JPH0448142A - Air conditioner - Google Patents

Abstract

PURPOSE:To improve the distribution of indoor temperature and restrict noise by a method wherein each of room temperature sensors is installed in an air blowing region of a fan, the number of revolution of the fan and an angle of a louver at an air blowing port are controlled in response to a detected value of each of the room temperature sensors in each of the air blowing regions. CONSTITUTION:A room temperature is detected by a plurality of sensors 12, 13, 14 and 15. A control part 16 controls a rotational speed of each of fan motors 5 and 6 and an angle of each of divided lateral louvers 9a and 9b, so that it is possible to change an amount of blown air and an air direction in response to a temperature distribution, resulting in that a distribution of indoor temperature can be improved and then a comfortable feeling can be improved. Since the number of revolution of the fans 3 and 4 can be controlled in response to the temperature distribution of the blowers, no excessive operation of the fans 3 and 4 is prevented and thus noise is restricted.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to an air conditioner that controls the amount of air blown using a plurality of fans, and in particular can improve indoor temperature distribution and suppress noise. This relates to air conditioners.

(Prior Art) In recent years, as demands for improving the comfort of living spaces have increased, optimal air conditioning has been required. An air conditioner that satisfies this requirement is an air conditioner that controls the air volume using multiple fans, for example, two, instead of one that controls the air volume using a single fan (see Utility Model Application Publication No. 128341/1983). Publication No. 54-163047, Utility Model Publication No. 56-4
5723, Japanese Utility Model Application Publication No. 57-83327, etc.) are contradictory.

(Problems to be Solved by the Invention) By the way, in the above-mentioned air conditioner, in order to control a plurality of fans using one room temperature sensor, it is necessary to control the fan according to the indoor temperature distribution. Also, if multiple fans are operated using one room temperature sensor, all the fans will operate in the same way, making it impossible to operate the fans according to the temperature of the ventilation area, which may cause overoperating fans. In some cases, the noise level may be high.

Therefore, the present invention has been made in consideration of such circumstances, and an object of the present invention is to provide an air conditioner that can improve indoor temperature distribution and suppress noise.

[Structure of the Invention] (Means for Solving the Problems) In order to achieve the above object, the present invention provides an air conditioner in which a plurality of fans are disposed inside an indoor unit housing along its longitudinal direction. A control unit is provided in which a room temperature sensor is arranged in each air blowing area of the fan, and the rotation speed of the fan and the angle of the louver of the air outlet of the fan are controlled based on the detected value of the room temperature sensor in each air blowing area. .

(Function) According to the above configuration, the indoor temperature is detected by the plurality of room temperature sensors, and the rotation speed of the fan and the angle of the louver in each ventilation area are controlled based on these detected values. The direction of the wind will be changed according to the temperature distribution. This improves indoor temperature distribution and improves comfort. Further, since the rotational speed of the fan in each ventilation area is controlled by each room temperature sensor, the fan can be operated according to the indoor temperature distribution, thereby suppressing noise.

(Example) Hereinafter, one example of the present invention will be described based on the accompanying drawings.

In FIGS. 1 to 3, reference numeral 1 indicates an indoor unit housing of an air conditioner, and the housing 1 is formed in a horizontally long box shape.

Inside the housing 1, there is an indoor heat exchanger 2 that constitutes a refrigeration cycle.
In the illustrated example, two fans 3.4 are arranged on the left and right sides along the longitudinal direction of the heat exchanger 2. Fan motors 5 and 6 with variable rotational speeds are respectively connected to the fans 3 and 4, and when the fan motors 5 and 6 are driven, the fans 3 and 4 rotate, and heat is transferred through the indoor heat exchanger 2. The replaced air is blown into the room from the blow-off lower.

