JP6530920B2 - Air conditioner, indoor unit of air conditioner, and communication method of air conditioner - Google Patents

Description

  The present invention relates to an air conditioner and the like.

There are two main methods for communicating signals (control messages) in an air conditioner.
The first method is a method of performing communication at a relatively low speed (depending on the power supply frequency) using a power supply line. Although this method requires only one communication line in addition to the power supply line, the amount of information per unit time at the time of communication is relatively small. Therefore, for example, it is used in a store or office where the number of indoor units installed is small, or used when performing operation / stop of a plurality of indoor units at the same timing.

  The second method is a method of performing communication at relatively high speed using two communication lines. Although this method requires two communication lines separately from the power supply line, it has an advantage that the amount of information per unit time at the time of communication is relatively large. Therefore, for example, it is used in a building or the like with a large number of indoor units installed, or used when operating / stopping a plurality of indoor units at different timings.

  As a technique for selectively setting one of the first method and the second method described above, for example, the technique of Patent Document 1 is known. That is, Patent Document 1 describes an air conditioning system having a communication circuit that communicates by two communication lines and another communication circuit that communicates by one power supply line and one communication line. ing. In patent document 1, in order to reduce the operation | work burden at the time of construction, an outdoor unit determines which of each communication circuit is connected by the presence or absence of the response from an indoor unit.

Patent No. 4874201 gazette

When connecting each device of the air conditioner with a communication line, usually the communication method used between the outdoor unit and the indoor unit and the communication method used between the indoor units are connected to be the same. Ru. However, at the time of construction, the worker erroneously connected, and the communication method used between the outdoor unit and the indoor unit (for example, the first method described above) and the communication method used between the indoor units (for example, described above And the second method may be different.
In such a case of incorrect connection (error connection), even if one of the first and second methods is selected using the technique described in Patent Document 1, a communication method different from that of the outdoor unit is used. There is a problem that a communication path can not be established between indoor units connected to the.

  Then, this invention makes it a subject to provide the air conditioner etc. which can establish a communication path, even if it is misconnected.

In order to solve the problems described above, in the air conditioner according to the present invention, when a signal is input through one of the first communication port and the second communication port, the communication of the signal is performed. converts the speed to the communication speed corresponding to the other communication port, the signal after the conversion have a communication speed converting means for outputting via the other communication port, the wiring to the first communication port is connected In the case where a communication line is connected as the wiring and a power supply line is connected and a wiring is connected to the second communication port, a communication line may be connected as the wiring. It features.

  According to the present invention, it is possible to provide an air conditioner or the like that establishes a communication path even when misconnected.

It is explanatory drawing which shows the connection state of each apparatus regarding the air conditioner concerning 1st Embodiment of this invention. It is a block diagram of the outdoor unit and indoor unit with which an air conditioner is equipped. It is a flowchart which shows the process which the control apparatus of an indoor unit performs. It is a block diagram of the outdoor unit and indoor unit with which the air conditioner concerning 2nd Embodiment of this invention is provided. It is a flowchart which shows the process which the control apparatus of an indoor unit performs. It is a block diagram of the outdoor unit and indoor unit with which the air conditioner concerning 3rd Embodiment of this invention is provided. It is a flowchart which shows the process which the control apparatus of an outdoor unit performs.

First Embodiment
<Configuration of air conditioner>
FIG. 1 is an explanatory view showing a connection state of each device in the air conditioner 100 according to the first embodiment. The air conditioner 100 is a device that performs indoor air conditioning, and includes an outdoor unit 1, indoor units 21 to 23, and a remote control Re.
Although not shown, the outdoor unit 1 includes a compressor, a four-way valve, an outdoor heat exchanger, an outdoor expansion valve, and an outdoor blower fan. Although not shown, the indoor units 21 to 23 include an indoor heat exchanger, an indoor expansion valve, and an indoor blower fan. The air conditioner 100 air-conditions the room by circulating the refrigerant in a known heat pump cycle.

  As shown in FIG. 1, the outdoor unit 1 and the indoor units 21 to 23 are communication lines such that signals from the outdoor unit 1 are input to the respective indoor units 21 to 23 sequentially through the indoor units 21 to 23. It is connected via etc.

