JP4186047B2 - Air conditioning network system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioning network system for a multi-control air conditioner installed in, for example, a large-scale building. More specifically, the present invention relates to an air conditioning network that remotely controls a plurality of indoor and outdoor units on a network using a converter unit and a user interface unit It is about the system.
[0002]
[Prior art]
The air conditioning network system arranges the required number of indoor units on each floor of a building, for example, and enables the air conditioning control on each floor by suspending these indoor units, outdoor units and a centralized control device on a field bus network. FIG. 4 shows a system configuration example of the system.
[0003]
That is, in this air conditioning network system, a plurality of indoor units 2, a single outdoor unit 3 and a central control device 4 are connected to the network bus 1, and the indoor units 2 and the outdoor units 3 are remotely controlled by the central control device 4. Control air conditioning.
[0004]
The central control device 4 includes a converter unit 5 for making the data frame on the network compatible with the user interface unit 8, the indoor unit 2, and the outdoor unit 3, and the user interface unit 8 allows the indoor unit 2 and the outdoor unit 3 to be remotely connected. Control.
[0005]
The user interface unit 8 includes a U / I (dedicated) unit 6 as a software control terminal using a dedicated controller and a U / I (PC) unit 7 as a software control terminal using a PC (personal computer). The U / I (dedicated) unit 6 and the U / I (PC) unit 7 each comply with a predetermined communication protocol. The U / I (dedicated) unit 6 and the U / I (PC) unit 7 are supplied with power from the converter unit 5.
[0006]
Therefore, for example, when a power failure occurs, the power supply is stopped. At the time of this power failure, it is necessary to perform at least processing for storing the state of the indoor unit 2, but since there are many indoor units 2 on the network, a certain amount of processing time is required. In this case, not only the converter unit 5 side but also the user interface unit 8 side needs to secure a sufficient time from the detection of the power failure until the internal CPU is reset.
[0007]
By the way, the converter unit 5 is an AC commercial power supply. 9 Is converted to a DC voltage (for example, 12V) by the AC / DC power supply 5a, and the DC voltage is converted to a constant voltage (5V) by the regulator 5b to be used as an operating voltage for the CPU 5c or the like that performs processing necessary for air conditioning control. Is supplied as a power source for the U / I (dedicated) unit 6 and the U / I (PC) unit 7.
[0008]
Further, in order to detect a power failure or the like, the DC voltage is input to the power failure detection circuit 5d, a power failure detection signal is obtained and output to the CPU 5c, and the CPU 5c performs necessary processing at the time of the power failure. The CPU 5c can transmit / receive data to / from the U / I (dedicated) unit 6 and the U / I (PC) unit 7, and outputs data on the network bus 1 and inputs data on the network bus 1. To do.
[0009]
Further, the U / I (dedicated) unit 6 uses the DC voltage from the converter unit 5 as a constant voltage by the regulator 6a and uses it as an operation power source for the CPU 6b, the operation unit 6c, the display unit 6d, etc. that perform processing necessary for air conditioning control. Similarly to the unit 5, the DC voltage is input to the power failure detection circuit 6e, a power failure detection signal is obtained and output to the CPU 6b, and the CPU 6b executes necessary processing at the time of the power failure. The CPU 6b executes processing necessary for air conditioning control (including data transfer processing with the CPU 5c) by operating the operation unit 6c, and displays the air conditioning control state and the like on the display unit 6d.
[0010]
The U / I (PC) unit 7 has almost the same configuration as the U / I (dedicated) unit 6 except for the power failure detection circuit. However, as described above, the U / I (PC) unit 7 is generally a personal computer using a dedicated controller. Used as a typical software terminal.
[0011]
According to this air conditioning network system, the data frame from the network bus 1 is protocol-converted and output to the U / I (dedicated) unit 6 and the U / I (PC) unit 7, and the U / I (dedicated) unit 6 The data from the U / I (PC) unit 7 is protocol-converted and output to the network bus 1 to perform bidirectional communication of data between the network bus 1 and the terminal, whereby the indoor unit 2 and the outdoor unit 3 Can be remotely controlled.
