JPS62297654A - Air conditioner - Google Patents

Abstract

PURPOSE:To permit the change of airflow direction and air speed simultaneously by only one set of an airflow direction deflecting vane, by providing a driving control means, which controls the driving or the airflow direction deflecting vane. CONSTITUTION:The pivoting of an airflow direction deflecting vane 5, arranged at the blow-off port 4 of air of an air conditioner, is controlled by a driving control means 16. Upon starting the operation of the air conditioner, the airflow direction deflecting vane 5 is pivoted downward obliquely to deflect the direction of airflow downward obliquely to deflect the direction of airflow downward obliquely and choke the opening area of the blow-off port 4, therefore, the temperature of a living space in a room is approached to an objective value quickly by high-speed and converged ventilation. Thereafter, the airflow direction deflecting vane 5 is pivoted so as to be horizontal to make the airflow direction horizontal and open the blow-off port 4 fully, therefore, the feeling of draft of an inhabitant may be eliminated by the horizontal slow and diffused ventilation.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention (Field of Industrial Application) The present invention relates to an air conditioner, and particularly to measures for efficiently exerting the air conditioning effect.

(Prior Art) = 1 - Generally, in an air conditioner, the direction of air blowing is set by manually rotating a wind direction plate disposed at an air outlet.

For this reason, for example, during heating operation, if a high air volume and downward blowing condition is performed at the start of operation, the warm air will sufficiently reach the living space near the floor and a quick heating effect can be obtained, but on the other hand, If this continues for a long time, it will cause discomfort (draft feeling) to the occupants. In order to eliminate this draft feeling, the airflow is low.

When blowing out horizontally, the hot air does not reach near the floor surface, so there is a problem that the warming effect cannot be exerted quickly at the start of operation.

On the other hand, conventionally, in Japanese Patent Publication No. 60-54564, when the temperature difference between indoor and outdoor is large, a wind direction changing device for periodically changing the wind direction at the outlet and a diaphragm device for narrowing the area of the outlet are provided. The wind direction device is operated to periodically empty the air, and the aperture 11 is used to narrow down the outlet area, distributing high-speed wind to the upper and lower parts of the room, eliminating temperature differences between the upper and lower parts of the room, and making the room evenly heated. Accordingly, a system has been disclosed in which the wind direction change #A position is stopped and the area of the air outlet is expanded to diffuse low-speed wind throughout the room and eliminate the draft feeling.

(Problems to be Solved by the Invention) Therefore, in order to achieve both the prompt air conditioning effect at the start of operation and the prevention of the draft feeling afterwards, the technology disclosed in the above publication is used. It is conceivable to use a strong JII flow rate and downward blowout, and then a weak air flow rate and horizontal blowout.

However, in that case, a wind direction changing device to change the wind direction and a diaphragm device to narrow down the air outlet area are required, and both require motors and drive mechanisms, making the device complex and costly. arise.

The present invention has been made in view of the above, and its purpose is to satisfy the above requirements with a simple mechanism by making it possible to change the wind direction and wind speed at the same time with only one wind direction changing blade. There is a particular thing.

(Means for Solving the Problems) In order to achieve the above object, the solving means of the present invention is directed to an air conditioner that performs air blow control using wind direction changing blades, as shown in FIG. The air outlet (4) that opens toward the front is arranged so as to be rotatable in the vertical direction, and the opening area of the air outlet is variable, and the direction of the air flow from the air outlet (4) is approximately horizontal. The wind direction changing blade (5) changes the direction between the direction and the diagonally downward direction, and at the start of operation, the blowout flow direction is diagonally downward and the blowout port (4) is narrowed, while after that,
A drive control means (16) is provided for driving and controlling the wind direction changing blade (5) so that the direction of the blowout flow is substantially horizontal and the blowout port (4) is fully opened.

(Function) With the above configuration, in the present invention, the wind direction changing blade (5) arranged at the air outlet (4) of the air conditioner is rotationally controlled by the drive control means (16), and the air conditioner At the start of operation, it is rotated diagonally downward to direct the wind diagonally downward, and the opening area of the air outlet (4) is narrowed, so that the humidity in the indoor living space is quickly reduced by the high-speed and concentrated air flow. You can get closer to your target value. After that, the wind direction changing vane (5) is rotated horizontally to cover the wind direction horizontally, and the air outlet (4) is fully opened, so that the air is blown at low speed and diffused in the horizontal direction, thereby drafting the occupants. The feeling is resolved. In this case, since the air conditioning effect is quickly exerted at the start of operation and the resulting draft feeling is eliminated by controlling the rotation of one wind direction changing blade (5), the structure becomes simple.

