KR100980290B1 - A air-conditioner using power-linecommunication - Google Patents

Abstract

PURPOSE: A cooling/heating device using power-line communications is provided to control the operating state of a fan coil unit by transferring the control signal input through a control keypad to each fan coil unit through a power-line communications modem. CONSTITUTION: A cooling/heating device using power-line communications comprise a temperature controller(20), a plurality of indoor units(10), a plurality of outdoor units(30), a central control system, a humidity sensor and a temperature sensor. The temperature controller comprises a first power-line communications unit(21) and transmits a operating condition input according to the manipulation of an operator through the first power-line communications unit. The indoor unit comprises a second power-line communications unit(11) transmitting to and receiving from the first power-line communications data, receives the operating condition of the temperature controller from the first power-line communications unit through the second power-line communications unit and changes the operating state depending on the received operating condition. The outdoor unit comprises a third power-line communications unit(31) transmitting to and receiving from the first power-line communications data, receives the operating condition of the temperature controller from the first power-line communications unit and changes the operating state depending on the received operating condition. The central control system transmits data changing an operating condition to the second and third power-line communications units through a main power-line communications unit and manages the operating states of the indoor and outdoor units.

Description

Air conditioning system using power line communication {A air-conditioner using power-linecommunication}

The present invention relates to a heating and cooling device using power line communication.

More specifically, the control keypad is installed at the position where it is easy to operate the plurality of fan coil units installed in a predetermined space, and the control signal inputted through the control keypad is transmitted through the power line communication modem through the power line communication modem. The present invention relates to a cooling and heating device using power line communication transmitted to a fan coil unit to control a driving state thereof.

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 and heating is supplied to each individual space from a centralized air conditioning system.

However, even when the individual space is empty, there is a lot of energy loss due to continuous heating and cooling.

In recent years, there is a system in which a control system is installed in each individual space so that the heating and cooling supply pipe is opened and closed by the operation of the control system so that the supply of cooling and heating is cut off when there is no person. However, since such a system needs to be operated by a worker or a worker, there are cases where practical operation is not performed.

In other words, if a worker or worker leaves the office, the air conditioning is continuously supplied if the control system is not operated. Therefore, the building manager in charge of the guard should visit the individual spaces and operate the control system to block the supply of air conditioning. The problem is that the work is cumbersome.

The present invention has been made to solve the above problems, the present invention is to install a control keypad in the position that is easiest to operate for a plurality of fan coil units installed in a predetermined space, input through the control keypad A control signal is transmitted to each fan coil unit through a power line communication modem through power line communication to provide a cooling and heating device using power line communication for controlling a driving state thereof.

The present invention also provides a power line communication for setting and controlling a fan coil unit when a fan coil unit installed in a predetermined space is set in a control keypad installed at a predetermined position in an arbitrary place. It is to provide a cooling and heating device using.

In addition, the present invention is to provide a cooling and heating device using a power line communication to control the driving state by allowing the operation of the fan coil unit installed in any space by using a remote controller to change the operation or its set value individually. have.

One embodiment of the present invention for achieving the above object, in the air-conditioning device using the power line communication, is installed in any space, the power line communication unit is provided, the operating conditions input according to the operator's operation A temperature controller for transmitting through the power line communication unit; An indoor unit connected to the temperature controller through a power line, provided with a power line communication unit, and changing an operation state according to an operating condition of the temperature controller; And an outdoor unit connected to the temperature controller through a power line, provided with a power line communication unit, and configured to change an operation state according to an operating condition input from the temperature controller.

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

Each of the power line communication units may relay data transmitted and received to each other, and automatically set a path when transmitting and receiving data.

