pulse including a measurement signal as an infrared signal.
[0032]
Subsequently, as shown in FIG. 3, the O / E converter 15b receives the infrared signal and outputs a modulated pulse of the electric signal.
The amplification / demodulation unit 15a amplifies / demodulates the modulation pulse to generate a pattern pulse, and outputs the pattern pulse to the pattern pulse determination unit 12c.
[0033]
The pattern pulse determination unit 12c discriminates which pattern and outputs it to the CPU unit 12a. The CPU unit 12a obtains a number for determining a measurement location from the measurement number setting unit 12b, and generates measurement information (specifically, measurement data that is digital data) or a combination based on the measurement information. Processing information (specifically, processing data that is digital data) is output to the LON controller 11 b of the transmission device 11.
[0034]
Then, measurement information and processing information are output to the control communication line 20 which is a LONTALK communication line via the LON controller 11b and the LON transceiver 11a. Since LON, which is one of the open networks that enables individual distributed control, is different from the conventional centralized control by the parent controller, it is advantageous in terms of cost, such as reducing the number of wires, facilitating system changes and equipment expansion. Yes.
[0035]
Next, a second embodiment that is more realistic than the first embodiment will be described with reference to the drawings. 4 is a block diagram of the entire system, and FIG. 5 is a block diagram of the measurement / control system.
The overall system shown in FIG. 4 is a flexible energy control system, and the illumination dimming system 100 and the air conditioning control system 200 are connected to the control system communication line 20.
[0036]
The illumination dimming system 100 is connected to a measurement / control system 10 with a plurality of units and a wall switch 19 for dimming control. Each measurement / control system 10 incorporates a main measurement / control system for dimming control and a sub-measurement system for air conditioning control.
The air conditioning control system 200 includes an indoor humidity temperature sensor 201, an electric energy sensor 202, a differential pressure type flow meter 203, a pipe insertion thermometer 204, a touch panel small monitor 205, and an air conditioning control drive unit 206.
[0037]
The control communication line 20 is connected to the information communication line 400 via the gateway 300.
The gateway 300 has a function of performing protocol conversion between the LONTALK protocol of the control communication line 20 and the TCP / IP protocol of the information communication line 400.
[0038]
For example, a center device 401 is connected to the information system communication line 400. Further, the remote monitoring apparatus 600 is also connected to the router 402 and a network 500 such as a public line / dedicated ruled line.
Since the entire system is configured in this way, measurement / control information (specifically, measurement / control data that is digital data) output from the main measurement / control system of the measurement / control system 10 or output from the sub-measurement system The measurement information (specifically, measurement data that is digital data) is transmitted to the gateway 300 through the control communication line 20, converted into a protocol, and sent to the center device 401 or the remote monitoring apparatus 600 through the information communication line 400. Is output. In addition, a command signal output from the remote monitoring device 600 or the center device 401 is transmitted to the measurement / control system 10.
[0039]
The measurement / control system 10 is configured as shown in FIG.
First, a main measurement / control system that performs dimming control will be described.
A large number of fluorescent lamps 30 (corresponding to the controlled object 30 in FIG. 1) are installed in the ceiling 1000 of a living space or work space such as a plant, factory, or building. An inverter control device 13 (corresponding to the control drive unit 13 in FIG. 1) is connected to the fluorescent lamp 30 so that the fluorescent lamp 30 can be dimmed and controlled by increasing or decreasing the frequency. The fluorescent lamp 30 may be a high-frequency lighting-only fluorescent lamp (Hf fluorescent lamp), and further high efficiency and high output may be realized as Hf inverter illumination.
These inverter control devices 13 are controlled by a control signal transmitted by the measurement / control processing device 12.
[0040]
A control sensor 14 (corresponding to the control sensor 14 in FIG. 1) and an infrared light receiving unit 15 (corresponding to the wireless receiving unit 15 in FIG. 1) are embedded in the center of the ceiling 1000. Being connected.
[0041]
The control sensor 14 is provided with an illuminance sensor 14a and a human sensor 14b.
The illuminance sensor 14a measures the illuminance in the room and outputs a measurement signal. If it is daytime and the illuminance is high, the illuminance of the fluorescent lamp 30 is reduced. Conversely, if it is nighttime and the illuminance is low, the illuminance of the fluorescent lamp 30 is increased. The control processing device 12 controls the inverter control device 13.
The human sensor 14b detects the presence or absence of a person in the room. When there is no occupant, the measurement / control processing device 12 controls the inverter control device 13 so that the fluorescent lamp 30 is turned off or the illuminance is lowered.
