KR20050034417A - Multi air conditioner system enable of unified control and its method for the same - Google Patents

Abstract

The present invention relates to an integrated controlled multi-air conditioner system and a method of operating the same to add or delete a repeating or non-repetitive exception operation schedule to the existing overall operation schedule to increase the convenience of the integrated operation schedule management of the multi-air conditioner. For example, a multi-air conditioner composed of a plurality of indoor units and one or more outdoor units controlling the flow of refrigerant circulating in each indoor unit according to a control command for air conditioning, and the multi-air conditioner are connected through a network to transmit and receive data. The integrated schedule control of the air conditioner may be performed as the entire schedule module in which the basic operation schedule is stored is updated by an exception schedule module in which the operation of the air conditioner is repeatedly stored or the repetitive or non-repetitive exception operation schedule of the air conditioner is separately stored. It is configured to include an integrated controller to connect to the network There to integrate control of the plurality of air conditioner eliminated with a simple complexity of the scheduling operation shown and there is an advantage in that sikilsu increase the efficiency and speed.

Description

 Multi Air Conditioner System Enable of Unified Control and its method for the same}

The present invention includes an exception operation schedule module in an integrated controller for controlling multi-air conditioners through a network network, so that the entire operation schedule can be easily updated by replacing the repetitive or non-repetitive exception operation schedule with the previously set whole operation schedule. Therefore, the present invention relates to an integrated controlled multi-air conditioner system and an operation method thereof for increasing the convenience of integrated operation schedule management of a multi-air conditioner.

In recent years, as the use of air conditioners has increased greatly, an efficient air conditioner system has been greatly increased by installing an indoor unit in each room of a home or an office in a large building and installing an outdoor unit connected to the indoor unit outside. .

Referring to FIG. 1, the air conditioner may be classified into a single type air conditioner largely suitable for air conditioning in a small room, and a multi-air conditioner system installed in a large building and capable of joint management. First, the conventional air conditioner is an indoor unit (I). ) Is installed in the interior room, and the outdoor unit D1, which is connected to the indoor unit I and circulates the refrigerant, is installed outdoors, so that each room can be individually controlled independently.

Since the single air conditioner is installed / operated independently in each room in a small building, which does not require common management, the user inputs control commands through the indoor unit I installed in each room.

On the other hand, in the multi-air conditioner system, a plurality of indoor units I are installed in each room, and a plurality of outdoor units D1 to Dn connected to the plurality of indoor units are installed. The outdoor units D1 to Dn monitor state information of the connected indoor units I and control distribution and circulation of the refrigerant circulated through the connected indoor units I.

In the case of such a multi-air conditioner system, each user of the indoor unit controls the operation of the air conditioner in the home or office. Therefore, recently, an integrated controlled multi-air conditioner system can be constructed by using an integrated controller connected to the plurality of multi-air conditioners through a network network so as to transmit and receive data with the few outdoor units and to control the few outdoor units integrally. It became possible.

In addition, a user who controls the integrated controller must input information regarding an operation start time, a stop time, an operation schedule, etc. of the multi-air conditioner through an input unit in order to schedule the operation of the multi-air conditioner.

However, in the above case, if an exceptional schedule is applied to a specific room in which the air conditioner is installed when the multi-air conditioner operates according to a previously input scheduling, the exceptional schedule is input to the integrated controller. In operation, the operation becomes cumbersome and complicated, such as changing the entire operation schedule set to be repeatedly performed, inserting an exceptional schedule, and changing it back to an existing repetitive overall operating schedule after a date corresponding to the exceptional schedule. Problems will arise.

In addition, when the exception schedule is repeatedly generated, it must be repeatedly operated. Otherwise, the multi-air conditioner malfunctions, thereby causing an additional problem of unnecessary power consumption.

The present invention has been made to solve the above-mentioned problems of the prior art, and when the exceptional operation schedule occurs in the integrated controller connected to the network to control the multi-air conditioner to store / add / delete the exception operation schedule It is an object of the present invention to provide an integrated controlled multi-air conditioner system that eliminates the complexity of the integrated schedule management of the multi-air conditioner including an exception operation schedule module.

