KR19980045837U - Indoor ventilation of air conditioner - Google Patents

Abstract

The present invention relates to an indoor air conditioner of an air conditioner. In particular, the ventilation fan is automatically turned on / off and the louver displacement installed on the front side is appropriately adjusted according to the measurement result of indoor pollution so that the indoor environment is always maintained optimally. It relates to the indoor ventilation of an air conditioner.

In particular, the air conditioner controls the indoor environment by operating a fan motor and a compressor in comparison with a condition set from an infrared remote controller, and installs a gas sensor 31 for measuring the pollution level of the indoor air in the air conditioner indoor unit. Pollution degree detection unit 14 for inputting the data as an electrical signal, the microcomputer 10 for determining the pollution level in the room according to the data input from the pollution degree detection unit 14 and applying a ventilation control signal to the output terminal, The ventilation fan FM1 is operated as a control signal of the microcomputer 10 to ventilate the indoor air.

Description

Indoor ventilation of air conditioner

The present invention relates to an indoor air conditioner of an air conditioner. In particular, the ventilation fan is automatically turned on / off and the louver displacement installed on the front side is appropriately adjusted according to the measurement result of indoor pollution so that the indoor environment is always maintained optimally. It relates to the indoor ventilation of an air conditioner.

As shown in FIG. 1, the general air conditioner receives an infrared signal according to a key operation of the infrared remote controller 2, converts it into an electrical signal, and controls the microcomputer 1 to control the temperature of the surrounding environment. A temperature and humidity sensing unit 4 which senses humidity and inputs it to the microcomputer 1, a fan motor driving unit 6 which drives an indoor fan and an outdoor fan according to a control signal of the microcomputer 1, and the microcomputer Compressor driving section 7 for driving on / off of compressor CP according to the control signal of (1), and LED display section 5 for displaying the current operating state.

When the air conditioner configured as described above outputs a signal to the main body by the infrared remote control unit 2 in a desired driving state, the infrared receiver 3 converts the infrared input signal of the infrared remote controller 2 into an electrical signal and outputs it to the microcomputer 1. Therefore, the microcomputer 1 determines the temperature and humidity of the room from the temperature and humidity detecting unit 4, and operates the fan motor FM and the compressor CP in comparison with the conditions set by the infrared remote controller 2. We adjust indoor environment comfortably.

However, the air conditioner described above was far from realizing a pleasant environment by simply controlling the indoor environment with only temperature and humidity. In other words, when indoor air is contaminated due to pollution caused by the people living in the room (smoking, etc.), the conventional air conditioner does not discharge it properly, and the air conditioner is continuously operated, causing various respiratory diseases. It caused.

The present invention has been made to solve the above problems, the purpose is

The air conditioner and the ventilation fan are electrically interconnected. In particular, the ventilation fan is automatically turned on / off according to the measured pollution level of the room and the louver displacement installed at the front is properly adjusted to maintain the indoor environment at all times. It is to provide an indoor ventilation of the air conditioner.

1 is a system control block diagram of a conventional air conditioner,

2 is a block diagram of an indoor ventilation device of the present invention,

3 (a), (b), (c), (d), (e) is a view illustrating the louver displacement of the ventilator of the present invention,

4 is a system control block diagram of the present invention air conditioner,

5 is a control flowchart of FIG. 4.

* Symbol description for main part of drawing *

The present invention for achieving the above object in the air conditioner to control the indoor environment by operating the fan motor and the compressor compared to the conditions set from the infrared remote control, the air conditioner indoor unit is installed in the gas sensor for measuring the pollution degree in the room And a pollution detection unit for inputting the measured data as an electrical signal, a microcomputer for determining a pollution level in the room according to the data input from the pollution detection unit, and applying a ventilation control signal to an output terminal, and ventilation with a control signal of the microcomputer. Ventilation fan drive unit that ventilates the indoor air by operating the fan is characterized by.

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

2 is a block diagram of the indoor ventilation device of the present invention, Figure 3 (a), (b), (c), (d), (e) is a view illustrating the louver displacement of the ventilation device of the present invention, Figure 4 5 is a control flowchart of the present invention air conditioner.

2 and 4, the infrared receiver 12 receives the infrared signal according to the key operation of the infrared remote controller 1, converts it into an electrical signal, and controls the microcomputer 10 to control the temperature of the surrounding environment. Temperature and humidity sensing unit 14 for sensing the humidity and input to the microcomputer 10, the fan motor driver 16 for driving the indoor fan and the outdoor fan according to the control signal of the microcomputer 10, and the microcomputer ( In a well-known air conditioner comprising a compressor driver 17 for driving on / off the compressor CP according to the control signal of 10), and an LED display unit 15 for displaying a current operating state, the indoor unit of the air conditioner is indoors. The gas sensor 32 is installed to measure the pollution degree of the air pollution control unit 14 for inputting the measured data to the input terminal of the microcomputer 10 and the indoors according to the data input from the pollution detection unit 14. To determine the pollution level of the A microcomputer 10 for applying the fish signal and a ventilation fan driver 18 for operating the ventilation fan FM1 with the control signal of the microcomputer 10 to ventilate the indoor air.

