KR100512241B1 - Vane control method for ceiling type air conditioner - Google Patents

Abstract

In the vane control method of the ceiling type air conditioner according to the present invention, the vanes of the air conditioner are opposed to each other, and at the same time, the pair of vanes closes the discharge port during operation of the pair of vanes so that a strong warm air is generated.

Accordingly, the warm air is evenly distributed over the entire space to be heated, especially the floor, thereby increasing the efficiency of the ceiling type air conditioner and satisfying the needs of the user.

Description

Vane control method for ceiling type 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 so that a space to be heated can be efficiently heated.

In general, an air conditioner includes a compressor for compressing a refrigerant, an indoor evaporator for cooling a refrigerant to maintain a cold surface, a condenser for discharging hot condensation heat for condensation, and an expander for controlling the flow pressure of the refrigerant. It consists of a refrigeration cycle consisting of connecting pipes.

The ceiling air conditioner also applies the above-mentioned refrigeration cycle, which is mainly small and therefore does not have a central cooling facility or is often installed according to its own needs separately from the central cooling facility.

1 is a configuration diagram schematically showing a conventional ceiling air conditioner.

Referring to FIG. 1, a ceiling air conditioner includes a turbo fan 11 for sucking indoor air and forcibly exchanging heat by evaporating with an evaporator, an indoor heat exchanger 12 in charge of heat exchange in a case, and the indoor heat exchanger 12. Drain pan 13 receiving the condensate generated in the water, the case 14 surrounding the inner member, the cover 15 for providing a beautiful environment inside, and the vane 16 for changing the direction of the blown air flow. It consists of.

When the indoor heat exchanger 12 operates as an evaporator, the liquid refrigerant vaporizes to lower the ambient temperature. When the indoor heat exchanger 12 and the outdoor heat exchanger in the outdoor unit disposed outside are changed, the ceiling air conditioner is changed. Is used as a heater. Of course, in this case the indoor heat exchanger 12 is used as a condenser.

The vane 16 is a blower airflow direction changing device that serves to disperse the cold air from the evaporator to various places in the room. Currently, the link device using the universal joint is widely used.

Figure 2 is a schematic diagram showing a louver link device using a conventional universal joint.

The universal joint is also called a hook joint as a joint used when both axes are in the same plane and the axes 21 and 22 intersect at an angle, and the crossing angle is usually 30 ° or less and is very slow. It can be up to 45 °. In this way, if the axis and the axis are connected directly, the speed of each axis is changed by the crossing angle. Therefore, in order to make the speed of both axes the same, the intermediate shaft 25 having the same crossing angle with both shafts 21 and 22 is inserted. Many double hook joints are used to match the speed of each axis.

In the ceiling-type air conditioner, the axes 21 and 22 are vanes 16 positioned on four sides of the ceiling-type acorns, and in particular, adjacent vanes 16 are connected to the universal joints.

On the other hand, since the other vanes are connected in series to the other side of the vane, which is the axis, when the universal joint is operated at a predetermined position by using a motor, all the vanes operate in the same chain.

In the conventional ceiling type air conditioner having such a configuration, since all four vanes are moved, the vane is discharged while changing the direction of cold or warm air discharged from the discharge port of the ceiling type air conditioner without closing the vanes.

However, when such a conventional vane control method is applied, there is a problem in heating.

Looking at, as shown in Figure 3 it can be seen that the warm air discharged from the ceiling air conditioner is not evenly distributed in the space to be heated.

This is caused by the fact that cold air with cold properties moves to the lower side of the space by convection, whereas hot air with hot properties tries to stay above the space by convection. Due to the low soil output, only certain areas (especially those without legs) are heated.

This phenomenon is opposite to the Duhan fever (the head is cold and the feet are warm), which provides comfort to the body, causing a problem that the user feels uncomfortable.

In order to solve such a problem, there is a method of increasing the discharge wind by rotating the fan at a high speed, which is not preferable because it causes an increase in noise.

An object of the present invention is to provide a vane control method of a ceiling type air conditioner, which is created to improve the above problems and to uniformly discharge the warm air discharged through the vanes into a space to be heated.

According to the technical idea of the present invention for achieving the above object, four vanes for controlling the discharge direction of the warm air and four vanes are installed in each of the vanes facing each other to constitute a pair When the set of vanes are operated, the other set includes a motor that stops the operation to close the discharge port, wherein the motor is opened after any one of the vanes is opened to prevent noise when all the vanes are closed. Another jaw is achieved by the vane control method of the ceiling air conditioner, characterized in that it operates to close the discharge port.

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As described above, the vane control method of the ceiling type air conditioner according to the present invention allows the other vanes to close the discharge ports when the vanes face each other to operate, so that only two of the four discharge ports are opened to form a strong warm air. Therefore, there is an advantage that can efficiently heat the space to be heated.

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

Figure 4 is a schematic diagram showing the structure of a ceiling air conditioner according to an embodiment of the present invention. Referring to FIG. 4, the ceiling air conditioner according to the present embodiment includes four opposing vanes 116 for controlling the direction of the warm air and a motor 125 for driving the vanes.

