KR101190098B1 - Heating and cooling system using Power Line Communication - Google Patents

Abstract

In the air-conditioning and heating system using the power line communication of the present invention, each power line communication unit is provided, and a plurality of temperature controllers for transmitting the operating conditions input according to the operator's operation through the power line communication unit, each power line communication unit is provided, the power line through the A plurality of indoor units connected to a temperature controller, the indoor unit for changing an operation state according to an operating condition input from the temperature controller, each having a power line communication unit, connected to the temperature controller via a power line, and being input from the temperature controller It includes a plurality of outdoor units for changing the operating state according to the condition, using one of the plurality of temperature controllers to control one or two or more indoor units and the outdoor unit is linked to the controlled indoor unit or Using any one of the plurality of temperature controllers Controls over one or two or more outdoor units, and is characterized in that the control indoor unit that works with the control of the outdoor unit.
In addition, the air-conditioning system of the present invention can be easily controlled even when the user goes out by configuring a central management server that can remotely control the temperature controller.
In addition, the air-conditioning system of the present invention facilitates fast data communication by using high-frequency power line communication between a plurality of temperature controllers, a plurality of indoor units, a plurality of outdoor units, and a central management server.

Description

Heating and cooling system using Power Line Communication

The present invention relates to a cooling and heating system, and in particular, comprising a plurality of temperature controllers, a plurality of indoor units and a plurality of outdoor units, using one or more indoor units and / or at least one of the plurality of temperature controllers It is configured to control the outdoor unit, and relates to a cooling and heating system.

In addition, the present invention relates to a cooling and heating system that can be easily controlled even while the user is configured by configuring a central management server that can remotely control the temperature controller.

In addition, the present invention relates to a heating and cooling system for fast and smooth data communication by using a high-frequency power line communication between a plurality of temperature controllers, a plurality of indoor units, a plurality of outdoor units and a central management server.

In general, a building such as a factory or a business facility is composed of a plurality of individual spaces such as individual working spaces or offices, and air-conditioning is supplied to each individual space from a centralized air conditioning system.

However, even in the absence of a person (user, worker) in the individual space is caused by enormous energy loss due to continuous cooling and heating is made.

In recent years, a control system is constructed in each individual space so that the air-conditioning supply pipe is opened and closed by the operation of the control system, so that the supply of air-conditioning is blocked even when a person is absent.

However, such a control system is operated by a worker or a worker, and thus, practical operation is often not performed.

In other words, if a worker or worker leaves the office, continuous supply of cooling and heating is provided unless the control system is operated. Therefore, the building manager in charge of the guard visits each individual space and manually controls the control system to block the supply of heating and cooling. It was necessary to do this, which caused cumbersome problems of the work.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to use a temperature controller of any one of the plurality of temperature controllers in a cooling and heating system including a plurality of temperature controllers, a plurality of indoor units, and a plurality of outdoor units. To control one or more indoor units and / or outdoor units to provide easy heating and cooling control.

In addition, the present invention is to provide a cooling and heating system that can be easily controlled even when the user by configuring a central management server that can remotely control the temperature controller.

In addition, the present invention is to provide a cooling and heating system to enable fast and smooth communication of data using a high-frequency power line communication between a plurality of temperature controllers, a plurality of indoor units, a plurality of outdoor units and a central management server.

In order to achieve the above object, the air-conditioning and heating system using the power line communication of the present invention is provided with a power line communication unit, and a plurality of temperature controllers for transmitting the operating conditions inputted by the operator through the power line communication unit, respectively, the power line communication unit It is provided, and connected to the temperature controller via a power line, a plurality of indoor units for changing the operation state in accordance with the operating conditions input from the temperature controller, each power line communication unit is provided, is connected to the temperature controller via a power line, A plurality of outdoor units for changing the operating state according to the operating conditions input from the temperature controller, including one or more indoor units using any one of the plurality of temperature controllers to control the indoor unit Outdoor unit interlocked with the control or among the plurality of temperature controller It is characterized by controlling one or more outdoor units by using any one temperature controller and controlling an indoor unit linked to the controlled outdoor unit.

In addition, the present invention is characterized in that the power line communication unit is provided, further comprising a central management server for controlling the plurality of indoor units and the plurality of outdoor units through the power line.

The power line communication is a high frequency power line communication.

The indoor unit may further include a fan coil unit, wherein the fan coil unit and the power line communication unit are integrally formed.

The central management server divides the plurality of indoor units and the plurality of outdoor units into network layers and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for each of the virtual groups, and simultaneously communicates with each grouped virtual group. It is characterized in that to enable the control of the operation state.

As described above, the present invention is a cooling and heating system including a plurality of temperature controllers, a plurality of indoor units and a plurality of outdoor units, using one or more indoor units and / or two or more indoor units using any one of the plurality of temperature controllers; Or it is configured to control the outdoor unit, the heating and cooling control becomes very easy.

In addition, the present invention configures a central management server that can remotely control the temperature controller, it can be easily controlled even while the user is out.

