KR100551198B1 - Controlling method for opening and closing a wind-direction of air conditioner - Google Patents

Abstract

The present invention relates to a control method of opening and closing the discharge port of the air conditioner, the present invention is provided with an auto shutter driven by the door motor to open and close the discharge port, so that the interference between the auto shutter and the horizontal blade not aligned with each other structurally does not occur A method of controlling opening and closing of a discharge port of an air conditioner disposed so that a horizontal blade does not protrude from an inside of a discharge port, the method comprising: a driving signal determination step of determining whether a driving signal is input; A discharge door opening step of opening the auto shutter for preventing interference of the horizontal blade based on the input operation signal; An air conditioning operation step of operating an air conditioner under a predetermined condition while the auto shutter is opened; A stop signal determining step of determining whether a driving stop signal is input; And an auto shutter closing step of closing the auto shutter separately from the operation of the horizontal blade when the air conditioning operation is stopped due to the operation stop signal being input.

As such, when the auto shutter is closed as in the related art, the horizontal blade is controlled to operate independently regardless of the operation of the auto shutter, thereby preventing a series of failures and performing a relatively smooth operation. By controlling the wind direction of the air conditioner will be able to maintain a more comfortable room temperature.

Air Conditioner, Air Conditioner, Horizontal Blade, Auto Shutter, Wind Direction Control, Horizontal Blade

Description

Controlling method for opening and closing a wind-direction of air conditioner

1 is a perspective view showing an air conditioner in a state where a conventional discharge port is opened;

2 is a perspective view showing an air conditioner in a state where a conventional discharge port is closed;

3 is a configuration diagram schematically showing the configuration of a conventional air conditioner,

4 is a flowchart illustrating a flow direction control operation procedure of an air conditioner according to a conventional embodiment;

5 is a perspective view of an air conditioner according to the present invention;

FIG. 6 is a flow chart showing a flow direction control operation procedure of the air conditioner shown in FIG.

Explanation of symbols on the main parts of the drawings

100: outer casing 102: suction port

104: discharge port 106: horizontal blade

108: auto shutter 200: front cover

202: operation panel

The present invention relates to a method for controlling the opening and closing of the discharge port of the air conditioner, and more specifically, in relation to the operation and the stop of the air conditioner, the auto shutter is opened and closed as in the prior art, but the horizontal blade operates the auto shutter. The present invention relates to a wind direction control method of an air conditioner that prevents a series of failures and controls the air direction of the air conditioner more smoothly so as to maintain the room temperature more comfortably.

In general, an air conditioner is an air conditioner used to properly cool an interior using a cooling cycle, and is widely used in most homes and offices.

In the conventional air conditioner, as shown in FIGS. 1 and 3, the suction grill member 5 having a plurality of suction ports 3 through which indoor air is sucked is the front surface of the indoor main body 1 (hereinafter, referred to as a main body). It is provided in the lower portion, the discharge port 7 for discharging the air sucked through the suction port (3) and heat-exchanged by cold or warm air to the room is formed in the upper portion of the main body (1).

The discharge port 7 is provided with a horizontal blade 9 for vertically adjusting the direction of air discharged to the room through the discharge port 7 and a vertical blade 11 for adjusting left and right, and the discharge port 7 In the inside of the air conditioner, the discharge port 7 is opened so that the heat exchanged air from a heat exchanger (not shown) is smoothly supplied into the room during operation of the air conditioner, and through the discharge port 7 during operation of the air conditioner. A discharge port door 13 (also known as an auto shutter) for closing the discharge port 7 is provided to prevent dust, foreign matter, etc. from flowing into the main body 1 and to enhance the appearance.

A cover member 15 is fixed to the front surface of the main body 1 to secure the appearance of the indoor unit and to protect the interior, and an operation mode of an air conditioner is provided on the lower side of the cover member 15. , Cooling, dehumidification, blowing, heating, etc.) and a start / stop of operation, and an operation unit 17 for adjusting the air volume and the air direction of the air discharged through the discharge port 7.