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In more detail, the vane 116 is installed outside the outlet of the ceiling air conditioner to control the direction of the warm air passing through the outlet. In addition, the size is the same as or larger than the discharge port, it is possible to close the discharge port in a certain condition.

The motor 125 is a driving source for allowing the vanes 116 to operate properly, one for each vane 116. In this way, the installation of a motor for each vane is intended to control the vanes in a different manner from the conventional method. Specifically, vanes facing the vanes move together.

In other words, the four vanes face each other, and the other two face each other, and the two vanes that make up each group always move together.

In addition, when the two vanes of any one of the operation is the two vanes of the other pair to close the discharge port.

5 illustrates such vane movement. Four vanes are set to 1, 2, 3, and 4, and 1, 3, 2, and 4, which face each other, are moved together as a pair. have.

As described above, in the vane control method of the ceiling type air conditioner according to the present embodiment, the vanes facing each other are operated, but when the other pair is operated, the other pair closes the discharge port. In order to increase the hot air to the wall as shown in Figure 6 so that the hot air hit the wall can flow through the wall and the bottom surface. In this way, the heating efficiency of the floor surface becomes very high compared with the conventional ceiling type air conditioner.

On the other hand, when closing a certain discharge port so that strong hot air is generated by the open discharge port, the opposing vanes are operated so that when the pair of adjacent vanes moves in a pair, adjacent air vanes are moved to generate heat evenly. Because this is not done.

On the other hand, when any one of the opposing vanes operating, that is, when the other pair closes the discharge port when it is open, it is good to exclude that all the discharge port is blocked, instantaneous noise is generated when all the discharge holes are closed in this way Because. Therefore, it is preferable to operate the other tank to close the discharge port after one tank is opened.

7 to 13 is a graph showing a change in heating efficiency according to the ceiling type air conditioner control method according to an embodiment of the present invention.

Referring to FIG. 7, the 18 ° C arrival time was about 75 minutes by the conventional heating operation. When only the vane control was changed according to the present embodiment, the 18 ° C arrival time was reduced to 7 minutes. It can be seen that the temperature rises and the efficiency is high. In the temperature measurement conditions in FIG. 7, the outdoor temperature is minus 10 degrees, and the indoor temperature measurement position measures the indoor temperature between 0.1 m and 1.1 m from the floor surface of the room.

8 shows that the temperature difference between the vane control method according to the present embodiment and the conventional vane control method according to the present embodiment is measured by the temperature in the bottom area is 6 ℃. Accordingly, the problem of cold feet and warm heads, which was a problem when operating a conventional ceiling air conditioner, has been eliminated.

9, 10, and 11, it can be seen that the floor temperature distribution rate has increased by 50%, the upper and lower temperature difference is 49%, the left and right temperature difference is improved by 16%.

In addition, as shown in FIG. 12, the predicted mean vote (PMW) determined by temperature, air flow, humidity, radiation temperature, amount of activity, and amount of wear is appropriate at -0.9 of conventional slightly cold. Was improved.

Accordingly, as shown in FIG. 13, the dissatisfaction rate for the upper and lower temperature differences was lowered from 80% to 20%.

This means that the improved up and down temperature difference of 5 ° C., as seen in FIG. 10, lowers the dissatisfaction rate of indoor occupants from 80% to 20%.

As described above, the vane control method of the ceiling type air conditioner according to the present invention allows the vanes to be operated as a pair of opposing vanes, and at the same time, when the pair of vanes are operated, the other pair of vanes closes the discharge port. Warm air was generated.

Accordingly, the warm air is evenly distributed over the entire space to be heated, especially the floor, thereby increasing the efficiency of the ceiling type air conditioner and satisfying the needs of the user.

1 is a schematic view showing a conventional ceiling air conditioner.

Figure 2 is a schematic diagram showing a louver link device using a conventional universal joint.

3 is a schematic view showing an operating state of a conventional ceiling air conditioner.

Figure 4 is a schematic diagram showing the structure of a ceiling air conditioner according to an embodiment of the present invention.

Figure 5 is a schematic diagram showing the operation of the ceiling air conditioner vane according to an embodiment of the present invention.

Figure 6 is a schematic diagram showing the operating state of the ceiling air conditioner according to an embodiment of the present invention.

7 to 13 is a graph measuring the efficiency of the ceiling air conditioner according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

11 ... turbo fan 12 ... indoor heat exchanger

13 ... drain pan 14 ... case

15 ... cover 16, 116 ... vane

125 ... motor

Claims (3)

delete Four vanes for controlling the discharge direction of the warm air and four vanes are installed in each of the vanes facing each other to constitute a pair of vanes each of the vanes to operate, the other one stops the operation In the ceiling air conditioner including a motor to close the discharge port, The motor is vane control method of a ceiling air conditioner, characterized in that the operation to close the discharge port after the other tank is opened in order to prevent the generation of noise when the vanes are all closed. delete