The outdoor unit 1 includes a terminal block 11 for connecting the power supply lines r0, s0, t0, r1, s1 and the communication line m1, and a control device 12 for controlling each device. The terminal block 11 is provided with power supply terminals R, S, T and communication terminals M, H, I.
The power terminals R, S and T of the outdoor unit 1 supply three-phase AC power from the three-phase power supply E to the outdoor unit 1 through the power supply lines r0, s0 and t0, or indoors through the power supply lines r1 and s1. It is a terminal for supplying single-phase AC power to the device 21. The outdoor unit 1 is configured to drive a compressor (not shown) or the like using three-phase AC power supplied from a three-phase power source E.

  Further, in the example illustrated in FIG. 1, the communication line m1 is connected to the communication terminal M of the outdoor unit 1. The communication terminal M uses, for example, a communication speed twice as high as the power supply frequency (for example, 100 bits / second: first communication speed) using one power supply line s1 and one communication line m1. It is a terminal for doing. The communication using the power supply line s1 (so-called power supply line carrier communication) is well known and thus the description thereof is omitted. In the following, relatively low speed communication using the power supply terminal T and the communication terminal M will be referred to as "low speed communication".

The communication terminals H and I of the outdoor unit 1 are terminals for performing communication at, for example, a communication speed (second communication speed) of 9600 bits / second using two communication lines (not shown). . In the following, communication at relatively high speed (that is, higher speed than the above-described "low speed communication") using the communication terminals H and I will be referred to as "high speed communication".
In addition, although the communication terminals H and I of the outdoor unit 1 are not used in the example shown in FIG. 1, depending on the use conditions of the air conditioner 100, it replaces with the communication terminal M and communication terminals H and I are used. There is also. That is, the connection relationship between the outdoor unit 1 and the indoor units 21 to 23 is not limited to the case shown in FIG.

  Although not illustrated, the control device 12 illustrated in FIG. 1 includes electronic circuits such as a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), and various interfaces. Then, the program stored in the ROM is read and expanded in the RAM, and the CPU executes various processing. The air conditioning control unit 12 a included in the control device 12 will be described later.

  The indoor unit 21 includes a terminal block 211 for connecting the power supply lines r1, s1, r2, s2 and the communication lines m1, h2, i2, and a control device 212 for controlling each device. The terminal block 211 is provided with power supply terminals R and S and communication terminals M, H and I. In FIG. 1 (and FIG. 2), for the outdoor unit 1 and the indoor units 21 to 23, the code of the power supply terminal is written as “R, S”, and the code of the communication terminal for performing low-speed communication is “M”. In addition, the code of the communication terminal for performing high-speed communication is described as "H, I".

  As shown in FIG. 1, power supply terminals R and S of the indoor unit 21 are connected to power supply terminals R and S of the outdoor unit 1 through power supply lines r1 and s1. The indoor unit 21 is configured to drive an indoor blower fan (not shown) or the like using one phase (single phase) of the three-phase power source E.

Moreover, in the example shown in FIG. 1, the communication terminal M of the indoor unit 21 and the communication terminal M of the outdoor unit 1 are connected via the communication line m1. That is, the indoor unit 21 performs low-speed communication with the outdoor unit 1 via the power supply line s1 and the communication line m1.
Although not shown, the control device 212 includes electronic circuits such as a CPU, ROM, RAM, and various interfaces, and the indoor blower fan (not shown) based on signals input from the outdoor unit 1 and the remote controller Re. Etc. has a function to control equipment. The air conditioning control unit 212a and the signal conversion unit 212b included in the control device 212 will be described later.

  The remote control Re is for performing operation / stop of the indoor unit 21, selection of the operation mode, setting of temperature, timer, wind direction and the like, and is operated by the user. The air conditioner 100 is provided with three remote controls Re corresponding to the indoor units 21-23.

