KR20020073861A - Multi-Type Conditioning System - Google Patents

Abstract

PURPOSE: A multiple type air conditioning system is provided to achieve efficient operation of cooler and reduce operational noise, while allowing each room to be independently controlled. CONSTITUTION: A multiple type air conditioning system comprises a cooling unit(10) having a compressor, evaporator, blower fan and an inlet duct which are integrated into a single unit, and a main controller for controlling cooling operation in an integrated centralized system; and a plurality of ducts(12) connected to each room having the cooling unit and a room controller. Each of ducts has a damper control member(14) for sensing the cooling load generated from each room and controlling air volume, wherein the damper control member is connected to the main controller. The inlet duct has a heating coil(18) for circulation of hot water for compensation of temperature of outdoor air.

Description

Multi-type Air Conditioning System {Multi-Type Conditioning System}

The present invention relates to a multi-type air conditioning system, and more specifically, to individually control the temperature and control for each room corresponding to each zone through the centralized operation control using the main controller (Main Controller) Of course, the present invention relates to a multi-type air conditioner system that enables independent operation and control of the air volume according to the cooling load generated in each room.

In general, inverter multi air conditioners which are widely used are the indoor unit which is installed indoors to perform the cooling of the room by evaporating and condensing the refrigerant, and the outdoor unit which is installed separately in the outdoor to continuously circulate and supply the refrigerant of the appropriate state to the indoor unit And, it is largely divided into a connection unit which is provided to facilitate the circulation of the refrigerant by interconnecting the indoor unit and the outdoor unit.

However, when the inverter multi-air conditioner as described above is to be installed in each room, the indoor and outdoor units, which are components of the inverter multi-air conditioner, are made independently of each other. Difficulty occurred in securing the installation space of the installation, and there was a problem that the installation cost is increased due to the individual installation.

In addition, the indoor and outdoor units of the inverter multi-air conditioner have a power supply, a communication unit, a clock generation unit, and a reset unit built in the overlapping state, and each microprocessor is used separately to use the product, thereby causing a significant price increase. There was this.

In addition, by separately using the microprocessor embedded in the indoor unit and the outdoor unit, the data is continuously transmitted and received through an interconnected communication line, and the control mode is controlled accordingly. If a communication error occurred, there was a problem that the malfunction.

Accordingly, the present invention has been made in order to solve the above problems, through the centralized control using the main controller, the individual temperature sensing and control for each room included in each zone, as well as the cooling load generated in each room The purpose is to provide a multi-type air conditioner system to control the independent operation and air volume according to.

1 is a view showing a multi-type air conditioning system of the present invention

2 is a flow chart showing the operational flow of the present invention.

* Description of the symbols for the main parts of the drawings *

10: cooling unit 12: duct

14 damper control member 16 inlet duct

18: heating coil

The present invention for achieving the above object is provided with a compressor, an evaporator, a blowing fan, an inlet duct integrally at least one, and a cooling unit equipped with a main controller to reduce the operation of the cooling to the integrated centralized; A structure consisting of a plurality of ducts individually connected between each room equipped with the cooling unit and the room controller separately, the individual temperature sensing and control for each room corresponding to each zone through the central control using the main controller Of course, the independent operation and air volume control can be controlled according to the cooling load generated in each room, so that the efficient operation of the air conditioner and unnecessary operation noise can be reduced, and also when the ventilation is performed during the season or winter, It is characterized in that it can compensate for the temperature.

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

With reference to the accompanying drawings, FIGS. 1 and 2, at least one compressor unit, an evaporator, and a blower fan, which are typically provided in a cooling air conditioner, are integrally integrated in one cooling unit 10. The interior of the cooling unit 10 has a built-in main controller for centralized control (for example, temperature, air volume, blowing, driving, speed) to perform efficient cooling / heating.

In addition, between the cooling unit 10 and each room included in each zone, a plurality of ducts 12 independently formed to move the cool air discharged from the cooling unit 10 to each room are individually separated from the corresponding room. The damper control member 14 is connected to the inside of the duct 12 to immediately detect the cooling load generated in each room, and to appropriately control the opening amount of the duct 12.

