KR101436592B1 - Integrated conditioning equipment with individual installation and operation function - Google Patents

Abstract

The present invention relates to an integral air conditioner for a building which can be individually installed and managed. More specifically, the integral air conditioner for a building has various sensors, pipes, and flow control valves installed in air conditioner housing. An inverter and a controller are also installed in an inverter panel to operate an MCC and a fan. The inverter panel is installed in the air conditioner housing. Accordingly, the air conditioner can be individually operated to reduce the installation cost and the installation space while shortening the installation time. The integral air conditioner for a building is also easily maintained and individually installed and operated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an integrated air conditioner for a building,

More specifically, the present invention relates to an integrated type air conditioner for a building, and more particularly, to an air conditioner having a pipe, a flow rate control valve and various sensors installed therein, an inverter and a controller for operating the MCC and the fan, It is possible to install the inverter panel inside the air conditioner enclosure after it is installed in the inside, so that it can be operated independently, thereby reducing the installation cost and installation space, shortening the installation time, Air conditioner.

Generally, various buildings are provided with an air conditioner for maintaining a comfortable indoor environment at all times by allowing room air to have appropriate temperature and humidity. The air conditioner has a cooling system for lowering the temperature and humidity of the room in the summer and a heating system for raising the temperature and humidity of the room appropriately in the winter when the outdoor temperature is low.

These air conditioners are variously presented by using air conditioner, thermo-hygrostat and direct air conditioner. Among them, cold air or hot air obtained by heat exchange by passing air through a blower in a state where cold / And then circulates the fresh air to the return air which is returned and returned at an appropriate ratio.

As shown in Fig. 1, the conventional air conditioner as described above is provided on the base 10 in a state where the two cases 11 and 12 are in contact with each other. In the case 11, fresh air (outside air) And an air suction port 14 for sucking room air coming back from the room. An air filter 15 for filtering the air to be introduced into the room and an air filter 15 for cooling the temperature of the air thus filtered The cooling coil 16 and the heating coil 17 for heating are provided as a single unit and the other case 12 is provided with a blower 18 for blowing air from the cooling coil 16 and the heating coil 17, And an outlet 18a provided in the blower 18 extends to an upper portion of the case 12. [

The blower 18 is installed to be driven by a separate motor 19. The outside air inlet 13 is provided with an outside air damper 13a and the inside air inlet 14 and the inside air damper 14a are provided so as to be able to control the amount of air flowing in from the respective inlets.

In the conventional air conditioner constructed as described above, when the blower 18 is driven by the motor 19, air is introduced into the case 11 through the outside air inlet 13 and the inside air inlet 14, The air is filtered through the air filter 15 and then cooled or heated while passing through the cooling coil 16 and the heating coil 17. [ The air thus cooled and heated is sent to the room requiring cooling and heating through the outlet 18a of the blower 18 to perform cooling or heating and a part of the room is sucked through the indoor air inlet 14 and circulated.

The normally open ratio between the outside air inlet 13 and the inside air inlet 14 is opened to be inhaled at a ratio of 30%: 70%, and the ratio is appropriately adjusted according to the outside air temperature. For example, when the outside air temperature is low, the damper of the outside air intake port 13 is closed so that the inflow of the outside air is reduced and the damper of the inside air intake port 14 is relatively opened Thereby increasing the suction amount of the indoor air.

However, since the piping system, the electric system, and the communication system are separately installed in the air conditioner, it is necessary to separately construct the piping for supplying the cooling water to the cooling coil. In addition, A separate electrical work is required for connection, and a control panel for control is installed in a separate place such as a control room or a machine room, so that communication work must be separately performed, which increases the installation cost and work time.

Korean Patent Publication No. 10-2000-0058664 Korean Patent Registration No. 10-1214793

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner in which a pipe, a flow rate control valve and various sensors are installed inside an enclosure, The present invention provides a single-piece air conditioner for a building which can be installed and operated independently by reducing the installation cost and installation space by shortening the installation time, have.