As shown in FIG. 3, the driving means for moving the discharge port door 13 upward or downward is supported by a support member 19 fixed to the upper front of the main body 1 and the support member 19. A door motor 21 which is secured to generate power for moving the discharge port door 13 upwardly or downwardly, and a shaft of the door motor 21 so as to be rotatable by the power generated by the door motor 21. The pinion 23 coupled to the pin 22 and the pinion 23 linearly move the pinion 23 so as to move the discharge port door 13 upward or downward in association with the pinion 23 when the pinion 23 rotates. It consists of the rack 25 to be converted.

In addition, the driving means for moving the wind direction up and down control plate 9 is interlocked in accordance with the drive of the blade motor 27 and the blade motor 27 installed inside the main body at the same time the plurality of horizontal blades (9) It consists of a plurality of link members 29 to rotate.

In the air conditioner configured as described above, when the user operates the remote controller or the operation unit 17 to select a desired operation mode and then turns on the operation / stop key (hereinafter referred to as the operation key), the door motor 21 is turned on. The pinion 23 coupled to the shaft 22 of the door motor 21 while being driven in the forward direction is rotated downward along the rack 25 by interlocking with the pinion 23 to lower the discharge port door 13 coupled with the rack 25. To open the discharge port 7.

At this time, when the door opening and closing sensor attached to the upper and lower predetermined position of the discharge opening 7 detects that the discharge opening 7 is completely opened, the indoor fan (not shown) is rotated while the door motor 21 is stopped to rotate the suction opening 3. Through the indoor air is sucked into the main body 1, the indoor air sucked through the suction port 3 is exchanged by latent heat of evaporation of the refrigerant flowing in the heat exchanger while passing through a heat exchanger (not shown).

The air heat-exchanged in the heat exchanger is guided to the upper portion and discharged into the room through the discharge holes 7, and the air discharged through the discharge holes 7 is changed according to the wind direction angles of the horizontal blades 9 and the vertical blades 11. Air conditioning is performed by adjusting the wind direction up and down or left and right.

At this time, the method for adjusting the wind direction of the air discharged by the horizontal blade (9) up and down, first, when the key for operating the horizontal blade (9) provided in the operation unit 17, the blade motor ( 27 is driven, the plurality of link members 29 are interlocked to operate the horizontal blade (9) swings up and down, and when the key is turned on again, the blade motor (27) is off and the horizontal blade (9) Accordingly, the wind direction of the discharged air was adjusted up and down.

When the operation key is turned off in the normal operation of the air conditioner as described above, the door motor 21 is driven in the reverse direction and the pinion 23 is interlocked with it to rotate upward along the rack 25 to discharge the door. The discharge port 7 is closed by moving the upwards 13.

However, the conventional air conditioner configured as described above has a small wind direction angle of the horizontal blade 9 and a narrow wind direction control range according to the upper and lower swings, and does not reach the desired place so that the user cannot maintain the room temperature comfortably. There was a problem.

In order to improve such a problem, the patent application No. 10-0191524, which is registered and applied for in advance, discloses a technique for a wind direction control apparatus and a method of an air conditioner.

The known technique is operated in the order by the wind direction control flowchart shown in FIG.

In other words, by increasing the horizontal blades installed in the air conditioner to increase the angle of the direction of the discharged air to widen the wind direction control range according to the vertical swing (Swing) to maintain the room temperature comfortably.

In addition, in order to close the discharge door, the main purpose of the opening and closing operation of the discharge door is made smooth by closing the horizontal blade first.

That is, when the operation signal is input, the discharge port door is first opened, and then a predetermined blade motor is driven based on the input signal to open the horizontal blade, and then the air conditioning operation is performed.

When the operation stop signal is input after a certain time has elapsed, the blade motor is driven to close the horizontal blade first, and then the discharge port door is closed.

