KR20000015645A - Wind direction controlling method by temperature declination - Google Patents

Abstract

In the air conditioner, a method for controlling the direction of the wind by the temperature deviation that changes the direction of the discharged air flow according to the detected temperature deviation after detecting the incoming indoor air with each of the two temperature sensors, the position different from the suction grill In an air conditioner having a first temperature sensor and a second temperature sensor for sensing each temperature of the air flowing into the air, and a wind direction louver for controlling the wind direction according to the respective temperature sensing results, the indoor air through the suction grill. Comparing the temperature of the inflow air detected by each of the first temperature sensor and the second temperature sensor with each other, and determining the switching direction of the wind direction louvers according to the deviation of the compared temperatures; The wind direction louver is stopped after switching by the preset angle according to the determined switching direction, so that the room temperature is evenly distributed quickly. Key relates to a wind direction control method according to temperature variations.

Description

Wind direction control method by temperature deviation

The present invention relates to an air conditioner, and in particular, to detect the indoor air flowing in by using two temperature sensors, respectively, and then to change the direction of the discharged air flow according to the detected temperature deviation to reduce the left and right temperature deviation in the room. It relates to a wind direction control method by a temperature deviation.

In general, an air conditioner is a cooling device that sucks hot air in a room, changes it to cold air, and discharges it again, and is mainly composed of an indoor unit and an outdoor unit. Here, the indoor air introduced through the suction grill according to the rotational speed of the blowing fan constituting the indoor unit is cooled by the cold refrigerant of the evaporator and then discharged back into the room through the discharge grill.

1 is a front sectional view showing an indoor unit of a general air conditioner according to the prior art.

Referring to FIG. 1, when indoor air is introduced through the suction grill 1, the temperature of the indoor air introduced through the suction grill 1 is detected by the temperature sensor 2. Here, thermistor is mainly used as the temperature sensor 2, which is a temperature sensing element whose resistance value changes depending on the ambient temperature.

According to the detected room temperature, the controller (not shown) outputs a control signal corresponding to the room temperature to drive the wind direction motor (not shown).

The left and right wind direction louvers 3 rotate by a predetermined angle at predetermined intervals in response to the driving of the wind direction motor (not shown).

As such, the air conditioner according to the prior art sucks indoor air, thereby sensing the temperature of the air being sucked. The detected temperature is compared with the desired temperature set by the user, and then the wind direction louver 3 is adjusted accordingly.

As described above, the air conditioner according to the related art cannot detect the left and right temperature deviations of the indoor air introduced due to the use of a single temperature sensor, which takes more time to reduce the left and right temperature deviations in the room.

The present invention has been made in order to solve such a problem, to detect the left and right temperature deviation of the incoming indoor air using two temperature sensor, and to change the direction of the discharged air according to the detected temperature deviation It is an object of the present invention to provide a wind direction control method based on a temperature deviation to rotate the wind direction louver so as to reduce the left and right temperature variations in the room in a short time.

1 is a front sectional view showing an indoor unit of a general air conditioner according to the prior art.

Figure 2 is a front sectional view showing the indoor unit of the air conditioner according to the present invention.

Figure 3a is a flow chart illustrating a wind direction control method by the temperature deviation when setting the cooling mode according to the present invention.

Figure 3b is a flow chart illustrating a wind direction control method by the temperature deviation when setting the heating mode according to the present invention.

Explanation of symbols for main parts of the drawings

10: suction grill 20: first thermistor

30: 2 thermistor 40: left and right wind direction louver

Features of the wind direction control method by the temperature deviation according to the present invention for achieving the above object is the first temperature sensor and the second temperature sensor and each temperature for sensing the temperature of the air flowing into the suction grill and different locations, respectively In the air conditioner having a wind direction louver for controlling the wind direction in accordance with the detection result, the step of indoor air flows through the suction grill, and the temperature of the intake air respectively sensed by the first temperature sensor and the second temperature sensor Comparing the two with each other, determining the switching direction of the wind direction louvers according to the deviation of the compared temperature, and stopping the wind direction louvers after switching by a predetermined angle according to the determined switching direction. It is done.

