KR0161926B1 - Air capacity and cooling capacity control method of an airconditioner - Google Patents

Abstract

The present invention adjusts the air volume according to the distance between people regardless of the distance between the air conditioner and the person, so you can feel the uniform air volume, and discharge the strong air volume to the open part compared to the part blocked by the object can efficiently control the air volume In addition, the cooling output can be increased in a direction where a person is more likely to increase the cooling comfort around a person, thereby greatly improving the efficiency and reliability of the product.

To this end, according to the present invention, the wind direction rudder 3 and the distance sensor 5 are periodically rotated left and right as the microcomputer 1 drives the wind direction drive motor 2, and the wind direction rudder 3. And reading the direction of the distance sensor 5 through the wind direction direction measuring device 6, and then measuring the instantaneous distance at which the direction is located at any one of the angles in which the front surface of the main body 7 is divided by a predetermined interval. Measuring a distance to a person and an object through the device 8, determining a flow rate in proportion to the measured distance, and controlling the air flow rate so that air is discharged from the discharge unit 9 at the determined flow rate ( 10), calculating the probability of having a person in the direction of the current wind vane 3 as the measured distance and the distance measured and stored in the same direction of the previous period, and proportional to the calculated probability. Determining the cooling output; The air volume and cooling output control method of the air conditioning step of controlling the air to cool through the cooling control device 12 by the cooling output.

Description

Air volume and cooling output control method

1 is a front view showing a conventional air conditioner.

2 is a block diagram showing the control circuit of FIG.

3 is a flowchart showing the operating state of FIG.

4 is a block diagram showing a control circuit of an air conditioner according to the present invention.

5 is a flowchart showing an operating state of the air conditioner according to the present invention.

6 is an explanatory diagram showing an operating state of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Micom 2: Wind direction drive motor

3: wind direction 4: shaft

5: distance sensor 6: wind direction measurement device

7: main body 8: distance measuring device

9: discharge part 10: air volume control device

12: cooling control device

The present invention relates to a method for controlling the air volume and cooling output of the air conditioner, and more particularly, it is possible to generate a uniform air flow regardless of the distance between the air conditioner and the person, so as to increase the cooling output around the place where the person is located. It is.

As shown in FIG. 1, a conventional air conditioner includes a main body 7, a suction part 13 which sucks indoor hot air into the main body 7, and air sucked through the suction part 13; A cooling unit 11 for cooling, a discharge unit 9 for discharging air cooled through the cooling unit 11 back to the room, a control panel 14 for receiving an operation command from a user and displaying an operation state; It is composed of a control circuit 15 for controlling the suction unit 13, the cooling unit 11 and the discharge unit 9 by receiving an operation command received from the control panel 14, the discharge unit 9 is discharged And a wind vane driving motor 2 which generates power so that the wind vane 3a rotates left and right.

Further, as shown in FIG. 2, the control circuit 15 measures the amount of rotation of the wind vane driving motor 2 to measure the direction of the wind vane 3a and the wind vane direction measuring device 6; Wind direction rudder control device 16 for controlling the direction of the wind rudder 3a by controlling the wind direction drive motor (2), and the distance sensor (5a) is attached to the front of the main body 7 to enable left and right rotation; In addition, a distance sensor driving motor 17 generates power to periodically rotate the distance sensor 5a to the left and right, and receives a signal from the distance sensor 5a in the direction of the distance sensor 5a. Distance measuring device (8) for measuring the distance to the main body (7), Distance sensor direction measuring device (18) for measuring the direction of the distance sensor (5a) by measuring the amount of rotation of the distance sensor drive motor 17 and And microcomputer 1 having input / output, memory, and arithmetic functions.

Therefore, as shown in FIG. 3, as the microcomputer 1 drives the distance sensor driving motor 17, the distance sensor 5a periodically rotates to the left and right, and in this state, the microcom 1 When the direction of the distance sensor 5a is continuously read through the distance sensor direction measuring device 18, and the direction is located at any one of the angles obtained by dividing the front surface of the main body 7 of the air conditioner by a predetermined interval. The distance measuring device 8 is operated to measure the distance between the person and the object.

