JP3861549B2 - Blower fan control method for air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a blower fan control method for an air conditioner.
[0002]
[Prior art]
A conventional air blower control method for an air conditioner detects the rotational speed of a blower fan, and maintains a preset target rotational speed even if the rotational speed of the blower fan changes due to load fluctuations or power supply voltage fluctuations. There is a known method of controlling.
[0003]
[Problems to be solved by the invention]
When the indoor environment is controlled by an air conditioner, the blowout air is sent intensively toward the indoor living space to positively give the indoor occupant a feeling of cooling or heating, or the feeling of cold air is given. You may want to warm evenly every corner in the room.
[0004]
However, in the conventional blower fan control method described above, even when the airflow resistance increases or decreases depending on the angle of the wind direction changing blade and the load fluctuates, the fan rotates at a preset target rotational speed. Therefore, when the ventilation resistance increases, there is a problem that the wind speed of the blown air becomes insufficient due to a decrease in the blowing capacity, and the indoor occupant cannot have a sufficient cooling feeling or heating feeling.
[0005]
In addition, when the ventilation resistance decreases, the amount of air sent increases, so the temperature of the indoor heat exchanger decreases during the heating operation, and the temperature of the blown air decreases. There is a problem that it ends up.
[0006]
Further, during the heating operation, if the temperature of the indoor heat exchanger rises excessively due to a decrease in the air volume or the like, there is a problem that the air conditioner falls into an overload operation state and loads the air conditioner.
[0007]
Therefore, the present invention corrects the target rotational speed of the blower fan by a predetermined rotational speed in accordance with the wind direction position state of the air conditioner, thereby reducing the wind speed and temperature of the blown air. It aims at providing the ventilation fan control method of the air conditioner which prevents this and improves the comfort of living space.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is characterized in that an indoor heat exchanger, a blower fan, a fan motor for rotating the blower fan, and a rotation speed of the blower fan are provided inside the indoor unit of the air conditioner. A rotational speed detection means for detecting, a fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan detected by the rotational speed detection means becomes a predetermined target rotational speed, and the air of the indoor unit In an air conditioner having upper and lower blades that change the wind direction in the vertical direction at the air outlet and a plurality of left and right blades that change the wind direction in the horizontal direction, the direction of the upper and lower blades and the plurality of left and right blades is sent to the wind direction Is set to a spot wind direction position closer to the center, the target rotational speed of the blower fan is corrected to be higher by a predetermined rotational speed.
[0009]
With this configuration, the target rotational speed of the blower fan is corrected to be higher by a predetermined rotational speed in the spot wind direction, so it is possible to prevent a decrease in the blowing performance due to an increase in ventilation resistance, and a concentrated blown wind. Therefore, it is possible to provide the residents with a sufficient cooling feeling and heating feeling.
[0010]
According to a second aspect of the present invention, in the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotational speed detection that detects the rotational speed of the blower fan. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in the vertical direction and a plurality of left and right blades that change the wind direction in the horizontal direction, the direction of the upper and lower blades and the plurality of left and right blades is distributed in the left and right directions. When the position of the wide wind direction is set to blow out, the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed during the heating operation.
[0011]
With this configuration, when the wide wind direction is set, the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed during heating operation, so an increase in air volume due to a decrease in ventilation resistance can be prevented. No feeling of cold wind.
[0012]
According to a third aspect of the present invention, in the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotational speed detection that detects the rotational speed of the blower fan. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in a vertical direction and a plurality of left and right blades that change a wind direction in a horizontal direction, the indoor heat exchanger is provided with pipe temperature detecting means for detecting pipe temperature, and the upper and lower blades When the direction of the plurality of left and right blades is set to a spot wind direction position where the wind direction to be sent is closer to the center, the pipe temperature of the indoor heat exchanger is a predetermined pipe during heating operation. Higher than degrees only, in which so as to correct to a higher target rotational speed of the blower fan predetermined rotational speed only.
[0013]
This configuration corrects the target rotational speed of the blower fan to be higher by a predetermined rotational speed only when the pipe temperature of the indoor heat exchanger during heating operation is high during the spot wind direction, so that the piping temperature of the indoor heat exchanger is Even when the wind speed is low, that is, when the temperature of the blown-out air is low, it is possible to prevent the occupant from being exposed to a low-temperature wind.