[0012]
[Problems to be solved by the invention]
In many cases, the user interface unit 8 including the U / I (dedicated) unit 6 and the U / I (PC) unit 7 is attached to the wall surface of a building. For this reason, a thin and highly sealed casing is used, but it is necessary to minimize heat generation from the viewpoint of safety when supplying power.
[0013]
In order to suppress the heat generation, the supply voltage is stepped down at the front stage of the regulator. However, the detection level of the voltage is inevitably reduced, so that the detection of the power failure is delayed. In other words, the power failure detection level is narrowed if the heat generation is suppressed, and the heat generation cannot be suppressed if the power failure detection level is increased.
[0014]
Moreover, since the power failure detection is performed independently by the converter unit 5 and the user interface unit 8, the power failure detection is the same. Expect The U / I (PC) unit 7 cannot detect a power failure. In view of the heat generated in the regulator, there is a method in which a diode 6f is inserted in the forward direction in front of the regulator 6a and the supply power is stepped down by the voltage drop of the diode 6f, as illustrated in FIG.
[0015]
In this case, the input AC power source is stepped down by a step-down transformer of the AC / DC power source 5a to be a supply power source (DC voltage). When the DC voltage is 12V, a plurality of diodes 6f are connected in series, The DC voltage is stepped down to 7V and input to the regulator 6a, and a power source (5V) such as a CPU is output by the regulator 6a. The output stage of the regulator 6a starts to drop from the voltage obtained by subtracting the step-down amount.
[0016]
For example, as shown in FIG. 6, when the 12V voltage in the converter unit 5 starts to drop due to a power failure (see FIG. 6A), the 7V voltage via the diode 6f drops almost simultaneously with the 12V voltage drop. The output voltage (5V) of the regulator 6a starts to fall later than the 7V voltage (see (c) in the figure).
[0017]
On the other hand, when the 12V voltage becomes equal to or lower than the reference value Ref, a power failure detection signal is output from the power failure voltage circuit 6e (see FIG. 4D), and the CPU 6b receiving this power failure detection signal executes a reset process (FIG. (See (e)).
[0018]
When considering the heat generation of the regulator 6a, the output voltage of the regulator 6a starts to drop before the 12V voltage drops to the reference value Ref. Therefore, the time t from the detection of the power failure to the reset processing of the CPU 6b is inevitably shortened. End up.
[0019]
If the time t is short, the current state of the air-conditioning network system is not completely stored and may end in a halfway process, and cannot be restored to the original state when the system is restarted. Therefore, in the prior art, the reaction in the power failure detection circuit cannot be accelerated unless the heat generation of the regulator is allowed and the voltage is not stepped down before the regulator.
[0020]
The present invention has been made in order to solve the above-described problems. The purpose of the present invention is to suppress the regulator heat generation in the user interface unit and to increase the time from power failure to CPU reset by speeding up the reaction of power failure detection. An object of the present invention is to provide an air conditioning network system capable of reliably performing necessary processing at the time.
[0021]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a plurality of indoor and outdoor units connected on a network, a user interface unit for enabling remote control of the indoor and outdoor units, the user interface unit, and each indoor and outdoor unit. In an air conditioning network system that includes a centralized control device having a converter unit for making communication compatible with each other, and controls the indoor and outdoor units according to the operation of the air conditioning control operation means of the user interface unit to realize air conditioning control, The converter unit steps down, rectifies and smoothes an AC power source to obtain a first DC voltage, further steps down the first DC voltage by DC / DC converter means to obtain a second DC voltage, and the second DC voltage. The First The regulator supplies the converter unit operating voltage and supplies the second DC voltage to the user interface unit. On the other hand, a power failure is detected by the first DC voltage, and the power failure detection information is transmitted to the user interface unit. In the user interface unit, the supplied second DC voltage is Second Use the regulator as the operating voltage of the user interface On the other hand, power failure processing can be performed by the transmitted power failure detection information. It is characterized by doing so.