  The indoor unit 22 has the same configuration as the indoor unit 21. In the example shown in FIG. 1, the power supply terminals R and S of the indoor unit 22 are connected to the power supply terminals R and S of the indoor unit 21 through the power supply lines r2 and s2. Communication terminals H and I of the indoor unit 22 are connected to communication terminals H and I of the indoor unit 21 via communication lines h2 and i2. That is, high speed communication is performed between the indoor units 21 and 22.

  The indoor unit 23 also has the same configuration as the indoor unit 21. In the example shown in FIG. 1, the power supply terminals R and S of the indoor unit 23 are connected to the power supply terminals R and S of the indoor unit 22 through the power supply lines r3 and s3. The communication terminal M of the indoor unit 23 is connected to the communication terminal M of the indoor unit 22 via the communication line m3. That is, low speed communication is performed between the indoor units 22 and 23.

  In the example shown in FIG. 1, the communication terminals M and M for the low-speed communication of the indoor units 21 and 22 should be connected incorrectly by the time of construction when the communication terminals H and H for the high-speed communication and the communication terminals I and I are in a connected state.

  FIG. 2: is a block diagram of the outdoor unit 1 and the indoor unit 21 with which the air conditioner 200 is provided. In FIG. 2, the indoor units 22 and 23 (see FIG. 1) are not shown. Also, in FIG. 2, the power supply terminal R (see FIG. 1) is divided into two power supply terminals R1 and R2 for convenience, and the power supply terminal S (see FIG. 1) is also divided into two power supply terminals S1 and S2. Is described.

  In addition to the control device 12, the outdoor unit 1 includes a converter 13 for converting three-phase AC power to DC power, an inverter 14 for converting DC power input from the converter 13 to three-phase AC power of a predetermined frequency, and an inverter And a load 15 (such as a compressor) driven by three-phase alternating current power input from the unit.

  The air-conditioning control unit 12a included in the control device 12 has a function of controlling the inverter 14 or controlling devices such as an outdoor expansion valve and a four-way valve although not shown. In addition, the air conditioning control unit 12a outputs a signal related to the indoor units 21 to 23 (for example, a command related to the opening degree of the indoor expansion valve) or an inverter based on a signal from the indoor units 21 to 23 (for example, indoor temperature) It controls 14 mag. As described above, signals are exchanged between the outdoor unit 1 (the air conditioning control unit 12a) and the indoor unit 21 by low-speed communication via the power supply line s1 and the communication line m1.

The indoor unit 21 includes, in addition to the control device 212, a converter 213, an inverter 214, and a load 215 (such as an indoor fan).
The control device 212 includes an air conditioning control unit 212a, low speed communication ports mp and sp (first communication port), high speed communication ports hp and ip (second communication port), and a signal conversion unit 212b (communication speed conversion means). ) And.

The air conditioning control unit 212a has a function of controlling the inverter 214 in accordance with a signal input from the outdoor unit 1 or controlling equipment such as an indoor expansion valve although not shown.
The low speed communication ports sp and mp are communication ports used when performing low speed communication. As shown in FIG. 2, the low speed communication port sp is connected to the power supply terminal S, and the low speed communication port mp is connected to the communication terminal M.
The high-speed communication ports hp and ip are communication ports used when performing high-speed communication. As shown in FIG. 2, the high speed communication port hp is connected to the communication terminal H, and the high speed communication port ip is connected to the communication terminal I.

The signal conversion unit 212 b has a function of converting the communication speed of the signal. That is, when a signal is input in low-speed communication via the low-speed communication ports sp and mp, the signal conversion unit 212 b converts the communication speed of this signal into the communication speed corresponding to the high-speed communication ports hp and ip. Signals are output via the high-speed communication ports hp and ip.
In addition, when a signal is input in high-speed communication via the high-speed communication ports hp and ip, the signal conversion unit 212 b converts the communication speed of this signal into a communication speed corresponding to the low-speed communication ports sp and mp. Signal is output via the low speed communication ports sp and mp.

