KR20080105583A - Air conditioner - Google Patents

Abstract

The air conditioner of the present invention corresponds to a drive unit for individually driving at least two or more motors, and the at least two or more motors so that the at least two or more motors are individually driven to individually drive each motor for at least two or more motors. It provides an air conditioner including a control unit for applying a control signal to the drive unit.

Description

Air Conditioner

1 is a block diagram showing an air conditioner according to a first embodiment of the present invention.

2 is a control block diagram showing the configuration of an air conditioner according to a first embodiment of the present invention.

3 is a flowchart illustrating a control method of an air conditioner according to a first embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: outdoor unit 20 to N: indoor unit

30: U, wireless remote control 100, 110: 1st, 2nd motor

120: input unit 130: drive unit

132 and 136: first and second PWM circuits 134 and 138: first and second on / off circuits

140: control unit

The present invention relates to an air conditioner, and more particularly to an air conditioner for individually driving each motor for at least two or more motors.

In general, an air conditioner has been mainly used as a cooling device that discharges cold air generated through heat exchange with ambient air due to evaporation of a refrigerant to a room by using a fan by compressing, evaporating, and condensing a predetermined refrigerant.

In addition, the air conditioner utilizes a compression, evaporation, and condensation cycle of the refrigerant as a reverse to discharge hot air generated through heat exchange between the refrigerant due to the refrigerant's condensation and the surrounding air to the room using a fan. As dual-use air conditioners are widely used, air conditioners are being used as devices to control the indoor temperature of the home throughout the four seasons.

In a conventional air conditioner, at least two or more motors are provided with an indoor fan motor in each room or office for cooling and heating.

However, the air conditioner according to the related art has a problem in that at least two or more motors are operated at the same operation on / off and rotation speed by a single driving unit, such that the rotation speed and operation on / off for at least two motors are not controlled.

It is an object of the present invention to provide an air conditioner for individually driving each motor for at least two or more motors.

The air conditioner according to the present invention includes a driver for driving at least two or more motors separately and a controller for applying an individual control signal corresponding to the at least two or more motors to the driver so that the at least two or more motors are individually driven.

Hereinafter, an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an air conditioner according to a first embodiment of the present invention.

Referring to Figure 1, the air conditioner of the present invention is connected to the outdoor unit 10, the outdoor unit 10 and a plurality of lines at least two or more indoor units (20 to N) installed in a plurality of indoor spaces, at least two or more indoor units ( And a display unit (not shown) for displaying a driving state of the wired / wireless remote controller 30 and the outdoor unit 10 and at least two indoor units 20 to N installed in at least one of 20 to N).

Here, the outdoor unit 10 may control the speed of the condenser fan (not shown) in the outdoor unit 10 according to the driving state, so that the outdoor unit 10 may operate at least two indoor units 20 to N to minimize energy consumption. The driving state is detected in real time and displayed on the display unit.

In addition, at least two or more indoor units 20 to N include at least one indoor fan (not shown) and a motor (not shown) according to the type or model, and the motor may be configured according to commands of the wired and wireless remote controllers 30. Rotational speed and running on / off are controlled.

2 is a control block diagram showing the configuration of an air conditioner according to a first embodiment of the present invention.

An air conditioner according to a first embodiment of the present invention describes control of each motor in two indoor units.

Referring to FIG. 2, the air conditioner of the present invention includes a first motor 100 of a first indoor unit (not shown) installed in a first chamber, and a second of a second indoor unit (not shown) installed in a second chamber. The motor 110, an input unit 120 for inputting commands for driving on / off and rotational speed of the first and second motors 100 and 110, and the first and second motors 100 and 110 based on the command. ) And a controller 140 for controlling the driver 130.

The first and second motors 100 and 110 are BLDC motors, and the rotation speed and the operation on / off are controlled by the driver 130.

The input unit 120 inputs a driving command for driving on / off and rotational speed of the first and second motors 100 and 110, and receives a signal applied from the wired and wireless remote controller 30 of FIG. 1 and controls the control unit ( 140).

Here, the input unit 120 may input a command for the rotational speed of the first and second motors 100 and 110 installed separately in the first and second chambers, which may be cooled and differently depending on the user's haptic temperature. Make sure to heat up.

The driver 130 generates a first PWM circuit unit 132 that generates a first PWM signal corresponding to the rotational speed of the first motor 100, and a first driving signal for driving on / off of the first motor 110. A first on / off circuit portion 134 to generate, a second PWM circuit portion 136 for generating a second PWM signal for the rotational speed of the second motor 110 with respect to the rotational speed of the second motor 110, and And a second on / off circuit unit 138 for generating a second driving signal for driving on / off of the second motor 110.

Here, the first and second PWM circuit units 132 and 136 generate and operate substantially the same first and second PWM signals during initial operation of the first and second motors 100 and 120.

That is, the first and second PWM circuit units 132 and 136 generate the first and second PWM signals according to a control signal applied from the controller 140, when the first and second motors 100 and 110 operate. The same control signal is applied to set the cooling and heating temperatures.