[0022]
It is preferable that the power source for generating the first DC voltage and the power source for generating the second DC voltage have an insulating structure using a transformer. As a result, electrical insulation in the centralized control device becomes appropriate, which is preferable in terms of safety standards, and design of a circuit portion using other voltages can be performed very easily.
[0023]
The user interface unit includes a dedicated interface unit (U / I (dedicated) unit) including at least an air conditioning control operation unit and a display unit, and a personal computer interface unit (U / I (PC) unit). Communication between the converter unit, U / I (dedicated) unit, and U / I (PC) unit adopts the same interface as a personal computer and uses the same converter unit. The connection between the I (PC) unit and the U / I (dedicated) unit is preferably made possible. According to this, communication is possible between the U / I (dedicated) unit and the U / I (PC) unit, and the functions of the system can be expanded, and the U / I (dedicated) unit and U / I (PC) unit can be expanded. The indoor / outdoor unit can be controlled by any of the units.
[0024]
In addition, the converter unit once captures the power failure detection information, determines whether it is an instantaneous power failure or a power failure with a time accompanied by a CPU reset, and includes the power failure detection information including the determination as the user interface unit. Thus, unnecessary power outage detection process execution in the user interface unit can be reduced, and other processes can be performed accordingly, so that the function of the system can be expanded.
[0025]
In order to optimize the operating voltage in the user interface unit, the DC voltage supplied from the converter unit to the user interface unit includes at least the converter unit, the U / I (dedicated) unit, and the U / I (PC) unit. It is preferable to generate in consideration of the voltage drop of the connection cable.
[0026]
In addition, the communication between the converter unit and the user interface unit is R. S Using the 232C protocol, using an empty pin for transmission of power failure detection information other than communication and handshaking for air conditioning control, and ensuring compatibility between the U / I (PC) unit and the U / I (dedicated) unit Good.
[0027]
Furthermore, the converter unit detects a power failure internally, transmits the power failure detection information to the U / I (PC) unit of the personal computer using an empty pin of the RS232C interface, and is applied by the application software installed in the personal computer. It is preferable to determine the presence or absence of a power failure, notify the power failure, restart the resynchronization process with the converter after the power failure is restored, and allow the indoor and outdoor units on the network to be restarted.
[0028]
Thereby, the system is reliably controlled by the standard interface, and power failure processing by power failure detection is realized in the converter unit and the user interface unit without affecting each communication. Further, a power failure detection and power failure process are executed in the U / I (PC) unit of the user interface unit, and when the input AC power source is restored, the system is restarted.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described in detail with reference to FIGS. In the figure, the same parts as those in FIG.
[0030]
As shown in FIG. 1, the centralized control device CC of the air conditioning network system of the present invention includes a user interface unit 10 and a converter unit 11. The converter unit 11 steps down a DC voltage using a DC / DC converter. Is supplied to the user interface unit 10 and the stepped-down DC voltage is regulated by the regulator. (First regulator) 11b The operating voltage of the converter unit 11 is detected, and a power failure is detected and transmitted to the user interface unit 10. The user interface unit 10 regulates the stepped-down DC voltage (Second regulator) 12a Therefore, the operation voltage of the user interface unit 10 is reduced, thereby suppressing the regulator heat generation, speeding up the reaction of the power failure detection, and synchronizing the necessary processing between the converter unit 11 and the user interface unit 10 at the time of the power failure. .