Preferably, in the step of comparing the temperature of the air introduced through the intake grill with each other, if there is no deviation between the temperatures of the respective sensed inlet air, the wind direction control by the temperature deviation is further included. .

In addition, the step of comparing the temperature of the air introduced through each of the suction grill with each other, the temperature of the air flowing into the one side of the suction grill and the temperature of the air flowing into the other side of the suction grill is compared with each other In the determining of the left and right switching directions of the wind direction louvers according to the compared deviation of the temperatures, the direction of change of the wind direction louvers is determined differently in each case in which the air conditioner is operated in a cooling mode or a heating mode.

Finally, the step of stopping the wind direction louvers after the switching by a predetermined angle according to the determined switching direction, if the air conditioner is operated in the cooling mode after the wind direction louvers are switched in the direction of the high temperature of the inlet air When the air conditioner is operated in the heating mode, the wind direction louvers are stopped after the airflow louver is switched to a direction in which the temperature of the inlet air is low.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the wind direction control method according to the temperature deviation according to the present invention will be described.

Figure 2 is a front sectional view showing the indoor unit of the air conditioner according to the present invention.

Referring to FIG. 2, when indoor air flows into the suction grill 10, the first thermistor 20 is installed on the left or right side of the suction grill 10 according to the temperature of the indoor air flowing from the suction grill 10. ) Will change. At this time, the temperature of the indoor air is sensed according to the resistance value which is changed.

At the same time, the resistance value of the second thermistor 30 installed on the left or right side different from the first thermistor 20 changes according to the temperature of the introduced indoor air. At this time, the temperature of the indoor air is sensed according to the resistance value which is changed.

The controller (not shown) outputs a control signal for controlling the direction of the wind due to the temperature deviation according to a result of comparing the temperatures sensed by the first thermistor 20 and the second thermistor 30, respectively. At this time, the left and right wind direction louvers 40 are switched by a predetermined angle at a predetermined period under the control of the controller (not shown), and the up and down wind direction louvers (not shown) are continuously rotated or fixed by the user. It is fixed at an angle.

The air conditioner according to the present invention in which the wind direction is controlled in accordance with the temperature deviation controls the direction of the left and right wind direction louvers 40 switched by the temperature deviation depending on whether the user selects a cooling mode or a heating mode. do. Detailed description thereof will be described in detail with reference to FIG. 3.

3A is a flowchart illustrating a method of controlling wind direction by temperature deviation when setting a cooling mode according to the present invention.

Referring to FIG. 3A, it is assumed that the user sets the air conditioner to automatically rotate the wind direction louver by setting the air conditioner in the preparation step or to face the front direction (S10).

At this time, when indoor air is introduced through the suction grill (S20), the control unit detects the temperature of the left inlet air detected from the thermistor installed on the left side of the suction grill and the right inlet air detected from another thermistor installed on the right side of the suction grill. The temperature is compared with each other (S30).

When it is determined that the temperature of the left inlet air and the temperature of the right inlet air are the same (S40) according to the result compared by the controller, the state of the preparatory step S10 assumed above is maintained.

However, if it is determined that the temperature of the left inlet air and the temperature of the right inlet air are not the same as the result of the comparison in the control unit, it is again determined whether the temperature of the left inlet air is higher than the temperature of the right inlet air (S50). According to the determination result, if it is determined that the temperature of the left inlet air is higher than the temperature of the right inlet air, the left and right wind louvers are stopped in the left direction (S60). Here, the control unit continues to maintain the state of the left and right wind direction louvers until it is determined that the temperature of the left inlet air and the temperature of the right inlet air are the same.

In addition, it is determined whether the temperature of the right inlet air is higher than the temperature of the left inlet air (S70). If it is determined that the temperature of the right inlet air is higher than the temperature of the left inlet air according to the previously determined result, the left and right wind direction louvers are directed to the right direction. After switching is stopped (S80). Here, the control unit continues to maintain the state of the left and right wind direction louvers until it is determined that the temperature of the right inlet air and the temperature of the left inlet air are the same.

