KR20090037228A - Energy Saving Fully Automatic Air Conditioner - Google Patents

Abstract

An automatic air-conditioner having an energy saving type is provided to save energy and reduce preheating load in start operation by controlling the load capacity of the air-conditioner according to the condition of indoor air without a separate administrator. An automatic air-conditioner having an energy saving type comprises a sensor unit, an indoor intake fan(575) and an indoor exhaust fan(572). The sensor unit is made of one or more sensors sensing the indoor air state. The indoor intake fan and the indoor exhaust fan are equipped with an inverter and automatically controls wind volume and wind speed of cooling-and-heating intake and exhaust. The wind direction of the cooling-and-heating intake is made with a grill(410) controlling a direction. The control unit controls the grill, the indoor intake fan and the indoor exhaust fan.

Description

Automatic air conditioner with energy saving

The present invention drives the air conditioner according to the indoor air condition detected by one or more sensors to circulate only the indoor air or to supply only fresh air, and to mix the fresh air with the outside fresh air. It is possible to selectively supply air to the room by selectively supplying, filtering air or adjusting humidity according to the condition of indoor air, and controlling heating and cooling load according to the condition of indoor air. It relates to an energy saving fully automatic air conditioner.

As is generally known, an air conditioning system has a structure in which an air conditioner, which receives a cooling and heating heat source from an outdoor heat source supply device, receives functions of outdoor fresh air to perform indoor ventilation, air conditioning, humidity management, and dust removal. .

In the conventional air conditioner, an air conditioning system capable of heating and cooling a plurality of rooms with a single air conditioner has been proposed.

The conventional air conditioning system has a structure in which branch ducts extending into a plurality of indoor spaces are connected to a main duct directly connected to the air conditioner, and thus, a plurality of indoor spaces are operated through operation of one air conditioner. It has the advantage that it can heat and ventilate.

However, the above-described conventional air conditioning system supplies air to one air supply fan in the air conditioner, so that the temperature of the room between the adjacent air conditioner and the remote area due to the heat loss due to the difference in the pipe lengths of the branch ducts. There was a problem that the deviation was severe and it was difficult to respond quickly to the environment such as temperature and humidity of each room.

In such a conventional air conditioning system, an air conditioner for supplying cooling and heating to a room is provided to have a maximum (full) load of a room for safety and is usually installed to hold a marginal load of about 30%.

In addition, by controlling only the temperature of the air supplied to the room by the temperature setting value, there is a disadvantage in that the state of the indoor air cannot be controlled as a whole.

An object of the present invention for improving the conventional problems as described above, to provide a comfortable indoor environment by controlling the air quality in the best state without a separate manager while properly adjusting the indoor air by automation. In addition, it is possible to save energy by controlling the load capacity of the air conditioner according to the conditions of indoor air, and to reduce the preheating load during initial operation. The present invention provides an energy saving fully automatic air conditioner capable of maintaining an efficient driving state in which only a capacity suitable for a capacity is driven.

The present invention, in order to achieve the above object, in the air conditioner for supplying a heat source of cooling and heating from the outdoor unit to heat exchange to discharge the room,

The air conditioner, after detecting the air condition of the room by a sensor unit consisting of one or more sensors to detect the air condition of the room and circulate the air supply accordingly according to the supply of the fresh air or the fresh air of the outside and Selectively performing the operation of mixing and supplying the circulated indoor air,

It is possible to control the direction of the air conditioner by the grill which can adjust the direction, and the air speed fan and the air volume of the air conditioner and ventilation are automatically controlled by the indoor air supply fan and the indoor air ventilation fan equipped with an inverter.

Provided is an energy-saving fully automatic air conditioner for controlling the grill, the indoor air supply fan, and the indoor air ventilation fan by a control unit in which the set value is pre-registered or can be arbitrarily inputted.

In addition, the air conditioner of the present invention provides an energy saving fully automatic air conditioner further including an air control unit selected from a humidifier, an anion generator and an oxygen generator according to the indoor air condition.

In addition, the control unit, by connecting the outdoor unit installed in the outdoor by data (DATA) wired and wireless communication to provide an energy-saving fully automatic air conditioner that is installed to be controlled at a remote location and indoors at the same time.