[0031]
The converter unit 11 is an input AC power source 9 Is stepped down by a step-down transformer of the AC / DC power source 5a, and full-wave rectified and smoothed to obtain a DC voltage (first DC voltage; 12V). This DC voltage is further stepped down by the DC / DC power source (converter) 11a. The stepped down voltage (second DC voltage; 7V) is converted to a constant voltage of 5V by the regulator 11b and used as a power supply voltage for the CPU 5c and the like, while the stepped down 7V voltage is supplied to the user interface unit 10 and the power failure of the power failure detection circuit 5d. The detection information is transmitted to the user interface unit 10 via the buffer circuit 11c.
[0032]
The user interface unit 10 converts the DC voltage (7V) supplied from the converter unit 11 to a constant voltage of 5V by the regulator 12a as a power supply voltage of the user interface unit 10, and a power failure detection signal transmitted from the converter unit 11 is a buffer circuit. U / I (dedicated) unit 12 that takes in through 12b and performs processing necessary for air-conditioning control, and it is necessary to receive the power supply and power failure detection signal from converter unit 11 in the same manner as this U / I (dedicated) unit 12 And a U / I (PC) unit 13 that executes various processes.
[0033]
The other functions of converter unit 11, U / I (dedicated) unit 12 and U / I (PC) unit 13 are the same as converter unit 5, U / I (dedicated) unit 6 and U described in FIG. / I (PC) unit 7 may be the same.
[0034]
Further, the user interface unit 10 has a configuration in which the power failure detection circuit 6e shown in FIG. 4 is omitted, but is synchronized with the converter unit 11 in both the U / I (dedicated) unit 12 and the U / I (PC) unit 13. Power failure detection. Therefore, as shown in FIG. 2, the power failure detection circuit 5d of the converter unit 11 compares the output DC voltage (12V) of the AC / DC power source 5a with the reference value Ref, and outputs the comparison result as a power failure detection signal. It consists of a circuit.
[0035]
In this case, the power failure detection circuit 5d is designed to react with a reference that can be determined as a power failure at a voltage level as high as possible, taking into account variations in voltage conversion of the AC / DC power supply 5a. Specifically, the comparator circuit may react with a reference voltage of 11 V, for example, during a power failure. As a result, the 5V system does not fluctuate until the 12V system voltage drops from 11V to 8V, and an extra time of 3V is ensured until the CPU is reset as compared with FIG.
[0036]
Next, the operation of the centralized control device CC of this air conditioning network system will be described with reference to the time chart of FIG. For example, when a building manager or the like operates the operation unit 6c of the U / I (dedicated) unit 12 or the U / I (PC) unit 13 to perform settings necessary for air conditioning control of each floor, the central control device 10 Then, data corresponding to the operation is sent to the network bus 1 via the converter unit 11. The indoor unit 2 and the outdoor unit 3 start control based on the data, and control air conditioning in each floor.
[0037]
In this case, the AC / DC power source 5a of the converter unit 11 is an AC power source. 9 The rectified and smoothed power supply (DC voltage: 12V system) is output with a step-down transformer, and the DC / DC power supply 11a of the chopper system for stabilizing the low voltage uses the 12V DC voltage of 7V. Convert to system DC voltage.
[0038]
Note that a switching method may be adopted for the AC / DC power supply 5a. Also, the output voltage value of the DC / DC power supply 11a is equal to the operating voltage of the user interface unit 10 and the regulator of the user interface unit 10 12a A value that takes into account the drive voltage, the consumption of the connection cable, and the variation of each device is good.
[0039]
The 7V DC voltage is used as a 5V constant voltage by the regulator 11b as a power supply voltage for the CPU 5c, etc., and the 7V DC voltage is supplied to the user interface unit 10, while the 12V DC voltage is detected as a power failure. Detection is performed by the circuit 5 d and a power failure detection signal is transmitted to the user interface unit 10.
[0040]
The U / I (dedicated) unit 12 of the user interface unit 10 uses the power supply (7V DC voltage) from the converter unit 11 as a constant voltage of 5V by the regulator 12a, and the CPU 6b, the operation unit 6c, the display unit 6d, and the driver Used for power supply voltage. Similarly to the U / I (dedicated) unit 12, the U / I (PC) unit 13 uses a 7V DC voltage as a 5V constant voltage for a power supply voltage of a CPU or the like by a regulator.