The integrated controlled multi-air conditioner system according to the present invention for solving the above problems is a multi-air conditioner composed of a plurality of indoor units and at least one outdoor unit for controlling the flow of the refrigerant circulating each indoor unit according to the control command for air conditioning, and It is connected through a multi-air conditioner and a network to transmit and receive data to integrate and control the operation of each air conditioner, and the basic operation schedule is stored by the exception schedule module that stores the repeated or non-repetitive exception operation schedule of the air conditioner separately According to a first aspect of the present invention, an integrated controller is configured to perform integrated schedule management of the air conditioner as the entire schedule module is updated.

In addition, the operation method of the integrated controlled multi-air conditioner system according to the present invention is connected to a network and a multi-air conditioner consisting of a plurality of indoor units and at least one outdoor unit for controlling the flow of the refrigerant circulating in each indoor unit according to the control command of each air conditioner A first step of inputting an exception operation schedule through an integrated controller for controlling the operation integrally; and a second step of determining whether the inputted exception operation schedule is databased according to whether the exception operation schedule is repetitive or non-repetitive; If the entered exception operation schedule is repetitive, the exception operation schedule is databased to automatically update all or part of the entire schedule module in which the basic operation schedule is stored, and the exception operation schedule input in the second step is non-repetitive. In this case, the exception operation schedule is determined by the user's manual operation. And it characterized by comprising a third step of updating.

Hereinafter, embodiments and operations of the present invention will be described with reference to the accompanying drawings. 2 is a diagram illustrating a configuration of an integrated controller of an integrated controlled multi-air conditioner system according to the present invention, and FIG. 3 is a flowchart illustrating an operation of an exception driving schedule of the integrated controlled multi-air conditioner system according to the present invention.

First, a plurality of air conditioners are installed in each room in a building. In the present specification, the air conditioner exemplifies a multi-air conditioner consisting of a plurality of indoor units (I)-a few outdoor units (D1 to D3), but the present invention is based on the type of air conditioner It should be noted that the technical spirit of is not limited. In addition, the air conditioner may be a heat pump type air conditioner that is also used only for cooling or heating.

Referring to FIG. 2, the integrated controller 100 may be connected through a plurality of outdoor units and a network network to monitor the state of each air conditioner and transmit a control command for controlling the integrated operation of each air conditioner. .

Basically, the integrated controller 100 of the present invention is an input unit (not shown) to which a control command is input, and a communication unit for transmitting and receiving data to and from a plurality of outdoor units to monitor the state of the multi-air conditioner through the network. And a screen unit (not shown) on which a control state is displayed, and may be implemented as a touch screen type monitor in which the input unit and the screen unit are integrated into a single device according to the producer.

In addition, the integrated controller 100 is applied to the multi-air conditioner to store the operation schedule to repeatedly operate the multi-air conditioner in accordance with the operation schedule and the entire schedule module 160, and applied to any particular building corresponding multi-air conditioner An exception schedule module 150 for storing / adding / deleting an exception schedule for controlling the operation of the software is implemented.

The user of the integrated controller can perform control command input and status monitoring through a control program, and perform schedule management by the entire schedule module and the exception schedule module.

The exception schedule module 150 includes a recurring exception schedule module 151 in which normalized and repetitive exception schedules of week, month, and year are stored in a database and stored in a non-repetitive and special manner according to a place where the air conditioner is installed. It is configured to include a separate schedule module 152 is stored.

In this case, the exception schedule refers to a schedule that deviates from the repeatability of the schedule applied to each of the multi-air conditioners connected to the multi-air conditioner system, for example, driving such as Saturday, Sunday, or public holiday during the weekly multi-air conditioner operation schedule. It means the days that become special in.

The operation method of the integrated control type multi-air conditioner system according to the present invention configured as described above will be described with reference to FIG.

 When an exception schedule for a specific multi-air conditioner occurs while the multi-air conditioner system is operating, the user inputs the exception schedule (S1), and the inputted exception schedule is embedded in the integrated controller connected to the network of the multi-air conditioner system. It will be saved in the exception schedule module.

