KR20030012046A - Method for controlling vain of ceiling air conditioner - Google Patents

Abstract

PURPOSE: A method for controlling vane of ceiling air conditioner is provided to allow a user pleasant environment and uniform temperature environment. CONSTITUTION: A method comprises the steps of: a first step(S31,S33) determining whether on heating mode or cooling mode and determining whether a pleasant heating button is pushed on/off if heating mode is activated; and a second step(S35,S36,S37,S38) individually controlling a first vane, a second vane, a third vane and a fourth vane to keep pleasant environment by reducing difference of temperature between an upper part and a lower part of a room when the pleasant heating button is determined to be on in the first step.

Description

Vane control method of ceiling type air conditioner {METHOD FOR CONTROLLING VAIN OF CEILING AIR CONDITIONER}

The present invention relates to a vane control method of a ceiling type air conditioner, and more particularly, to a vane control method of a ceiling type air conditioner to create a uniform temperature environment in a room during cooling and heating by controlling each vane independently with each stepping motor. will be.

In general, the air conditioner is divided into a stand type, wall-mounted and ceiling type air conditioner to control the air direction by the vane to perform the heating and cooling operation.

The ceiling air conditioner is mounted on the ceiling and supplies the set temperature set by the user to the room. At this time, the vane located on the side of the ceiling air conditioner maintains the set temperature and is simultaneously opened / closed to adjust the wind direction.

1 is an exemplary view showing a general refrigeration cycle apparatus, and a compressor 10 for compressing a working fluid, that is, a refrigerant, and converting the refrigerant into a high temperature and high pressure state, as shown therein; A condenser 20 for discharging internal latent heat to the outside while converting the refrigerant of the high temperature and high pressure state compressed by the compressor 10 into a liquid phase; An expansion mechanism (30) for lowering the pressure of the refrigerant converted into the liquid phase in the condenser (20); The evaporator 40 absorbs external heat while evaporating the liquid refrigerant expanded in the expansion mechanism 30 to a gas.

The condenser 20 and the evaporator 40 is also called a heat exchanger because the heat exchange with the outside is achieved.

Such a refrigeration cycle device is a refrigerator and a showcase for storing food freshly using heat emitted from the condenser 20 and cold air formed in the evaporator 40 and an air conditioner to keep the room in a comfortable state according to the outside air ( AIR-CONDITIONER).

The ceiling type air conditioner to which the refrigeration cycle device is applied is an exemplary view showing a device and an external form to which the vane control of the conventional ceiling type air conditioner of FIG. 2 is applied, and as shown therein, a stepping motor 25, a gear train 26, and a universal type are shown. The joints 27 are used to open / close four vanes at the same time to perform floor heating and ceiling heating.

However, in the conventional method of operating as described above, the vane is driven by one stepping motor to open and close the vanes at the same time, so that the wind direction does not reach the bottom surface and the heating air reaches the bottom surface for a long time. There was a problem that can not increase the temperature of the entire floor uniformly.

Therefore, the present invention was devised to solve the above problems, and the four vane drives sequentially control the opening degree of the vanes by four stepping motors which are independently installed to reduce the temperature difference of the room up and down and left and right. The purpose is to provide a vane control method of the ceiling type air conditioner to provide a comfortable environment and a uniform temperature environment.

1 is an exemplary view showing a general refrigeration cycle device.

Figure 2 is an exemplary view showing the external shape and the apparatus to which the vane control of the conventional ceiling air conditioner is applied

Figure 3 is a flow chart showing a vane control method of the present invention ceiling type air conditioner.

Figure 4 is an exemplary view showing the external form and the apparatus to which the vane control of the present invention ceiling air conditioner is applied.

5 is an exemplary view showing that the present invention ceiling type air conditioner vane is opened / closed according to a predetermined time.

6 is an exemplary view showing that the vanes of the ceiling air conditioner according to another embodiment of the present invention are opened / closed according to a predetermined time.