(Example) Hereinafter, an example of the present invention will be described in detail based on FIGS. 1 to 3.

FIG. 1 shows a side view of a wall-mounted air conditioner according to an embodiment of the present invention. In Fig. 1, (1) is a suction port provided on the front surface of the main body casing, (2) is a heat exchanger for exchanging heat of air, (3) is a fan for air blowing, and (3) is a fan for blowing air.
4) is an air outlet opening toward the front provided at the lower part of the main body casing, and after the air taken in from the above-mentioned suction port (1) is heat-exchanged by the heat exchanger (2), the above-mentioned fan ( 3), the air is blown out from the air outlet (4). (5) is a wind direction changing vane that controls the direction and speed of air at the outlet, and (6) is the air outlet (4).
), and the wind direction changing blade (5) has its rear end rotatably supported above the inner wall (6). (7) is the wind direction changing blade (5) above.
a shape memory spring made of a shape memory alloy such as a Ni-Ti alloy, connected between the lower side of the inner wall (6), and (8) a heater for heating the shape memory spring (7); ) is the wind direction changing blade (
5) is a bias spring that pulls. 2(a) and (b) show the basic characteristics of the shape memory spring (7). The shape memory spring (7) is easily deformed in response to external stress at low temperatures near room temperature, and is expanded by the tensile force of the bias spring (9) to form the wind direction changing blade as shown in FIG. 2 (a). (5) is rotated in a substantially horizontal direction and the air outlet (4) is fully opened, but when heated by the heater (8) and the temperature of the shape memory spring (7) rises, it returns to its original shape. Since it will try to shrink due to the shape memory effect of trying to return, pull the wind direction changing blade (5) downward to rotate it downward and narrow the air outlet (4) as shown in Figure 2 (b). It is something to do. The shape memory spring (7), the heater (8), and the bias spring (9)
) constitutes an actuator (15) that rotates the wind direction changing blade (5).

In FIG. 1, (10) is a power source that applies voltage to the heater, (11) is a control circuit that controls the voltage of the power source, (12) is a timer, and (13) is an air outlet (4). ) is a ffl speed sensor placed near the room, and (14) is a room temperature sensor placed indoors. The control circuit (11) controls the heater power 11! in response to signals from the timer (12), the wind speed sensor <13>, the room temperature sensor (14), etc. By changing the voltage of (10), the heater (
8), and when the room is not sufficiently warmed during heating operation, the heater power source (10) is turned on and the actuator (15) is driven to change the wind direction. By moving the blade (5) downward, the air outlet (4) is narrowed down, and when the room has warmed up sufficiently after operation for a certain period of time, the heater power source (10) is turned on.
The actuator (15) drives the wind direction changing blade (5) in the horizontal direction to fully open the air outlet (4). The above is the same during cooling operation, including the heater (8), heater power source (10), control circuit (11), timer (12), and wind speed sensor (13).
, room temperature sensor (14), and actuator (1
5) constitutes a drive control means (16) that controls the operation of the wind direction changing blade (5).

Therefore, for example, during heating operation, at the start of operation when the room is not sufficiently warmed and a rapid rise in room temperature is required,
The drive control means (16) rotates the wind direction changing blade (5) downward, so that the air blowing direction is diagonally downward and the air outlet (4) is rotated downward.
), the opening area is narrowed, so high-speed downward warm air is blown to quickly warm the indoor living space near the flooring material, quickly providing a heating effect to the occupants. After that, when the room is sufficiently warmed up, the wind direction changing blade (5) is rotated almost horizontally, and the air blowing direction is horizontal and the air outlet (4) is fully opened, so that slow and diffused warm air is sent. To maintain a comfortable feeling of heating without giving a feeling of draft to the occupants. Furthermore, even when the indoor temperature suddenly changes due to external disturbances such as opening a window or door, the actuator (15) receives a signal from the drive control means (16) and rotates the wind direction changing blade (5) downward again. The airflow direction is narrowed downward, reducing the wind speed and rapidly warming the indoor living space, thereby maintaining the comfort of the occupants.