[0014]
Furthermore, the invention according to claim 4 includes an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotational speed detection that detects the rotational speed of the blower fan inside the indoor unit of the air conditioner. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in a vertical direction and a plurality of left and right blades that change a wind direction in a horizontal direction, the indoor heat exchanger is provided with pipe temperature detecting means for detecting pipe temperature, and the upper and lower blades When the direction of the plurality of left and right blades is set to a position of a wide wind direction in which the wind direction to be sent is distributed to the left and right, the pipe temperature of the indoor heat exchanger is determined during heating operation. If lower than the piping temperature only, in which so as to correct the lower the target rotational speed of the blower fan predetermined rotational speed only.
[0015]
With this configuration, when the wide wind direction is set, the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed only when the indoor heat exchanger pipe temperature is low during heating operation. Even when the heat exchanger pipe temperature is high and the wind direction is set to wide, the air conditioner can be prevented from being overloaded.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0017]
(Embodiment 1)
1 and 2, A is an air conditioner, 1 is a front cover, 2 is an air inlet, 3 is an indoor heat exchanger, 4 is a blower fan, 5 is a rear guider, 6 is a stabilizer, and 8 is an air outlet. It is.
[0018]
Further, upper and lower blades 19a and 19b for changing the flow of wind in the vertical direction (vertical direction) are pivotally supported by the air outlet 8 so as to be rotatable in the vertical direction.
[0019]
The upper and lower blades 19a and 19b are divided into three in the horizontal direction, and are composed of a central upper and lower blade 19a disposed at the central portion and a plurality of left and right upper and lower blades 19b disposed at the left and right portions.
[0020]
The left and right upper and lower blades 19b are rotated in conjunction with each other, and one central upper and lower blade 19a is rotated independently of the left and right upper and lower blades 19b.
[0021]
These upper and lower blades 19a and 19b are driven by a stepping motor or the like (not shown).
[0022]
In the vicinity of the air outlet 8, left and right blades 20 for changing the flow of wind in the horizontal direction (left and right direction) are rotatably supported in the left and right directions.
[0023]
As shown in FIG. 3, the left and right blades 20 have a plurality of central left and right blades 20 a disposed at the center of the air outlet 8, and a plurality of left and right end portions disposed at the left and right portions of the air outlet 8. The blades 20b are divided and arranged.
[0024]
Further, the central left and right blades 20 a and the end left and right blades 20 b are blocked by a connecting bar 23.
[0025]
The left and right end blades 20b are supported on a pedestal 22 that is pivotally supported in a substantially horizontal direction.
[0026]
The left and right blades 20 are driven by a stepping motor or the like (not shown).
[0027]
Next, operations of the upper and lower blades 19 and the left and right blades 20 will be described.
[0028]
In FIG. 3, in the case of a spot wind direction in which the wind flow from the air outlet 8 is concentrated and blown out in the center, the left and right upper and lower blades 19b are rotated in the vertical direction as shown in FIG. 8 is closed, the central upper and lower blades 19a rotate obliquely downward to open the air outlet 8, and the left and right blades 20 are both the central left and right blades 20a and the end left and right blades 20b, respectively. The air outlet 8 is set so as to rotate in the direction of the central portion of the air outlet 8 so that the wind is concentrated and blown to the central portion.
[0029]
Further, in the case of a wide wind direction in which the wind flow from the air outlet 8 is dispersed left and right and blown out, the left and right upper and lower blades 19b are rotated obliquely downward as shown in FIG. The central upper and lower blades 19a rotate vertically to close the air outlet 8, and the left and right blades 20 both of the central left and right blades 20a and the end left and right blades 20b The outlet 8 is set to a state in which the outlet 8 is rotated in the left-right direction and the wind is dispersed to the left and right and blown wide.
[0030]
Next, the configuration of the control device in the present embodiment will be described.
[0031]
In FIG. 4, reference numeral 41 denotes a control board on which a microcomputer 42 that controls the operation of the air conditioner is mounted, and is housed inside the indoor unit A.
[0032]
The microcomputer 42 is provided with a rotational speed detection means for detecting the rotational speed of the blower fan, and feedback control so that the rotational speed of the blower fan detected by the rotational speed detection means becomes a predetermined target rotational speed. Programs such as a fan rotation speed control means to be performed, a rotation speed correction means for correcting the target rotation speed of the blower fan, and a wind direction control means for controlling the wind direction positions of the upper and lower blades 19 and the left and right blades 20 are set.
[0033]
43 is a fan motor drive circuit for driving the fan motor, 44 is a fan motor for driving the blower fan 4, 45 is a motor drive circuit for upper and lower blades, 46 is a motor for upper and lower blades, 47 is a motor drive circuit for left and right blades, and 48 is A motor for left and right blades, 49 is a pipe temperature sensor for detecting the pipe temperature of the indoor heat exchanger 3, and 50 is a rotation speed detection means including a magnetic sensor for detecting the rotation speed of the blower fan 4.