Figure 3b is a flow chart illustrating a wind direction control method by the temperature deviation when setting the heating mode according to the present invention.

Referring to FIG. 3B, it is assumed that the user sets the air conditioner to automatically rotate the wind direction louver by setting the air conditioner in the preparation step or to face the front direction (S100).

At this time, when indoor air is introduced through the suction grill (S200), the control unit detects the temperature of the left inlet air detected from the thermistor installed on the left side of the suction grill and the right inlet air detected from another thermistor installed on the right side of the suction grill. The temperature is compared with each other (S300).

When it is determined that the temperature of the left inlet air and the temperature of the right inlet air are the same (S400) according to the result compared by the controller, the state of the preparatory step S100 assumed above is maintained.

However, when it is determined that the temperature of the left inlet air and the temperature of the right inlet air are not the same as the result of the comparison in the controller, it is again determined whether the temperature of the left inlet air is higher than the temperature of the right inlet air (S500). If it is determined that the temperature of the left inlet air is higher than the temperature of the right inlet air according to the determination result, the left and right wind louvers are stopped in the right direction (S600). Here, the control unit continues to maintain the state of the left and right wind direction louvers until it is determined that the temperature of the left inlet air and the temperature of the right inlet air are the same.

In addition, it is determined whether the temperature of the right inlet air is higher than the temperature of the left inlet air (S700). If it is determined that the temperature of the right inlet air is higher than the temperature of the left inlet air according to the previously determined result, the left and right wind direction louvers are directed to the left direction. After switching is stopped (S800). Here, the control unit continues to maintain the state of the left and right wind direction louvers until it is determined that the temperature of the right inlet air and the temperature of the left inlet air are the same.

The present invention detects the temperature deviation of the indoor air as the temperature deviation of the left and right indoor air flows, and determines the direction of the discharge air by using the detected temperature deviation, thereby quickly changing the left and right temperature of the indoor air The effect is to reduce the deviation.

Claims (5)

According to the respective temperature sensing results of the suction grill, the first temperature sensor and the second temperature sensor for sensing the temperature of the inlet air at different positions of the suction grill, and the first temperature sensor and the second temperature sensor, respectively. In an air conditioner having a wind direction louver for controlling the wind direction, Introducing indoor air through the suction grill; Comparing the temperatures of the inlet air sensed by the first temperature sensor and the second temperature sensor with each other; Determining a switching direction of the wind direction louvers according to the compared deviations of the temperatures; And the wind direction louver is stopped after switching by a predetermined angle according to the determined switching direction. The method of claim 1, wherein in the step of comparing the temperatures of the air introduced through the suction grill with each other, when there is no deviation between the temperatures of the respectively detected inlet air, the step of controlling the wind direction by the temperature deviation is terminated. Wind direction control method by the temperature deviation, characterized in that it further comprises. The method of claim 1, wherein the comparing of the temperatures of the air introduced through the suction grill with each other comprises: comparing the temperature of the air introduced into one side of the suction grill and the temperature of the air introduced into the other side of the suction grill; Wind direction control method by the temperature deviation characterized by comparing with each other. The method of claim 1, wherein in the determining of the left and right switching directions of the wind direction louvers according to the compared deviations of the temperatures, the direction of change of the wind direction louvers in each case in which the air conditioner is operated in a cooling mode or a heating mode. The wind direction control method by the temperature deviation characterized by this being determined differently. The method of claim 1, wherein the stopping of the wind direction louvers after the switching by a predetermined angle according to the determined switching direction comprises: when the air conditioner is operated in a cooling mode, the wind direction louvers in a direction in which the temperature of the inlet air is high. Is stopped after switching, and when the air conditioner is operated in a heating mode, the wind direction louver is stopped after switching in a direction in which the temperature of the inlet air is low.