Thereafter, when the measured distance is long by comparing the distance measured by the microcomputer 1 with the distance measured and stored in the same direction of the previous period, the measured distance is set to the value of the microcomputer 1 corresponding to the current distance sensor 5a direction. After storing it in a storage location, the distance measuring device 8 is operated again to continuously read the direction of the distance sensor 5a. If the measured distance is short, the microcomputer 1 moves in the direction of the wind direction. By moving the direction of the wind vane 3a to the direction of the current distance sensor 5a through the control device 16, storing the measured distance, and then reading the direction of the distance sensor 5a again. Go back and repeat the above process.

On the other hand, the distance measured by the distance sensor (5a) in the above operation process is shorter than the distance measured in the same direction of the previous period that the object in the direction of the distance sensor (5a) in the direction of the distance sensor (5a) There is a movement of or a certain object has moved in the direction of the current distance sensor 5a, which means the probability that a person will be in the direction of the current distance sensor 5a.

Therefore, the direction of the wind vane 3a by the above operation process continues to move in a direction in which there is a high probability that there is a person, thereby achieving the effect of concentrating cooling air discharge in a direction where there is a high probability that there is a person. .

However, such a conventional air conditioner generates a certain amount of air regardless of the distance to the person, so that the person close to the air conditioner feels a strong wind direction, and the person who is far away feels weak, and distinguishes between the direction blocked by the object and the open direction. Air volume control is not efficient because it maintains a constant air flow without, and the method of concentrating cooling air discharge in order to increase the degree of cooling around a place where people have a number of problems, such as that there is a risk of discomfort.

The present invention is to solve the above problems, it is possible to efficiently control the air volume by generating a uniform air volume irrespective of the distance between the air conditioner and the human person, it is possible to increase the cooling output around the place where the person is located The purpose of the present invention is to provide a method for controlling air volume and cooling output of an air conditioner to improve cooling comfort.

In order to achieve the above object, the present invention comprises the steps of periodically rotating the wind rudder and the distance sensor left and right as the microcomputer drives the wind rudder drive motor, and the direction of the wind rudder and the distance sensor to the direction of the wind rudder Continuously reading through and measuring a distance to a person and an object by using a distance measuring device, the direction of which is located at any one of the angles in which the front surface of the main body is divided into a predetermined interval. Determining the air volume in proportion, controlling the air volume controller so that air is discharged from the discharge unit at the determined air volume, and measuring and storing the measured wind in the same direction of the previous period as the current wind direction. Calculating a probability that there is a person, determining a cooling output in proportion to the calculated probability, and determining the determined cooling release rate. As a step in the procedure the air volume, and air conditioning output of the air conditioning control by controlling so that the air is cooled via a cooling control unit.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 4 to 6.

4 is a block diagram showing a control circuit of an air conditioner according to the present invention, FIG. 5 is a flowchart showing an operating state of the air conditioner according to the present invention, and FIG. 6 is an explanatory diagram showing an operating state of the air conditioner according to the present invention. As the microcomputer 1 of the air conditioner drives the wind vane driving motor 2, the wind vane 3 and the distance sensor 5 connected to the wind vane 3 and the shaft 4 periodically rotate left and right. In this state, the microcomputer 1 continuously reads the directions of the wind vane 3 and the distance sensor 5 through the wind direction direction measuring device 6, and the direction of the microcomputer 1 is the front surface of the main body 7 of the air conditioner. The distance between a person and an object is measured through the instantaneous distance measuring device 8 positioned at any one of the divided intervals.

Thereafter, the microcomputer 1 determines the air volume in a manner that is proportional to the measured distance, that is, to increase the air volume when the current measured distance is far, and to weaken the air volume when the current measured distance is close, and connects to the microcomputer 1. And the air is discharged at the air volume determined by the air volume control device 10 that controls the air volume of the air discharged from the discharge unit 9.