However, according to the conventional wind direction control method of the air conditioner, when the operation stop signal of the air conditioner is input, a series of mechanisms for closing the horizontal blade first closing the horizontal blade in a series of mechanisms in which the discharge port door is closed, This is to avoid being caught by mechanical interference between the horizontal blades which are not aligned in the process of closing the discharge door.

However, since the conventional step includes the closing of the horizontal blade, the control step according to the closing of the discharge port door is complicated and the closing time is delayed somewhat, and if an abnormality occurs in any one step, the next step is not performed. There was a disadvantage.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a structurally sufficient distance between the horizontal blade and the discharge port door (auto shutter) that is not aligned in the arrangement relationship between the discharge port door and the horizontal blade. The operation and stop of the air conditioner in the state implemented through the mechanical avoidance design so as not to interfere with each other to perform the step of opening and closing the outlet door as in the prior art, the horizontal blade is independent of the operation of the outlet door It is to provide a control method for opening and closing the discharge port of the air conditioner to prevent the series of failures and to control the wind direction of the air conditioner more smoothly to maintain the room temperature more comfortably by controlling to operate separately.

The present invention for achieving the above object is provided with an auto shutter which is driven by a door motor to open and close the discharge port to prevent dust or foreign matter from flowing through the discharge port, between the auto blade and the horizontal blade not aligned A method of controlling the opening and closing of a discharge port of an air conditioner in which the horizontal blades are not protruded from the inside of the discharge port so as to prevent interference with each other at a structurally sufficient distance, the method comprising: a driving signal determination step of determining whether a driving signal is input; A discharge door opening step of opening the discharge door door for interference suppression of the horizontal blade based on the input operation signal; An air conditioning operation step of operating an air conditioner under a predetermined condition while the discharge port door is opened; A stop signal determining step of determining whether a driving stop signal is input; And an outlet opening and closing control method of the air conditioner including a discharge door door closing step of closing the discharge door door separately from the operation of the horizontal blade when the air conditioning operation is stopped due to the operation stop signal being input.

Here, just before closing the discharge port door, the horizontal blade is fixed in a state of the moment of stopping without alignment.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

FIG. 5 is a perspective view of an air conditioner according to the present invention, and FIG. 6 is a flow chart illustrating a flow direction control operation procedure of the air conditioner shown in FIG.

As shown in FIG. 5, the air conditioner according to the present invention is coupled to a front surface of the outer casing 100 and an outer casing 100 having a predetermined device component mounted therein and having an open front, and a front surface of the air conditioner. Has a front cover 200 to form a.

Although not shown, the outer casing 100 is provided with a blower for guiding the air sucked into the outer casing 100 through the inlet 102 to be described later.

The upper side of the blower is provided with a heat exchanger for heat exchange in contact with the air floated upward through the blower, the heat exchanger is inclined obliquely to increase the contact area with the air.

An inlet 102 is formed in the lower region of the front cover 200 to suck indoor air into the outer casing 100, and an outer casing in the upper region of the front cover 200 opposite to the inlet 102. The discharge port 104 which discharges the cold air heat-exchanged in 100 is formed.

In addition, the discharge port 104 is provided with a horizontal blade 106 for distributing the cold air discharged up and down and an auto shutter 108 for selectively opening and closing the discharge port 104.

At this time, even when the horizontal blade 106 is not aligned between the horizontal blade 106 and the auto shutter 108 is structurally designed to have a sufficient distance so as not to interfere with each other mechanically.

A plurality of function buttons and information are displayed between the intake port 102 and the discharge port 104 to operate and stop the air conditioner, and to control the strength and weakness of the heat exchanged air and the blowing direction by the horizontal blade 106. An operation panel 202 having a display window is provided.

6 is a flow chart showing the operation direction of the wind direction control of the air conditioner shown in FIG.

As shown in this figure, a series of processes for controlling the air volume by operating the air conditioner shown in Fig. 5 is largely the operation signal determination step (S101), auto shutter 108 opening step (S102), air conditioning operation step (S103), the stop signal determination step (S104) and the auto shutter 108 closing step (S105) is performed, which will be described in more detail as follows.