** Explanation of symbols for main parts of drawings **

21 ~ 24: 1st ~ 4th vane 31 ~ 34: 1st ~ 4th vane driving part

31a to 34a: first to fourth stepping motors

The present invention for achieving the above object, in the ceiling-type air conditioner to create a uniform temperature environment of the room according to the user's setting during the heating and cooling, whether the heating or cooling mode to determine whether the heating button on / off A first process of determining; As a result of the determination of the first process, if the comfortable heating button is in an on state, the second process may be performed by individually controlling the first to fourth vanes to maintain a comfortable environment.

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

3 is a flowchart illustrating a vane control method of the ceiling type air conditioner according to the present invention. As shown in the drawing, in the ceiling type air conditioner which creates a uniform temperature environment in a room according to a user's setting during cooling and heating, it is determined whether the heating or cooling mode is performed ( S31) a first step (S33) of determining the on / off state of the comfort heating button during heating; As a result of the determination of the first process, if the comfortable heating button is turned on, the second process (S38) of individually controlling the first to fourth vanes to maintain a comfortable environment may be performed. The explanation is as follows.

First, a stepping motor for controlling the rotation of the vanes of the ceiling type air conditioner is installed as many as the number of vanes, thereby controlling the vanes independently.

4 is an exemplary view showing an apparatus and an external form to which the vane control of the ceiling air conditioner of the present invention is applied, and the first to fourth vane driving units 31 to 34 driving the vanes, as shown therein, between the vanes and the vanes. Install.

It is determined whether the heating mode (S31) in the heating mode, the user determines whether the user pressed the comfortable heating button (S33), and if the cooling mode other than the heating mode, the cooling control is performed (S32).

Accordingly, if the comfort heating button is not operated, the first to fourth vanes 21 to 24 are controlled at 60 degrees (S34), and if the comfort heating button is on, the first to fourth vane driving units 31 to 31 are controlled. 34 controls each of the first to fourth vanes 21 to 24 by using one first to fourth stepping motor 31a to 34a. (S35, S36, S37, and S38).

That is, the present invention shows that the present invention ceiling type air conditioner vanes of FIG. 5 are opened / closed in accordance with a predetermined time and have a predetermined time, respectively, using the first to fourth stepping motors 31a to 34a. The fourth vanes 21 to 24 are individually controlled at predetermined angles.

The first vanes 21 are rotated at 30 degrees, and the second to fourth vanes 22 to 24 are rotated at 60 degrees to control the flow rate in order to create a uniform temperature environment in the room.

Thereafter, when the predetermined temperature and time are reached, the second vanes 22 are opened at 30 degrees, and the first and third and fourth vanes 21, 23, and 24 are opened by 60 degrees.

In addition, when the predetermined temperature and time is reached, the third vane 23 is opened at 30 degrees, and the first, second and fourth vanes 21, 22, and 24 are rotated at 60 degrees during the predetermined time. S37)

In addition, the fourth vane 24 is also rotated by 30 degrees when the predetermined temperature and time, and the first to third vanes 21 to 23 are rotated to 60 degrees. (S38)

Here, 30 degrees is an angle for raising indoor air, and 60 degrees is an angle for floor heating.

As a result, the first to fourth vanes 21 to 24 which receive the rotational force of the first to fourth stepping motors 31a to 34a by the rotating shaft operate as described above according to the uniform temperature environment of the room during heating. Repeat.

That is, when heating, the first to fourth vanes 21 to 24 reduce the difference between the upper and lower temperatures in the room and provide a comfortable environment to the user.

On the contrary, in the cooling mode, the flow rate is controlled by reducing the opening degree of the first to fourth vanes 21 to 24 in order to create a uniform temperature environment of the room.

That is, the degree of opening of the first vanes 21 is controlled by 60 degrees by the cooling individual control method, and the degree of opening of the second to fourth vanes 22 to 24 is controlled by 30 degrees.

After a predetermined temperature and a predetermined time, the second vane 22 is controlled to 60 degrees, and the first and third and fourth vanes 21, 23, and 24 are controlled to 30 degrees.

As such, the first to fourth vanes 21 to 24 are individually controlled by rotating the predetermined section in the order of the first vanes 21 to the fourth vanes 24.