[0042]
The occupant operates the illumination remote controller 16 (corresponding to the wireless transmitter 16 in FIG. 1), and an infrared command signal is received by the infrared light receiver 15, and the command signal is input to the measurement / control processor 12. In the case where the light intensity is controlled, dimming control such as increase / decrease / extinguish / illuminate is performed.
The measurement / control information related to the measurement / control information is transmitted to the control communication line 20 via the transmission device 11 (corresponding to the transmission device 11 in FIG. 1).
[0043]
Here, in FIG. 5, the control sensor 14 and the infrared light receiving unit 15 are integrally configured as a sensor unit, but may be installed separately according to circumstances such as the structure of the building.
Further, although the transmission device 11 and the measurement / control processing device 12 are integrally configured as an illumination controller, the configuration may be changed as appropriate, for example, the measurement / control processing device 12 may be separated as an option.
This is the main measurement / control system that performs dimming control.
[0044]
Next, a sub measurement system that measures temperature and humidity will be described.
The wireless sensor 17 (corresponding to the wireless sensor 17 in FIG. 1) measures only temperature, only humidity, or temperature and humidity, generates a measurement signal, and outputs a measurement signal using infrared rays. When light is received by the infrared light receiver 15 (corresponding to the wireless receiver 15 in FIG. 1) and a measurement signal is input to the measurement / control processing device 12, measurement information or processing generated based on the measurement signal The information is transmitted to a center device (not shown) via the transmission device 11 and the control system communication line 20.
The sub measurement system that performs measurement is like this.
[0045]
Next, a third embodiment according to claim 2 of the present invention will be described with reference to FIG. FIG. 6 is a configuration diagram of another example of the measurement / control system. Unlike the first and second embodiments, this system is characterized in that the measurement / control processing device is separated.
As shown in FIG. 6, the overall system is a system in which one or a plurality of units of measurement / control systems 40 are connected to the control communication line 20. The control communication line 20 is connected to a center device (not shown) to transmit / receive information.
[0046]
The measurement / control system 40 includes a main measurement / control system transmission device 41, a main measurement / control system processing device 42, a control drive unit 13, a control sensor 14, a wireless reception unit 15, a wireless transmission device 16, a wireless sensor. 17, a sub-measurement system transmission device 43 and a sub-measurement system processing device 44.
In addition, the same structure as 1st Embodiment attaches | subjects the same code | symbol, and abbreviate | omits the overlapping description.
[0047]
The main measurement / control system transmission device 41 is connected to the control system communication line 20 so that information can be transmitted and received according to the communication protocol (protocol) used in the control system communication line 20.
The main measurement / control system processing device 42 is connected to the main measurement / control system transmission device 41, the control drive unit 13, the control sensor 14, and the wireless reception unit 15.
[0048]
The sub-measurement system transmission device 43 is connected to the control system communication line 20 so that information can be transmitted and received according to a communication protocol (protocol) used in the control system communication line 20.
The sub-measurement system processing device 44 is connected to the sub-measurement system transmission device 43 and the wireless receiver 15.
[0049]
In detail, in such a measurement / control system 40, two systems are constructed.
The first system is the main measurement / control system. In the main measurement / control system, the main measurement / control system processing device 42, the control drive unit 13, the control sensor 14, the wireless reception unit 15, and the wireless transmission device 16 are used. By this first system, an automatic control system is constructed, and a measurement signal output from the control sensor 14 is input to the main measurement / control system processing device 42, and the control drive unit 13 is driven to control objects. To control. Note that a target value is set by a command signal output from the wireless transmission device 16 through the wireless receiver 15 and is controlled to follow this target value.
The main measurement / control system processing device 42 transmits measurement / control information related to such measurement / control to the center device via the main measurement / control system transmission device 41.
[0050]
The second system is a sub measurement system. This sub measurement system includes a sub measurement system processing device 44, a wireless receiver 15, and a wireless sensor 17. In this case, the wireless receiver 15 is common to the main measurement / control system. In the measurement processing of the sub measurement system, the measurement signal output from the wireless sensor 17 via the wireless reception unit 15 is input to the sub measurement system processing device 44 and processed based on the measurement information or the measurement signal. Is transmitted to a center device (not shown) via the sub-measurement system transmission device 43.
[0051]
As described above, in this embodiment, the signal processing system is separated in the main measurement / control system and the sub-measurement system. For example, the sub-measurement system is installed later on the existing main measurement / control system. There are advantages in such cases.