FIG. 3 is a flowchart showing processing executed by the control device 212 of the indoor unit 21.
In step S101, the control device 212 determines whether a signal is input. When a signal is input (S101: Yes), the control device 212 converts the communication speed of the signal by the signal conversion unit 212b (communication speed conversion process).
For example, when a 50-bit / s signal is input from the outdoor unit 1 through the low-speed communication ports sp and mp, the signal conversion unit 212 b converts this signal into a 9600-bit / s signal for high-speed communication, The converted signal is output from the high speed communication ports hp and ip. The signals output from the high speed communication ports hp and ip are transmitted to the indoor unit 22 through the communication terminals H and I and the communication lines h2 and i2.

After performing the process of step S101, the process of the control device 212 returns to "START" (RETURN). When the control signal is not input in step S101 (S101: No), the process of the control device 212 returns to "START".
In addition, although the process which the control apparatus 212 of the indoor unit 21 performs in FIG. 3 was demonstrated, the control apparatus 222, 232 of the other indoor unit 22 and 23 (refer FIG. 1) performs the same process.

  Further, in the air conditioner 100, for example, when low speed communication is performed between the outdoor unit 1 and the indoor unit 21, indoor units (in the example shown in FIG. 1, the indoor units 21 and 22) performing high speed communication Even in the mixed state, the air conditioning operation is performed according to the operation of the remote control Re. By this, even when there is a misconnection in the air conditioner 100, the air conditioning operation can be performed in all the indoor units 21 to 23.

  Incidentally, as shown in FIG. 1, although the communication line is not connected to the high speed communication port hp, ip (not shown) of the indoor unit 23, the communication speed is converted by the signal conversion unit 232b in this state. There is no problem at all. This is because only one indoor unit 22 is connected to the indoor unit 23, and only low-speed communication via the power supply line s3 and the communication line m3 is sufficient (the signal converted by the signal conversion unit 232b is It is not output to the indoor unit 22).

<Effect>
According to the present embodiment, even when there is a misconnection (misconnection), communication paths can be established in the outdoor unit 1 and the indoor units 21 to 23. That is, the signal from the outdoor unit 1 reaches all the indoor units 21 to 23, and the signals from the indoor units 21 to 23 reach the outdoor unit 1. Therefore, the air conditioning operation can be performed in all the indoor units 21 to 23 in a state where low speed communication and high speed communication are mixed.

In the prior art in which the communication speed of the signal is not converted, if there is a misconnection as in FIG. 1, the signal is not relayed in the indoor unit 21, so the signal from the outdoor unit 1 is the indoor unit 22, It does not reach to 23 (the outdoor unit 1 can not detect the presence of the indoor units 22 and 23). As a result, the indoor units 22 and 23 become isolated and can not perform the air conditioning operation.
On the other hand, in the present embodiment, by converting the communication speed of the signal by the signal conversion units 212b and 222b, the communication path is established even when there is a misconnection, and the air conditioning operation is performed in all the indoor units 21 to 23. It can be carried out.

Second Embodiment
In the second embodiment, when the indoor unit 21A (see FIG. 4) includes the detection unit 212c and an incorrect connection is detected by the detection unit 212c, the user (the worker at the time of construction) is incorrectly connected using the remote control Re. Is different from the first embodiment in that Similarly, the other indoor units 22A and 23A (not shown) are also provided with a detection unit (not shown) that detects a wrong connection. The other configuration is the same as that of the first embodiment. Therefore, only the parts different from the first embodiment will be described, and the description of the overlapping parts will be omitted.

FIG. 4 is a configuration diagram of the outdoor unit 1 and the indoor unit 21A provided in the air conditioner 100A according to the second embodiment.
The control device 212A of the indoor unit 21A includes a detection unit 212c (detection means) in addition to the air conditioning control unit 212a and the signal conversion unit 212b. When a signal is input at one of the high speed communication and the low speed communication after the signal is input at one of the high speed communication and the low speed communication, the detection unit 212 c determines that “misconnected” and relates to the indoor unit 21A. It has a function to detect an incorrect connection.

  Further, as in the first embodiment, the air conditioner 100A operates the remote control Re even if there is one of the indoor units 21A to 23A that performs communication at a communication speed different from that of the outdoor unit 1. Air conditioning operation is to be performed accordingly.