As shown in FIG. 3, a plurality of vertical louvers 8 are rotatably disposed at predetermined intervals along the longitudinal direction of the blow-off lower, and two vertical louvers 8 are arranged substantially at right angles to the contracting louvers 8. Two horizontal louvers 9 are rotatably arranged. These horizontal louvers 9 are each divided into two at the border, or approximately at the center, of the air blowing areas of the two fans 3.4. A rotating shaft 10 is protruded from one of the divided parts, and a fitting hole for fitting the rotating shaft 10 is bored in the other part, and a divided stack louver is provided through the rotating shaft 10. 9a, 9
b are connected to form a horizontal louver 9. Inside the housing 1 at both ends of the horizontal louver 9, there are louver drive devices 10 and 11 for rotating the divided louvers 9a and 9b, respectively.
are respectively provided, and these devices 10.11 allow the divided stack louvers 9a, 9b to rotate independently about their longitudinal directions.

In addition, one or more room temperature sensors are placed in the ventilation area of each fan to detect the indoor temperature! 6 For example, when indoor unit housing 1 is installed on a wall, etc., as shown in Figures 4 and 5, there are a total of 4 in total on the left and right sides of the wall facing housing #1, in the center and at the bottom. Room temperature sensors 12, 13, 14, 15 are arranged, and the sensors 12, 14 on the left side
The atmospheric temperature (room temperature) in the left ventilation area of sensor 1 on the right
The atmospheric temperature in the right ventilation area is detected by 3°15. These room temperature sensors 12, 13, 14 and 15 are each connected to a control section 16.

The control unit 16 is formed of a microcomputer and controls each sensor 1.
2, 13, 14. Based on the detected values from 14.15, the rotation speed of the fan motor 5.6 of each ventilation area is controlled, and the angle of the divided volume louvers 9a, 9b is controlled via the horizontal louver drive devices io, 1i. is configured to control. Further, the control unit 16 is equipped with a rotation speed control function and first and second fluctuation control functions.

Next, the operation of this embodiment will be explained.

When the air conditioner is operated and a set temperature is set using a remote control or the like, the room temperature (atmospheric temperature) at the sensor placement position is detected by each room temperature sensor 12, 13, 14, 15. The control unit 16 compares the atmospheric temperature with a set temperature, and controls the rotational speed of the fan motors 5 and 6 according to the temperature difference. In other words, the atmospheric temperature tL in the left ventilation area
Compare o with its set temperature tt, s, and adjust the rotation speed of the left fan as shown in Fig. 6 based on this temperature difference.
The rotation speed of the left fan motor 5 is controlled. Further, the atmospheric temperature 1o in the right blowing region is compared with its set temperature t□, and the rotational speed of the left fan motor 6 is controlled based on FIG. 7 in the same manner as described above. As a result, air after heat exchange according to the temperature is blown into each blowing region.

Also, if the temperature at the center and bottom of each ventilation area is different,
The control unit 16 controls the minute!
FI41! The angles of the louvers 9a and 9b are controlled. This allows the wind direction to be changed depending on the temperature in the vertical direction.

Therefore, the room temperature is detected by the plurality of sensors 12, 13, 14, 15, and the control section 16 controls the rotational speed of the fan motor 5.6 and the angle of the divided volume louvers 9a, 9b based on the detected values. The amount and direction of air flow can be changed according to the temperature distribution, improving indoor temperature distribution and improving comfort. In addition, since the rotational speed of the fans 3 and 4 can be controlled according to the temperature distribution in the ventilation area, the fans 3 and 4 are not over-operated, so that the %i noise is suppressed.

Moreover, the rotation speed of the two fans 3.4 is determined by the control unit 16. The control function is controlled as shown in FIG. That is, when the room temperature in the left ventilation area and the right ventilation area is detected (step ■), the left fan 3
The rotation speed of right fan 4 is set (step ■).
The rotational speed of the left fan 3 and the right fan 4 is set (step ■) 9.Next, the rotational sound frequencies 11N, Zl l -I N2Z211 of the left fan 3 and the right fan 4 are compared (step ■), where N1 is the rotation speed of one fan, 2. is the number of blades, N2 is the rotation speed of the other fan,
Z2 is the number of blades.

The above process (steps ■ to ■) is performed when 1N+ZI I -I N2 z-r if becomes 5 or more, and the total value N of left and right fan noise is
This is repeated until 1N21 becomes less than a certain value (steps ① and ②).