The control unit is installed to adjust the speed and direction of the indoor air supply fan and the indoor air ventilation fan and the grill air by on / off via a wired or wireless remote control, the indoor air supply fan and the indoor air in accordance with the indoor air conditioning setting conditions Provides an energy-saving fully automatic air conditioner that automatically adjusts the air volume of the ventilation fan and adjusts the air volume according to the air supply.

In addition, the air conditioner of the present invention is further provided with a filter unit consisting of an electric filter and an automatic cleaning filter, a heat exchange unit having a plurality of heat transfer blocks having a different heat transfer area is further provided, the humidity sensor is provided on one side of the filter unit It is further provided to provide an energy-saving fully automatic air conditioner is provided with a moisture outlet for discharging the humidity of the humidified city.

As described above, according to the present invention, it is possible to maintain and control the air quality in the best state without a separate manager while appropriately adjusting the indoor air by automation to provide a comfortable indoor environment, and according to the conditions of the indoor air. By appropriately adjusting the load capacity of the air conditioner, the appropriate capacity of the cooling and heating heat source supply to supply the heat source to the air conditioner can be used to save energy and reduce preheating load during initial operation. It is possible to maintain an efficient operation state in which the outdoor unit and the air conditioner supplying the heating heat source drive only the capacity suitable for each load capacity.

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

1 is a schematic view showing an air conditioner according to the present invention, FIG. 2 is a plan view showing an air conditioner according to the present invention, and FIG. 3 is a schematic view showing a heat exchange unit of an air conditioner according to the present invention. 4 is a block diagram showing an air conditioner according to the present invention.

The present invention is composed of a plurality of sensor unit 700 installed in the room and the air conditioner (AC) in conjunction with the sensor unit 700 is operated by the control signal of the control unit 600.

In addition, the air conditioner AC is further connected to one or more outdoor units C having different capacities for supplying cooling and heating heat sources.

The sensor unit 700 is made of at least one selected from a temperature sensor, a pollution degree sensor, a humidity sensor, a user detection sensor, a danger detection sensor.

The control unit 600 is installed so that the setting data for the operation is input in advance while the automatic operation by the measured value of the sensor unit 700 is installed.

The air conditioner AC is installed to circulate the indoor air or selectively supply fresh air outside according to the indoor air condition detected by the sensor unit 700.

In addition, the air conditioner (AC) is provided with an air conditioning unit 528 made of any one or more selected from a humidifier, anion generator, and oxygen generator according to the indoor air condition.

In addition, the air conditioner (AC), the first and second filter units 524, 527 consisting of an electric filter and an automatic cleaning filter is selectively used, the differential pressure sensor 526 on one side of the filter unit (527). ) Is further provided, the humidity sensor (not shown) is provided with a moisture exhaust mechanism 529 to discharge the humidified city moisture to the outside.

Subsequently, the air conditioner AC further includes a heat exchange unit 523 to which a plurality of heat transfer blocks 523-1, 523-2, and 523-3 having different heat transfer areas are connected. The heat transfer blocks 523-1, 523-2, and 523-3 of the unit 523 are respectively connected to the outdoor unit C to receive a cooling and heating heat source.

At this time, the heat exchange unit 523 is selectively supplied with air through the branch supply pipe 523-5 opened and closed by a valve, and then collected through the discharge pipe 523-7 to be discharged.

In addition, the indoor air ventilation fan 572 and the indoor air air supply fan 575 provided to the air conditioner AC to supply and vent air are rotating inverters (not shown) connected to the control unit 600. It is controlled to regulate the air volume during supply and ventilation,

In addition, the air duct (not shown) through which air supply and ventilation pass is provided with an outdoor air supply mechanism 532-1 and an indoor air exhaust mechanism 531-1 for supplying external air and exhausting indoor air, respectively.

In addition, the outdoor air supply device 532-1 and the indoor air exhaust device 531-1 are heat-exchanged through the waste heat recovery unit 535, and the indoor air contaminated through the polluted air outlet 532 exposed to the room. It is discharged and installed to supply fresh outside air to the room through the outside air supply mechanism (531).