[0034]
The rotation speed detecting means 50 may be other means for detecting the rotation speed by incorporating a Hall IC or the like in the fan motor 44.
[0035]
Next, the operation of the upper and lower blades 19 and the left and right blades 20 and the operation of controlling the rotational speed of the blower fan 4 in the first embodiment will be described with reference to the control flowchart of FIG.
[0036]
In FIG. 5, when the indoor unit A is first operated, the air introduced from the air suction port 2 by the blower fan 4 passes through the air blowing port 8 (FIG. 2) formed by the stabilizer 6 and the rear guider 5. Is sent from.
[0037]
The target rotational speed r1 of the blower fan 4 is set according to the operating state of the indoor unit A in step S101.
[0038]
In step S102, the wind direction positions of the upper and lower blades 19 and the left and right blades 20 are set.
[0039]
Next, in step S103, it is determined whether or not the set wind direction position is a spot wind direction as shown in FIG. As a result, when it is determined that the wind direction position is not the spot wind direction, the process proceeds to step S105, and when it is determined that the wind direction position is the spot wind direction, the process proceeds to step S104.
[0040]
In step S104, the correction value Δr1 of the target rotational speed r1 of the blower fan 4 when the wind direction position is the spot wind direction is calculated, and a new target rotational speed r2 (= r1 + Δr1) obtained by adding the correction value Δr1 to the target rotational speed r1 is re-established. After setting, the process proceeds to step S105.
[0041]
In step S105, the rotational speed r3 of the blower fan 4 is detected by the rotational speed detection means 50.
[0042]
In step S106, it is determined whether or not the detected rotational speed r3 is a new target rotational speed r2. As a result, if the rotational speed of the blower fan 4 is the new target rotational speed r2, the process proceeds to step S107, and control is performed so as to maintain the new rotational speed r3 (≈r2) as it is.
[0043]
Otherwise, the process proceeds to step S108, and the drive voltage of the fan motor 44 is adjusted in step S108 to adjust the blower fan 4 to the new target rotational speed r2, and the process returns to step S105.
[0044]
Thereafter, the rotational speed control is performed so as to maintain the rotational speed r3 (≈r2) as it is until the new target rotational speed r2 of the blower fan 4 is changed.
[0045]
If it is determined in step S103 that the wind direction position is not the spot wind direction, the process proceeds to step S105, and the following control is performed.
[0046]
In step S105, the rotational speed r5 of the blower fan 4 is detected by the rotational speed detection means 50.
[0047]
In step S106, it is determined whether or not the detected rotational speed r5 is the target rotational speed r1. As a result, if the rotational speed of the blower fan 4 is the target rotational speed r1, the process proceeds to step S107, and control is performed to maintain the current rotational speed r5 (≈r1) as it is.
[0048]
Otherwise, the process proceeds to step S108, the drive voltage of the fan motor 44 is adjusted in step S108, the blower fan 4 is adjusted to the target rotational speed r1, and the process returns to step S105.
[0049]
According to this configuration, since the target rotational speed of the blower fan 4 is corrected to be higher by a predetermined rotational speed when the spot wind direction, it is possible to prevent a decrease in the blowing performance due to an increase in ventilation resistance, and concentrated As a result, it is possible to ensure a sufficient blowing speed, so that the occupant can have a sufficient cooling and heating feeling.
[0050]
(Embodiment 2)
In FIG. 6, when the indoor unit A is first operated, the air introduced from the air suction port 2 by the blower fan 4 is sent out from the air blowout port 8 through the blower passage 7 (FIG. 2).
In step S201, the target rotational speed r21 of the blower fan 4 is set according to the operating state of the indoor unit A.
[0051]
In step S202, the wind direction positions of the upper and lower blades 19 and the left and right blades 20 are set.
[0052]
Next, in step S203, it is determined whether or not the set wind direction position is a wide wind direction as shown in FIG. As a result, when it is determined that the wind direction position is not the wide wind direction, the process proceeds to step S206, and when it is determined that the wind direction position is the wide wind direction, the process proceeds to step S204.
[0053]
In step S204, it is determined whether the operation mode of the indoor unit A is the heating operation. As a result, if it is determined that the operation mode is not the heating operation, the process proceeds to step S206, and if it is determined that the operation mode is the heating operation, the process proceeds to step S205.
