KR20050078879A - Process of controlling a motor for duct type air-conditioner - Google Patents

Abstract

The present invention relates to a method for adjusting the air volume of the duct by adjusting the rotational speed of the motor in the duct type air conditioner, the control unit is mounted, the indoor main body equipped with an indoor blower controlled by the control unit and blows air; ; In the motor control method of the duct type air conditioner comprising a duct mounted to the indoor unit main body to guide the air flowing by the indoor blower, a test for applying a predetermined voltage to the motor for driving the indoor blower A voltage application step; A rotation speed measurement step of measuring a rotation speed of the motor rotated by the voltage applied to the motor; An air volume determination step of determining an air volume of the duct based on the rotation speed of the motor; A voltage determination step of determining, by an experimental value, a voltage applied to the motor according to the air flow determination step so that the air flow rate is greater than a predetermined amount in the duct; And a motor driving step of driving the motor by applying the voltage determined by the voltage determining step to the motor.

Description

Process of controlling a motor for duct type air-conditioner

The present invention relates to a duct type air conditioner, and more particularly, to a method for controlling air volume of a duct type air conditioner.

In general, the duct type air conditioner is installed between the ceiling wall and the ceiling surface to supply the cool air to the room after lowering the temperature in the heat exchanger by sucking the indoor air.

5 is a schematic perspective view of a duct type air conditioner according to the prior art, and FIG. 6 is a partially exploded perspective view of the indoor unit main body of FIG. 5.

5 and 6, the indoor unit of the duct type air conditioner according to the prior art connects the indoor main body 1 for air conditioning the air, and the indoor main body 1 and the indoor (not shown) to connect the air. It is comprised including the duct 2 which forms a moving path.

The indoor main body (1) is connected to the duct (2), the case (3) and the inlet (not shown) and the outlet (3a) is formed, an indoor heat exchanger (4) for heat-exchanging air and refrigerant, and the duct ( It comprises a room blower (5) for flowing the air moved through the 2), and a control box (6) provided with electrical components for controlling the indoor unit.

The case 3 is fixed to the ceiling wall C, and the duct 2 connects an interior (not shown) to the case 3.

The duct (2) is mounted so as to communicate with the room, the duct (2) is installed one or more in accordance with the size of the space for the air conditioning, the length and the number of the duct (2) The wind speed of the air flowing by the indoor blower 5 is affected.

Therefore, when the length of the duct 2 is increased or the number of ducts installed in the room is increased, a pressure drop due to friction between air and the surface of the duct 2 is generated, and the pressure drop due to the friction is increased. Therefore, the wind speed of the air discharged into the room at all times becomes small.

However, in the conventional duct type air conditioner, when the wind speed of the air discharged through the duct 2 is lower or higher than the required value, the installer manually adjusts the control box to adjust the output of the indoor blower 5. There is a problem in that the wind speed of the air discharged through the duct 2 should be adjusted.

An object of the present invention is to provide a duct type air conditioner for automatically adjusting the wind speed of air discharged through a duct.

The present invention for solving the above technical problem is equipped with a control unit, the indoor main body equipped with an indoor blower controlled by the control unit for blowing air; In the motor control method of the duct type air conditioner comprising a duct mounted to the indoor unit main body to guide the air flowing by the indoor blower, a test for applying a predetermined voltage to the motor for driving the indoor blower A voltage application step; A rotation speed measurement step of measuring a rotation speed of the motor rotated by the voltage applied to the motor; An air volume determination step of determining an air volume of the duct based on the rotation speed of the motor; A voltage determination step of determining, by an experimental value, a voltage applied to the motor according to the air flow rate determining step to flow the air flow rate over the predetermined amount in the duct; And a motor driving step of driving the motor by applying the voltage determined by the voltage determining step to the motor.

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

1 is a perspective view of a duct type air conditioner according to the present invention, Figure 2 is a partially exploded perspective view of the indoor unit main body of FIG.

1 and 2, the indoor unit according to the present invention is installed between the ceiling wall (A) and the ceiling surface (B), the indoor main body 10 and the duct connected to the indoor main body 10 ( 20).

The duct 20 includes a suction duct 22 and a discharge duct 24 to connect a room (not shown) and the indoor main body 10, and the suction duct 22 installed in the room. The number of discharge ducts 24 is determined according to the area of the room.