Subsequently, the microcomputer 1 calculates the changed value between the current measured distance and the distance measured and stored in the same direction of the previous period, and is inversely proportional to the measured distance and is proportional to the calculated change value.

| Previous measuring distance-Current measuring distance | / The current measuring distance determines the probability that a person exists in the direction of the current wind direction (3).

For example, if the direction of the wind vane 3 is A, B, C, and the previous measurement distance is 1.5, 0.8, 0.8, and the current measurement distance is 2.0, 0.5, 1.0, A direction is 0.25, B direction is 0.6, and C direction is 0.8.

Therefore, the A direction is 0.25, so the probability of human existence is low, so it is judged as 'low', and the B direction is 0.6, which is moderate. It is high, so it is judged as high.

Next, the microcomputer 1 determines the cooling output in proportion to the determined probability, and controls the power of the cooling unit 11 to control the cooling degree of the air discharged from the discharge unit 9 12. Control the air to be cooled by the cooling output determined through).

Thereafter, the microcomputer 1 stores the measured distance in the storage location of the microcomputer 1 corresponding to the current wind direction 3 and then returns to the step of continuously reading the direction of the wind direction 3. To repeat the process.

Therefore, in the state where the air conditioner is installed in the room as shown in FIG. 6, the air volume is slightly longer in the b direction because the distance from the air conditioner is slightly longer than that of the person B. Since the distance from the air conditioner is shorter than that of A, a weak air volume is discharged in the e direction, so that people A and B can feel a uniform air volume.

In addition, in the case of the object B, the air volume is slightly short, so a slight amount of air is discharged in the h direction, and the distance of the wall and the air conditioner is very long in the j direction, so a very strong air volume is discharged. Since the distance to the air conditioner is short, the weak air volume is discharged in the K direction, and thus the air volume can be efficiently controlled by discharging the strong air volume to the open portion compared to the portion blocked by the object.

That is, in the case of person A, the distance is measured slightly longer, and the change in distance is greatly measured by the movement of the person, so the probability of the person being calculated is slightly higher, so the cooling output is slightly higher in the b direction.

In the case of the object A, the distance is measured very long, and the change in the distance is measured so small that the probability of human being is very low, so the cooling output is very low in C and in this direction.

In the case of person B, the distance is measured shortly, and the change in distance is greatly measured by the movement of the person, so that the probability of the presence of a person is calculated. Therefore, the cooling power is increased in the e direction.

As such, the cooling output is increased in a direction in which there is a high probability that there is a person, thereby increasing the degree of cooling around the human body, thereby greatly improving the cooling comfort.

As described above, the present invention adjusts the air volume according to the distance between people regardless of the distance between the air conditioner and the person, so that a uniform air volume can be felt, and a strong air volume is discharged to the open part compared to the part blocked by the object. The amount of air can be efficiently controlled, and the cooling output can be increased in a direction where there is a high probability of a person, thereby increasing the cooling comfort around a person, thereby greatly improving the efficiency and reliability of the product.

Claims (3)

As the microcomputer drives the wind vane driving motor, the wind vane and the distance sensor are periodically rotated to the left and right, and the directions of the wind vane and the distance sensor are continuously read through the wind vane direction measuring device, and the direction is the front of the main body. Measuring a distance from a person and an object by means of an instantaneous distance measuring device positioned at any one of the angles divided by a predetermined interval, and determining the filling amount in proportion to the measured distance; Controlling the air volume controller so that the air is discharged from the discharge unit by the air volume, calculating a probability that a person is present in the direction of the current wind direction as a distance measured and stored in the same direction of the measured distance and the previous period; Determining a cooling output in proportion to the calculated probability; and cooling the air through a cooling control device at the determined cooling output. So that the air volume of the air conditioner, characterized in that in the control step of cooling and output control method. The method of claim 1, wherein the wind direction rudder and the distance sensor are connected to the shaft, and the air volume and the air conditioner are respectively connected to the microcomputer. The method of claim 1, wherein the calculating of the probability of the presence of a person comprises dividing a change amount of the previous measurement distance and the current measurement distance by the current measurement distance in the same direction of the wind direction and calculating the result as a probability. Air flow rate and cooling output control method.