[0052]
Subsequently, a fourth embodiment of the present invention will be described with reference to the drawings. FIG. 7 is a configuration diagram of the measurement system, and FIG. 8 is a configuration diagram of the LON chip. In the present embodiment, the configuration of the sub measurement system is further simplified.
For example, only the sub measurement system is constructed by installing the measurement processing unit 50 in the control system communication line 20 and installing the wireless sensor 60 in the vicinity thereof.
[0053]
The measurement processing unit 50 includes an LON chip 51, an infrared light receiving unit 52, and an infrared light emitting unit 53.
The wireless sensor 60 includes an infrared light emitting unit 61, an infrared light receiving unit 62, a CPU unit 63, a temperature measuring unit 64, and other power supply units (not shown).
[0054]
As shown in FIG. 6, the LON chip 51 includes a network CPU 511, a communication port 512, a ROM (Read Only Memory) 513, a RAM (Random Access Memory) 514, an application CPU 515, an I / O (Input / Output). Output) port 516 and EPROM (program-only ROM) 517, which are connected to each other by a control bus 518.
[0055]
The EPROM 517 stores control programs and control data used by the network CPU 511 and the application CPU 515. The ROM 513 previously stores application software for converting between the format used in the CPU unit 63 and the format corresponding to the control communication line 20.
[0056]
The communication port 512 is connected to the control system communication line 20, and the I / O port 516 is connected to the CPU unit 63. The communication port 512 transfers an input signal from the control system communication line 20 to the RAM 514 and temporarily stores it, and outputs an output signal to the control system communication line 20.
Further, the I / O port 516 transfers an input signal from the CPU unit 63 to the RAM 514 and temporarily stores it, and outputs an output signal to the CPU unit 63.
[0057]
The application CPU 515 determines the format of the input signal from the measurement / control processing device 12 stored in the RAM 514 or the output signal to the CPU unit 63, supplies the determination result to the network CPU 515 via the control bus 518, and The data from the network CPU 515 is processed and output to the CPU unit 63 via the I / O port 516.
[0058]
The network CPU 511 reads the corresponding application software from the ROM 513 based on the supplied determination result, and uses the input signal stored in the RAM 514 in accordance with the read application software as a data code format used by the CPU unit 63. Or, it is converted into a format that can be transmitted on the control communication line 20.
[0059]
Next, signal processing will be described.
As shown in FIG. 7, the temperature measurement unit 64 includes an interface that converts an analog temperature measurement signal of room temperature into digital temperature measurement data, and transmits the digital temperature measurement data to the CPU unit 63.
The CPU unit 63 is configured to perform infrared communication and overall control. The CPU unit 63 captures temperature measurement data, adds a control code indicating control contents, an ID number of the wireless sensor 60, and the like to drive the infrared light emitting unit 61. Let
The infrared light receiving unit 52 of the measurement processing unit 50 receives the signal and transmits it to the center device (not shown) via the LON chip 51 and the control system communication line 20.
[0060]
In the present embodiment, a command signal can be transmitted from the center device to the wireless sensor 60, and the CPU unit 63 can select various control modes. The control mode is, for example, a mode for measuring only temperature, a mode for measuring only humidity, or a mode for measuring both temperature and humidity.
Further, the sub measurement system of the present embodiment may be combined with the overall system of the first and second embodiments.
[0061]
The first to fourth embodiments have been described above with reference to the drawings.
Note that the wireless sensor and the measurement processing unit are not limited to the configurations as shown in FIGS. 1 to 6 and the like, and needless to say, can be applied to other configurations within the scope of the present invention.
Furthermore, various wireless sensors are installed, humidity information and airflow information are taken in addition to the temperature information of the living space, air conditioning control is performed by combining these information alone or in combination, It can be applied to air-conditioning equipment that can save energy without drastically deteriorating comfort, such as surpassing with dry air.
[0062]
Furthermore, it is also possible to perform the air-conditioning control / management by transmitting / receiving existing and networked measurement signals provided with a computer as a center device. In this way, a measurement processing system that captures the temperature data of the living space in real time on the center side based on the sensation of the occupants is formed, and appropriate air conditioning control / management is performed.
[0063]
【The invention's effect】
According to the present invention, even if the layout of the free desk or the office layout is changed, the real time based on the occupant's sensation with movement can be obtained while eliminating the wiring laying construction cost from various sensors such as the temperature sensor. Data related to the living space can be taken in at the center side, and appropriate air conditioning control can be performed. As a result, it can contribute to air conditioning management such as energy saving in conjunction with air conditioning control.