6 is an exemplary view showing that the vanes of the ceiling type air conditioner according to another embodiment of the present invention are opened / closed according to a predetermined time. As shown in FIG.

However, the operation of the first to fourth vanes 21 to 24 is changed according to the progress of the predetermined temperature and the predetermined time.

That is, the first and second vanes 21 and 22 rotate 30 degrees, and the third and fourth vanes 23 and 24 rotate 60 degrees, so as to create a uniform temperature environment during heating. Adjust

Thereafter, when the predetermined temperature and time are reached, the second and third vanes 22 and 23 are opened at 30 degrees, and the first and fourth vanes 21 and 24 are opened by 60 degrees.

In addition, when the predetermined temperature and time is reached, the third and fourth vanes 23 and 24 are opened at 30 degrees, and the first and second vanes 21 and 22 are rotated at 60 degrees during the predetermined time.

In addition, when the predetermined temperature and time is reached, the fourth and first vanes 24 and 21 are opened at 30 degrees, and the second and third vanes 22 and 23 are rotated at 60 degrees during the predetermined time.

Here, 30 degrees is an angle for raising indoor air, and 60 degrees is an angle for floor heating.

As a result, the first to fourth vanes 21 to 24 which receive the rotational force of the first to fourth stepping motors 31a to 34a by the rotating shaft operate as described above according to the uniform temperature environment of the room during heating. Repeat.

That is, when heating, the first to fourth vanes 21 to 24 reduce the difference between the upper and lower temperatures in the room and provide a comfortable environment to the user.

On the contrary, in the case of cooling, the operation is opposite to that of the heating.

The vane control method of the ceiling type air conditioner of the present invention is not limited to the above-described embodiment, and may be variously modified and implemented within the range permitted by the technical idea of the present invention.

As described in detail above, the present invention independently installs a stepping motor so that the vanes are individually controlled by a predetermined time and a predetermined temperature at a predetermined angle, and controls the degree of opening of the ceiling type air conditioner vanes to reduce the vertical temperature difference in the room. There is an effect to maintain a comfortable environment in the room.

Claims (7)

In the ceiling-type air conditioner to create a uniform temperature environment in the room according to the user's setting during the heating and cooling, the first step of determining the on / off state of the comfort heating button during heating by determining whether the heating or cooling mode; And a second process of maintaining a pleasant environment by individually controlling the first to fourth vanes when the comfort heating button is turned on as the determination result of the first process. The method of claim 1, wherein the second process includes controlling a first vane at a first predetermined angle and heating the second, third, and fourth vanes at a second predetermined angle for a predetermined temperature and time during heating. Wow; A second step of controlling the second vane at a first predetermined angle after the first step, and controlling the first, third, and fourth vanes at a second predetermined angle; A third step of controlling the third vane at a first predetermined angle after the second step, and controlling the first, second, and fourth vanes at a second predetermined angle; And a fourth step of controlling the fourth vane at a first predetermined angle after the third step, controlling the first, second, and third vanes at a second predetermined angle, and repeatedly performing the first process. A vane control method for a ceiling air conditioner, characterized in that. The method of claim 1, wherein the second process includes controlling the first and second vanes at a first predetermined angle and heating the third and fourth vanes at a second predetermined angle for a predetermined temperature and time during heating. Wow; A second step of controlling the second and third vanes at a first predetermined angle after the first step, and controlling the first and fourth vanes at a second predetermined angle; A third step of controlling the third and fourth vanes at a first predetermined angle after the second step, and controlling the first and second vanes at a second predetermined angle; And controlling the fourth and the first vanes at a first predetermined angle after the third step, and controlling the second and third vanes at a second predetermined angle. The vane control method according to claim 1, wherein the first to fourth vanes are controlled by the first to fourth vanes and the stepping motor. 5. The vane control method according to claim 4, wherein the wind direction and the flow rate are adjusted through a rotating shaft in transmitting rotational force between the stepping motor and the vane. The vane control method according to claim 2 or 3, wherein the first predetermined angle is an angle for ceiling heating. The vane control method according to claim 2 or 3, wherein the second predetermined angle is an angle for floor heating.