KR100647874B1 - Address setting method for multi-airconditioner system - Google Patents

Abstract

A method of setting an address of the indoor unit for communication between the outdoor unit and the indoor unit in a multi-air conditioner system including at least one outdoor unit and at least one indoor unit, the address initialization start signal being transmitted from the outdoor unit to the at least one indoor unit side. Determining a total number of indoor units connected to the outdoor unit based on at least one response signal from the at least one indoor unit according to the reception of the address initialization start signal, and setting a predetermined address in the outdoor unit. Transmitting a command to at least one indoor unit that has transmitted the response signal, transmitting an address setting response including a predetermined address from the indoor unit to the outdoor unit, wherein the number of the address setting responses received is equal to the outdoor unit. The total number of connected indoor units A case, a step to end the address set for the indoor unit.

Multi air conditioning system, address setting

Description

How to set address of multi-air conditioner system {ADDRESS SETTING METHOD FOR MULTI-AIRCONDITIONER SYSTEM}

1 is a schematic diagram of a multi-air conditioner system using a one-to-one connection method.

2 is a schematic diagram of a general multi-air conditioner system using a bus network method.

3 is a flowchart illustrating an operation of an address setting method for an indoor unit in a multi-air conditioner system according to the present invention.

The present invention provides a method of setting an address of a multi-air conditioner system, the multi-air conditioner system of which at least one indoor unit is connected to the address setting of the at least one indoor unit to perform communication between the outdoor unit and the indoor unit. The present invention relates to an address setting method for an indoor unit in a multi-air conditioner system to automatically perform the operation.

The air conditioner includes an evaporator, a compressor, a condenser, and an expansion valve, and serves to lower the temperature of the room through the evaporator. Also, the evaporator is mounted to the indoor unit, and the compressor, the condenser and the expansion valve are generally mounted to the outdoor unit.

Recently, a multi-air conditioner system including a plurality of indoor units sharing at least one outdoor unit has been provided. Each indoor unit and outdoor unit have a predetermined microcomputer to communicate with each other and control each operation. That is, the microcomputer of the outdoor unit checks the operation state of each indoor unit, determines the operation of the compressor, the condenser, and the expansion valve accordingly, determines the state of the room that is the target of the air conditioning operation, and transmits a control signal to the microcomputer of the indoor unit. By determining the operation of each indoor unit.

Hereinafter, the microcomputer of the outdoor unit and the microcomputer of the indoor unit will be simply described as an outdoor unit and an indoor unit, respectively.

As shown in FIG. 1, when one-to-one communication is used between a predetermined outdoor unit 10 and indoor units 21 and 22 in a multi-air conditioner system, a predetermined communication circuit (not shown) is provided for each indoor unit 21 and 22. ) And a communication circuit (not shown) corresponding to the communication circuits of the respective indoor units 21 and 22 is added to the outdoor unit 10 by the number of the indoor units 21 and 22, respectively. 21 and 22 are connected to the communication circuits added to the outdoor unit 10 by using a predetermined dedicated communication line 30 to perform communication.

However, such a connection method needs to increase the number of communication circuits added to the microcomputer 15 of the outdoor unit 10 as the number of indoor units 21 and 22 increases, and thus the connection for communication in the outdoor unit microcomputer 15. Since a lot of pin assignment is required, the configuration of the dedicated communication line 30 is also complicated. Therefore, the installation of the indoor units 21 and 22 is also complicated, and the probability of an unexpected error occurring while driving the multi-air conditioner system can be increased.

On the other hand, in the multi-air conditioning system, as shown in Figure 2, when using the bus network communication, the communication circuit provided in each indoor unit microcomputer 25 and 26 using one common communication line 31 (Not shown) is connected in parallel to a communication circuit (not shown) of the outdoor unit microcomputer 15. 2 is a diagram illustrating a configuration of a multi-air conditioner system using a bus network method.

In this manner, communication lines can be easily installed and communication efficiency can be improved because only one communication circuit is mounted on the microcomputer 15 of the outdoor unit 10 regardless of the number of the indoor units 21 and 22. . However, since all indoor units 21 and 22 use one common communication line 31, each indoor unit 21 and 22 must have a unique address.

Therefore, in the conventional method, a jumper switch capable of expressing or setting predetermined information for each indoor unit is provided, and a method of setting and expressing a unique address for each indoor unit using the jumper switch is used. It became. However, in this method, after completing the mechanical installation of the multi-air conditioner system, the trouble of having to assign the address directly to each indoor unit is generated, and the polarity of the jumper switch is changed by the installation. Alternatively, when the user changes the address of the indoor unit or when the address is set to be duplicated, there is a problem that an unexpected operation error may occur due to a communication error of the multi-air conditioner system.