In addition, the grill 410 of the air conditioner (AC) is connected to the control unit 600 to be opened and closed while the rotation direction is adjusted by the drive motor, it is installed to automatically close when not in operation.

In addition, the sensor unit 700 of the present invention is further provided with a risk sensor to measure the smoke contained in the indoor air, and is installed to block the grill 410 while stopping the operation of the air conditioner when the smoke is confirmed.

In addition, the control unit 600 is installed to output smoke generation by the sensor unit through an alarm or a monitor to the outside.

The operation of the present invention having the above configuration will be described.

As shown in FIGS. 1 to 4, the air conditioner is configured to circulate the indoor air through the indoor air ventilation fan 572 and the indoor air supply fan 575 or to supply the outside air supplied through the outside air circulation unit 530 to the filter unit. After passing through the air conditioning unit and the heat exchange unit is installed to discharge the room through the indoor air supply fan 575 to supply cooling and heating and ventilation.

The operation of the air conditioner first measures the temperature, pollution degree and humidity of the room by a plurality of sensor units 700 installed in the room.

At this time, the value measured by the sensor unit 700 is automatically supplied to the control unit 600 connected thereto.

In addition, the control unit 600 is installed so as to input a predetermined temperature, humidity, and pollution degree by installing a program in which setting data for operation is input in advance while automatically operating by the measured value of the sensor unit 700. When the external control signal input using the remote control, such as to operate.

In addition, the control unit 600, the operation of the detection sensor of the sensor unit 700, that is, to detect the inflow of the user when the user enters the room through the power sensor or door to detect when the user turns on the lighting switch for indoor lighting. Automatic operation of the air conditioner (AC) in the operation of the infrared sensor.

In addition, the control unit 600, on the contrary, if the light switch is turned off or the user's material is not detected, the grill unit 410 is completely blocked while blocking the air conditioner AC.

The air conditioner AC first introduces indoor air RA 1 through an indoor air ventilation fan 572 and then uses an outdoor air circulation unit 530 or a filter unit 520 and a heat exchange unit 523. After selectively passing through) to be discharged to the room through the indoor air supply fan (575).

At this time, the indoor air supply fan 575 is connected to an inverter to control the number of revolutions by rotating at the optimum number of revolutions in accordance with the room temperature it is possible to save energy.

Subsequently, when the state of indoor air is maintained in an optimal state, the air conditioner AC blocks the damper (not shown) on the indoor air ventilation fan 572 side to the other side of the indoor air (RA (2)). After passing through the heat exchange unit 523 without passing through a separate unit, the indoor air is heat-exchanged and discharged to the indoor air supply fan 575 to allow circulation using only indoor air.

In addition, when the sensor unit 700 detects the indoor pollution, the outdoor air circulation unit 530, which is constituted as the outdoor air supply mechanism 532-1 and the indoor air exhaust mechanism 51-1, opens the polluted indoor air. Fresh outside air is introduced into the room through the outside air supply mechanism 531 while being discharged to the outside through the air outlet 523.

At this time, the grill 410 is closed and the operation of the indoor air exhaust fan 572 is stopped.

In addition, the indoor air exhaust mechanism 532-1 and the outdoor air supply mechanism 531-1 cross each other through the waste heat recovery unit 535, thereby minimizing heat loss by heat exchange between the indoor air and the outside air.

In addition, the air conditioner (AC) maintains an appropriate humidity in the room by selectively operating the air conditioning unit 528 made of one or more selected from a humidifier, anion generator, and oxygen generator according to the indoor air condition. To create a pleasant indoor environment.

In addition, the air conditioner (AC) is provided with the first and second filter units (524, 527) consisting of an electric filter and an automatic cleaning filter to filter the contaminated indoor air and to discharge it to the room, the filter The differential pressure sensor 526 is further provided on one side of the automatic cleaning filter in the unit 527 to allow automatic cleaning when the pressure rises due to a blockage, and when the humidity is excessive due to a humidity sensor (not shown) integrally provided after cleaning is completed. By blocking the grille 410 to prevent the discharge of moisture into the room, and to discharge to the outside through the water discharge mechanism 529 to prevent the moisture in the contaminated state enters the room.

