KR100656163B1 - Method of controlling air conditioner - Google Patents

Abstract

A method of controlling an air conditioner is provided to prevent troublesome exchange of a control-based hardware of a plurality of indoor units due to exchange of hardware of an outdoor unit. A method of controlling an air conditioner includes the steps of attempting communication between an outdoor unit and a plurality of indoor units with at least one communication speed(S206), and setting a communication speed equal to the communication speed attempted by the outdoor unit among communication speeds supported by the plurality of indoor units to store the communication speed, and controlling communication with the outdoor unit with the stored communication speed(S218). The outdoor unit and the indoor units are communicated with each other according to RS-485 communication protocols.

Description

Control method of air conditioner {METHOD OF CONTROLLING AIR CONDITIONER}

1 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention.

2 is a flowchart illustrating a control method of an air conditioner according to an exemplary embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

102: outdoor unit

104A-104D: Indoor Units

A, B: RS-485 communication port

The present invention relates to an air conditioner, and more particularly, to communication control between an outdoor unit and an indoor unit in a multi-type air conditioner having an outdoor unit and a plurality of indoor units.

The multi type air conditioner is an air conditioner having a structure in which a plurality of indoor units are connected to at least one outdoor unit.

The outdoor unit includes an outdoor heat exchanger for radiating heat generated by condensation of the refrigerant, a compressor for compressing the refrigerant to a high pressure, and a blower for flowing air to cool the outdoor heat exchanger. In addition, the outdoor unit is provided with communication means for communicating with a plurality of indoor units, and a microcomputer for controlling the plurality of indoor units based on various information transmitted through the communication means.

The indoor unit is provided with a blower for sucking and discharging indoor air, and an indoor heat exchanger on the air passage to cool the suction air. In addition, the indoor unit is provided with communication means for performing communication with the main outdoor unit, and a microcomputer of the indoor unit for analyzing the control signal output from the controller of the outdoor unit.

The microcomputer and the communication means of the outdoor unit are installed on one printed circuit board (PCB), and the microcomputer and the communication means of the indoor unit are also installed on a separate printed circuit board (PCB) and stored in the outdoor unit and the indoor unit, respectively.

If the communication standards of the outdoor unit and the indoor unit do not match, communication itself is impossible. Therefore, since the indoor unit, which is the communication subject, cannot control a plurality of indoor units, the communication standard between the outdoor unit and the indoor unit must match.

If the communication means of one of the outdoor unit and the indoor unit is upgraded to an improved product, and if the specific parts of the communication standard are different from each other, there may be a problem in the communication between the outdoor unit and the indoor unit. Replacing all of the communication means (i.e., the printed circuit board on which the communication means is installed) requires a more efficient communication standard matching method because of the large cost and work time.

It is an object of the present invention to more easily and conveniently match the communication standards of an outdoor unit and an indoor unit in a multi-type air conditioner having an outdoor unit and a plurality of indoor units.

A control method of an air conditioner according to the present invention for such a purpose is a control method of an air conditioner including an outdoor unit that is a communication subject and a plurality of indoor units that communicate with the outdoor unit, wherein at least one of the outdoor unit to the plurality of indoor units is controlled. Attempt to communicate at a communication rate; Each of the plurality of indoor units sets and stores a communication speed that matches the communication speed attempted from the outdoor unit among the communication speeds supported by the indoor units, and controls to communicate with the outdoor unit according to the stored communication speed.

In addition, the outdoor unit and the plurality of indoor units described above each communicate according to the RS-485 communication standard.

In addition, the outdoor unit described above is supported a communication speed of 2400 BPS and 9600 BPS; Each indoor unit supports communication speeds of 600 BPS, 2400 BPS, and 9600 BPS.

In addition, when the communication module of the outdoor unit described above is replaced, each of the plurality of indoor units newly sets and stores a communication speed that matches the communication speed supported by the replaced outdoor unit communication module among its communication speeds.

In addition, the outdoor unit described above performs the communication speed setting in the same manner as the communication speed setting for a plurality of indoor units for a solution product including a communication repeater.

The preferred embodiment of the present invention made as described above will be described with reference to FIGS. 1 and 2. First, Figure 1 is a block diagram showing the configuration of an air conditioner according to an embodiment of the present invention. As shown in FIG. 1, a plurality of indoor units 104a-104d are communicatively connected to one outdoor unit 102. The communication between the outdoor unit 102 and the indoor units 104a-104d uses the RS-485 communication standard, and each of the outdoor unit 102 and the indoor units 104a-104d is provided with an RS-485 communication module and a microcomputer. . The RS-485 communication module is configured to output communication signals of opposite phases to each other through communication ports A and B.

RS-485 communication module has two models of communication speed of 2400 BPS and 9600 BPS, and three models of 600 BPS, 2400 BPS and 9600 BPS depending on the type. The outdoor unit 102 has 2400 BPS and 9600 BPS. When the models that provide two communication speeds are mounted and the indoor units 104a-104d are equipped with models that provide three communication speeds of 600 BPS, 2400 BPS, and 9600 BPS, the outdoor unit 102 and the indoor units 104a are provided. -104d), it is preferable to exclude the communication speed not supported by either side, and to match the faster communication speed among the communication speeds supported by both sides.

