KR20090066828A - A communication method of system air conditioner - Google Patents

Abstract

A communication method of a multi-system type air conditioner is provided to automatically sense the communication speed of an outdoor unit at an indoor unit regardless of protocol or communication speed transmitted from the outdoor unit, thereby realizing communications with various outdoor units. A communication method of a multi-system type air conditioner includes the steps of receiving data transmitted from an outdoor unit(410), checking the communication speed of the outdoor unit according to a toggle time of the data(420), and setting the checked communication speed of the outdoor unit as the communication speed of an indoor unit(450).

Description

A communication method of system air conditioner

The present invention relates to a communication method of a system air conditioner, and more particularly, to a communication method of a system air conditioner for automatically detecting a communication speed of an outdoor unit in an indoor unit.

In general, an air conditioner is a device used for cooling or heating indoors. The refrigerant is circulated between the indoor unit and the outdoor unit to absorb ambient heat when the liquid refrigerant evaporates and release the heat when liquefied. Cooling or heating is performed by the characteristics.

A typical air conditioner is to install one indoor unit in one outdoor unit, but recently, a plurality of indoor units having various shapes and capacities are connected to one or more outdoor units to separate a space such as a school, a company, and a hospital. Increasingly, users' demands for multi-system air conditioners that perform cooling or heating operations for a plurality of places are increasing.

In such a system air conditioner, the outdoor unit has a communication speed and serves as a master for managing a plurality of indoor units, and the indoor units have a plurality of communication speeds and serve as a slave controlled by the management of the outdoor unit.

Meanwhile, an indoor unit having a plurality of communication speeds detects the communication speed of the outdoor unit for communication with the outdoor unit and initializes its communication speed to the detected communication speed of the outdoor unit.

The conventional indoor unit detects the communication speed of the outdoor unit. When the outdoor unit transmits a protocol including its own communication rate to the indoor unit, the indoor unit receives the protocol transmitted from the outdoor unit and receives the protocol received according to the preset protocol information. By analyzing, we detected the communication speed of outdoor unit.

However, in such a conventional system air conditioner, the indoor unit should have built-in protocol information of the outdoor unit to grasp the communication speed of the outdoor unit. In addition, the indoor unit needs to analyze the input protocol according to the embedded protocol information in order to check the communication speed included in the protocol transmitted from the outdoor unit.

The present invention is to solve the above problems, an object of the present invention is to provide a communication method of the system air conditioner to set the communication speed of the indoor unit according to the conversion rate of the data transmitted from the outdoor unit.

In order to achieve the above object, the present invention receives data transmitted from an outdoor unit, checks the communication speed of the outdoor unit according to the toggle time of the data, and checks the communication speed of the indoor unit at the confirmed communication speed of the outdoor unit. Set.

In addition, the data transmitted from the outdoor unit is input for a first time, and the communication speed corresponding to the shortest toggle time of the toggle time of the data received during the first time is checked as the communication speed of the outdoor unit.

In addition, the communication speed of the outdoor unit is further confirmed by a predetermined number of times, and if the communication speed of the outdoor unit is the same for the number of times, the communication speed of the indoor unit is set as the communication speed of the outdoor unit.

In addition, the outdoor unit supports one communication speed, and the indoor unit supports a plurality of communication speeds including a communication speed supported by the outdoor unit.

The indoor unit transmits response data indicating that the communication speed is set to the outdoor unit when the communication speed is set, and the outdoor unit communicates with the indoor unit when the response data is received.

In addition, the data is toggled irregularly, the toggle time of the data is determined according to the communication speed of the outdoor unit.

As described in detail above, the present invention has an advantage of detecting the communication speed of the outdoor unit even if the indoor unit does not know the protocol or communication speed transmitted from the outdoor unit.

In addition, since the communication speed of the outdoor unit can be automatically detected, it is possible to communicate with various outdoor units.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the system air conditioner of the present invention includes one outdoor unit 100 serving as a master in communication, and a plurality of indoor units 200 connected to the outdoor unit 100 and serving as a slave.