The present invention for solving the above problems, in a multi-air conditioning system for performing communication using a predetermined bus network system, a predetermined communication line can be installed regardless of the (+), (-) polarity, An object of the present invention is to automatically perform setting of addresses for at least one indoor unit constituting a multi-air conditioner system.

According to an aspect of the present invention, there is provided a method of setting an address for the at least one indoor unit for communication between the outdoor unit and the indoor unit in a multi-air conditioner system including at least one outdoor unit and at least one indoor unit. Transmitting an address initialization start signal from the outdoor unit to the at least one indoor unit side; an indoor unit connected to the outdoor unit based on at least one response signal from the at least one indoor unit in response to receiving the address initialization start signal; Confirming the total number of steps; transmitting, by the outdoor unit, a predetermined address setting command to at least one indoor unit that has transmitted the response signal, and receiving an address setting response including a predetermined address from the at least one indoor unit. Step, respond to the received address setting If the count is the total number and the like of the indoor unit which is connected to the outdoor unit, and a step to end the address set for the indoor unit.

Therefore, the inconvenience of having to manually set the address of each indoor unit by using a predetermined jumper switch as in the prior art can be eliminated, and the wrong address set by the manual setting by the operator installing the multi-air conditioner system. This can prevent unexpected errors that may occur.

The address setting command may include information about the total number of indoor units connected to the outdoor unit.

Therefore, the address for the at least one indoor unit can be set within the total number of the at least one indoor unit, so that the total number of the indoor units can be easily identified and various maintenance can be performed for the indoor unit.

The address may be determined by any one of a number less than or equal to the total number of indoor units connected to the outdoor unit.

Therefore, since the address for the at least one indoor unit is selected from the total number of the indoor units or less at the time of setting the address, the number constituting the address of the at least one indoor unit may be prevented from growing indefinitely. When the indoor unit using the address is removed, the unused empty address can be found and used in another indoor unit. As a result, maintenance of the indoor unit constituting the multi-air conditioner system and its address becomes easy.

In addition, when the indoor unit is already given its own address, the method includes transmitting an address setting response including the previously assigned own address to the outdoor unit.

Therefore, when a predetermined indoor unit is additionally installed in the multi-air conditioner system, indoor units that have their own addresses can use the existing addresses as they are, and newly set their own addresses only in the added indoor unit. You can quickly exit the initialization settings.

The method may further include setting an address of the indoor unit based on an address setting response received from the indoor unit received by the outdoor unit, and storing the set address in a predetermined storage unit.

The storage section is preferably configured using a nonvolatile memory such as, for example, EEPROM. Therefore, since the storage unit stores the addresses of the at least one indoor unit, it is possible to perform control using the addresses in all normal air conditioning operations thereafter. In addition, even when an event such as an unexpected power failure occurs, by configuring the storage unit as a nonvolatile memory, it is possible not to damage the previously set addresses. Then, when the power is applied again, smooth normal operation is performed. It becomes possible.

In addition, if the address included in the address setting response received from the outdoor unit is an address already used by another indoor unit, instructing the indoor unit to generate a new address and retransmit the address setting response including the new address. It further includes.

Therefore, the at least one indoor unit does not have an address that overlaps with at least one other indoor unit in the multi-air conditioner system, thereby preventing communication and control errors.

In addition, the communication in the multi-air conditioner system is performed using a predetermined common communication line, the indoor unit side, further comprising the step of setting the side of the common communication line from the outdoor unit of the common communication line is transmitted to the (+) polarity do.

In the multi-air conditioner system, at least one outdoor unit and the at least one indoor unit should be able to perform communication such as transmission and reception of control signals using a predetermined communication line. To do this, the at least one outdoor unit and the at least one indoor unit must each have a unique address. However, in the method of setting each of these unique addresses, in the conventional jumper switch method, the positive and negative polarity of the predetermined communication circuit provided in the outdoor unit and the jumper switch provided in the indoor unit are used. There was a hassle of having to match (+) and (-) of. However, when a predetermined address initialization signal is received from the at least one outdoor unit via a common communication line connected at any polarity in at least one indoor unit, a positive polarity is transmitted to one terminal side of the common communication line to which the signal is transmitted. By setting to, it is possible to solve the trouble of having to exactly match the polarity of the common communication line as in the prior art.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

3 is a flowchart illustrating a method of setting an address for an indoor unit in a multi-air conditioner system according to the present invention. The configuration of the multi-air conditioner system for explaining FIG. 3 uses the configuration shown in FIG. 2 in the same manner. 2, the microcomputer 25 of the outdoor unit and the microcomputer 26 of the indoor unit are referred to as the outdoor unit 21 and the indoor unit 22, respectively.