In addition, a louver 21a, which is opened by the driving force of the motor 21, is installed in front of the ventilation fan FM1, and the motor 21 is opened at a different displacement according to the contamination degree result measured by the microcomputer 10. It is controlled by the louver adjusting unit 19 to make.

Here, the opening angle for each pollution degree is set to 15 ° at 20%, 30 ° at 30%, 45 ° at 40%, 60 ° at 50%, and 90 ° at 50% or more.

Referring to the operation of the present invention configured as described above based on Figures 3 and 5 as follows.

First, when the consumer outputs a signal to the main body 30 with the infrared remote controller 11 in a desired driving state, the infrared receiver 12 converts the infrared input signal of the infrared remote controller 11 into an electrical signal and the microcomputer 10. The microcomputer 10 determines the temperature and humidity of the room from the temperature and humidity detecting unit 13, and operates the fan motor and the compressor by comparing with the conditions set by the infrared remote controller 11. Normal cooling operation for comfortably adjusting the environment is performed (S1).

During the cooling operation, when the indoor air becomes turbid and directly inputs a ventilation signal, or is installed in the indoor unit and the gas sensor 31 measuring pollution is measured at least a certain amount of pollution data (S2) after the ventilation device ( As soon as the louver angle of 20) is displaced, the ventilation fan (FM1) of the ventilation system is automatically activated to quickly ventilate the room.

In more detail, when the pollution degree is determined to be 20% in the pollution detecting unit 14 (S3), the microcomputer 10 controls the louver adjusting unit 19 to control the louver 19 to the driving force of the motor 21 (see FIG. As shown in (e), the louver 21a is displaced by 15 ° (S4) and a control signal is applied to the ventilation fan driver 18 to turn on the ventilation fan FM1 to proceed with the ventilation operation (S13). ).

When the pollution degree is determined to be 30% by the pollution detecting unit 14 (S5), the microcomputer 10 controls the louver adjusting unit 19 to drive the motor 21 as shown in FIG. In addition, the louver 21a is displaced by 30 ° (S6) and a control signal is applied to the ventilation fan driver 18 to turn on the ventilation fan FM1 to perform the ventilation operation (S13).

When the pollution degree is determined to be 40% by the pollution detecting unit 14 (S7), the microcomputer 10 controls the louver adjusting unit 19 and as shown in FIG. 3C by the driving force of the motor 21. Then, the louver 21a is displaced to 45 ° (S8) and a control signal is applied to the ventilation fan driver 18 to turn on the ventilation fan FM1 to perform the ventilation operation (S13).

When the pollution degree is determined to be 50% by the pollution detecting unit 14 (S9), the microcomputer 10 controls the louver adjusting unit 19 and as shown in FIG. 3B by the driving force of the motor 21. In addition, the louver 21a is displaced by 60 ° (S10) and a control signal is applied to the ventilation fan driver 18 to turn on the ventilation fan FM1 to perform the ventilation operation (S13).

When the pollution degree is determined to be 50% or more by the pollution detecting unit 14 (S11), the microcomputer 10 controls the louver adjusting unit 19 to the driving force of the motor 21, as shown in FIG. Similarly, the louver 21a is displaced by 90 ° (S12) and a control signal is applied to the ventilation fan driver 18 to turn on the ventilation fan FM1 to perform the ventilation operation (S13).

As described above, the present invention is a useful design that keeps the indoor air clean at all times by automatically operating the louver and the ventilation fan installed at the front of the ventilation fan according to the indoor pollution degree.

The above example is only one embodiment, and can be changed and modified as many within the scope of the present invention.

Claims (2)

In an air conditioner that controls the indoor environment by operating a fan motor and a compressor compared to a condition set by an infrared remote controller, a gas sensor 31 for measuring indoor pollution degree is installed in an air conditioner indoor unit, and the measured data is electrically Pollution degree detection unit 14 inputted as a signal, a microcomputer 10 for determining a pollution level of the room according to the data input from the pollution degree detection unit 14 and applying a ventilation control signal to the output terminal, and the microcomputer 10 Indoor ventilation device for an air conditioner, characterized in that consisting of a ventilation fan drive unit 18 for operating the ventilation fan (FM1) by the control signal to ventilate the indoor air. According to claim 1, wherein the front of the ventilation fan (FM1) is provided with a louver (21a) which is an opening degree with a predetermined driving force, the louver (21a) is a different displacement according to the pollution degree result measured in the microcomputer (10) Indoor ventilation of the air conditioning, characterized in that the opening is made.