KR100520959B1 - A method for vane control of air conditioner - Google Patents

Abstract

The present invention relates to a vane control method of a frame-type air conditioner for controlling the driving of the vane. In the present invention, the vane is fixed to a desired position during the auto swing, and when a predetermined time elapses, the vane is automatically moved to a maximum open position and is fixed. According to the present invention, the vane can be fixed at a position desired by the user, and the vane is automatically positioned at the maximum angle after a predetermined time in the auto swing, thereby preventing dew formation on the vane.

Description

A method for vane control of air conditioner

The present invention relates to a frame-type air conditioner, and more particularly, to a vane control method of a frame-type air conditioner that can suppress the occurrence of dew condensation on the vane.

In general, an air conditioner is largely divided into an integrated air conditioner and a separate air conditioner. The integrated air conditioner is composed entirely of one unit, the separate type air conditioner is configured to be separated into an outdoor unit installed in the indoor and outdoor spaces installed in the space for air conditioning. Recently, in order to harmonize with the indoor space, the demand for a separate air conditioner that performs a conventional air conditioning function while taking up less space than an integrated air conditioner that occupies a large indoor space is increasing.

In the present invention, a frame type air conditioner, which is a type of separate air conditioner, will be described.

1 is a perspective view of a general frame air conditioner.

As shown in the figure, the main chassis 30 forms the exterior of the indoor unit. The main chassis 30 has a rectangular hexahedral shape and includes a front part 32 having a space for installing components therein and a space integrally formed with the front part 32 and communicating with the space. The rear part 35 is provided. The front of the space formed inside the main chassis is shielded by the support panel 38.

The main chassis 30 is provided with suction grills 32 ', 35', 38 'for sucking air from a space for air conditioning. That is, the suction grill 32 ′ is formed on the upper surface of the front part 32. In addition, a suction grill 38 ′ is formed on the support panel 38. Reference numeral 31 is a flow guide formed in the main chassis 30 to guide the flow of air.

On the other hand, the support panel 38 is provided with a front panel. The front panel selectively opens and closes the suction grill 38 ′ formed on the support panel 38. To this end, the front panel is configured such that the tip is rotated by a predetermined angle about both sides of the lower end thereof. The front panel driver 40 is provided for the operation of the front panel. The front panel opens the suction grill 38 'when the air conditioner is operated and closes the suction grill 38' when the air conditioner is not operated.

One side of the front panel is provided with a display unit for displaying the operating state of the air conditioner. The display unit is provided at one front side of the front panel.

Next, a heat exchanger 50 is installed inside the main chassis 30. The heat exchanger 50 is provided at a position corresponding to the suction grills 32 ', 35', 38 '. This is to allow the air sucked through the suction grills 32 ', 35', 38 'to pass through the heat exchanger 50.

The fan assembly 60 is installed at the rear of the heat exchanger 50. The fan assembly 60 provides a driving force for sucking air into the interior of the indoor unit and discharging air at a relatively low temperature to the outside while passing through the heat exchanger 50.

On the other hand, the air heat exchanged in the heat exchanger 50 is discharged through the discharge grill (70). The discharge grill 70 is configured to enter and exit the inside and outside of the indoor unit through the lower surface of the main chassis 30. That is, the discharge grill 70 enters and exits through the lower surface of the main chassis 30 while the tip is rotated by a predetermined angle about the hinge shaft 71 provided at both ends thereof. The discharge grill 70 protrudes out of the main chassis 30 during the operation of the air conditioner, and is located inside the main chassis 30 when the air conditioner is not operated.

The discharge grill driving unit 150 is provided for entering and exiting the discharge grill 70. For example, a gear is provided at one side of the discharge grill 70, and a gear engaged with the gear may be installed at one inner side of the main chassis 30 to receive power from a separate driving source.

Inside the discharge grill 70, a discharge passage 72 through which air passing through the fan assembly 60 flows is provided. The discharge passage 72 serves as a passage communicating an internal space of the main chassis 30 in which the fan assembly 60 is provided with a space for air conditioning. The discharge passage 72 is opened so as to face between the front and the bottom of the discharge grill 70 (front and bottom of the room) when the discharge grill 70 protrudes out of the main chassis 30.

 The discharge passage 72 is provided with a vane 74 and a louver 76 for controlling the direction of the discharged air. The vane 74 discharges air by adjusting the air in the vertical direction, and the louver 76 discharges the air by adjusting the air in the left and right directions. Such vanes 74 and louvers 76 may be driven by separate driving sources or manually driven, respectively.

The frame-type air conditioner configured as described above is installed in most bedrooms among residential spaces. Therefore, the frame type air conditioner is slowing down the speed of the fan that controls the intensity of the wind discharged directly to the consumer compared to the general type air conditioner. This is because the frame type air conditioner is installed in a small space bedroom, and when driving while sleeping, strong wind is directly provided to the consumer, which may cause sleep disturbance.