2 is a flowchart illustrating a control method of an air conditioner according to an embodiment of the present invention, and illustrates a method of matching a communication speed between a communication module of the outdoor unit 102 and a communication module of the indoor units 104a-104d. .

As shown in FIG. 2, the communication speed with the outdoor unit 102 is established by setting the previous communication rate stored in the EEPROM of each of the indoor units 104a-104d as the initial communication rate.

In the case of RS-485 communication, since the polarity of the communication lines must match, accurate signal transmission is possible, so that communication polarity matching control between the outdoor unit 102 and the indoor units 104a-104d is performed (204). To this end, the outdoor unit 102 first attempts to communicate with each indoor unit 104a-104d by reversing the polarity of the RS-485 communication terminal, and if there is an indoor unit that receives a communication signal of opposite polarity generated from the outdoor unit 102. Since the polarity of the indoor unit is set to be reversed, if the polarity of the indoor unit to which communication is made is reversed from the current state, the communication polarity of the indoor units set to the opposite polarity may be normalized.

When the communication polarity matching control is completed, the outdoor unit 102 attempts to communicate with each indoor unit 104a-104d at a communication speed of 2400 BPS and 9600 BPS (206). 2400 BPS and 9600 BPS are communication speeds supported by the outdoor unit 102. When a communication attempt is made in the outdoor unit 102, each indoor unit 104a-104d sets its own communication rate to the fastest value supported by the outdoor unit 102, that is, the communication rate attempted from the outdoor unit 102, and sets it. When the data is stored and re-communicated with the outdoor unit 102 in the future, communication is performed according to the stored communication speed (208). If the control system hardware of the outdoor unit 102 (for example, a printed circuit board on which a microcomputer and communication module, etc. are installed) is replaced with another version and the supported communication speed is changed, the new communication speed and indoor unit supported by the outdoor unit 102 are changed. Finding and setting a common communication speed among the communication speeds supported by the 104a-104d causes the inconvenience of having to replace the control system hardware of a large number of indoor units 104a-104d due to the replacement of the control system hardware of the outdoor unit 102. Do not

As a result of the communication attempt between the outdoor unit 102 and the indoor units 104a-104d, if there is an indoor unit that has not communicated with the outdoor unit 102, the indoor unit itself fails to communicate with the outdoor unit 102. Set to store this setting data (210).

When the setting of the communication speed is completed, if it is set to perform automatic addressing of the indoor units 104a-104d as a control option of the outdoor unit 102, automatic addressing between the outdoor unit 102 and each indoor unit 104a-104d is performed. In operation 212, when the addressing is completed, tracking between the outdoor unit 102 and each indoor unit 104a-104d is performed (214).

If the outdoor unit 102 determines that the tracking result is normal (YES at 216), the communication speed setting is performed for a solution product (for example, a communication repeater, etc.) other than the indoor units 104a-104d (218). The method follows the process of blocks 204-210 described above. If the tracking result is not normal, a communication error is displayed (220).

If there is an indoor unit that is unable to communicate with the outdoor unit 102 until auto addressing and tracking is complete (YES at 222), return to block 206 to retry communication (224), and all indoor units 104a-104d. If it is determined that communication with the server is normally performed (No in 222), the communication speed setting is terminated.

The present invention is a multi-type air conditioner having an outdoor unit and a plurality of indoor units, the control system hardware (for example, a printed circuit board installed with a microcomputer and a communication module, etc.) of the outdoor unit is replaced with a different version, the communication speed is different Even though the new communication speed supported by the outdoor unit and the indoor speed supported by the indoor unit can be found and newly set, the new system can be used to share the control system hardware of different versions of the outdoor unit. Avoid the inconvenience of having to replace the control system hardware of the indoor unit.

Claims (5)

A control method of an air conditioner including an outdoor unit which is a communication subject and a plurality of indoor units which communicate with the outdoor unit, Attempt to communicate at least one communication rate from the outdoor unit to the plurality of indoor units; Each of the plurality of indoor units sets and stores a communication speed that matches the communication speed attempted from the outdoor unit among the communication speeds supported by the indoor units, and controls the air conditioner to communicate with the outdoor unit according to the stored communication speed. . The method of claim 1, And the outdoor unit and each of the plurality of indoor units communicate according to an RS-485 communication standard. The method of claim 2, The outdoor unit supports a communication speed of 2400 BPS and 9600 BPS; Each of the plurality of indoor units is 600 BPS, 2400 BPS, 9600 BPS communication speed control method of the air conditioner is supported. The method of claim 1, And when the communication module of the outdoor unit is replaced, each of the plurality of indoor units newly sets and stores a communication rate that matches the communication rate supported by the replaced outdoor unit communication module among its communication rates. The method of claim 1, And the outdoor unit performs communication speed setting in the same way as the communication speed setting for the plurality of indoor units for a solution product including a communication repeater.

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