On the other hand, each of the rooms is equipped with a room controller for easily setting the cooling required by the user, the damper control member 14 provided in each duct 12, including the room controller is mutual signal with the main controller It is connected by enemy.

In addition, one side of the cooling unit 10 is provided with an inlet duct 16 for introducing outside air into the inside of the cooling unit 10, the inside of the inlet duct 16 by circulating high temperature hot water Heating coil 18 is to be built in to compensate for the temperature of the outside air to be built.

1 and 2 of the present invention configured as described above, first, the cooling temperature of each room is set by using a room controller equipped in each room according to a user's taste and request, and thus The cooling operation starts when the cooling temperature is set.

When the cooling operation is started, the room controller first detects the current temperature of the room, and at the same time, compares the current temperature detected in the room with the set temperature of each corresponding room controller. According to the judged result, the corresponding signal is applied to the main controller.

At this time, when the current temperature of each room is smaller than the temperature set in the room controller, the main controller is to stop the operation of the plurality of blowing fans, evaporators, compressors.

The room controller continuously detects, compares, and determines the current temperature of each corresponding room, and performs a series of processes for applying a signal corresponding to the main controller.

On the other hand, if the temperature set in the room controller is less than the current temperature of each room, each room controller applies a corresponding signal to the main controller, the main controller controls a plurality of blow fans, evaporators, compressors in order It is operated as, at the same time the outside air is introduced from the inlet duct 16 provided on one side of the cooling unit (10).

In addition, the outside air introduced from the inlet duct 16 is cooled in the cooling unit 10 to form cold air, and the cold air is discharged by a plurality of blower fans built in the cooling unit 10. 10 and each room are individually connected to a plurality of ducts 12 provided independently, so that the discharge cold air is transported along the respective ducts 12 to each corresponding room to provide cooling of each room. It is planned.

In addition, when cooling loads are generated in each room due to cold air transported along the duct 12 as described above, the damper control member 14 is provided on each of the ducts 12, so that cooling is generated in each room. The load is quickly sensed and the room is prevented from cooling load by controlling the opening amount of the duct 12 according to the signal detected by the damper control member 14.

In addition, the signal sensed by the damper control member 14 is applied to the main controller, in which the main controller automatically reduces the operation of the plurality of compressors and the blower fan in consideration of the cooling load of each room. Proper control of the temperature, air volume, blowing, driving, and speed of the unit 10 prevents efficient operation of the air conditioner and waste of power, as well as removing noise due to unnecessary operation.

On the other hand, if you want to perform ventilation for each room during the season or winter season, one side of the cooling unit is provided with an inlet duct 16 for introducing the outside air, the outside air is introduced through the inlet duct 16 At this time, the inside of the inlet duct 16 has a heating coil 18 for circulating hot water, so that the temperature is compensated at the moment when the outside air passes through the heating coil 18, the air is compensated for the temperature is a plurality of air blowing By conveying and discharging each room by a fan, the discomfort and rejection to the inflow of the outdoor air formed at low temperature can be prevented.

In addition, by sensing the heating load of each room by each damper control member 14 to control the amount of air appropriately, as well as to provide efficient and comfortable ventilation by the integrated control of the main controller.

As described above, the present invention is provided with at least one compressor, evaporator, blower fan, and inlet duct in one cooling unit, and by centrally controlling individual control according to the cooling state of each room, The control is possible, of course, this has the effect of reducing the efficient operation of the air conditioner and unnecessary operating noise.

Claims (4)

In the multi-type air conditioning system, A cooling unit (10) having a compressor, an evaporator, a blowing fan, and an inlet duct integrally, and having a main controller to integrally control the operation of cooling; Multi-type air conditioning system, characterized in that consisting of a plurality of ducts (12) individually connected between each of the cooling unit (10) and each room having a room controller separately. The method of claim 1 A damper control member 14 is provided inside the duct 12 to detect a cooling load generated in a corresponding room to control the air volume of the cold air, and the damper control member 14 is connected to the main controller in a signal manner. Multi-type air conditioning system, characterized in that. The method of claim 1, The room controller is a multi-type air conditioning system, characterized in that the signal is connected to the main controller. The method of claim 1, The inlet duct (16) is a multi-type air conditioning system, characterized in that the heating coil (18) in which hot water is circulated to compensate for the temperature of the outside air.