In addition, another embodiment of the present invention, in the air-conditioning device using power line communication,
A temperature controller installed in an arbitrary space, provided with a first power line communication unit, and configured to transmit an operation condition input according to an operator's operation through the first power line communication unit; A second power line communication unit connected to a first power line communication unit of the temperature controller via a power line, and having a second power line communication unit for transmitting and receiving data to and from the first power line communication unit, and operating conditions of the temperature controller from the first power line communication unit; A plurality of indoor units which are received by the power line communication unit and change the driving state according to the received driving conditions; A third power line communication unit connected to a first power line communication unit of the temperature controller through a power line, and having a third power line communication unit for transmitting and receiving data to and from the first power line communication unit, and operating conditions of the temperature controller from the first power line communication unit to a second power line communication unit; A plurality of outdoor units which are received from the power line communication unit and which change a driving state according to the received driving conditions; And a main power line communication unit configured to transmit and receive data to and from the first power line communication unit, the second power line communication unit, and the third power line communication unit, wherein the main power line communication unit includes second power line communication units of the plurality of indoor units and the plurality of outdoor units through a power line; A plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units. A central control system for managing an operating state of the outdoor unit; Is installed at any position of the space in which the plurality of indoor units are installed, the humidity of the space in which the plurality of indoor units are installed, and detects the humidity through the second power line communication unit of the plurality of indoor units the main power line Humidity sensor for transmitting to the communication unit; And installed at an arbitrary position in a space in which the plurality of indoor units are installed, and sensing a temperature of a space in which a plurality of indoor units are installed, and detecting the detected temperature through the second power line communication unit of the plurality of indoor units. Characterized in that it comprises a temperature sensor for transmitting to the power line communication unit.
The central control system compares the room temperature and humidity of any space detected by the humidity sensor and the temperature sensor with a preset reference room temperature and room humidity to change the operating conditions of the current indoor unit. The condition is transmitted to the second power line communication unit of the indoor unit through the main power line communication unit.
The central control system divides the plurality of indoor units and the plurality of outdoor units into a network layer and groups them into a virtual group, and sets a frequency allocation band having a different frequency tolerance range for each of the virtual groups, simultaneously for each grouped virtual group. It is characterized in that the communication is enabled to control the operation state.
The central control system is set to a frequency allocation band capable of higher communication among the frequency allocation bands, characterized in that for controlling the plurality of indoor units and a plurality of outdoor units integrated.
The central control system transmits control data for controlling the plurality of indoor units and the plurality of outdoor units according to a frequency division method and a time division method.

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The present invention is to install a control keypad in a 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 each power line communication modem through the power line communication modem It is transmitted to the coil unit and has an effect of controlling the driving state.

In addition, the present invention has the effect of being able to perform the setting and control for any fan coil unit when the fan coil unit installed in a certain space is set in the control keypad installed in a predetermined position of any place have.

In addition, the present invention allows the fan coil unit provided in an arbitrary space to be individually operated or its set value can be changed using a remote controller, thereby controlling the driving state.

Hereinafter, the configuration of the present invention will be described with reference to the accompanying drawings.

( Example  One)

One embodiment of the cooling and heating device using the power line communication according to the present invention is installed in any space as shown in Figure 1, the power line communication unit 310 is provided, the operating conditions input according to the operator's operation The temperature controller 300 for transmitting the power through the power line communication unit 310, and is connected to the temperature controller 300 through a power line, the power line communication unit 110 is provided, the operation of the temperature controller 300 It is connected to the temperature controller 300 through the indoor unit 100 and the power line to change the operation state in accordance with the pre-condition, the power line communication unit 210 is provided, the operating condition input from the temperature controller 300 In accordance with the outdoor unit 200 to change the operation state.

The indoor unit 100 and the outdoor unit 200 further include a fan coil unit including a fan 140, 240, and a CPU 120, 220 driving the fans 140, 240. And the power line communication unit 110 and 210 are integrally formed.

Each of the power line communication units 110, 210, and 310 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 function of the air conditioning and heating device using the power line communication configured as described above is as follows.

First, when the operator selects the indoor unit 100 and the outdoor unit 200 by using the operation condition input button (not shown) provided in the temperature controller 300 and inputs each operation condition using the operation condition input button, The power line communication unit 310 of the temperature controller 300 transmits the driving condition data through the power line.