Subsequently, the air conditioner AC further includes a heat exchange unit 523 to which a plurality of heat transfer blocks 523-1, 523-2, and 523-3 having different heat transfer areas are connected. While the fruit is selectively supplied, the air supplied thereto is also selectively supplied through the branch supply pipe 523-5 to minimize unnecessary energy waste.

In addition, the air conditioner AC further includes a plurality of outdoor units C having different capacities to be selectively operated according to the load capacity of the air conditioner, so that the air conditioner AC is selectively used according to the use condition of the air conditioner.

In addition, the air conditioner (AC), the sensor unit is further provided with an infrared sensor for detecting the human body and a light sensor, such as a resistance sensor for detecting the use of electricity and a door sensor for detecting the entrance and exit of the front door. Automatic operation when entering and exiting the house, the sensor unit is linked with the timer to automatically turn off the air conditioner when not in use for a certain time.

In addition, the air conditioner (AC), the control unit 600 is provided with a microcomputer to accumulate the use time and the amount of use of each mechanical device to output the replacement time, such as parts integrally to replace the product Keep it in the best state at all times.

In addition, the control unit 600, the RF unit is provided to enable wireless communication from the outside through the remote control, and each damper for controlling the wind speed and air volume of the cooling and heating air supply and exhaust exhaust according to the control of the air supply damper The damper is installed to interlock proportionally.

In addition, the control unit 600, the indoor air ventilation fan 572 and the indoor air supply fan 575 on / off, and the grille 410 by adjusting the angle of the appropriate temperature and the amount of air and wind speed and And it is possible to adjust, and through the output unit, such as a monitor provided in the control unit 600 to check the on-off state of the wind speed and air flow rate and the damper of the cooling and heating air supply.

Subsequently, the control unit 600 and the outdoor unit C are connected to each other via RS485 communication, and the indoor air ventilation fan 572 and the indoor air supply fan 575 for controlling the wind speed and the air volume of each air-conditioning and supply air in each outdoor unit are By controlling the on / off and opening and closing of the grille, it is possible to control the operation of the air conditioner while grasping the setting and status of the air volume, wind speed, and temperature.

In addition, the control unit 600 turns off each indoor air ventilation fan 572 and the indoor air supply fan 575 for adjusting the air-conditioning and the air flow rate of the cooling and heating air supply and exhaust in the space that does not need the indoor air conditioning supply. To stop the supply of cooling and heating air in the room.

In addition, when only a constant ventilation is supplied, only the heat exchange air supply fan 575 and the indoor air exhaust fan 572 are operated without the heat exchange unit 523 to ventilate the indoor air.

The control unit and the outdoor unit are connected to each other via RS485 communication, and the air conditioner of the air conditioner is grasped while grasping the on / off of the damper for controlling the wind speed and air volume of the air conditioning air conditioner and the air volume. Allows you to control the operation.

With the above configuration, it is possible to create a pleasant indoor environment while efficiently utilizing energy by operating in an optimal state by automation according to indoor air conditions.

1 is a schematic diagram showing an air conditioning and air conditioning system according to the present invention.

Figure 2 is a plan view showing an air conditioning and air conditioning system according to the present invention.

Figure 3 is a schematic diagram showing a heat exchange unit of the air conditioning and air conditioning system according to the present invention.

Figure 4 is a block diagram showing a control state of the air conditioning and air conditioning system according to the present invention.

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

523 ... heat exchange unit 527 ... filter unit

528 air conditioning unit 530 damper

410 Grill 600 Controller

700 ... Sensor Unit

Claims (15)