The indoor main body 10 includes a case 30 connected to the suction duct 22 and the discharge duct 24, and an indoor heat exchanger 40 that heat-exchanges the air introduced through the suction duct 22 with the refrigerant. And an indoor blower 50 for discharging air heat exchanged by the indoor heat exchanger 40 to the room through the discharge duct 24, and a control unit for controlling the indoor unit.

The case 30 has a suction port (not shown) formed to communicate with the suction duct 22 and a discharge port 32 formed to communicate with the discharge duct 24, and the case 30 of the case 30 On one side, a control box 34 in which electrical components are installed as a control unit for controlling the indoor unit is installed.

The indoor blower 50 includes a fan 52 for flowing air and a motor (not shown) for driving the fan 52.

The control unit adjusts the rotation speed of the motor by controlling the voltage applied to the motor by a phase control method.

3 is a first control flowchart of the indoor unit according to the present invention.

The first control flow chart of the indoor unit according to the present invention includes a test voltage applying step (S10) of applying a predetermined voltage to a motor driving the indoor blower 50, and rotation of the motor rotated by the voltage applied to the motor. A rotation speed measurement step (S20) of measuring a number, a wind volume determination step (S30) of determining the air flow rate of the discharge duct 24 based on the rotation speed of the motor, and a flow rate of a predetermined amount or more in the discharge duct 24 In accordance with the air flow determination step (S30) so that the flow is determined by an experimental value of the voltage to determine the voltage (S40) and the voltage determined by the voltage determination step (S40) to the motor by the A motor driving step (S50) for driving a motor, and a wind amount adjusting step (S60) for adjusting a voltage applied to the motor by the user when the amount of air flowing by the motor driving step (S50) is small or large. It is characterized by.

The test voltage application step 10 is a step of applying a voltage to the motor to drive the indoor blower 50 after the installation of the indoor unit, the test voltage application step 10 and the duct 20 through This is to measure the loss caused by friction of flowing air.

That is, when a plurality of the ducts 20 are formed, the amount of air flowing by the indoor blower 50 also increases. When a predetermined test voltage is applied to the motor, the amount of air to be flown depends on the amount of air to flow. This is because the rotation speed changes.

Therefore, the air volume of the air flowing according to the voltage applied to the motor of the indoor blower 50 and the motor rotational speed driven by the voltage is stored as an experimental value in the control unit. The experimental value is a value obtained through repetitive experiments, and measures the amount of air flowing by the test voltage, and measures the rotation speed of the motor according to the amount of air. In the present invention, it is used to estimate the air volume in the duct 20 by the rotation speed of the motor based on the experimental value.

The rotation speed measuring step (S20) is for measuring the rotation speed of the motor driven by the test voltage, and constitutes a circuit such as installing a sensor (not shown) on the motor or detecting an output signal of the motor. The rotation speed of the motor can be measured.

The air flow rate determining step S30 determines the air volume of the air flowing in the duct 20 by comparing the rotation speed measured by the rotation speed measurement step S20 with the rotation speed stored in the control unit. Estimate the losses incurred at (20).

The voltage determining step (S40) determines the amount of current applied to the motor by the controller in consideration of the estimated loss based on the experimental value stored in the controller in order to flow more than a predetermined amount of air through the duct 20. It's a step.

In the motor control method according to the present invention, the motor driving step S50 of driving the motor is performed by the determination voltage determined by the voltage determining step 40, and the steps up to the motor driving step S50 are performed. It is characterized in that the automatic transfer by the control unit.

By the way, the first flow chart of the present invention comprises a wind volume adjusting step (S60) for the user to adjust the voltage applied to the motor when the amount of air flows by the motor driving step (S50) is small or large, the air flow rate The adjusting step S60 is to adjust the voltage applied to the motor by the user operating the controller by the remote controller. Thus, when it is determined that the air volume discharged through the discharge duct 24 is not appropriate, the user can adjust the air volume by operating the remote controller, and the control unit operated by the remote controller is configured in at least three stages so that the motor Set the number of revolutions.

4 is a second control flowchart of the indoor unit according to the present invention.