Then, it is transmitted to the power line communication unit 110 and 120 of the indoor unit 100 and the outdoor unit 200 connected through the power line. The driving condition data is transmitted to each of the CPUs 120 and 220 through the power line communication unit 110 and 120, and the CPU 120 and 220 are driven with the driving power of the power units 130 and 230 according to the driving conditions. To be supplied to a motor (not shown) connected to the fan 140, 240, the fan 140, 240 begins to rotate by the motor.

( Example  2)

In addition, the configuration of another embodiment of the heating and cooling device using the power line communication according to the present invention is installed in any space as shown in Figure 2, the first power line communication unit 21 is provided, according to the operator's operation A temperature controller 20 and a second power line communication unit 11 for transmitting an input operating condition through the first power line communication unit 21 and the second power line communication unit 11 are provided, and the temperature is transmitted through the second power line communication unit 11 and a power line. A plurality of indoor units 10 and a third power line communication unit 31 which are connected to the first power line communication unit 21 of the controller 20 and change the operation state according to the operating conditions of the temperature controller 20 are provided. It is connected to the first power line communication unit 21 of the temperature controller 20 through the third power line communication unit 31 and the power line, the operation state according to the operating conditions input from the temperature controller 20 Change A plurality of outdoor units 30 and a main power line communication unit 41 are provided, and the second and third power lines of the plurality of indoor units 10 and the plurality of outdoor units 30 are provided through the main power line communication unit 41 and a power line. The central control system 40 is connected to the communication units 11 and 31, respectively, and manages the plurality of indoor units 10 and the plurality of outdoor units 30 through the main power line communication unit 41.

The central control system 40 divides the plurality of indoor units 10 and the plurality of outdoor units 30 into network layers and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for the virtual groups. In addition, each of the grouped virtual groups to enable simultaneous communication to control the operation state.

The central control system 40 may be set to a frequency allocation band capable of higher communication among the frequency allocation bands so that the plurality of indoor units 10 and the plurality of outdoor units 30 may be integrated and controlled.

The central control system 40 may control the plurality of indoor units 10 and the outdoor units 30 through the main power line communication unit 41 to control data for controlling the plurality of indoor units 10 and the outdoor units 30 according to a frequency division method and a time division method. 11) and the third power line communication unit 31, respectively.

The function of the air conditioning and heating device using the power line communication configured as described above is as follows.

As shown in FIG. 2, one central control system 40 is connected to the power line through the main power line communication unit 41, and includes a plurality of temperature controllers 20, a plurality of indoor units 10, and a plurality of outdoor units 30. Is connected to each of the second power line communication unit 11 and the third power line communication unit 31.

First, the central control system 40 divides the plurality of indoor units 10 and the plurality of outdoor units 30 into network layers and groups them into virtual groups, and sets the frequency allocation bands having different frequency tolerances for the virtual groups. The operation state is controlled by enabling communication at the same time for each grouped virtual group. That is, the central control system 40 may be set to a frequency allocation band capable of higher communication among the frequency allocation bands so that the plurality of indoor units 10 and the plurality of outdoor units 30 may be integrated and controlled. In other words, since the data transmission / reception frequency is set in advance, the second power line communication unit 11 and the third power line communication unit 31 filter and receive only the data having the set frequency among the received data.
For example, when a plurality of indoor units 10 and a plurality of outdoor units 30 are installed in a large space that is not easy for a worker to walk around, the plurality of indoor units 10 and a plurality of outdoor units 30 are installed. The room may be equipped with a temperature sensor or a humidity sensor that can recognize the conditions of the space, not shown in the drawing, and the indoor sensing data detected by the temperature sensor or the humidity sensor is connected to the central control system through a power line. 40 is sent.