[0041]
Here, the connection line between the converter unit 11 and the U / I (dedicated) unit 12 and U / I (PC) unit 13 will be specifically described. S 232C) line is used to perform full-duplex communication at the RxD (received data) and TxD (transmitted data) ports.
[0042]
The handshake line has two lines of DTR (data to ready) / DSR (data set ready) and RTS (request set send) / CTS (clear set send).
[0043]
Further, the power failure detection signal from the power failure detection circuit 5d of the converter unit 11 is connected to, for example, the 1st pin or 9th pin of the RC232C line. That is, the port of the pin is input on the PC side, and an event can be generated by software processing of the PC application.
[0044]
The serial signal output is summarized as follows: Pin 2; RxD, Pin 3; TxD, Pin 4; DTR, Pin 5; Ground wire, Pin 6; DSR, Pin 7; RTS, Pin 8; CTS , Empty pin 1 or pin 9; a power failure detection signal.
[0045]
Thereby, the converter unit 11 can be shared by the U / I (dedicated) unit 12 and the U / I (PC) unit 13, and the power failure detection process can be performed by the application software of the PC as described above. Also, when a power failure is detected, the PC application software detects the power failure for the user, initializes the information display to the user, resynchronizes the serial signal line after the power failure is restored, The startup process can be performed reliably.
[0046]
Here, when a power failure occurs during air-conditioning control, the output voltage (12V DC voltage) of the AC / DC power supply 5a starts to drop (see FIG. 3A), but the output voltage of the DC / DC power supply 11a. (7V system voltage) starts to fall later than that (see FIG. 3B). That is, the DC / DC power supply 11a can stabilize the output voltage over a wide range against the fluctuation of the 12V DC voltage. For example, if the internal loss of the DC / DC power supply 11a is about 1V, the output voltage may be maintained at about 7V even if the input voltage varies from 12V to 8V.
[0047]
Also, the 7V DC voltage starts to drop, and then the regulator 11 The output voltage b (5V DC voltage) starts to drop (see FIG. 3C). In this way, the drop in the 5V DC voltage starts later than the drop in the 7V DC voltage.
[0048]
At this time, when the 12V DC voltage becomes equal to or lower than the reference value Ref, the power failure detection circuit 5d outputs an L level power failure detection signal (see FIG. 3D) to the CPU 5c and also to the user interface unit 10. The Then, when the 5V DC voltage starts to drop considerably later than the 12V DC voltage, and then falls below the reset level, reset processing is performed in each of the CPUs 5c and 6b (see FIG. 3 (e)).
[0049]
As described above, the CPU 5c of the converter unit 11 executes the power failure processing internally by the power failure detection signal, but also in the CPUs of the U / I (dedicated) unit 12 and the U / I (PC) unit 13 of the user interface unit 10. In each case, power failure processing is executed synchronously inside. In the power failure processing, the U / I (dedicated) unit 12 uses the dedicated software to determine the presence or absence of a power failure based on the power failure detection signal, and the U / I (PC) unit 13 detects the power failure by using the installed application software. The presence or absence is determined.
[0050]
In particular, when controlling a huge network system, the information of each indoor unit 2 is rewritten at the time of a power failure, for example, the data of the indoor unit 2 remaining in the reception buffer is stored, or the self-operation when the power is restored In addition, it is necessary to back up the startup operation of the indoor unit 2 to the nonvolatile memory.
[0051]
Therefore, when the U / I (dedicated) unit 12 and the U / I (PC) unit 13 receive the power failure detection signal, the U / I (dedicated) unit 12 and the U / I (PC) unit 13 enter the standby state while monitoring the power failure detection signal after finishing the above-described operation. To do. When the power is restored at that time, the operation is continued, and when the power failure continues, a microcomputer reset is generated after the elapse of time T from the power failure detection to the reset, and the reset process is executed.