According to an aspect of the present invention,

A main body which is formed in a rectangular parallelepiped shape and in which a plurality of space sections are partitioned and in which a return fan, a heating coil, a cold / hot water coil and an air supply fan are sequentially arranged; An auxiliary enclosure coupled to one side of the main enclosure; A cold / hot water supply pipe horizontally installed in the auxiliary enclosure and connected to a lower head of the cold / hot water coil to supply cold / hot water; A cold / hot water discharge pipe installed horizontally in the auxiliary housing, connected to an upper head of the cold / hot water coil to discharge cold / hot water, and having a flow control valve on the pipe; A temperature sensor installed in the space portion of the main housing for measuring the temperature of the return air, the temperature of the outside air, and the temperature of the supply air; A humidity sensor installed in the space portion of the main housing for measuring the humidity of the return air, the humidity of the outside air, and the humidity of the supply air; And an inverter panel installed in the auxiliary enclosure for controlling the return fan and the air supply fan in an invert manner in accordance with the temperature and humidity measured from the temperature sensor and the humidity sensor and controlling the flow rate control valve of the hot / .

Here, the integrated air conditioner for building, which can be installed and operated independently, further includes a condensed water discharge pipe installed horizontally inside the auxiliary housing and discharging condensed water dropped from the cold / hot water coil.

Here, the main enclosure may further include: an inlet port through which return air flows; An exhaust damper for exhausting the exhaust air; An outside air damper into which outside air flows; A mixing damper for mixing the return air and the outside air; And an air supply mechanism for discharging air supply air.

Here, the main enclosure is provided with doors for maintenance in the respective space portions.

Here, the main enclosure is further provided with a humidifier at the rear end of the cold / hot water coil so as to apply moisture to the air supply air.

Here, the auxiliary enclosure is detachable from the main enclosure.

Here, the cold / hot water discharge pipe is provided with a bypass pipe at both ends of the flow control valve, and the flow control valve, the bypass pipe, and the bypass pipe are provided with open / close valves.

Here, the inverter panel may include a case installed inside the auxiliary enclosure; An inverter installed in the case and inverting the return fan and the supply fan according to the temperature and humidity measured from the temperature sensor and the humidity sensor; An MCC provided inside the case and supplying power to each component; A communication module for communicating with the outside and providing various information of the system; A display module for displaying various information of the system; And a controller for controlling each component.

Here, the controller controls the opening amount of the flow rate control valve of the cold / hot water supply pipe according to the temperature and humidity measured from the temperature sensor and the humidity sensor, and controls the opening amount of the flow rate control valve according to the temperature and humidity measured from the temperature sensor and the humidity sensor. The return fan and the air supply fan are controlled in an invert mode, and the exhaust damper, the outside air damper and the mixing damper of the main housing are opened according to a preset opening ratio.

According to the present invention, in the single-unit type air conditioner for building, which can be installed and operated independently, a piping, a flow rate control valve, and various sensors are installed inside the housing of the air conditioner, and an inverter and a controller for operating the MCC and the fan, The inverter panel can be installed in the inside of the air conditioner enclosure so that the inverter panel can be operated independently, thereby reducing the installation cost and installation space, shortening the installation time, and facilitating maintenance.

1 is a view showing a configuration of a conventional air conditioner for a building.
2 is a side view showing the construction of a single unit type air conditioner for a single installation and operation according to the present invention.
3 is a plan view showing the construction of a single unit type air conditioner for a building which can be installed and operated independently according to the present invention.
4 is a block diagram showing a control configuration of a one-piece air conditioner for a building which can be installed and operated independently according to the present invention.

Hereinafter, a configuration of an integrated type air conditioner for a building that can be installed and operated independently according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 2 is a side view showing the construction of a single unit type air conditioner for a building which can be installed and operated independently according to the present invention, FIG. 3 is a plan view showing the construction of a single unit type air conditioner for a single installation and operation according to the present invention, Is a block diagram showing a control configuration of an integrated air conditioner for a building that can be installed and operated independently according to the present invention.