FIG. 5 is a flowchart showing a process performed by the control device 212A of the indoor unit 21A.
The processes of steps S201 and S202 are the same as steps S101 and 102 (see FIG. 3) described in the first embodiment. That is, when a signal is input (S201: Yes), the control device 212A converts the communication speed of the signal by the signal conversion unit 212b (S202). Thus, communication paths are established across the outdoor unit 1 and the indoor units 21A to 23A.

  Next, in step S203, the control device 212A stores the communication speed of the signal input in step S201. For example, when a low-speed communication signal is input in step S201 and this signal is converted into a high-speed communication control signal in step S202, control device 212A stores that “the low-speed communication signal is input” in step S203. Do.

  In step S204, the control device 212A determines whether or not the signal input in the past is different from the communication speed of the signal input this time (that is, in S201). The process of step S204 is a process for determining whether a communication line or the like is connected to both the low speed communication ports sp and mp of the indoor unit 21 and the high speed communication ports hp and ip.

  If there is no signal input in the past that is different from the communication speed of the signal input this time (S204: No), the processing of the control device 212A returns to “START” (RETURN). In this case, a communication line or the like is connected to only one of the low speed communication ports sp and mp and the high speed communication ports hp and ip of the indoor unit 21.

  Further, when there is a signal input in the past that is different from the communication speed of the signal input this time (S204: Yes), the process of the control device 212A proceeds to step S205. For example, after a signal is input from the outdoor unit 1 to the indoor unit 21A through low speed communication (one communication speed) through the power supply line s1 and the communication line m1, communication lines h2, i2 from the indoor unit 22A (not shown) When the signal is input to the indoor unit 21A through high-speed communication (the other communication speed) via S.F., the condition of step S204 is satisfied (S204: Yes). In this case, communication lines and the like are connected to both the low speed communication ports sp and mp and the high speed communication ports hp and ip of the indoor unit 21.

  In step S205, the control device 212A reports an incorrect connection by means of the remote control Re (notification means) of the indoor unit 21A. As a result, after the power is turned on, it is possible to notify the worker that there is a misconnection regarding the indoor unit 21A. When an incorrect connection regarding the indoor unit 21A is notified, for example, the worker reconnects so that low-speed communication is performed between the indoor units 21A and 22A.

  In addition, although the process regarding 21 A of indoor units was demonstrated in FIG. 5, the other indoor unit 22A (not shown) and 23A (not shown) also respectively perform the same process separately.

<Effect>
According to the present embodiment, for example, when there is an incorrect connection regarding the indoor unit 21A, the operator is notified of the incorrect connection by the remote control Re of the indoor unit 21A. Then, the outdoor unit 1 and the indoor units 21A to 23A are reconnected so as to be communicated at the same communication speed by the worker, so that the time from the output of the signal to the reading by the outdoor unit 1 is The indoor units 21A to 23A can be made substantially the same (i.e., the timing is eliminated). Therefore, the air conditioning operation can be performed more appropriately than the operation with the wrong connection.

Third Embodiment
In the third embodiment, the control device 12B of the outdoor unit 1B (see FIG. 6) includes a detection unit 12b and a notification unit 12c, and detects a misconnection based on information on the communication speed of the indoor units 21 to 23. It differs from the one embodiment. The other configuration is the same as that of the first embodiment. Therefore, only the parts different from the first embodiment will be described, and the description of the overlapping parts will be omitted.

FIG. 6 is a configuration diagram of the outdoor unit 1B and the indoor unit 21 provided in the air conditioner 100B according to the third embodiment.
The control device 12B of the outdoor unit 1B includes, in addition to the air conditioning control unit 12a described in the first embodiment, a detection unit 12b (detection unit) that detects a misconnection and a notification unit 12c (notification unit) that reports a misconnection. And have.
The detecting unit 12 b has a function of determining that there is an incorrect connection and detecting the incorrect connection when there is an indoor unit performing communication at a communication speed different from itself among the indoor units 21 to 23. .
The notification unit 12 c has a function of notifying of the incorrect connection by the respective remote controllers Re of the indoor units 21 to 23 when the incorrect connection is detected by the detection unit 12 b.