Furthermore, as shown in Fig. 2, the wind direction changing blade (5) does not protrude from the main body casing, so the interior design is improved.

The above shows the operation during heating operation, but it also applies during cooling operation.
Similarly, the cooling effect can be enhanced by controlling the cold air.

The drive control means (16) also controls the wind direction -〇.
- The method of controlling the changing blade (5) is not limited to the above-mentioned wall-mounted air conditioner, but can be applied to other models as well. FIG. 3 shows an example of application to a ceiling-embedded air conditioner having a pair of air outlets.

In Figure 3, (1') is the suction port, (2' a ) and (2' b ) are the heat exchangers, (3') is the fan, (
4'a) and (4'b) are air outlets, (5'
a) and (5'b) are wind direction changing blades that control the direction and speed of air blowing, (7'a) and (7'
b) are the wind direction changing blades (5'a) (5'b) and the air outlet (
Shape memory springs (8'a) and (8'b) are attached between the shape memory springs (7'a) and (8'b), respectively, and the inner wall surfaces (6') of 4'a) and (4'b). A heater that heats (7' b ), (9' a )
and <9' b ) is the shape memory spring (7' a
) and (7' b ) from the opposite side of the wind direction changing blade (5
It is a bias spring that pulls 'a) and (5'b). In the case of the ceiling recessed air conditioner shown in FIG. 3, the above-mentioned change in wind direction is also performed using the air outlet (4'a) and (4'b) provided at two locations, in the same manner as in the above embodiment. By rotating the blades (5'-10~a) and (5'b), you can change the wind speed and direction at the same time.
By varying the timing of rotation of a) and (5'b), the air conditioning effect can be further enhanced.

In addition, although the embodiment in which a shape memory spring is used as the drive control means has been described above, the method of rotating the wind direction changing blade (5) is not limited to the above, and may be a combination of a worm and a rack driven by a motor or a cam. There are a method using a mechanical drive control means such as using a , a method using an electromagnet using a bias spring as a drive control means, and the like. Regardless of which method is used, by controlling the position of one wind direction changing blade, the wind direction can be changed, and at the same time, the wind speed can be changed by changing the air outlet opening area to obtain the same effect as in the above embodiment. .

(Effects of the Invention) As explained above, according to the present invention, the wind direction and wind speed are simultaneously controlled by one wind direction changing blade provided at the air outlet and the drive mechanism in the cylinder, so that at the start of operation, the wind direction and wind speed are controlled simultaneously. The air blower quickly brings the living space near the indoor floor closer to the set temperature, giving the occupants a good air-conditioned feeling. -It does not give any impression. Therefore, the air conditioning effect can be improved with a simple structure.

[Brief explanation of the drawing]

Figures 1 to 3 show embodiments of the present invention, Figure 1 is a side configuration diagram of a wall-mounted air conditioner, and Figures 2 (A) and (B) are the wall-mounted air conditioner shown in Figure 1. Figure 2 (a) shows the state of the wind direction changing blade when the shape memory spring (7) is around room temperature, and Figure 2 (b) shows the state of the airflow direction changing blade when the shape memory spring (7) is around room temperature. The state of the wind direction changing blade when heated by the heater (8) is shown. FIG. 3 is a side configuration diagram when the present invention is applied to a ceiling-embedded air conditioner. (71)... Air outlet, (5)... Wind direction changing blade, (7)... Shape memory alloy spring, (8)... Heater, (9)... Bias spring, (16 )...Drive control means.

Claims (1)

[Claims] (1) The air outlet (4) that opens toward the front is arranged so as to be able to rotate in the vertical direction, and the opening area of the air outlet (4) can be varied, and the air flow from the air outlet (4) can be changed. A wind direction changing blade (5) that changes the direction between an almost horizontal direction and an obliquely downward direction, and a wind direction changing blade (5) that changes the direction of the outflow flow diagonally downward and narrows the air outlet (4) at the start of operation, but after that, the direction of the outflow flow is almost horizontal. drive control means (16) for driving and controlling the wind direction changing blade (5) so as to fully open the air outlet (4);
An air conditioner characterized by comprising: