KR200232148Y1 - Air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner for cooling, heating, humidifying, dehumidifying, and filtering air.

It is divided into the mechanical part constituting the air conditioner and the control part controlling the mechanical part.

The present invention attaches a detector to control the operation of the mechanical components of the air conditioner, transmits a signal sensed by the detector to the control device, and controls the operation of the mechanical device again through the detector. In this way, the mechanical part and the control part constituting the air conditioner are manufactured and installed at the same time as the air conditioner is manufactured to increase the efficiency, and the direct digital control panel (DDC panel) receives the signal input from the detector of each mechanical part. By using LCD touch screen as a signal input device, it is possible to easily grasp the operation condition of the air conditioner, to facilitate the instruction of various operations, and to remotely control the control device on the DDC panel. Or a terminal for connecting a computer to directly adjust or change or modify an input program. will be.

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner in which an air conditioner is integrally attached with a detector for monitoring and operating each air conditioner in order to operate the air conditioner efficiently.

In general, an air conditioner purifies indoor air or supplies external air to a room by controlling the outside air to a desired temperature and humidity. An air inlet for inhaling external air and air for inhaling and discharging muddy air in the room are common. It has a suction and exhaust vent, a filter to purify the air, a heating and cooling coil to heat and cool the air, a humidifier to control humidity, a blowing fan to blow air, and a motor to drive the same.

As described above, the air conditioner purifies the indoor air using the various components as described above and supplies the indoor air to the room again or supplies the indoor air by adjusting the outside air to a desired state. In addition, each of the components constituting the air conditioner is operated according to a condition previously input by the microcomputer according to the state of the air flowing into the air conditioner or operated by manual operation to operate the air conditioner. Therefore, the air conditioner can be divided into the machine configuration which intakes, discharges, filters, heats, cools, humidifies, and dehumidifies the air and the control parts which control the strength and weakness of the machine configuration according to the conditions. have.

The mechanical configuration has various capacities and various sizes depending on the use purpose and the use place of the air conditioner, and it can be seen that the air conditioner is completed by adding a means for controlling and controlling the air conditioner.

That is, the air conditioner is composed of a mechanical part and a control part to complete a single air conditioner, but in practice, the conventional air conditioner is manufactured separately from the mechanical part and the control part, and after the mechanical part of the air conditioner is installed, Since the control part for adjustment control is installed later on the mechanical part element, the actual cost of the air conditioner can be seen to increase, and the technology for connecting each component organically is insufficient so that the air conditioner can be utilized 100%. You can see it wasn't there.

That is, the conventional air conditioner was seen that the efficiency is not high because the mechanical components and the control device for controlling them are produced and assembled separately.

In consideration of this, the present invention was developed, and the present invention was designed to maximize the efficiency of the air conditioner by manufacturing the control part and the mechanical part that actually manipulate and control the air conditioner from the time of manufacturing the air conditioner.

An air conditioner has a blower fan, a motor, etc. which suck and discharge indoor air and external air, and also has a filter for purifying air, a heating and cooling coil for heating and cooling, and a humidifying device.

In addition to these mechanical components, each of the components to operate the air conditioner can be seen that the air conditioner is configured, the present invention is produced by assembling the integrated control device for controlling and controlling the mechanical components at the time of production of the air conditioner It is to provide users with low price and high efficiency air conditioner.

1-schematic cross-sectional view of the present invention;

It has a main body case 21 in the form of a rectangular box, has an indoor air inlet 22 for introducing indoor air into the case 21 and an indoor air outlet 24 for discharging the introduced air, and one side of the case 21. It has an external air inlet 23 for introducing external air in the air, and has a filtration filter 25 for filtering the air inside the case 21, heating and cooling coils for circulating coolant and hot water for heating and cooling the air A general air conditioner comprising a mechanical device such as having a 26, a humidifier 27, a blower 28 for supplying air to the room, and an air outlet 30, and a control device for controlling the operation thereof. In the present invention, as a configuration of the mechanical device (A) has a case (21) inside the opening and closing window 11 for blocking the indoor air introduced from the room, the opening and closing window 11, the blower 12 for sucking the indoor air on one side Is installed, the indoor air inlet (22) a sense of temperature Air 22-1, humidity sensor 22-2 and smoke detector 22-3 are installed, the indoor air outlet 24 is provided with an opening and closing window 24-1, inside the case 21 A temperature sensor 13 is installed, and the left and right sides of the filtration filter 25 have an air differential pressure detector 14 for detecting a pressure difference, and the air outlet 30 has a temperature for sensing the temperature and humidity of the exhaust air. The sensor 30-1 and the humidity sensor 30-2 are installed, and the signal detected by the detector for detecting the operation of each component is introduced into the control device B. The control device B Constitutes a DDC (Direct Digital Control) panel 51 and an LCD touch screen 52. The LCD touch screen 52 displays input and output control points, and the set points (states of control points and values that can be changed). It displays change, displays date and time, displays operation status such as manual and automatic, displays and monitors alarm and alarm status, It displays change of time setting, has encryption function, and can modify and change operation condition of day and day, while DDC panel driving LCD touch screen is necessary to control data obtained from each sensor. The program is built in, and the DDC panel has an A / D, D / A converter, and memory storage means, and is configured to have a connector 51-1 for connecting to an input device 53 (computer) for program modification / change. The DDC panel 51 has data trend monitoring and recording, alarm status monitoring and display, schedule control, program automatic recovery in case of power failure and recovery, program change and correction by user's request, and configures the air conditioner. Detectors that monitor the mechanical and operational status of each device, and control devices that control the signals generated by the detectors, One will ever installed at the same time as the mechanical apparatus.