[0052]
In this way, a 7V DC voltage is obtained using the DC / DC power supply 11a, and the 7V DC voltage is converted into a regulator of the converter unit 11. 11b Since the operation voltage of the converter unit 11 is supplied to the U / I (dedicated) unit 12 and the U / I (PC) unit 13, the converter unit 11 and the U / I (dedicated) unit 12 and U / Regulator heat generation in the I (PC) unit 13 is suppressed, and on the other hand, the voltage level for power failure detection is wide and the power failure detection reaction can be made appropriate.
[0053]
Further, as described above, by using the DC / DC power supply 11a, the drop of the 7V DC voltage starts later than the 12V DC voltage, and the reference voltage of the power failure detection circuit 5d is set to a high level. Add to set 5 more V The drop of the system DC voltage starts much later than the 12V system DC voltage.
[0054]
Accordingly, the drop start timing of the 5V DC voltage is considerably delayed as compared with the conventional case (that is, the time T from the power failure detection to the reset is longer than the conventional time t). As a result, the converter unit 11, the U / I (dedicated) unit 12 and the U / I (PC) unit 13 completely store the current state of the air conditioning network system within the time T from the power failure to reset and restart. At this time, it is possible to perform processing such as data collection that enables the return to the original state.
[0055]
In addition, since there is an instantaneous power failure, the power failure detection signal is once taken into the CPU 5c of the converter unit 11 to determine whether it is an instantaneous power failure or a permanent power failure at a level where the 5V DC voltage cannot be maintained. By transmitting the signal to the user interface unit 10, the power failure detection processing work in the user interface unit 10 can be reduced.
[0056]
In addition, the serial signal output from the converter unit 11 uses, for example, two systems of connectors, and when connecting to the U / I (PC) unit 13, a 9th-pin general-purpose cable can be used, and the U / I (dedicated ) When connecting to the unit 12, it is preferable to use a cable with parallel power supply lines.
[0057]
Furthermore, by adopting a double insulation structure in which the first voltage generation unit of the AC / DC power supply 5a and the second voltage generation unit of the DC / DC power supply 11a are configured by a transformer, in terms of safety standards, The design of the circuit configuration using the voltage after that becomes very easy.
[0058]
【The invention's effect】
As described above, according to the present invention, in an air conditioning network system for remotely controlling at least a plurality of indoor and outdoor units connected on a network, a user interface unit for performing the remote control, and each indoor and outdoor unit In the converter unit, this converter unit obtains a first DC voltage obtained by stepping down, rectifying and smoothing an AC power source, and further reducing the first DC voltage by DC / DC converter means to obtain a second DC voltage. DC voltage is obtained and this second DC voltage is First The operation voltage is stabilized by a regulator and the second DC voltage is supplied to the user interface unit. The user interface unit supplies the supplied DC voltage. Second Since the operation voltage is stabilized by a regulator and a second DC voltage lower than the first DC voltage is input to the regulator, Each Heat generation of the regulator is suppressed, and the user interface unit can be safely installed on the wall of the building, and the necessary processing can be performed within the time from power failure to CPU reset.
[0059]
The converter unit supplies the second DC voltage to the user interface unit, detects a power failure by the first DC voltage, outputs the power failure detection information to the user interface unit, and the user interface unit supplies the supplied DC. Voltage Second In addition to the effects described above, the first DC voltage that starts dropping earlier than the second DC voltage is used in addition to the above-described effect by performing the power failure processing based on the power failure detection information while being stabilized by the regulator. Therefore, the power failure detection response can be accelerated and the necessary power failure processing in the converter unit and user interface unit can be performed synchronously, and at least the necessary processing is performed when the system is restarted. However, there is an effect that the power failure detection circuit of the user interface unit is omitted, which is advantageous in terms of cost.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram showing an embodiment of an air conditioning network system according to the present invention.