The present invention, in order to achieve the above object, in the air conditioner for supplying a heat source of cooling and heating from the outdoor unit to heat exchange to discharge the room, The air conditioner, after detecting the air condition of the room by a sensor unit consisting of one or more sensors to detect the air condition of the room and circulate the air supply accordingly according to the supply of the fresh air or the fresh air of the outside and Selectively performing the operation of mixing and supplying the circulated indoor air, It is possible to control the direction of the air conditioner by the grill which can adjust the direction, and the air speed fan and the air volume of the air conditioner and ventilation are automatically controlled by the indoor air supply fan and the indoor air ventilation fan equipped with an inverter. Energy-saving fully automatic air conditioner to control the grill, indoor air supply fan, and indoor air ventilation fan by a control unit in which the set value is registered in advance or can be arbitrarily inputted. The air conditioner of claim 1, wherein the air conditioner is further provided with one or more selected from a dehumidifier, a humidifier, an anion generator, and an oxygen generator to generate dehumidification, humidification, anion, and oxygen according to an indoor air condition. Energy-saving fully automatic air conditioner, characterized in that 2. The filter unit according to claim 1, wherein the filter unit comprises a filter member 527 formed as a carbon filter electric filter and an automatic cleaning filter, and a differential pressure sensor 526 provided at both sides thereof. Energy saving type automatic air conditioner, characterized in that the water outlet 529 is further provided to discharge the steam to the outside in order to prevent the water vapor generated by cleaning the dust collected in the filter inside the air conditioner The heat exchange unit of claim 1, wherein the heat exchange unit is configured to have a plurality of heat transfer blocks 523-1, 523-2, and 523-3 connected to each other while having different heat transfer areas. Economy Fully Automatic Air Conditioner The energy of claim 4, wherein the heat exchange unit is installed to be discharged through the discharge pipe 523-7 after air is selectively supplied through the branch supply pipe 523-5 opened and closed by a valve. Economy Fully Automatic Air Conditioner The air conditioner (AC) of claim 1, wherein the air conditioner (AC) is provided with an indoor air exhaust fan (572) and a heat exchange air supply fan (575), each of which has a rotational speed controlled as an inverter for exhausting and intake of indoor air, and exchanging heat. Energy-saving fully automatic air conditioner, characterized in that for driving the air flow proportionally to the indoor air exhaust fan 572 according to the air flow rate of the air supply fan (575) The energy saving type automatic air conditioner of claim 1, wherein the sensor unit 700 is formed of at least one selected from a temperature sensor, a pollution degree sensor, a humidity sensor, and a user detection sensor. The air conditioner of claim 1, wherein a plurality of outdoor units having different capacities to be selectively operated according to the load capacity of the air conditioner are further provided to be selectively used according to the use condition of the air conditioner. Energy Saving Fully Automatic Air Conditioner The air conditioner of claim 1, wherein the air conditioner further includes an infrared sensor for detecting a human body by a sensor unit, a resistance sensor for detecting the use of electricity with a light switch, and a door sensor for detecting entry and exit of an entrance. Automatic operation when entering and exiting the house, the sensor unit is linked with a timer energy-saving fully automatic air conditioner, characterized in that to automatically turn off the air conditioner when not in use The air conditioner of claim 1, wherein the air conditioner is integrally provided with a microcomputer for accumulating the use time and the amount of use of the mechanical device in the control unit to output the replacement time, etc., and the control unit is provided with an external RF unit. Energy-saving fully automatic air conditioner characterized by enabling wireless communication through a remote control The air conditioner of claim 1, wherein the rotation angles of the air supply and exhaust grills connected to the air supply and exhaust ducts in the room are proportionally interlocked with the exhaust grills under the control of the air supply grills. Fully automatic air conditioner The energy saving type automatic air conditioner of claim 1, wherein the control unit enables the control unit to check the on / off state of the damper for adjusting the wind speed and the air volume of the air conditioning and heating air supply. The air conditioner according to claim 12, wherein the control unit and the outdoor unit are connected to each other via RS485 communication, and the air is checked while the ON / OFF and air volume, wind speed, temperature, etc. of the dampers for controlling the wind speed and the air volume of the air conditioner are controlled. Energy-saving fully automatic air conditioner, characterized in that to control the operation of the conditioner The air control fan of claim 1, wherein each of the indoor air supply fan 575 and the indoor air ventilation fan 571 for controlling the airflow and the air flow rate of the air conditioning and cooling air supply and ventilation in the space that does not require the supply of air conditioning. Energy-saving fully automatic air conditioner, characterized in that to supply the cooling and cooling air volume in the room The method of claim 1, wherein the control unit, the sensor unit to stop the operation of the air conditioner in the detection of the smoke while the smoke is alarmed to stop the blocking of the grill and the operation of the indoor air supply fan and the indoor air ventilation fan. Energy-saving fully automatic air conditioner, characterized in that installed

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