2 to 4, a single-piece air conditioner 100 for a building which can be independently installed and operated according to the present invention includes a main body 110, an auxiliary enclosure 120, a cold / hot water supply pipe 130, 140, a condensate discharge pipe 150, a temperature sensor 160, a humidity sensor 170, and an inverter panel 180.

First, the main body 110 is formed in a rectangular parallelepiped shape, and a plurality of space portions S are partitioned, and a return fan RF, a heating coil HC, a cold / hot water coil CC, (SF) are sequentially arranged. The main enclosure 110 includes an intake port 111 through which return air flows, an exhaust damper EADP for exhausting exhaust air, an outside air damper OADP through which outside air flows, A mixing damper MIXDP for mixing air, a supply mechanism 112 for discharging supply air, and a door 113 for maintenance in each space. Here, it is preferable that the main body 110 further includes a humidifier 114 at the rear end of the cold / hot water coil CC to apply moisture to the air supply air.

The auxiliary enclosure 120 is detachably installed on one side of the main enclosure 110.

The cold / hot water supply pipe 130 is installed horizontally inside the auxiliary enclosure 120 and connected to the lower head of the cold / hot water coil CC to supply cold / hot water. At this time, the cold / hot water supply pipe 130 is connected to a pipe (not shown) for supplying cold / hot water of the building.

The cold / hot water discharge pipe 140 is horizontally installed at the upper end of the cold / hot water supply pipe 130 inside the auxiliary enclosure 120, connected to the upper head of the cold / hot water coil CC to discharge cold / hot water, And a valve (141). The cold / hot water discharge pipe 140 is provided with a bypass pipe 142 at both ends of the flow control valve 141 and is connected to the flow control valve 141, the bypass pipe 142 and the bypass pipe 142 Off valve 143 is provided. At this time, the cold / hot water discharge pipe 140 is connected to a pipe (not shown) for discharging cold / hot water of the building.

The condensate discharge pipe 150 is horizontally installed inside the auxiliary enclosure 120 and discharges the condensed water falling from the cold / hot water coil CC to the outside.

Meanwhile, a plurality of temperature sensors 160 are installed in the space S of the main enclosure 110 to measure the temperature of the return air, the temperature of the outside air, and the temperature of the air supply air, respectively.

A plurality of humidity sensors 170 are installed in the space S of the main body 110 to measure the humidity of the return air, the humidity of the outside air, and the humidity of the supply air, respectively.

The inverter panel 180 includes a case 181, an inverter 182, an MCC 183, a communication module 184, a display module 185, and a controller 186.

The case 181 is formed in a rectangular parallelepiped shape and is installed inside the auxiliary housing 120.

The inverter 182 is installed inside the case 181 and controls the rotational speeds of the return fan RF and the air supply fan SF in an invert manner under the control of the controller 186. [

An MCC (MOTOR CONTROL CENTER) 183 is installed inside the case, receives power from a low-pressure half (not shown) of the building, supplies power to each component, and manages power.

The communication module 184 communicates with the central control center to provide various kinds of information of the system and transmits the control signal inputted from the central control center to the controller 186.

The display module 185 displays various information of the system as an LCD.

The controller 186 controls the amount of opening of the flow control valve 141 of the cold / hot water supply pipe 130 according to the temperature and humidity measured from the temperature sensor 160 and the humidity sensor 170, The rotational speed of the return fan RF and the air supply fan SF is controlled by controlling the inverter 182 according to the temperature and humidity measured from the humidity sensor 170 and the exhaust damper EADP of the main housing 110, The outdoor damper (OADP) and the mixing damper (MIXDP) are opened according to a predetermined opening ratio.

Hereinafter, the operation of the integrated air conditioner for a building, which can be independently installed and operated according to the present invention, will be described in detail.

First, a single-piece air conditioner 100 for a building, which can be installed and operated independently according to the present invention, is installed in an air conditioner.