The outdoor unit 100 serves as a master communication entity supporting one communication speed in the communication system of the system air conditioner. The outdoor unit 100 is connected in series with the plurality of indoor units 200 through communication lines A and B and performs 1: 1 communication. The outdoor unit 100 includes a microcomputer 130 for communicating with the indoor unit 200 according to the communication speed supported, and a communication module 160 for transmitting and receiving data with the indoor unit 200.

The microcomputer 130 of the outdoor unit 100 generates data for setting the communication speed for setting the communication speed of the indoor unit 200, which will be described later, during initial construction of the system air conditioner, and transmits the data until the communication speed is set in the indoor unit 200. .

As shown in FIG. 2, the communication speed setting data generated by the microcomputer 130 is data in which 0 and 1 frequently change and a toggle occurs irregularly, thereby improving reliability when setting the communication speed of the indoor unit 200. Toggle randomly over time. The time taken when the toggle occurs is determined according to the communication speed supported by the outdoor unit 100, and will be described in more detail below.

The communication module 160 includes transmission and reception ports Tx and Rx, and the transmission and reception ports Tx and Rx are connected to the communication lines A and B, respectively, to transmit and receive data with the indoor unit 200. The communication module 160 transmits the data transmitted from the microcomputer to the plurality of indoor units through the transmission port Tx, and receives the data transmitted from the plurality of indoor units through the receiving port Rx to the microcomputer 130. . On the other hand, the communication module 160 performs a control to reduce the noise in order to prevent the distortion of the data caused by the noise generated during the data communication.

The indoor unit 200 serves as a slave communication entity in the communication system of the system air conditioner, and supports a plurality of communication speeds. The communication speed supported by the indoor unit 200 supports 600, 1200, 2400, 4800, 9600, and 19200 BPS as illustrated in the diagram of FIG. 3, and the time for which 1 bit is transmitted depends on each communication speed. That is, if the communication speed supported by the indoor unit 200 is 1200BPS, since the number of bits received per second is 1200 bits, the time taken for one bit to be transmitted is 833us. If the communication speed of the outdoor unit is 600BPS and the communication speed of the indoor unit is 1200BPS, since the outdoor unit transmits 600 bits per second and the indoor unit processes 1200 bits per second, one bit transmitted from the outdoor unit is recognized as 2 bits. Generates an error.

As such, the time that one bit is transmitted and processed in the outdoor unit and the indoor period having different communication rates is different depending on the communication speed. However, the toggle time generated from the data transmitted from the outdoor unit has a constant time regardless of the communication speed. That is, the toggle time of the data received from the indoor unit measures the time that the change (0-> 1, 1-> 0) of the data input to the receiving port Rx of the communication module 260 to be described later occurs. The time is determined according to the communication speed of the outdoor unit 100 regardless of the communication speed supported by the 200.

 The minimum toggle time of the data transmitted by the outdoor unit 100 is equal to the time when one bit is transmitted within an error range as illustrated in FIG. 3. That is, the minimum toggle time is a time at which one bit is changed such that data transmitted from the outdoor unit 100 is 0-> 1 or 1-> 0, and is equal to the time when the one bit is transmitted.

The indoor unit 200 includes a microcomputer 230 for analyzing the data transmitted from the outdoor unit 100 to determine a communication speed supported by the outdoor unit, and a communication module 260 for transmitting and receiving data with the outdoor unit 200.

The microcomputer 230 of the indoor unit receives the communication speed setting data as shown in FIG. 2 transmitted from the outdoor unit 100 during the initial construction of the system air conditioner for the first time, calculates and stores a toggle time, and stores the shortest of the stored toggle time. The communication speed corresponding to the toggle time is estimated by the communication speed of the outdoor unit. In addition, the microcomputer 230 is further configured to estimate the communication speed n times for reliability of the estimated communication speed, and when the same communication speed is estimated for n times, the communication speed is set as the communication speed of the outdoor unit. In addition, when the communication speed of the indoor unit is set, the microcomputer 230 is set to perform communication by transmitting response data indicating that the communication speed is set to the outdoor unit 100.