FIG. 2 is a schematic block diagram showing a main part of a control system of the air conditioning network system.
FIG. 3 is a timing chart for explaining the operation of the air conditioning network system.
FIG. 4 is a schematic block diagram showing a conventional air conditioning network system.
FIG. 5 is a schematic block diagram showing a power supply system of the conventional air conditioning network system.
FIG. 6 is a timing chart for explaining the operation of the conventional air conditioning network system.
[Explanation of symbols]
1 Network bus
2 indoor units
3 Outdoor unit
5a AC / DC power supply for converter
5c Converter unit CPU
5d Power failure detection circuit for converter
6b U / I (dedicated) CPU
6c U / I (dedicated) operation section
6d U / I (dedicated) display section
10 User interface section
11 Converter section
11a DC / DC power supply
11b First regulator
12 U / I (dedicated) section
12a Second regulator
12b Buffer circuit
13 U / I (PC) section
CC central control unit

Claims (7)

A plurality of indoor / outdoor units connected on a network, a user interface unit for enabling remote control of the indoor / outdoor units, and a converter unit for compatibility between the user interface unit and each indoor / outdoor unit In an air conditioning network system comprising a centralized control device, and controlling the indoor and outdoor units according to the operation of the air conditioning control operation means of the user interface unit to realize air conditioning control,
The converter unit steps down, rectifies and smoothes an AC power source to obtain a first DC voltage, further steps down the first DC voltage by DC / DC converter means to obtain a second DC voltage, and the second DC voltage. Is used as the operating voltage of the converter unit by the first regulator, and the second DC voltage is supplied to the user interface unit, while a power failure is detected by the first DC voltage, and the power failure detection information is transmitted to the user interface. In the user interface unit, the supplied second DC voltage is used as the operating voltage of the user interface unit by the second regulator, and the power failure detection process can be performed by the transmitted power failure detection information. An air conditioning network system characterized by 2. The air conditioning network system according to claim 1, wherein the power source that generates the first DC voltage and the power source that generates the second DC voltage have an insulating structure using a transformer. The user interface unit includes a dedicated interface unit (U / I (dedicated) unit) including at least an air conditioning operation unit and a display unit, and a personal computer interface unit (U / I (PC) unit), and the converter unit The U / I (dedicated) unit and the U / I (PC) unit communicate with each other by adopting an interface equivalent to that of a personal computer to share the converter unit. The air conditioning network system according to claim 1, wherein a / I (PC) unit and the U / I (dedicated) unit can be connected. The converter unit takes in the power failure detection information into the CPU, determines whether it is an instantaneous power failure or a power failure with a time accompanied by a CPU reset, and the power failure detection information including the determination is transmitted to the user interface unit. The air-conditioning network system according to claim 1 , wherein the unnecessary power failure detection processing execution in the user interface unit is reduced. The DC voltage supplied to the user interface unit is generated in consideration of at least a voltage drop of a connection cable between the converter unit, the U / I (dedicated) unit, and the U / I (PC) unit. Item 5. The air conditioning network system according to item 3 or 4 . The RS 232C protocol is used for communication between the converter unit and the user interface unit, and an unused pin other than the communication for air conditioning control and handshaking is used for transmission of power failure detection information, and the U / I (PC 6) The air conditioning network system according to claim 3 , 4 or 5 , wherein compatibility between the unit and the U / I (dedicated) unit is ensured. The converter detects a power outage internally, transmits the power outage detection information to the U / I (PC) part of the personal computer using an empty pin of the RS232C interface, and uses the application software installed on the personal computer to stop the power outage. determine the presence or absence of informed of power failure, and restarts the resynchronization process between the converter unit after the recovery from the power failure, according to claim 3 comprising as possible to restart the indoor and outdoor machines on the network, 4 or 5 Air conditioning network system as described in.

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