The second control flow chart of the indoor unit according to the present invention includes a test voltage applying step (S100) of applying a predetermined voltage to a motor driving the indoor blower 50, and a sensor 36 installed in the discharge duct 24. Air flow rate measuring step (S110) for measuring the air flow rate of the air flowing through the discharge 24 duct by the air flow rate measured by the air flow rate measuring step (S110) so that the air flow rate of the predetermined amount or more flows in the discharge duct 24 According to the voltage determination step (S120) to determine the voltage applied to the motor according to the experimental value, and the motor driving step (S130) for driving the motor by applying the voltage determined by the voltage determination step (S120) to the motor And, if the amount of air flows by the motor driving step (S130) is characterized in that it comprises a air volume adjustment step (S140) for adjusting the voltage applied to the motor by the user.

Unlike the first flowchart, a second flowchart according to the present invention is provided with a sensor (not shown) for measuring the air flow rate of the air flowing in the discharge duct 24, and is installed in the motor according to the air flow rate measured through the sensor. Adjust the voltage applied. On the other hand, the control unit stores the voltage applied to the motor and the air volume of the discharge duct 24 generated by the voltage as an experimental value.

Thus, the voltage applied to the motor is determined in the voltage determination step S120 by comparing the air volume measured by the sensor with the experimental value stored in the controller so that the proper air volume flows in the discharge duct 24. Since the step S130 and the step S140 after the voltage determination step S120 are the same as those of the first flowchart, a detailed description thereof will be omitted.

In addition, the controller of the indoor unit according to the present invention ensures the reliability of the indoor unit by presetting the minimum air flow rate and the maximum air flow rate for driving the indoor blower (50).

The motor control method of the duct type air conditioner according to the present invention automatically adjusts the air volume of the indoor unit by estimating or measuring the air flow flowing in the duct by the rotational speed of the motor or the sensor, and finely adjusting the air volume that is easily overlooked by the installer. Has the advantage of preventing.

1 is a perspective view of a duct type air conditioner according to the present invention

2 is a partially exploded perspective view of the indoor unit main body of FIG.

3 is a first control flowchart of the indoor unit according to the present invention;

4 is a second control flowchart of the indoor unit according to the present invention;

5 is a schematic perspective view of a duct type air conditioner according to the related art

FIG. 6 is a partially exploded perspective view of the indoor unit main body of FIG. 5; FIG.

<Explanation of symbols on main parts of the drawings>

10: indoor main body 20: duct

22: suction duct 24: discharge duct

30: case 40: indoor heat exchanger

50: indoor blower 52: fan

Claims (4)

An indoor main body equipped with a control unit and equipped with an indoor blower controlled by the control unit to blow air; In the motor control method of the duct type air conditioner is mounted to the indoor unit main body and comprises a duct for guiding the air flowing by the indoor blower, A test voltage applying step of applying a predetermined voltage to the motor driving the indoor blower; A rotation speed measurement step of measuring a rotation speed of the motor rotated by the voltage applied to the motor; An air volume determination step of determining an air volume of the duct based on the rotation speed of the motor; A voltage determination step of determining, by an experimental value, a voltage applied to the motor according to the air flow determination step so that the air flow rate is greater than a predetermined amount in the duct; A motor driving step of driving the motor by applying the voltage determined by the voltage determining step to the motor; Motor control method of the duct type air conditioner, characterized in that comprises a The method of claim 1, The motor control method of the duct type air conditioner includes the air flow rate adjusting step of re-adjusting the air flow rate of the air flowing by the motor driving step. The method of claim 2, The air volume adjusting step is a motor control method of the duct type air conditioner, characterized in that the control unit is operated by a remote control operated by a user to adjust the voltage applied to the motor. An indoor main body equipped with a control unit and equipped with an indoor blower controlled by the control unit to blow air; In the motor control method of the duct type air conditioner is mounted to the indoor unit main body and comprises a duct for guiding the air flowing by the indoor blower, A test voltage applying step of applying a predetermined voltage to the motor driving the indoor blower; An air flow rate measuring step of measuring an air flow rate of air flowing through the duct by a sensor installed in the duct; A voltage determination step of determining, according to an experimental value, a voltage applied to the motor according to the air flow rate measured by the air flow rate measurement step so that the air flow rate is greater than a predetermined amount in the duct; A motor driving step of driving the motor by applying the voltage determined by the voltage determining step to the motor; Motor control method of the duct type air conditioner, characterized in that comprises a