In addition, the present invention enables fast and smooth communication of data by using high-frequency power line communication between a plurality of temperature controllers, a plurality of indoor units, a plurality of outdoor units, and a central management server.

In addition, the present invention is to provide a control keypad in the position that is the easiest to operate for a plurality of fan coil units installed in a predetermined space, the control signal input through the control keypad via power line communication power line communication modem It is transmitted to each fan coil unit through the effect of controlling the driving state.

1 is a state diagram installed in several buildings the heating and cooling system of the present invention.
2 and 3 are block diagrams of air conditioning and heating systems installed in each building of FIG. 1.
Figure 4 is a block diagram showing in more detail the configuration of the cooling and heating system of the present invention.

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

1 is a state diagram of the air conditioning system of the present invention installed in various buildings, Figures 2 and 3 are block diagrams of the air conditioning system installed in each building of Figure 1;

As an example in FIG. 1, one building consists of four floors 100, 200, 300, and 400, and each floor is divided into one or two or more rooms. In the figure, triangles represent outdoor units, squares represent indoor units, and circles represent temperature controllers.

In more detail, the first-floor building 100 is divided into four rooms (rooms 1 to 4), and includes one temperature controller 110 and two outdoor units 131 and 132, each of which has 1 unit. Indoor units 121 to 124 are configured. Thus, when the entire first floor building 100 is viewed, the four indoor units 121 to 124 and the two outdoor units 131 and 132 are controlled using one temperature controller 110. Here, two outdoor units 131 and 132 are responsible for four indoor units 121 to 124.

The second-story building 200 is divided into two rooms (rooms 1 and 2), one outdoor unit 230 is configured, and one indoor unit 221 and 222 and one temperature controller 211 and 212 in each room. It is composed. Thus, when looking at the second-story building 200 as a whole, it consists of a structure for controlling the two indoor units (221, 222) and one outdoor unit 230 using the two temperature controllers (211,212). Here, one outdoor unit 230 is responsible for two indoor units 221 and 222.

The third-floor building 300 is divided into two rooms (rooms 1 and 2), and includes one temperature controller 310 and one outdoor unit 330, and one indoor unit 321 and 322 is provided in each room. It is composed. Thus, when the entire third floor building 300 is viewed, the two indoor units 321 and 322 and one outdoor unit 330 are controlled using one temperature controller 310. Here, one outdoor unit 330 is responsible for two indoor units 321 and 322.

The fourth-floor building 400 is divided into two rooms (rooms 1 and 2), and includes one temperature controller 410 and two outdoor units 431 and 432, and two indoor units 421 to 424 in each room. ) Is configured. Thus, when looking at the fourth floor building 400 as a whole, it consists of a structure for controlling the four indoor units (421 ~ 424) and two outdoor units (431,432) using one temperature controller 410. Here, two outdoor units 431 and 432 are responsible for four indoor units 421 to 424.

The indoor unit refers to an air conditioner, an air conditioner, a heater and the like as an example.

The present invention may further configure a central management server 500 connected to a plurality of temperature controllers to control a plurality of indoor units and a plurality of outdoor units.

In addition, the present invention is a data transmission method between a plurality of temperature controllers, a plurality of indoor units, a plurality of outdoor units and a central management server, it is preferable to use a high-frequency power line communication as an example. Thus, the present invention enables fast and smooth communication of data between the components.

Figure 4 is a block diagram showing in more detail the configuration of the cooling and heating system of the present invention.

The air conditioning and heating system using power line communication according to the present invention includes a plurality of temperature controllers 110, a plurality of indoor units 121, and a plurality of outdoor units 131.

In addition, the cooling and heating system of the present invention may constitute a central management server 500 that can remotely control the temperature controller 110.

The temperature controller 110 is installed in an arbitrary space, the power line communication unit 620 is provided, and performs the function of transmitting the operating conditions input according to the operator's operation through the power line communication unit 620.

The indoor unit 121 is connected to the temperature controller 110 through a power line, the power line communication unit 720 is provided, and performs a function of changing the operating state according to the operating conditions of the temperature controller 110.

The outdoor unit 131 is connected to the temperature controller 110 through a power line, is provided with a power line communication unit 620, and performs a function of changing the operation state according to the operating conditions input from the temperature controller 110.

The indoor unit 121 and the outdoor unit 131 may include a fan coil unit including a fan 740 configured in the indoor unit 121 and a CPU 730 and 830 for driving the fan 840 configured in the outdoor unit 131. The fan coil unit and the power line communication unit 210 may be integrally formed.

Each of the power line communication units 620, 720, and 820 relays data transmitted and received to each other, and automatically sets a path when transmitting and receiving data. Reference numerals 130, 230, and 330 denote power parts.

The central management server 500 is configured in a remote place, for example, the interior or exterior of the building (100 ~ 400) to control a plurality of temperature controllers. Thus, the user does not have to manually control a plurality of temperature controllers. That is, a plurality of temperature controllers can be automatically controlled from a remote place through the central management server 500.

