KR20030048761A - Air Conditioner and Controlling Method for the Same - Google Patents

Abstract

PURPOSE: An air conditioner and a control method thereof are provided to automatically control the air conditioner according to the increase and decrease of the number of persons by installing an infrared ray-detecting sensor to the air conditioner, storing the infrared rays of the room detected in an initial driving of the air conditioner by the infrared ray detecting sensor, comparing the infrared rays of the room detected in driving the air conditioner with the stored infrared rays, and automatically controlling the discharging amount and direction of the air conditioner to the variation. CONSTITUTION: A vertical air conditioner comprises an infrared ray-detecting sensor(11) installed to a left and right movable louver of the air conditioner and a microcomputer(13) controlling the driving method of the air conditioner according to the infrared rays detected by the infrared ray-detecting sensor.

Description

Air Conditioner and Control Method {Air Conditioner and Controlling Method for the Same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner and a control method thereof. In particular, an air conditioner and a control method for automatically controlling the air conditioner installed for indoor air conditioning are automatically controlled according to the number of users present in the room and the change of position thereof. It is about.

Recently, the installation of upright air conditioners for air conditioning in a large dining room or classroom has increased significantly. The upright air conditioner is installed to be located in a space of the room to perform a cooling / heating function so that the indoor air is harmonized.

However, in this case, since the upright air conditioner is installed in a specific space, there is a problem that it is impossible to properly and uniformly match indoor air in a large space.

That is, as illustrated in FIG. 1, when the upright air conditioner 1_ is installed in a specific space (a) of the room, the upright air conditioner (1) measures only the room temperature of the specific space (a) and the room. The temperature is compared with the reference temperature set in the air conditioner and the driving method is controlled accordingly.

If the upright air conditioner 1 is an air conditioner that performs a cooling function, the upright air conditioner stops the cooling function when the measured indoor temperature is lower than the reference temperature and cools when the measured indoor temperature is higher than the reference temperature. The function will be enhanced.

Therefore, the cooling function is controlled only according to the temperature of the specific space (a), and the indoor temperature of the other spaces (b, c, d) is not recognized, so that the indoor air is not uniformly harmonized.

In addition, when the indoor occupant increases, the indoor temperature also increases. As the conventional upright air conditioner recognizes only the indoor temperature of a specific space (a) and is controlled accordingly, if the occupant is not a space, a b or c space. If it is located in the room temperature will rise regardless of the operation of the air conditioner, accordingly the user does not feel comfortable even when the air conditioner is operating.

The present invention has been made to solve the above problems of the prior art, the purpose of which is equipped with an infrared detection sensor in the air conditioner is installed for indoor air conditioning and driving method according to the amount of infrared rays detected through the infrared detection sensor The present invention provides an air conditioner and a method of controlling the same according to the number of occupants.

1 is a view showing an example in which a conventional upright air conditioner is installed,

2 is a view showing an example in which an upright air conditioner according to the present invention is installed;

3 is a block diagram showing the configuration of an upright air conditioner according to the present invention;

Figure 4 is a flow chart illustrating the flow of the control method of the upright air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: upright air conditioner 11: infrared detection sensor

12: memory unit 13: microcomputer

14: alarm

According to a feature of the air conditioner according to the present invention for solving the above problems, in the upright air conditioner installed for air conditioning in the room, the upright air conditioner is an infrared ray installed in the left and right moving louvers of the air conditioner And a microcomputer for controlling a driving method of the air conditioner according to the detection sensor and the amount of infrared rays detected by the infrared detection sensor.

In addition, according to a feature of the air conditioner control method according to the present invention, by using an infrared detection sensor mounted on the upright air conditioner installed for air conditioning in the room to store information about the amount of infrared light of the plurality of indoor space detected A first step, a second step of comparing information on the existing amount of infrared rays stored in the first step with the amount of infrared rays currently measured, and a step of adjusting the discharge amount of the air conditioner as compared in the second step. It consists of 3 steps.

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

As shown in FIG. 2, the air conditioner according to the present invention is an upright type air conditioner 10 installed indoors. In the present embodiment, the air conditioner is limited to the air conditioner for cooling the indoor air.

Here, the upright air conditioner 10 further includes an infrared detection sensor mounted on the left and right rotation louvers, and the microcomputer of the upright air conditioner 10 is configured according to the amount of infrared rays detected by the infrared detection sensor. Control the driving method of air conditioner.

3 is a view showing the internal configuration of the upright air conditioner 10 according to the present invention.

As shown, the upright air conditioner 10 according to the present invention is mounted on the left and right louver louver infrared detection sensor 11 for detecting the amount of infrared light in a plurality of indoor space in accordance with the drive of the air conditioner 10 And a memory unit 12 storing data on the amount of infrared rays of the plurality of spaces detected by the infrared detection sensor 11, the amount of infrared rays currently measured by the infrared detection sensor 11, and the memory unit. Comparing the existing amount of infrared rays stored in (12) with each other, and accordingly to control the discharge amount and the discharge direction of the air conditioner is configured to include a microcomputer 13 connected to the left and right rotation louver drive motor (M).

When the upright air conditioner 10 is driven for the first time, the infrared detection sensor 11 mounted on the sinusoidal rotation louver is a plurality of spaces b, c, including a space in which the upright air conditioner 10 is installed, Scan by detecting the amount of infrared rays present in the d, e, f, g, h space.

At this time, the infrared amount of each detected space is stored in the memory unit 12.