  In the same manner as in the first embodiment, the air conditioner 100B operates the remote control Re even if there is one of the indoor units 21 to 23 that communicates at a communication speed different from that of the outdoor unit 1B. Air conditioning operation is to be performed accordingly.

FIG. 7 is a flowchart showing a process performed by the control device 12B of the outdoor unit 1B.
In step S301, the control device 12B reads information on the communication speed of the indoor units 21 to 23.
Each of the indoor units 21 to 23 is configured to output, to the outdoor unit 1B, information specifying the communication speed of the signal input to the indoor units 21 to 23. For example, when the indoor unit 21 converts the communication speed of the signal from high speed communication to low speed communication by the signal conversion unit 212 b, “a signal of high speed communication is input” (that is, the communication line h2 to the high speed communication port hp, ip , I2 is output to the outdoor unit 1B. As a result, it is possible to notify the control device 12B of the outdoor unit 21 to which of the low speed communication ports sp and mp and the high speed communication ports hp and ip of the indoor unit 21 a communication line or the like is connected.

  In step S302, the control device 12B determines whether or not there is an indoor unit performing communication at a communication speed different from that of the own (the outdoor unit 1B) among the indoor units 21 to 23. For example, when low speed communication is performed between the outdoor unit 1B and the indoor unit 21, the control device 12B determines whether there is any of the indoor units 21 to 23 communicating by high speed communication. judge.

When there is no indoor unit communicating at a communication speed different from that of the outdoor unit 1B (S302: No), the process of the control device 12B returns to "START" (RETURN).
On the other hand, when there is an indoor unit performing communication at a communication speed different from that of the outdoor unit 1B (S302: Yes), the process of the control device 12B proceeds to step S303.
In step S303, the control device 12B identifies the indoor unit related to the misconnection, assuming that the communication speed used by itself is correct. That is, the control device 12B specifies one of the indoor units 21 to 23 to which the signal of the communication speed different from that of the outdoor unit 1B is input.

  In step S304, the control device 12B outputs a notification signal to the remote control Re of the indoor units 21 to 23. That is, the control device 12B transmits the identification information of the indoor unit identified in step S303 to each remote controller Re of the indoor units 21 to 23. By this, the worker looks at one of the respective remote controls Re to grasp one of the indoor units 21 to 23 which has a wrong connection (a signal is received at a communication speed different from that of the outdoor unit 1B), The communication line can be reconnected.

<Effect>
According to the present embodiment, for example, when there is a misconnection regarding the indoor unit 21, the misconnection is reported to the remote controls Re of the other indoor units 22, 23 as well as the remote control Re of the indoor unit 21. Therefore, since the worker can grasp the presence or absence of the erroneous connection by looking at one of the remote controls Re of each of the indoor units 21 to 23, the work load at the time of construction can be reduced as compared with the second embodiment.

«Modification»
As mentioned above, although each embodiment demonstrated the air conditioner 100 grade | etc., Which concerns on this invention, this invention is not limited to these description, A various change can be made.
For example, although the case where the air conditioner 100 is provided with the three indoor units 21 to 23 has been described in each embodiment, the present invention is not limited thereto. That is, the number of indoor units provided in the air conditioner 100 may be two, or four or more.

  Moreover, although each embodiment demonstrated the case where three-phase alternating current power was supplied to the outdoor unit 1 (refer FIG. 1), and single phase alternating current power was supplied to the indoor units 21-23, it does not restrict to this. For example, three-phase AC power may be supplied to the indoor units 21 to 23 as shown in FIG. 1 or single-phase AC power may be supplied to the outdoor unit 1.

Moreover, although 2nd Embodiment demonstrated the case where the alerting signal was output to remote control Re from the indoor unit related to a misconnection among indoor units 21A-23A, it does not restrict to this. For example, after information indicating the presence or absence of incorrect connection is output from the indoor units 21A to 23A to the outdoor unit 1 and the indoor unit related to the incorrect connection is specified on the outdoor unit 1 side, a notification signal is sent to each indoor unit 21A to 23A. It may be output. By this, the worker can grasp the presence or absence of the erroneous connection by looking at one of the remote controls Re of each of the indoor units 21 to 23, so that the work load at the time of construction can be reduced.
Further, the remote control Re does not have to correspond to the indoor units 21 to 23 in one-to-one correspondence, and one remote control Re may be provided for a plurality of indoor units.