In addition, the first and second on / off circuit units 134 and 138 apply the first and second driving signals to the first and second motors 100 and 110 according to a control signal of the controller 140.

That is, the first and second on / off circuit units 134 and 138 operate and stop based on a driving command applied through the input unit 120.

The controller 140 applies a control signal for the rotational speed and the operation on / off of the first and second motors 100 and 110 to the driver 130 based on the driving command of the input unit 120.

In this case, the controller 140 determines whether the driving command is at least one of the first and second motors 100 and 110, and based on the determination result, the first and second PWM circuit units 132 and 136 or the first and second motors. 2 A control signal is applied to the on / off circuits 134 and 138.

Accordingly, the first and second motors 100 and 110 may include the first and second PWM signals of the first and second PWM circuit parts 132 and 136 and the first and second on / off circuit parts 134 and 138. 2, independent operation of the rotational speed and the operation on / off based on the operation signal.

3 is a flowchart illustrating a control method of an air conditioner according to a first embodiment of the present invention.

Referring to FIG. 3, the air conditioner of the present invention receives a driving command for the first and second motors (S200) and drives the first and second motors (S202).

That is, the input unit 120 inputs a driving command for driving the first and second motors 100 and 110.

The control unit 140 applies a control signal to the first and second PWM circuit units 132 and 136 and the first and second on / off circuit units 134 and 138 of the driver 130 based on the driving command. , 2 to control the motor (100, 110) to operate at a set rotation speed.

Here, the first and second PWM circuit units 132 and 136 apply the first and second PWM signals to the first and second motors 100 and 110, respectively, based on the control signal to operate at the set rotation speed. .

If it is determined whether the rotation speed of the first motor and the command for the operation on / off input (S204), based on the determination result, when the signal for the rotation speed and the operation on / off of the first motor is applied The first PWM signal and the first driving signal are changed and applied to the first motor (S206), thereby adjusting the rotational speed and driving on / off of the first motor (S208).

That is, the controller 140 determines whether a command for the rotational speed and the operation on / off of the first motor 100 is input while the first and second motors 100 and 110 are operated.

Here, when the command is input as a result of the determination, the controller 140 controls the first PWM circuit unit 132 and the first control signal to control the rotation speed and the operation on / off of the first motor 100 based on the command. The on / off circuit section 134 is applied.

The first PWM circuit unit 132 applies the variable first PWM signal to the first motor 100 to change the rotational speed of the first motor 100 according to the input command based on the control signal. .

In addition, the first on / off circuit unit 134 applies a modified first driving signal for turning off the driving of the first motor 100 based on the control signal.

The control unit 140 applies the control signal to any one of the first PWM circuit unit 132 and the first on / off circuit unit 134.

If it is determined whether the command of the rotational speed and the operation on / off of the second motor is input (S210), based on the determination result, when the signal for the rotational speed and the operation on / off of the second motor is applied The second PWM signal and the second driving signal are changed and applied to the second motor (S206), thereby adjusting the rotational speed and driving on / off of the second motor (S208).

That is, the controller 140 determines whether a command for the rotational speed and the operation on / off of the second motor 110 is input while the first and second motors 100 and 110 are operated.

Here, when the command is input as a result of the determination, the controller 140 controls the second PWM circuit unit 136 and the second control signal to control the rotation speed and the operation on / off of the second motor 110 based on the command. To the on / off circuit section 184.

The first PWM circuit unit 136 applies a variable second PWM signal to the second motor 110 to change the rotational speed of the second motor 110 according to the input command based on the control signal. .

In addition, the second on / off circuit unit 138 applies a modified first driving signal for turning off the driving of the second motor 110 based on the control signal.

Herein, the controller 140 applies the control signal to any one of the second PWM circuit unit 132 and the second on / off circuit unit 134.

When the air conditioner according to the first embodiment of the present invention includes at least two or more motors, by independently controlling the rotational speed and operation on / off for each motor, the user's physical condition and current health There is an advantage that each can adjust the temperature of the room according to the condition.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains can make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made to the branches. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

The air conditioner of the present invention allows each motor for at least two or more motors to be individually driven, thereby adjusting the rotational speed and the driving state for each motor so as to be convenient for the user to improve the efficiency and productability of the product. It works.

Claims (5)

A driving unit for individually driving at least two motors; And And a controller configured to apply a control signal corresponding to each of the at least two motors to the driving unit so that the at least two motors are individually driven. The method of claim 1, And an input unit for inputting a driving command to each of the at least two motors. The method of claim 1, wherein the driving unit, A PWM circuit unit for applying a first signal based on a rotation speed to each of said at least two motors; And And an on / off circuit section for applying a second signal based on operation on / off to each of the at least two motors. The method of claim 2, wherein the control unit, Based on the drive command, applying each of the at least two motors to the drive part the individual control signals for different rotational speeds and on / off. The method of claim 1, wherein the control unit, And an air conditioner capable of simultaneously controlling driving states of each of the at least two motors.

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