The communication module 260 includes transmission and reception ports Tx and Rx, and the transmission and reception ports Tx and Rx are connected to the communication lines A and B, respectively, to transmit and receive data with the outdoor unit 100. The communication module 260 transmits the data transmitted from the microcomputer 230 to the outdoor unit 100 through the transmission port Tx and receives the data transmitted from the outdoor unit 100 through the receiving port Rx. 230).

Hereinafter, a communication method of a system air conditioner according to an embodiment of the present invention will be described with reference to FIG. 4.

First, in order to communicate with the indoor unit 200 on the receiving side, the transmitting unit 100 transmits data for setting a communication speed, which frequently toggles data, to the indoor unit 200 as shown in FIG. 2 (400). .

The indoor unit 200 receives the transmitted data for a first time, and calculates and stores a time for which the toggle occurs whenever a toggle occurs in the received data. That is, when the received data is converted from 0 to 1, a toggle time for converting from 0 to 1 is calculated, and the time is stored (410).

The indoor unit 200 estimates the communication speed of the outdoor unit 100 by comparing the fastest time of the toggle time calculated and stored in step 410 as illustrated in the diagram of FIG. 3 (420).

When the communication speed of the outdoor unit 100 is estimated according to step 420, the indoor unit 200 compares whether the current estimated communication speed is equal to the communication speed of the previously estimated outdoor unit 100 (430).

If the communication speed of the outdoor unit 100 currently estimated in step 430 is the same as the previous communication speed, the indoor unit 200 increases the count by one, and compares whether the increased number is equal to a preset n times (440).

If the comparison result of step 440 is n times, the indoor unit 200 recognizes the estimated communication speed as the communication speed of the outdoor unit, and sets the communication speed of the indoor unit 200 at the recognized communication speed. And the indoor unit 200 transmits the response data that the communication speed is set to the outdoor unit 100 at the set communication rate, and when the response data is input, the outdoor unit 100 communicates with the indoor unit 200 at the set communication rate ( 450).

On the other hand, if the communication speed of the currently estimated outdoor unit 100 is not equal to the previously estimated communication speed as a result of step 430, the indoor unit 200 deletes the counted number and returns to step 410 to transmit from the outdoor unit 100 again. Receiving data is performed to set the communication speed (460).

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

2 is a data structure for setting a communication speed according to an embodiment of the present invention.

3 is a diagram illustrating a communication speed set according to a toggle time of data according to an embodiment of the present invention.

4 is a flowchart illustrating a communication method of a system air conditioner according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: outdoor unit 130: communication module

160: microcomputer 200: indoor unit

230: communication module 260: microcomputer

Claims (6)

Receives data transmitted from the outdoor unit, Check the communication speed of the outdoor unit according to the toggle time of the data, The communication method of the system air conditioner to set the communication speed of the indoor unit to the confirmed communication speed of the outdoor unit. The method of claim 1, Receiving data transmitted from the outdoor unit for a first time; And a communication speed corresponding to the shortest toggle time of the toggle time of the data received during the first time period as the communication speed of the outdoor unit. The method of claim 1, Further confirming the communication speed of the outdoor unit a predetermined number of times, If the communication speed of the outdoor unit is the same for the number of times, setting the communication speed of the indoor unit to the communication speed of the outdoor unit. The method of claim 1, The outdoor unit supports one communication speed, The indoor unit is a communication method of a system air conditioner to support a plurality of communication speeds, including the communication speed supported by the outdoor unit. The method of claim 1, The indoor unit transmits response data indicating that the communication speed is set to the outdoor unit when the communication speed is set, And the outdoor unit communicates with the indoor unit when the response data is received. The method of claim 1, The data is randomly toggled, and the toggle time of the data is a communication method of the system air conditioner is determined according to the communication speed of the outdoor unit.

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