[0054]
In step S205, the correction value Δr21 of the target rotation speed r21 of the blower fan 4 when the wind direction position is the wide wind direction is calculated, and a new target rotation speed r22 (= r21−Δr21) obtained by subtracting the correction value Δr21 from the target rotation speed r21. Is reset and the process proceeds to step S206.
[0055]
In step S206, the rotational speed r23 of the blower fan 4 is detected by the rotational speed detection means.
[0056]
In step S207, it is determined whether or not the detected rotational speed r23 is the new target rotational speed r22. As a result, if the rotational speed r23 of the blower fan 4 is the new target rotational speed r22, the process proceeds to step S208 and control is performed so as to maintain the rotational speed r23 (≈r22) as it is.
[0057]
Otherwise, the process proceeds to step S209. In step S209, the drive voltage of the fan motor 44 is adjusted to adjust the blower fan 4 to the new target rotational speed r22, and the process returns to step S206.
[0058]
Thereafter, the rotational speed control is performed so as to maintain the rotational speed r23 (≈r22) as it is until the new target rotational speed r22 of the blower fan 4 is changed.
[0059]
If it is determined in step 203 that the wind direction position is not the spot wind direction and if it is determined in step 204 that it is not the heating operation, the process proceeds to step S206, and the following control is performed.
[0060]
In step S206, the rotational speed r25 of the blower fan 4 is detected by the rotational speed detection means 50.
[0061]
In step S206, it is determined whether or not the detected rotational speed r25 is the target rotational speed r21. As a result, if the rotational speed of the blower fan 4 is the target rotational speed r21, the process proceeds to step S207, and control is performed to maintain the current rotational speed r25 (≈r21) as it is.
[0062]
Otherwise, the process proceeds to step S209, and the drive voltage of the fan motor 44 is adjusted in step S209 to adjust the blower fan 4 to the target rotational speed r21, and the process returns to step S206.
[0063]
According to this configuration, when the wide wind direction is set, since the target rotational speed of the blower fan 4 is corrected to be lower by a predetermined rotational speed during the heating operation, it is possible to prevent an increase in the air volume due to a decrease in the ventilation resistance. Therefore, it does not give the resident a feeling of cold wind.
[0064]
(Embodiment 3)
In FIG. 7, when the indoor unit A is first operated, the air introduced from the air inlet 2 by the blower fan 4 is sent out from the air outlet 8 via the blower passage 7 (FIG. 2).
In step S301, the target rotational speed r31 of the blower fan 4 is set according to the operating state of the indoor unit A.
[0065]
In step S302, the wind direction positions of the upper and lower blades 19 and 20 are set.
[0066]
Next, in step S303, it is determined whether or not the set wind direction position is a spot wind direction as shown in FIG. As a result, when it is determined that the wind direction position is not the spot wind direction, the process proceeds to step S308, and when it is determined that the wind direction position is the spot wind direction, the process proceeds to step S304.
[0067]
In step S304, it is determined whether the operation mode of the indoor unit A is the heating operation. As a result, if it is determined that the operation mode is not the heating operation, the process proceeds to step S307, and if it is determined that the operation mode is the heating operation, the process proceeds to step S305.
[0068]
In step S305, the pipe temperature sensor 50 detects the pipe temperature of the indoor heat exchanger 3.
[0069]
In step S306, it is determined whether the piping temperature of the indoor heat exchanger 3 is higher than a predetermined temperature. As a result, when it is determined that the pipe temperature is low, the process proceeds to step S308, and when it is determined that the pipe temperature is high, the process proceeds to step S307.
[0070]
In step S307, the correction value Δr31 of the target rotational speed r31 of the blower fan 4 when the wind direction position is the spot wind direction is calculated, and a new target rotational speed r32 (= r31 + Δr31) obtained by adding the correction value Δr31 to the target rotational speed r31 is re-established. Then, the process proceeds to step S308.
[0071]
In step S308, the rotational speed r33 of the blower fan 4 is detected by the rotational speed detection means 50, and the process proceeds to step S309.
[0072]
In step S309, it is determined whether or not the detected rotational speed r33 is a new target rotational speed r32. As a result, if the rotation speed of the blower fan 4 is the new target rotation speed r32, the process proceeds to step S310 and control is performed so as to maintain the rotation speed r33 (≈r32) as it is.
[0073]
If not, the process proceeds to step S311, and the drive voltage of the fan motor 44 is adjusted in step S311, so that the blower fan 4 is adjusted to the new target rotational speed r32, and the process returns to step S308.