In the following description, a plurality of indoor units are connected to one outdoor unit in a bus network manner as an example.

First, the plurality of indoor units transmit an address initialization start signal (IS; Initia Signal), which signals a start of an address initialization setting (IM; initial mode) for setting respective addresses for a plurality of indoor units in the outdoor unit of the multi-air conditioner system. Transmit to the side (S10). Since the signal is transmitted in a bus network method using one common communication line, the signal is transmitted to all indoor units connected to the outdoor unit through the common communication line.

The plurality of indoor units that have received the address initialization start signal from the outdoor unit include unique information of the indoor unit itself (for example, a manufacturing number or a Mac address) stored in a predetermined storage unit of the indoor unit. A predetermined acknowledgment signal (ACK) including information such as information) is transmitted to the outdoor unit (S20). The reason for including the unique number in the response signal is to distinguish the plurality of response signals from the plurality of indoor units from each other. In addition, as will be described later, when a wrong signal is transmitted from the indoor unit, it is to selectively transmit a command requesting correction to the indoor unit.

The outdoor unit having received each response signal from the plurality of indoor units checks the total number of different response signals (S31) and stores them in a predetermined storage unit. Preferably, the storage unit is configured of a nonvolatile memory to maintain the stored contents even when the power supply to the outdoor unit is interrupted. Then, the total number of response signals received from the indoor unit is set to the total number N of indoor units connected to the outdoor unit (S40). In setting the total number of indoor units, it is preferable to repeat the steps S10 and S31 a predetermined number of times at predetermined time intervals in order to reduce errors such as an incorrect count or a missing response signal.

When the total number of the indoor units is confirmed by S40, a predetermined address setting signal N + AS including the total number N of indoor units connected to the outdoor unit and an address set command (AS) S is transmitted to all indoor units connected to the outdoor unit (S50).

The indoor units receiving the address setting signal transmit an address set acknowledgment (ASACK) including a predetermined address including a number less than or equal to the total number N of indoor units connected to the outdoor unit to the outdoor unit. send. Here, the predetermined address consisting of the number less than or equal to the total number N of the indoor units connected to the outdoor unit is preferably a number determined randomly from the number less than or equal to the total number N of the indoor unit. Determining the address of the indoor unit as a random number from the total number of the indoor unit or less as described above, since the number constituting the address for the indoor unit at the time of setting the address is determined within the total number (N) of the indoor unit indefinitely It can be prevented from growing, and also, if a predetermined indoor unit that used an existing address but used the address is removed, the unused empty address can be found to be used in an additional indoor unit. As a result, the address of the indoor units constituting the multi-air conditioner system is always determined to be less than or equal to the total number N of indoor units connected to the outdoor unit, thereby facilitating maintenance of the plurality of indoor units and their addresses.

In addition, when the indoor unit has already received its own address and stores the given address in a predetermined storage unit provided in the indoor unit, the outdoor unit sends an address setting response including the previously given own address. It may be sent to. Therefore, when setting up a new address by installing an indoor unit in addition to the existing multi-air conditioning system, the existing indoor unit can omit unnecessary operations for receiving a new address, thereby reducing the time required to set the address. do.

Subsequently, the outdoor unit having received the address setting response from the indoor unit side stores the address setting response in a predetermined storage unit provided in the outdoor unit (S60). The number of received address setting responses is counted, and it is determined whether or not the total number of indoor units connected to the outdoor unit identified in S40 is equal to the value (S70). The reason for the comparison of these two values is that the plurality of indoor units receive the address setting signal from the outdoor unit without any omission and transmit all of the address setting response thereto, so that the outdoor unit receives the address setting response without omission. To do this. At this time, when the address setting response from the indoor units is not equal to the total number of indoor units connected to the outdoor unit, the outdoor unit causes the address setting signals to be transmitted to the plurality of indoor units again. Therefore, the address setting of the indoor unit can be performed without a single indoor unit.