Referring to the present invention having such a structure in more detail as follows.

The outside air introduced into the external air inlet 23 of the case 21 constituting the air conditioner and the indoor air introduced into the indoor air inlet 22 are heated and filtered by the filter 25. It is heated or cooled by the cooling coil 26, and humidified by the humidifier 27, and then is introduced into the room through the air outlet 30 by the blower 29.

In the above case, when the inside of the case 21, the left side and the right side are closed by the opening / closing window 11 in the case 21, the air flowing from the indoor air inlet 22 escapes through the air outlet 24. Polluted air in the room is discharged, and only air introduced from the outside air inlet 23 is air-conditioned.

However, in order to save energy, that is, when there is a large temperature difference between the indoor temperature and the outdoor temperature, the opening and closing window 11 is opened, and the outside air inlet is simultaneously adjusted while controlling the opening and closing window 24-1 of the indoor air outlet 24. By adjusting the opening and closing window (23-1) of (23) to adjust the inflow of the outside air and indoor air appropriately to perform the air conditioning.

In this way, in the operation of the air conditioner, the interior is controlled by the temperature sensor 22-1, the humidity sensor 22-2, and the smoke detector 22-3 installed in the indoor air inlet 22 through which indoor air is introduced. The temperature, humidity and pollution state of the air are measured, and the measured values are controlled by the preset program and memory of the DDC panel 51 to open and regulate the air at the set discharge temperature by opening and controlling the valve of the heating and cooling coil 26. The water supply valve of the humidifier 27 is adjusted in consideration of the humidity of the indoor air to adjust the amount of humidification.

Thus filtered, heated or cooled and humidified air is supplied to the room through the air outlet 30 by the blower 29 consisting of a motor and a blower fan, the temperature sensor 30-1 installed in the air outlet 30 ) And the temperature and humidity of the air supplied to the room by the humidity sensor 30-2 are sensed and input the numerical value to the DDC panel 51, and the valves of the heating and cooling coils 26 by the numerical value. The humidification amount of the adjusting and humidifying device 27 is automatically adjusted to optimally control the air supplied to the room.

In addition, a differential pressure sensor 14 is attached to the front and rear of the filtration filter 25 to remove foreign substances from the air introduced therein, and checks the contamination state of the filtration filter 25 by checking the contamination state of the filtration filter 25. ) And the air flow pressure.

As described above, the air conditioner of the present invention installs each of the detectors inside the case, thereby filtering the air in an optimal state.

In the related art, it can be seen that the temperature sensor is attached inside the air conditioner for the optimal operation of the air conditioner. However, this was merely to monitor the operation state of the air conditioner. By inputting and outputting the detector to the DDC panel 51, the automatic adjustment and optimal operation state are implemented.

In particular, it is possible to obtain an air conditioner that can obtain the best effect when the detector is installed at the time of manufacturing the case according to the performance and specifications of each component inside each sensor.

The present invention solves the irrationality of attaching a control device for controlling the drive after installing a mechanical component as shown in the related art by installing a detector that is compatible with each component from the time of manufacturing the case in the air conditioner. As a result, an optimum air conditioner efficiency can be obtained and a low cost air conditioner can be obtained.

In addition, the signal input by each detector is transmitted to a DDC panel with a pre-input memory and a program that operates the same. By comparing these, the optimum air conditioning and the best mechanical efficiency when operating each component are compared. You will get.

In addition, the LCD touch screen which can grasp the operation state of the machine at a glance is a very useful design that can operate the machine efficiently even for an unskilled person to adjust the display and input various operation states.

Claims (3)

It has a main body case 21 in the form of a rectangular box, has an indoor air inlet 22 for introducing indoor air into the case 21 and an indoor air outlet 24 for discharging the introduced air, and one side of the case 21. It has an external air inlet 23 for introducing external air in the air, and has a filtration filter 25 for filtering the air inside the case 21, heating and cooling coils for circulating coolant and hot water for heating and cooling the air A general air conditioner comprising a mechanical device such as having a 26, a humidifier 27, a blower 28 for supplying air to the room, and an air outlet 30, and a control device for controlling the operation thereof. In the present invention, as a configuration of the mechanical device (A) has a case (21) inside the opening and closing window 11 for blocking the indoor air introduced from the room, the opening and closing window 11, the blower 12 for sucking the indoor air on one side Is installed, the indoor air inlet (22) a sense of temperature Air 22-1, humidity sensor 22-2 and smoke detector 22-3 are installed, the indoor air outlet 24 is provided with an opening and closing window 24-1, inside the case 21 A temperature sensor 13 is installed, and the air differential pressure detector 14 detects a pressure difference between the left and right sides of the filtration filter 25, and the air outlet 30 has a temperature sensor for sensing the temperature and humidity of the exhaust air. 30-1 and a humidity sensor 30-2, wherein the signal sensed by the detector for detecting the operation of each component is introduced into the control device B. The control apparatus of claim 1, further comprising a direct digital control (DDC) panel 51 and an LCD touch screen 52, wherein the DDC panel 51 is a connector for connecting with a computer for modifying or changing a program. (51-1), the DDC panel (51) has a program, A / D, D / A converter, memory storage means necessary for controlling data obtained from each sensor, the LCD touch screen (52) The air conditioner is characterized in that to display the input and output control points, to perform the change of the set point, and to have the data input and change functions required for operation. The apparatus of claim 1, further comprising: a mechanical device constituting the air conditioner, a detector for monitoring an operation state and an operation state of each device, a control device for controlling a signal generated from the detector, and a respective detector for the mechanical device of the air conditioner; An air conditioner characterized by being installed at the same time.