On the other hand, there is an auto swing function among the control functions of the air conditioner. The auto swing function is a function in which the louver or vane is automatically circulated in a predetermined speed and rotation direction. That is, the vane or the louver is repeatedly driven up / down or left / right so that the air heat-exchanged into the room is effectively transmitted by the cooling / heating operation.

However, in the conventional air conditioner, when the user cancels the auto swing function during the auto swing function, the vane or the louver is set to move to the initial position of cooling / heating unconditionally. Therefore, in the conventional air conditioner, there is a problem in that the vane cannot be fixed to the user's desired position when the auto swing function is cancelled.

In addition, the conventional air conditioner is controlled so that when the function of the auto swing is canceled, the vane is unconditionally fixed to the initial cooling / heating position. Therefore, if this condition persists for more than a predetermined time, dew condensation occurs in the vane due to the temperature difference between the suction air and the discharged air passing through the vane.

Accordingly, the present invention provides a vane driving control method of a frame-type air conditioner that can fix a vane at a desired position among auto swings of a vane.

In another aspect, the present invention provides a vane driving control method of the frame-type air conditioner for controlling the driving of the vane so that dew formation is suppressed.

The vane control method of the frame-type air conditioner according to the present invention for achieving the above object, in the frame-type air conditioner for discharging the heat-exchanged air into the indoor space through a vane during the auto swing driving, the user desired during the auto swing A first step of controlling the vane to be stopped in accordance with a stop signal input to fix the vane to a position; Counting a stop time of the auto swing; A third step of controlling to restart the auto swing when the counted time passes a predetermined time; If a certain time elapses after the auto swing is reactivated, a fourth step of controlling the return of the fixed vane to the desired position by the user of the first step is configured, and the driving of the auto swing and the user-specified position is repeatedly performed. Characterized in that to be performed.

delete

Hereinafter, the vane control method of the frame type air conditioner according to the present invention will be described.

2 is a control block diagram for controlling the driving of the frame-type air conditioner according to the present invention. And the configuration of the bain will be described with reference to FIG.

As shown in the figure, the user checks the operation function selected from the power supply unit 300 for supplying power of the frame type air conditioner, the key input unit 310 for inputting an operation control signal, and the key input unit 310. The display unit 320 to display the display unit 320, the driver unit 330 driving the vane 74, and the driving unit according to the operation control signal input by the user, and the user inputs the operation control signal. It includes a microcontroller 340 for counting the driving time according to the operation function.

The operation control signal input by the user is transmitted to the microcontroller 340, and the microcontroller 340 recognizes the operation control signal input by the user and controls the driving of the air conditioner. According to the operation control signal input by the user, the microcontroller 340 has preset commands and equations for driving control according to each function so that the driving of the air conditioner is controlled.

In addition, the microcontroller 340 counts the time that each operation function proceeds according to the operation signal input by the user, and controls the operation state of the air conditioner based on the counted data. That is, in the present invention, it is possible to determine whether to proceed with the auto swing function based on the counted time according to the operation control signal input by the user.

The frame-type air conditioner of the present invention is installed in a close place where the wind can be reached directly by the user, such as a bedroom only, compared to a general detachable air conditioner. Therefore, when the heat-exchanged air is discharged when the frame type air conditioner is driven, the rotation speed of the fan motor is made small to prevent the user from being uncomfortable by directly contacting the wind. As a result, the intensity of the discharged wind is also weakened.

In general, a separate type air conditioner has a high intensity of the wind is discharged, even if there is a difference between the temperature of the air discharged into the room and the room temperature, the wind is strongly discharged, dew is blown into the room, dew on the vane 74 or louver 76 Condensation is unlikely to occur. On the other hand, the frame type air conditioner is relatively weaker than the separate type air conditioner, so when the difference between the air discharged through the vane 74 or the louver 76 and the room temperature occurs, the vane 74 or the louver is generated. Dew is formed at (76).

Therefore, the operation control process for controlling the driving of the vane in order to prevent the dew condensation in the frame-type air conditioner according to the present invention is as follows.

3 is an operation control flowchart for driving control of the vane of the frame-type air conditioner according to the present invention.

Power is applied to the product, and the user inputs a cooling operation signal through the key input unit 310 (step 100). The cooling operation signal is transmitted to the microcontroller 340, and the microcontroller 340 recognizes the cooling operation signal input by the user and drives the driving unit (S110). At this time, the vane 74 is driven by auto swing.

The microcontroller 340 checks whether the current operating condition of the air conditioner is in the cooling operation (operation 120). Alternatively, if it is determined that the microcontroller 340 is not in the cooling operation of step 120, the microcontroller 340 determines whether the operation state of the air conditioner is in the cooling artificial intelligence function (operation 130). When it is determined that the air conditioner is in the cooling operation according to the above determination, the microcontroller 340 detects whether the autoswing is in operation (step 140) and controls the driving of the air conditioner. As a result, the air conditioner performs heat exchange in the cooling cycle according to the cooling operation signal input by the user, and at the same time, the vane 74 drives the auto swing to discharge the heat-exchanged air into the indoor space.