Then, the cold / hot water supply pipe 130 and the cold / hot water discharge pipe 140 are connected to the cooling water pipe (not shown) drawn into the air conditioning room.

Subsequently, power is drawn out from the low-pressure section of the building and brought in with the MCC 183.

Then, a communication line (not shown) of the central control center is connected to the communication module 184 to complete the installation.

When the installation is completed as described above, the controller 186 controls the amount of opening of the flow control valve 141 of the cold / hot water supply pipe 130 according to the temperature and humidity measured from the temperature sensor 160 and the humidity sensor 170 Controls the inverter 182 according to the temperature and humidity measured from the temperature sensor 160 and the humidity sensor 170 to adjust the rotational speeds of the return fan RF and the air supply fan SF, The air damper EADP, the outside air damper OADP, and the mixing damper MIXDP are opened at predetermined opening ratios.

Accordingly, the integrated air conditioner 100 for a building, which can be installed and operated independently according to the present invention, includes the cold / hot water pipe, cold / hot water supply pipe 130, When the power supply is taken out from the low pressure chamber of the building and the power supply is drawn in and the MCC 183 is completed, if the communication line of the central control center is connected to the communication module 184, Since the construction is completed, the manpower installing the integrated air conditioner for a building 100, which can be independently installed and operated according to the present invention, can easily perform all the operations.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

110: Main enclosure 120: Second enclosure
130: cold / hot water supply pipe 140: cold / hot water discharge pipe
150: condensate discharge piping 160: temperature sensor
170: Humidity sensor 180: Inverter panel

Claims (9)

A heating coil, a cold / hot water coil, and an air supply fan are sequentially arranged in each of the space portions, the air intake port into which the return air flows, the exhaust damper for discharging the exhaust air, A main damper having an outside air damper into which outside air flows, a mixing damper for mixing return air and outside air, and a supply mechanism for discharging supply air;
An auxiliary enclosure coupled to one side of the main enclosure and detachable from the main enclosure;
A cold / hot water supply pipe horizontally installed in the auxiliary enclosure and connected to a lower head of the cold / hot water coil to supply cold / hot water;
Hot water coils are installed horizontally in the auxiliary enclosure and connected to the upper head of the cold / hot water coils to discharge cold / hot water, a flow control valve is provided on the pipeline, bypass piping is provided at both ends of the flow control valve, A cold / hot water discharge pipe having a valve, a bypass pipe, and an on-off valve on the bypass pipe;
A condensed water discharge pipe horizontally installed inside the auxiliary housing and discharging condensed water dropped from the cold / hot water coil;
A temperature sensor installed in the space portion of the main housing for measuring the temperature of the return air, the temperature of the outside air, and the temperature of the supply air;
A humidity sensor installed in the space portion of the main housing for measuring the humidity of the return air, the humidity of the outside air, and the humidity of the supply air; And
An inverter installed in the case and controlling the rotation speed of the return fan and the supply fan according to temperature and humidity measured from the temperature sensor and the humidity sensor; An MCC installed in the case and connected to the central control center through a communication line and connected to the central control center through a power supply for drawing power from the low pressure chamber of the building and supplying power to the respective components; A display module for displaying various kinds of information of the system, and a controller for controlling the inverter according to temperature and humidity measured from the temperature sensor and the humidity sensor, Wherein the rotation speed of the return fan and the supply fan is controlled in an inverting manner, and the temperature sensor and the humidity sensor An inverter controlling the amount of opening of the flow rate control valve of the cold / hot water supply pipe according to the temperature and humidity measured from each other and opening the exhaust damper, the outside damper and the mixing damper of the main housing according to a predetermined opening ratio Wherein the air conditioner comprises a panel. delete delete The method according to claim 1,
Wherein the main enclosure comprises:
And a door for maintenance is provided in each of the space portions, respectively, and the single unit type air conditioner for building can be operated independently. The method according to claim 1,
Wherein the main enclosure comprises:
And a humidifier is further provided at a rear end of the cold / hot water coil to supply moisture to the air supply air. delete delete delete delete

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