Further, each embodiment is described in detail for easy understanding of the present invention, and the present invention is not necessarily limited to one having all the configurations described. Moreover, it is possible to add, delete, and replace other configurations for part of the configurations of the respective embodiments.
Further, the mechanisms and configurations described above indicate what is considered to be necessary for the description, and not all the mechanisms and configurations of the product are necessarily shown.

100, 100A, 100B air conditioner 1, 1B outdoor unit 12, 12B control device 12a air conditioning control unit 12b detection unit (detection means)
12c Notification unit (notification means)
21, 22, 23, 21A, 22A, 23A indoor unit 212, 212A control device 212a air conditioning control unit 212b signal conversion unit (communication speed conversion means)
212c detection unit (detection means)
sp, mp Low-speed communication port (first communication port)
hp, ip High-speed communication port (second communication port)
m1, h2, i2, m3 communication line Re remote control (notification means)

Claims (6)

It has an outdoor unit and multiple indoor units,
The outdoor unit and the plurality of indoor units are connected via a communication line such that signals from the outdoor unit are sequentially input to the indoor units via the indoor units,
The plurality of indoor units are each
A first communication port used when communicating at a first communication speed;
A second communication port used when performing communication at a second communication speed higher than the first communication speed;
When a signal is input through one of the first communication port and the second communication port, the communication speed of the signal is converted to the communication speed corresponding to the other communication port, and conversion is performed. the signal after have a, a communication speed conversion means for outputting via the other communication port,
When a wire is connected to the first communication port, as the wire, a communication line is connected and a power supply line is connected,
In the case where a wire is connected to the second communication port, a communication line is connected as the wire . In the case where the outdoor unit communicates with an indoor unit connected thereto at one of the first communication speed and the second communication speed, the plurality of indoor units The air conditioner according to claim 1, wherein the air conditioning operation is performed even in a state in which communication is performed at the other communication speed. The plurality of indoor units are each
After a signal is input at one of the first communication speed and the second communication speed and then a signal is input at the other communication speed, it is determined that there is a misconnection and the misconnection is made. Detection means for detecting
The air conditioner according to claim 1 or 2, further comprising: notification means for notifying the incorrect connection when the incorrect connection is detected by the detection means. Each of the plurality of indoor units is configured to output, to the outdoor unit, information specifying the communication speed of the signal input thereto among the first communication speed and the second communication speed. ,
The outdoor unit is
Based on the information input from a plurality of the indoor units, if the indoor unit is present performing communications at different communication speed with itself, misconnection has determined to detection means for detection known the misconnection and ,
The air conditioner according to claim 1 or 2, further comprising: notification means for notifying the incorrect connection when the incorrect connection is detected by the detection means. A first communication port used when communicating at a first communication speed;
A second communication port used when performing communication at a second communication speed higher than the first communication speed;
When a signal is input through one of the first communication port and the second communication port, the communication speed of the signal is converted to the communication speed corresponding to the other communication port, and conversion is performed. the signal after have a, a communication speed conversion means for outputting via the other communication port,
When a wire is connected to the first communication port, as the wire, a communication line is connected and a power supply line is connected,
When a wire is connected to the second communication port, a communication wire is connected as the wire, which is an indoor unit of an air conditioner . A communication method of an air conditioner comprising a signal from an outdoor unit is connected via a communication line such that a signal from an outdoor unit is sequentially input to each of the indoor units via a plurality of indoor units,
A first communication port used when communicating at a first communication speed, and a second communication port used when communicating at a second communication speed higher than the first communication speed As for the communication port , when a wire is connected to the first communication port, a communication wire is connected as the wire, a power supply wire is connected, and a wire is connected to the second communication port In this case, a communication line is connected as the wiring.
When a signal is input through one of the first communication port and the second communication port , the communication speed of the signal is converted to the communication speed corresponding to the other communication port, and conversion is performed. A communication speed conversion process of outputting a subsequent signal through the other communication port.

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