When the vane 74 is driven by the auto swing as described above, in order to fix the position of the vane to the position designated by the user, when the user inputs a control signal to stop the auto swing (step 150), the auto swing The stop signal is transmitted to the microcontroller 340. Accordingly, the microcontroller 340 recognizes the stop signal. At the same time, the microcontroller 340 starts counting the auto swing stop time according to the auto swing stop signal input by the user.

In response to the input of the auto swing stop signal of step 150, the microcontroller 340 stops the vane by controlling the operation of the driving unit 330 to stop the driving of the vane 74. At this time, the vane 74 is fixed to a position designated by the user, and the heat-exchanged air is discharged to the room from the fixed position of the vane 74. As a result, the air heat-exchanged to a desired location is directly discharged to obtain a primary satisfaction, and as time passes, a secondary satisfaction may be obtained as the temperature of the indoor space reaches a target temperature desired by the user.

However, when the air heat-exchanged for a long time to the position where the vane 74 is fixed as described above is discharged, dew formation phenomenon occurs in the vane due to the temperature difference between the indoor space and the suction air. To prevent this, the vane 74 is opened to the maximum to prevent the dew condensation by hitting the vane 74 in a situation where the suction air is heat-exchanged and discharged into the indoor space.

Accordingly, the microcontroller 340 determines whether the auto swing operation of the vane 74 is stopped (step 160), and when it is determined that the auto swing is stopped, the auto swing stop time counted at the same time as the input of the auto swing stop signal is inputted. It is checked whether a predetermined time (30 minutes in the embodiment of the present invention) has elapsed (step 170). At this time, the count of the auto swing stop time continues to increase until the predetermined time (30 minutes in the embodiment of the present invention) preset in the microcontroller 340 (step 180). In step 180, the vane is fixed at a position designated by the user. If it is determined that a predetermined time (30 minutes in the embodiment of the present invention) has elapsed from the time when the auto swing is stopped, the auto swing stop state is entered before the auto swing stop signal is input to stop the vane at a desired position. Control to restart again (step 190).

As described above, when a predetermined time elapses after the auto swing is reactivated (step 200), the control is performed so that the position of the vane reaches the position designated by the user (step 210).

In order to prevent dew condensation in the process of controlling the wind direction by fixing the vane at the position designated by the user while being driven by the auto swing, the present invention is driven at the position designated by the user for a predetermined time (an embodiment of the present invention). In the example, after 30 minutes), the process returns to the auto swinging process and controls the wind direction of the heat-exchanged air to suppress dew condensation. Then, when a predetermined time elapses in the auto swing state as described above, the vane is positioned at a user-specified position again, so that the wind direction is adjusted in a direction desired by the user.

By repeatedly controlling the swing of the auto swing and the vane at a user-specified position, the heat-exchanged air is discharged to suppress the dew formation occurring at the vane while controlling the temperature of the indoor space.

As described above, the present invention can control the vane to be fixed to a user-specified position, and the vane is re-automatically reset at a predetermined cycle time so as to prevent dew condensation generated in the process of discharging the heat-exchanged air into the room. Control to operate is the basic technical idea.

The present invention controls the vane to control the discharged wind direction, and adjusts the position of the discharged wind direction, which is one embodiment, and a louver performing the same function as the vane can be used in the same control method.

Therefore, the rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various modifications and adaptations can be made by those skilled in the art within the scope of the claims. It is self-evident.

Therefore, due to the vane control method of the frame-type air conditioner according to the present invention it can be expected the following effects.

According to the present invention, when the user inputs an auto swing stop signal during the auto swing operation, the driver may recognize the signal to control the driving of the vane, and as a result, the vane may be positioned at a desired position of the user.

In addition, in the present invention, after the predetermined time (30 minutes in the embodiment of the present invention) elapses even after the auto swing is stopped by fixing the vane to a desired position, the vane is driven again by the auto swing to control the vane to be completely opened. do. Therefore, it is possible to suppress dew condensation caused by the stop state after the auto swing driving.

Figure 1a, 1b is a perspective view of a typical frame air conditioner.

Figure 2 is a control configuration for driving the vane of the frame-type air conditioner according to the present invention.

3 is an operation control flow chart for driving control of the vane of the frame-type air conditioner according to the present invention.

      Explanation of symbols on the main parts of the drawings

300: power supply unit 310: key input unit

320: display unit 330: driving unit

340: microcontroller

Claims (2)

In the frame-type air conditioner for discharging the heat-exchanged air into the indoor space through a vane that is driving auto swing, A first step of controlling the vane to be stopped according to a stop signal input by the user to fix the vane to a desired position during the auto swing; Counting a stop time of the auto swing; A third step of controlling to restart the auto swing when the counted time passes a predetermined time; If a certain time elapses after the auto swing is reactivated, the first step comprises a fourth step of controlling the return of the fixed vane to the desired position, A vane control method for a frame type air conditioner, characterized in that the auto swing and the vane driving of the user-specified position are repeatedly performed. delete