As a result, when the rotational sound frequencies of the fans 3.4 match, a resonance phenomenon occurs, and the beat period indicating the beat phenomenon of the fans 3.4 is 1/IIN, Z, I-I
N2 Z21l-(-, in general, the larger the beat period, the greater the WfI characteristic of the beat sound.
Setting NIZ,1-IN2Z2II to, for example, 5 or more moves the beat sound out of the audible range, making it difficult to hear the beat sound intermittently. Moreover, excessive noise can be prevented by preventing the total value N, N21 of the left and right fan noises from exceeding a certain value.

11N, Z, l-lN2Z21+ is 5 or more, N, N, l
After the rotation speed becomes less than 500 lbs., the fan 3.
4 is driven (operated) by the fan motor 5.6, and the program returns to step (2) unless the operation is stopped.

This makes it possible to further suppress noise while improving indoor temperature distribution.

Further, when the temperature difference between the set temperature and the room temperature is small (for example, about 1.5° C.), the first and second fluctuation control # functions provided in the control unit 16 are activated. When the first fluctuation control function is activated, the rotation speed of the fan 3.4 is changed to one side or the other side as shown in FIG. is controlled as shown by the dashed line.

Further, when the second fluctuation control function is activated, the fan 3.
The horizontal louver driving device 1 is set at a constant rotation speed of 4 and placed on 1/f of the angular power spectrum in the fluctuation pattern.
0.11 to change the angle of the horizontal louver 9 of the blowout lower.

As a result, the indoor air blowing speed changes, and fluctuation control is performed as described above. At this time, as shown in the figure, the wind speed of each fan 3, 4 is adjusted to
9b, so even if the left and right temperature distribution changes,
Fluctuation control can be performed in response to this.

Therefore, the first and second fluctuation control functions control natural phenomena such as breezes so that the indoor wind speed follows the fluctuation pattern and comes around the human body. This is a phenomenon that occurs in the natural world, where a certain subband (fluctuation pattern) in the frequency range to be controlled is specified by the power spectrum of the non-controlled object, and the period of fluctuation is determined as the reciprocal of the frequency of the %F range. This is because most of them are in a 1/f fluctuation pattern.

In this way, by controlling heating and cooling operations that closely resemble natural phenomena, a more comfortable living environment can be created.

In this embodiment, the angle of the horizontal louver is controlled by the control section to control the vertical wind direction, but in addition to the angle of the horizontal louver, the angle of the vertical louver in each ventilation area is also controlled by the control section. Good too.

[Effects of the Invention] In summary, according to the present invention, room temperature sensors are arranged in each ventilation area, and the rotational speed of the fan and the angle of the louver at the air outlet of the fan are controlled based on the detected values of these sensors. Therefore, it is possible to improve the indoor temperature distribution and suppress the noise caused by the fan, which is an excellent effect.

[Brief explanation of the drawing]

Fig. 1 is a configuration diagram showing the indoor unit casing of the air conditioner of the present invention, Fig. 2 is a side view thereof, Fig. 3 is a perspective view showing the state of the air outlet of the indoor unit casing, and Fig. 4 5 is a side view showing an example of the arrangement of room temperature sensors, and FIG. 5 is a top view thereof.
Figure 6 shows the relationship between the temperature difference between the atmospheric temperature in the left ventilation area and its set temperature and the left fan rotation speed, and Figure 7 shows the relationship between the atmospheric temperature in the right ventilation area and its set temperature. temperature difference and
FIG. 8 is a control flow diagram showing the rotation speed control function of the present invention, and FIG. 9 is a diagram showing the relationship between time and fan rotation speed. In the figure, 1 is an indoor unit housing, 3 and 4 are fans, 7 is an air outlet, 8 and 9 are louvers, 12, 13° and 14.15 are room temperature sensors, and 16 is a control unit.

Claims (1)

[Claims] 1. In an air conditioner in which multiple fans are installed along the longitudinal direction inside the indoor unit housing, a room temperature sensor is placed in each fan's ventilation area, and based on the detected value of the room temperature sensor in each ventilation area, An air conditioner characterized by comprising a control unit that controls the rotation speed of the fan and the angle of the louver at the air outlet of the fan.