Thereafter, as the upright air conditioner 10 is operated, the infrared detection sensor detects the infrared amount of each space in which the data regarding the amount of infrared rays is stored in the memory unit 12 when the left and right rotating louvers are driven.

The microcomputer 13 compares the amount of infrared rays currently detected and measured by the memory unit 12 with the amount of infrared rays stored in the memory unit 12.

If the number of occupants located in the c space increases, the infrared detection sensor 11 detects the increased amount of infrared rays. Accordingly, the microcomputer 13 increases the discharge amount by increasing the amount of infrared rays currently measured through the infrared detection sensor 11, rather than the existing amount of infrared rays stored in the memory unit 12, while adjusting the left and right rotating louvers. The discharge direction of the upright air conditioner is controlled to face the c space.

On the other hand, when the number of occupants located in the c space decreases, the infrared detection sensor 11 detects the reduced amount of infrared rays. Therefore, the microcomputer 13 reduces the discharge amount by reducing the amount of infrared rays currently measured by the infrared detection sensor 11 than the existing amount of infrared rays stored in the memory unit 12, while controlling the left and right lightning louvers to adjust the The discharge direction of the upright air conditioner is controlled so as not to face the c space.

In addition, the infrared detection sensor detects the amount of infrared light in the i space of the space shown in FIG. Therefore, the microcomputer operates normally when no infrared ray is detected in the i space, and operates an alarm 14 installed in the upright air conditioner to warn that an intruder enters when infrared ray is detected in the i space.

4 illustrates a control method of an upright air conditioner according to the present invention.

First, the infrared detection sensor is mounted on the left and right rotating louvers of the upright air conditioner in the first step. (S1)

In the second step, the infrared detection sensor measures the amount of infrared light in the plurality of indoor spaces by scanning. (S2)

The amount of infrared rays measured in the second step is stored in the memory unit in the third step. Here, the amount of infrared rays is separated and stored for each space so that the microcomputer can recognize the existing amount of infrared rays for each space. (S3)

In the fourth step, the infrared detection sensor measures the amount of infrared rays of the plurality of indoor spaces again as the upright air conditioner is driven. (S4)

In a fifth step, the microcomputer compares the amount of infrared rays currently measured in the fourth step with the existing amount of infrared rays stored in the third step. (S5) If the same, the air conditioner control method according to the present invention returns to the second step.

Meanwhile, when the amount of infrared rays measured in the fifth step and the existing infrared amount are not the same, in the sixth step, the microcomputer determines whether the measured amount of infrared rays is greater than the existing infrared amount. (S6)

If the amount of infrared rays measured in the sixth step is greater than the existing amount of infrared rays, in the seventh step, the microcomputer increases the discharge amount of the air conditioner or adjusts the left and right rotation louvers so that the measured amount of infrared rays is larger than the existing infrared amount. Adjust the discharge direction toward a lot of space. (S7)

On the other hand, when the amount of infrared rays measured in the sixth step is less than the existing amount of infrared rays in the eighth step, the microcomputer reduces the discharge amount of the air conditioner or adjusts the left and right rotating louvers, the measured amount of infrared rays than the existing infrared amount Adjust the discharge direction so as not to face the small space. (S8)

The air conditioner and the control method of the present invention configured as described above are equipped with an infrared detection sensor on the left and right rotation louvers of an upright air conditioner installed for air conditioning indoors, and then the infrared detection sensor drives the air conditioner. The amount of infrared rays detected at the beginning of the room is stored and then the amount of infrared rays detected during operation of the air conditioner is compared with the stored amount of infrared rays, and the discharge amount and discharge direction of the air conditioner are automatically adjusted according to the increase or decrease. By doing so, the air conditioner is automatically controlled according to the increase and decrease of the number of occupants in the room, and accordingly, the user's comfort can be increased accordingly.

Claims (6)

In an upright air conditioner installed indoors for air conditioning, The upright air conditioner includes an infrared detection sensor installed at the left and right moving louvers of the air conditioner; The upright air conditioner of claim 1, further comprising a microcomputer for controlling the driving method of the air conditioner according to the amount of infrared rays detected by the infrared detection sensor. The method of claim 1, The upright air conditioner further includes a memory unit for storing data regarding the amount of infrared light in the room detected by the infrared detection sensor, The microcomputer of the upright type air conditioner compares the amount of infrared rays stored in the memory unit with the amount of infrared rays currently measured, and controls the driving method of the upright type air conditioner accordingly. The method of claim 1, The upright air conditioner further includes an alarm operated according to the control of the microcomputer, The upright air conditioner of the upright air conditioner is configured to operate the alarm when an infrared ray is detected in a specific space of an indoor space through the infrared detection sensor. A first step of storing information on the amount of infrared rays of the plurality of indoor spaces detected by an infrared detection sensor mounted on an upright air conditioner installed for air conditioning indoors; A second step of comparing the information on the existing amount of infrared rays stored in the first step with the amount of infrared rays currently measured; And a third step of adjusting the discharge amount of the air conditioner as compared with the second step. The method of claim 4, wherein In the third step, when the amount of infrared rays currently measured is greater than the amount of infrared rays stored as a result of the comparison in the second step, the amount of infrared rays larger than the amount of infrared rays stored is increased to the measured space, and the infrared rays currently measured than the amount of infrared rays The method of claim 2, wherein the amount of infrared rays less than the stored amount of infrared rays decreases toward the measured space. The method of claim 4, wherein The upright air conditioner control method further comprises operating an alarm mounted to the air conditioner when infrared rays are detected in a specific space.