[0064]
In general, by sharing the configuration, another measurement system can be incorporated into a measurement / control system, thereby simplifying the configuration of the measurement / control system and achieving accurate measurement.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an example of a measurement / control system.
FIG. 2 is a configuration diagram of a wireless sensor.
FIG. 3 is a configuration diagram of a wireless reception unit, a measurement / control processing device, and a transmission device.
FIG. 4 is a configuration diagram of the entire system.
FIG. 5 is a configuration diagram of a measurement / control system.
FIG. 6 is a configuration diagram of another example of a measurement / control system.
FIG. 7 is a configuration diagram of a measurement system.
FIG. 8 is a configuration diagram of a LON chip.
[Explanation of symbols]
10 Measurement and control system
11 Transmission equipment
11a LON transceiver
11b LON controller
12 Measurement and control processing equipment
12a CPU section
12b Measurement number setting part
12c Pattern pulse determination unit
13 Inverter control device (control drive unit)
14 Control sensor
14a Illuminance sensor
14b Human sensor
15 Infrared receiver (wireless receiver)
15a Amplification / demodulation unit
15b O / E converter
16 Remote control for lighting (wireless transmitter)
17 Wireless sensor
171 Wireless transmitter
171a E / O converter
171b Modulator
171c Pattern pulse generator
171d Pattern setting section
171e Power control unit
172 sensor
172a A / D converter
172b Temperature sensor
172c Humidity sensor
19 Wall switch
20 Control communication line
30 Fluorescent lamp (control target)
40 Measurement and control system
41 Transmission device for main measurement and control system
42 Processing equipment for main measurement and control system
43 Transmission device for sub measurement system
42 Sub-measurement system processor
50 Measurement processing section
51 LON chip
511 Network CPU
512 communication port
513 ROM
514 RAM
515 Application CPU
516 I / O port
517 EPROM
518 Control bus
52 Infrared detector
53 Infrared light emitter
60 Wireless sensor
61 Infrared emitter
62 Infrared detector
63 CPU section
64 Temperature / humidity measurement unit
100 Lighting dimming system
200 Air conditioning control system
201 Indoor temperature and humidity sensor
202 Electric energy sensor
203 Differential pressure type flow meter
204 Piping insertion thermometer
205 Touch panel small monitor
206 Air conditioning control drive unit
300 gateways
400 Information communication line
401 Center device
402 router
500 networks
600 Remote monitoring device
1000 ceiling

Claims (4)

A measurement / control system that is installed in a living space and / or work space of a plant, factory, building, etc., and communicates a control communication line with a center device,
A transmission device connected to a control communication line that performs individual distributed control in an open network ;
A measurement / control processing device connected to the transmission device;
A control drive unit connected to the measurement / control processing device;
A control sensor connected to the measurement / control processing device;
A wireless receiver connected to the measurement / control processor;
A wireless sensor that wirelessly transmits to the wireless receiver;
A wireless transmission device for transmitting wirelessly to a wireless receiver;
With
The measurement / control processing device to which the command signal output from the wireless transmission device through the wireless reception unit or the measurement signal output from the control sensor is input controls the control target by driving the control drive unit, A main measurement / control system in which the measurement / control processing device transmits measurement / control information to the center device via the transmission device;
The measurement / control processing device to which the measurement signal output from the wireless sensor is input through the wireless reception unit transmits measurement information or processing information generated based on the measurement signal to the center device via the transmission device. A measurement system;
And share
The main measurement / control system is a part of a lighting dimming system that performs dimming control of lighting fixtures in the living space and / or work space to be controlled,
The wireless transmitter is a remote control for lighting that outputs a command signal of the lighting fixture by infrared rays.
The wireless receiver is an infrared receiver that receives infrared rays.