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Then, the central control system 40 recognizes each indoor environment by using the indoor sensing data, and the desired indoor unit among the plurality of indoor units 10 and the plurality of outdoor units 30 installed in each space according to the recognized result ( 10) and the driving condition data are transmitted to the outdoor unit 30 through the main power line communication unit 41, and the driving condition data are provided in the indoor unit 10 and the outdoor unit 30 through the power line, respectively, in the second and third power lines. The indoor unit 10 and the outdoor unit 30 are input to each of the communication units 11 and 31 to be driven according to the driving condition data.

Of course, in Embodiment 2, as in Embodiment 1, the temperature controller 20 is provided at a position where the operator can easily operate, and the temperature controller 20 also includes a plurality of indoor units 10 and a plurality of outdoor units ( 20).

The temperature controller 20 also includes a first power line communication unit 21. When the operator inputs the operating conditions of the indoor unit 10 and the outdoor unit 20 by using the operation condition input button not shown in the drawing, the first power line communication unit 21 is provided. The communication unit 21 converts the driving condition data to each indoor unit 10 and the outdoor unit 20 through a power line, and each indoor unit 10 and the outdoor unit 20 are the second and third power line communication units 11. (31) Receive operation condition data through each and operate according to operation condition data.

As described above, the preferred embodiment according to the present invention has been described, but the present invention is not limited to the above-described embodiment, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

1 is a block diagram illustrating a configuration of a heating and cooling device using power line communication according to the present invention.

2 is another embodiment of FIG.

DESCRIPTION OF REFERENCE NUMERALS

10, 100: indoor unit

20, 200: Temperature controller

30, 300: outdoor unit

400: central control system

Claims (7)

delete delete delete In the air-conditioning device using power line communication, A temperature controller installed in an arbitrary space, provided with a first power line communication unit, and configured to transmit an operation condition input according to an operator's operation through the first power line communication unit; A second power line communication unit connected to a first power line communication unit of the temperature controller via a power line, and having a second power line communication unit for transmitting and receiving data to and from the first power line communication unit, and operating conditions of the temperature controller from the first power line communication unit; A plurality of indoor units which are received by the power line communication unit and change the driving state according to the received driving conditions; A third power line communication unit connected to a first power line communication unit of the temperature controller through a power line, and having a third power line communication unit for transmitting and receiving data to and from the first power line communication unit, and operating conditions of the temperature controller from the first power line communication unit to a second power line communication unit; A plurality of outdoor units which are received from the power line communication unit and which change a driving state according to the received driving conditions; And a main power line communication unit configured to transmit and receive data to and from the first power line communication unit, the second power line communication unit, and the third power line communication unit, wherein the main power line communication unit includes second power line communication units of the plurality of indoor units and the plurality of outdoor units through a power line; A plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units and a plurality of indoor units. A central control system for managing an operating state of the outdoor unit; Is installed at any position of the space in which the plurality of indoor units are installed, the humidity of the space in which the plurality of indoor units are installed, and detects the humidity through the second power line communication unit of the plurality of indoor units the main power line Humidity sensor for transmitting to the communication unit; And Is installed at any position of the space in which the plurality of indoor units are installed, and detects the temperature of the space in which the plurality of indoor units is installed, and the detected temperature through the second power line communication unit of the plurality of indoor units the main power line A temperature sensor for transmitting to the communication unit; Including, The central control system compares the room temperature and humidity of any space detected by the humidity sensor and the temperature sensor with a preset reference room temperature and room humidity to change the operating conditions of the current indoor unit. Transmit the condition to the second power line communication unit of the indoor unit through the main power line communication unit; The central control system divides the plurality of indoor units and the plurality of outdoor units into a network layer and groups them into a virtual group, and sets a frequency allocation band having a different frequency tolerance range for each of the virtual groups, simultaneously for each grouped virtual group. Enable communication to control the operation status, The central control system is set to a frequency allocation band capable of higher communication among the frequency allocation bands to control the integrated control of multiple groups for the plurality of indoor units and the plurality of outdoor units, And the central control system transmits control data for controlling the plurality of indoor units and the plurality of outdoor units according to a frequency division method and a time division method. delete delete delete

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