The central management server 500 divides the plurality of indoor units and the plurality of outdoor units into network layers and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for each of the virtual groups. Control the operation state by enabling communication at the same time.

In addition, the central management server 500 is set to a frequency allocation band capable of higher-order communication of the frequency allocation band can be controlled by combining multiple groups for the plurality of indoor units and the plurality of outdoor units.

In addition, the central management server 500 transmits control data for controlling the plurality of indoor units and the plurality of outdoor units according to the frequency division method and the time division method.

The operation of the cooling and heating system using the power line communication configured as described above is as follows.

As shown in FIGS. 1 to 2 and 4, the plurality of temperature controllers are connected to the plurality of indoor units and the plurality of outdoor units in a power line communication manner.

In this state, the operator selects the indoor unit 121 and the outdoor unit 131 by using the operation condition input button (not shown) provided in the temperature controller 110 and sets each operation condition using the operation condition input button. When input, the power line communication unit 620 of the temperature controller 110 transmits the operation condition data through the power line.

Then, it is transmitted to the power line communication units 720 and 820 of the indoor unit 121 and the outdoor unit 131 connected through the power line. The driving condition data is transmitted to the respective CPUs 730 and 830 through the power line communication unit 720 and 820, and the CPUs 730 and 830 are motors (not shown) in which driving power of the power units 710 and 810 is connected to the fans 740 and 840 according to the driving conditions. ), And the fans 740 and 840 rotate by a motor.

Meanwhile, in the present invention, as shown in FIG. 3, the central management server 500 is connected to a plurality of temperature controllers 110 in a power line communication manner. Accordingly, the plurality of indoor controllers 121 and the plurality of outdoor units 131 connected to the temperature controller 110 can be controlled by controlling the plurality of temperature controllers 110 at a remote location through the central management server 500. .

The central management server 500 divides the plurality of indoor units 121 and the plurality of outdoor units 131 into a network layer and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for the virtual groups, respectively. The operation state is controlled by enabling communication at the same time for each grouped virtual group. That is, the central management server 500 may be set to a frequency allocation band capable of higher-order communication among the frequency allocation bands, and may integrate and control multiple groups for the plurality of indoor units 121 and the plurality of outdoor units 131.

For example, when a plurality of indoor units 121 and a plurality of outdoor units 131 are installed in a large space that is not easily checked by a worker, the plurality of indoor units 121 and a plurality of outdoor units 131 are installed. In the space there will be installed a temperature sensor or humidity sensor that can recognize the conditions of the space, not shown, the indoor sensing data detected by the temperature sensor or the humidity sensor is the central management server 500 through the power line Is sent to. Here, the indoor sensing data is preferably transmitted to the central management server after passing through the temperature controller 110.

Then, the central management server 500 recognizes each indoor environment by using the indoor sensing data, and the desired indoor unit among the plurality of indoor units 121 and the plurality of outdoor units 131 installed in each space according to the recognized result. 121) and the driving condition data is transmitted to the outdoor unit 131 through the power line communication unit (not shown), and the driving condition data is transmitted to the power line communication units 720 and 820 provided in the indoor unit 121 and the outdoor unit 131 through the power line. The input unit operates the indoor unit 121 and the outdoor unit 131 according to the driving condition data. Here, the driving condition data may be transmitted to the plurality of indoor units 121 and the plurality of outdoor units 131 after passing through the temperature controller 110.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

100: first floor building
110: temperature controller
121: indoor unit
131: outdoor unit
200: second story building
300: third story building
400: fourth floor building
500: central management server
610, 710, 810: power supply
620, 720, 820: power line communication unit
730, 830: CPU
740, 840: fan

Claims (4)

A plurality of temperature controllers each provided with a power line communication unit, and a plurality of temperature controllers for transmitting an operation condition input according to an operator's operation through the power line communication unit, each having a power line communication unit, connected to the temperature controller via a power line, from the temperature controller A plurality of indoor units and a plurality of indoor units for changing the operating state according to the input operating conditions, each of which is provided with a power line communication unit, connected to the temperature controller via a power line, a plurality of changing the operating state according to the operating conditions input from the temperature controller Including an outdoor unit, using the temperature controller of any one of the plurality of temperature controllers to control one or two or more indoor units and the outdoor unit in conjunction with the controlled indoor unit is controlled, or any one of the plurality of temperature controllers The temperature controller controls one or more outdoor units and And an indoor unit are controlled to be interlocked with eodoen outdoor unit,
The power line communication unit is provided, the air-conditioning system using power line communication further comprises a central management server for controlling the plurality of indoor units and a plurality of outdoor units through a power line. delete The method of claim 1,
The power line communication is a heating and cooling system using power line communication, characterized in that the high-frequency power line communication. The method of claim 1,
The central management server divides the plurality of indoor units and the plurality of outdoor units into network layers and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for each of the virtual groups, and simultaneously communicates with each grouped virtual group. Cooling and heating system using power line communication characterized in that to enable the control of the operating state.

Images