The control drive unit is an inverter control unit that performs dimming control on the lighting fixture,
The control sensor is a system that is an illuminance sensor that detects illuminance and a human sensor that detects the presence or absence of a person,
Also,
The sub-measurement system is a system that provides information on temperature and / or humidity to an air conditioning control system that performs air conditioning control in a living space and / or work space,
Measurement information based on a measurement signal related to the temperature and / or humidity of the space output via radio between the wireless sensor and the wireless reception unit, or processing information generated based on the measurement signal is transmitted to the center device. System like
The measurement / control processing device that controls the main measurement / control system and the sub-measurement system is installed on the ceiling of the living space and / or work space as a lighting controller configured integrally with the transmission device,
A measurement / control processing device that controls the main measurement / control system receives a measurement signal output from a control sensor, and controls a control target by driving a control drive unit according to the measurement signal. On the other hand, when a target value is set by a command signal output from the illumination remote controller through the wireless receiver, control is performed so as to follow this target value, and measurement / measurement is performed via the transmission device. Send control information to the center unit,
The measurement / control processing device that controls the sub measurement system is output from the wireless sensor through the wireless receiver during the surplus time zone of the lighting remote control that is used only a few times a day and manually for only a short time. The measurement signal that changes every moment is taken, and the measurement information or processing information generated based on the measurement signal is transmitted to the center device via the transmission device,
The measurement / control processor that controls the main measurement / control system and sub-measurement system discards both signals when a command signal is sent from the lighting remote control and a measurement signal is sent from the wireless sensor at the same time. Input command signals and measurement signals sent by the lighting remote control and wireless sensor at different times, respectively , and based on the sensation of the occupants, appropriate air conditioning control and management of living space temperature and / or humidity in real time measurement and control system and performing. A measurement / control system that is installed in a living space and / or work space of a plant, factory, building, etc., and communicates with a center device via a control system communication line,
A transmission device for the main measurement / control system connected to a control communication line for individual distributed control in an open network ;
A transmission device for a sub-measurement system connected to a control communication line that performs individual distributed control in an open network ;
A main measurement / control system processing device connected to the main measurement / control system transmission device;
A sub-measurement system processing device connected to the sub-measurement system transmission device;
A control drive connected to the processing device for the main measurement and control system;
A control sensor connected to the processing device for the main measurement and control system;
A wireless receiver connected to the main measurement / control system processor and the sub-measurement system processor;
A wireless sensor that wirelessly transmits to the wireless receiver;
A wireless transmission device for transmitting wirelessly to a wireless receiver;
With
The main measurement / control system processing device to which the command signal output from the wireless transmission device through the wireless reception unit or the measurement signal output from the control sensor is input drives the control drive unit to control the control target. And a main measurement / control system in which the main measurement / control system processing device transmits measurement / control information to the center device via the main measurement / control system transmission device;
The processing device for the sub measurement system to which the measurement signal output from the wireless sensor is input through the wireless receiver receives the measurement information or the processing information generated based on the measurement signal via the transmission device for the sub measurement system. A sub-measuring system to send to the device;
And share
The main measurement / control system is a part of a lighting dimming system that performs dimming control of lighting fixtures in the living space and / or work space to be controlled,
The wireless transmitter is a remote control for lighting that outputs a command signal of the lighting fixture by infrared rays.
The wireless receiver is an infrared receiver that receives infrared rays.
The control drive unit is an inverter control unit that performs dimming control on the lighting fixture,
The control sensor is a system that is an illuminance sensor that detects illuminance and a human sensor that detects the presence or absence of a person,
Also,
The sub-measurement system is a system that provides information on temperature and / or humidity to an air conditioning control system that performs air conditioning control in a living space and / or work space,
Measurement information based on a measurement signal related to the temperature and / or humidity of the space output via radio between the wireless sensor and the wireless reception unit, or processing information generated based on the measurement signal is transmitted to the center device. System like
The measurement / control processing device that controls the main measurement / control system and the sub-measurement system is installed on the ceiling of the living space and / or work space as a lighting controller configured integrally with the transmission device,
A measurement / control processing device that controls the main measurement / control system receives a measurement signal output from a control sensor, and controls a control target by driving a control drive unit according to the measurement signal. On the other hand, when a target value is set by a command signal output from the illumination remote controller through the wireless receiver, control is performed so as to follow this target value, and measurement / measurement is performed via the transmission device. Send control information to the center unit,
The measurement / control processing device that controls the sub measurement system is output from the wireless sensor through the wireless receiver during the surplus time zone of the lighting remote control that is used only a few times a day and manually for only a short time. The measurement signal that changes every moment is taken, and the measurement information or processing information generated based on the measurement signal is transmitted to the center device via the transmission device,
The processing device for the main measurement / control system of the main measurement / control system and the processing device for the sub-measurement system of the sub-measurement system, when the command signal is sent from the lighting remote controller and the measurement signal is sent simultaneously from the wireless sensor, Discard both signals, and then input the command signal and measurement signal transmitted by shifting the time with the lighting remote control and the wireless sensor, respectively , and based on the sensation of the occupants, the temperature of the living space and / or in real time A measurement and control system characterized by appropriate air conditioning control / management of humidity . In the measurement and control system according to claim 1 or 2,
A measurement / control system, wherein a plurality of the measurement / control systems are connected to a control communication line. In the measurement and control system according to any one of claims 1 to 3,
The measurement / control system, wherein the control communication line is a LON line .

Images