First, among the function buttons provided on the operation panel 202 in the air conditioner of FIG. 5, a power signal related to driving is turned on to input an operation signal.

Of course, in addition to the power button through the other function buttons to input the strength and temperature of the heat-exchanged air at the same time.

When the driving signal is input in this way, the control unit (not shown) provided in the air conditioner determines this (S101).

Then, a separate door motor for operating the auto shutter 108 is operated based on the input driving signal to open the auto shutter 108 (S102).

At this time, the reason for opening the auto shutter 108 first compared with other operations is to prevent interference with the horizontal blade 106.

When the auto shutter 108 is opened, a blower or the like is operated based on the input signal, thereby performing a heat exchange action of air, and cooling air is discharged to the room through the discharge port 104, thereby performing a series of air conditioning operations. (S103).

As such, the horizontal blade 106 is positioned as it is in the initial state in the process of discharging cold air through the discharge port 104.

Therefore, if you want to adjust the angle of the horizontal blade 106 to send cold air to the desired position, a separate operation such as adjusting or automatically adjusting the angle of the horizontal blade 106 through a separate function button should be performed.

When the indoor temperature becomes comfortable due to the cold air discharged, the operation stop signal is input.

Then, the control unit again determines the driving stop signal (S104), and stops the operation of the components related to the driving.

In particular, when the operation stop signal is input, the horizontal blade 106 does not align separately and maintains the state of the stop moment.

In addition, the operation stop signal is input, the air conditioning operation is stopped, and at the same time, the auto shutter 108 is closed separately from the operation of the horizontal blade 106 (S105), thereby closing the discharge port 104.

Here, the auto shutter 108 can be raised below the discharge hole 104 separately from the horizontal blade 106 even without the closing of the horizontal blade 106 as described in the related art. This is possible because the horizontal blade 106 is designed so that the horizontal blade 106 does not protrude from the inside of the discharge port 104 so that interference with the unaligned horizontal blade 106 does not occur when the shutter 108 moves up and down.

Of course, when the air conditioner is operated again in this state, the auto shutter 108 is opened, but the horizontal blade 106 is disposed as it is.

Thus, according to the present invention, in relation to the operation and stop of the air conditioner performs the step of opening and closing the auto shutter 108 as in the prior art, the horizontal blade 106 through the predetermined control unit is the auto shutter 108 By controlling to operate independently regardless of the operation of the control unit to prevent a series of failures and to control the air direction of the air conditioner more smoothly to maintain a more comfortable room temperature.

Although the present invention has been described in detail with reference to the drawings, the present invention is not limited thereto.

As described above, according to the present invention, in relation to the operation and the stop of the air conditioner, the auto shutter is opened and closed as in the prior art, but the horizontal blade is controlled to operate independently of the operation of the auto shutter. By preventing a series of failures and controlling the air direction of the air conditioner more smoothly, there is an effect of maintaining the room temperature more comfortably.

Claims (2)

It is equipped with an auto shutter which is driven by a door motor to open and close the discharge port to prevent the inflow of dust or foreign substances through the discharge port. In the control method of opening and closing the discharge port of the air conditioner disposed so that the horizontal blade does not protrude from the inside, A driving signal determination step of determining whether the driving signal is input; An auto shutter opening step of opening the auto shutter for preventing interference of the horizontal blade based on the input operation signal; An air conditioning operation step of operating an air conditioner under a predetermined condition while the auto shutter is opened; A stop signal determining step of determining whether a driving stop signal is input; And And an auto shutter closing step of closing the auto shutter separately from the operation of the horizontal blade when the air conditioning operation is stopped due to the operation stop signal being input. The method of claim 1, Immediately before closing of the auto shutter, the horizontal blade is not aligned with the discharge port opening and closing control method of the air conditioner, characterized in that fixed to the state of the stop moment.

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