In addition, in S70, when the address included in the address setting response received from the indoor units is an address including an indoor unit number already used by another indoor unit, the address is determined to be an incorrect address, and includes the incorrect address. The method may further include instructing the indoor unit which has transmitted the address setting response to generate a new address and to retransmit the address setting response including the new address. As described above, the instruction to retransmit the address setting response is preferably transmitted only to the indoor unit which has transmitted the address setting response including the wrong indoor unit number. In this selective indication transmission method, the address is correctly set. The indoor unit is provided with a temporary reception prohibition command for the subsequent address setting signal from the outdoor unit, so as to prevent setting a new address for the additional address setting signal and transmitting an address setting response again. A method of transmitting an address setting signal only to an indoor unit which transmits the wrong address setting response later among at least two indoor units which want to use the wrong address by checking the received time. About address setting signal Including how to ban the gods, such as may be used in different ways.

Next, the outdoor unit that has received the address setting response from all the indoor units as described above to set the address of each indoor unit based on the received address setting response and to terminate the above address initialization setting operation. In operation S80, a predetermined address initialization termination signal is transmitted to the plurality of indoor units.

Then, when the setting of the addresses for the plurality of indoor units is finished, transmission and reception of a normal control signal for each of the plurality of indoor units is possible in the one outdoor unit, so that the individual and efficient air conditioning operation for each indoor unit can be achieved. Control can be performed.

In addition, as shown in Fig. 2, in the configuration of the communication line for connecting the outdoor unit and the indoor unit, in the conventional configuration, the positive and negative polarity of the communication line of the outdoor unit 10, the indoor unit 21 and In order to match the (+) and (-) polarity of the communication line 31 of 22), a procedure for determining the polarity of the communication line extending from the communication circuit provided in the common communication line 31 and the indoor unit must be further performed. However, in the present invention, the polarity of the communication line 31 connected to the outdoor unit 10 and the indoor units 21 and 22 is arbitrarily configured, and at the time of setting the address initialization in the microcomputer 15 of the outdoor unit 10. By setting the communication line 31 on the side from which the address initialization start signal is transmitted from the outdoor unit 10 to, for example, (+) polarity, the worker determines the polarity of the communication line 31 as in the prior art. To ensure proper connection to a given communication circuit The cumbersome procedure can be omitted.

In addition, in the above detailed description, a form in which a plurality of outdoor units are connected to one indoor unit has been described as an example. It can also be applied to the case of using any one of the outdoor unit for controlling the multi-air conditioning system. Of course, the present invention can also be applied to a multi-air conditioner system connected in a one-to-one manner.

In addition, the address setting method of the multi-air conditioner system of the present invention may be applied to an air conditioner system including not only an air conditioner system as described above, but also at least one outdoor unit and at least one indoor unit for performing a predetermined air conditioner operation. It can be widely applied.

As described above, the present invention relates to a predetermined multi-air conditioner system, wherein a predetermined communication line for performing communication between at least one indoor unit and an outdoor period constituting the multi-air conditioner system is correlated with (+) and (-) polarities. There is an advantage that it can be freely installed without, and can automatically and quickly set the address for the at least one outdoor unit and at least one indoor unit.

Claims (7)

In the multi-air conditioner system consisting of one outdoor unit and a plurality of indoor units, for communicating between the outdoor unit and the plurality of indoor units, a method of setting an address of the indoor unit in the outdoor unit, i) transmitting an address initialization start signal from the outdoor unit to a plurality of indoor units; ii) identifying the total number of indoor units connected to the outdoor unit based on response signals from the plurality of indoor units in response to receiving the address initialization start signal; iii) transmitting, from the outdoor unit, an address setting command including the total number of indoor units, to the indoor unit side having transmitted the response signal; iv) in each said indoor unit, transmitting to said outdoor unit an address setting response including an arbitrarily selected number from a number less than or equal to the total number of indoor units; v) in the outdoor unit, if the number of received address setting responses is different from the total number of the indoor units, the process returns to step iii), and if the number of received address setting responses is equal to the total number of the indoor units, Terminating address setting for the plurality of indoor units; Address setting method of the multi-air conditioning system comprising a. delete delete The method of claim 1, further comprising: in step iv), when the indoor unit is already assigned its own address, transmitting an address setting response including the previously assigned own address to the outdoor unit. How to set the address of the multi air conditioner system. The outdoor unit of claim 1, wherein in step iv), the outdoor unit sets an address of the indoor unit based on the address setting response transmitted from each of the indoor units, and transmits the set address to a predetermined storage unit provided in the outdoor unit. The method of setting the address of the multi-air conditioning system further comprising the step of storing. The indoor unit of claim 1, wherein when the address of the indoor unit included in the address setting response received in step iv) is already being used by another indoor unit, the outdoor unit is newly transmitted to the indoor unit which has transmitted the current address. And instructing to transmit an address setting response including the address. delete

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