At this time, when the exception schedule is input, the entire schedule module in which the existing entire operation schedule is stored backs up the entire operation schedule. (S2)

Then, the exception schedule module determines whether the stored exception operation schedule is a recurring exception schedule or a non-repetitive exception schedule, and whether the stored exception operation schedule is a database. (S3)

When the stored exception operation schedule is a repetitive exception schedule, it is again determined whether to replace the stored exception operation schedule with the existing entire operation schedule (S4), and replaces the entire operation schedule with the exception operation schedule in whole or in part. (S5, S8)

Then, the substituted entire operation schedule is displayed for the user (S6, S9) to store and apply the substituted entire operation schedule. (S7, S10)

In addition, when the stored exception schedule is a non-repetitive exception schedule, the user replaces the stored exception schedule with a corresponding exception schedule through a manual operation (S11) to the corresponding exception schedule (S12), the entire operation is replaced After displaying the schedule (S13), the substituted entire operation schedule is stored and applied. (S14)

As described above, the integrated control type multi-air conditioner system and its operation method have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein, but the scope of the technical idea is protected. It can be applied in

The integrated controlled multi-air conditioner system and its operation method according to the present invention configured as described above store an iterative or non-repetitive exception operation schedule separately by placing an exception schedule module having specificity in a schedule in which the multi-air conditioner operates. All or part of the schedule is saved in the entire schedule module where the whole operation schedule is stored, thereby eliminating the complexity of schedule management in the integrated control of multiple air conditioners connected to the network with a simple operation and its efficiency and speed. There is an effect that can increase.

1 is a view showing the configuration of a multi-air conditioner system according to the prior art;

2 is a diagram illustrating a configuration of an integrated controller of an integrated control type multi-air conditioner system according to the present invention;

Figure 3 is a flow chart illustrating the flow of operation of the exception driving schedule of the integrated control multi-air conditioner system according to the present invention.

<Explanation of symbols on main parts of the drawings>

100: integrated controller 150: exception operation schedule module

160: overall operation schedule module

Claims (7)

A multi-air conditioner composed of a plurality of indoor units and one or more outdoor units for controlling a flow of a refrigerant circulating in each indoor unit according to a control command for air conditioning; By connecting and transmitting and receiving data through the multi-air conditioner and a network network, the operation of each air conditioner can be integrated and controlled, and the basic operation schedule is stored by an exception schedule module in which repeated or non-repetitive exception operation schedules of the air conditioner are separately stored. Integrated control type air conditioning system, characterized in that configured to include an integrated controller for performing an integrated schedule management of the air conditioner as the entire schedule module is updated. The method of claim 1, The exception schedule module is an integrated control type multi-air conditioner system, characterized in that the database automatically repeats the exception operation schedule of week, month, year, and delivers the exception schedule to the entire schedule module. The method of claim 1, The exception schedule module is integrated control type multi-air conditioning system, characterized in that for transmitting the non-repetitive exception operation schedule manually input to the entire schedule module.  An exception operation schedule is input through a multi-air conditioner consisting of one or more outdoor units that control the flow of refrigerant circulating in each indoor unit according to a plurality of indoor units and control commands, and an integrated controller that integrates and controls the operation of each air conditioner. A first step; A second step of judging whether the inputted exception driving schedule is databased according to whether the exception driving schedule is repetitive or non-repetitive; If the entered exception operation schedule is repetitive, the exception operation schedule is databased to automatically update all or part of the entire schedule module in which the basic operation schedule is stored, and the exception operation schedule input in the second step is non-repetitive. If the exception operation schedule comprises a third step of updating a part of the entire schedule module by a manual operation of a user. The method of claim 4, wherein The first step is a method for operating an integrated controlled multi-air conditioner system comprising the step of backing up the existing data stored in the entire schedule module after the exception operation schedule is input. The method of claim 4, wherein The third step may include: replacing the entire operation module with the exception operation schedule or partially replacing only the corresponding schedule of the entire operation schedule with the exception operation schedule when the input exception driving schedule is repeated. ; And a second process of displaying the entire operation schedule which is partially or completely replaced and automatically updated. The method of claim 4, wherein The third step includes a first step of manually operating whether or not to update the exception operation schedule to the entire schedule module when the exception operation schedule is non-repetitive; A second step of partially replacing the corresponding schedule of the entire driving schedule with the manually inputted exception driving schedule; And a third process of displaying the entire operation schedule which is partially substituted.