[0074]
Thereafter, the rotational speed control is performed so as to maintain the rotational speed r33 (≈r32) as it is until the new target rotational speed r32 of the blower fan 4 is changed.
[0075]
If it is determined in step 303 that the direction is not the spot wind direction, or if it is determined in step 306 that the temperature is not higher than the predetermined pipe temperature, the process proceeds to step S308 and the following control is performed.
[0076]
In step S308, the rotational speed r35 of the blower fan 4 is detected by the rotational speed detection means 50, and the process proceeds to step 309.
[0077]
In step S309, it is determined whether or not the detected rotational speed r35 is the target rotational speed r31. As a result, if the rotational speed of the blower fan 4 is the target rotational speed r31, the process proceeds to step S310, and control is performed to maintain the current rotational speed r35 (≈r31) as it is.
[0078]
Otherwise, the process proceeds to step S311. In step S311, the drive voltage of the fan motor 44 is adjusted to adjust the blower fan 4 to the target rotational speed r31, and the process returns to step S308.
[0079]
According to this configuration, during the spot wind direction, the target rotational speed of the blower fan 4 is corrected to be higher by a predetermined rotational speed only when the piping temperature of the indoor heat exchanger 3 during heating operation is high. Even when the spot temperature is set when the piping temperature of 3 is low, that is, when the temperature of the blown air is low, it is possible to prevent the resident from being exposed to a low temperature wind.
[0080]
Example 4
In FIG. 8, when the indoor unit A is first operated, the air introduced from the air suction port 2 by the blower fan 4 is sent out from the air blowout port 8 via the blower passage 7 (FIG. 2).
[0081]
In step S401, the target rotational speed r41 of the blower fan 4 is set according to the operating state of the indoor unit A.
[0082]
In step S402, the wind direction positions of the upper and lower blades 19 and the left and right blades 20 are set.
[0083]
Next, in step S403, it is determined whether or not the set wind direction position is a wide wind direction as shown in FIG. As a result, when it is determined that the wind direction position is not the wide wind direction, the process proceeds to step S408, and when it is determined that the wind direction position is the spot wind direction, the process proceeds to step S404.
[0084]
In step S404, it is determined whether the operation mode of the indoor unit A is the heating operation. As a result, if it is determined that the operation mode is not heating operation, the process proceeds to step S408, and if it is determined that the operation mode is heating operation, the process proceeds to step S405.
[0085]
Next, in step S405, the piping temperature sensor 50 detects the piping temperature of the indoor heat exchanger 3.
[0086]
In step S406, it is determined whether the piping temperature of the indoor heat exchanger 3 is higher than a predetermined temperature. As a result, when it is determined that the pipe temperature is low, the process proceeds to step S407, and when it is determined that the pipe temperature is high, the process proceeds to step S408.
[0087]
In step S407, if it is determined in step S406 that the pipe temperature is low, a correction value Δr41 of the target rotational speed r41 of the blower fan 4 during heating and in the wide wind direction is calculated, and the correction value Δr41 is calculated from the target rotational speed r41. The new target rotational speed r42 (= r41−Δr41) obtained by subtracting is reset, and the process proceeds to step S408.
[0088]
In step S408, the rotational speed r43 of the blower fan 4 is detected by the rotational speed detection means 50, and the process proceeds to step S409.
[0089]
In step S409, it is determined whether or not the detected rotational speed r43 is the new target rotational speed r42. As a result, if the rotation speed of the blower fan 4 is the new target rotation speed r42, the process proceeds to step S410 and control is performed so as to maintain the rotation speed r43 (≈r42) as it is.
[0090]
Otherwise, the process proceeds to step S411, the drive voltage of the fan motor 44 is adjusted in step S411, the blower fan 4 is adjusted to the new target rotational speed r42, and the process returns to step S408.
[0091]
Thereafter, the rotational speed control is performed so as to maintain the rotational speed r43 (≈r42) as it is until the new target rotational speed r42 of the blower fan 4 is changed.
[0092]
If it is determined in step 403 that the wind direction is not wide, if it is determined in step 404 that it is not a heating operation, or if it is determined in step 406 that the temperature is higher than the predetermined pipe temperature, in any case, step S408 is performed. Then, the following control is performed.
[0093]
In step S408, the rotational speed r45 of the blower fan 4 is detected by the rotational speed detection means 50, and the process proceeds to step 409.
[0094]
In step S409, it is determined whether or not the detected rotational speed r45 is the target rotational speed r41. As a result, if the rotational speed of the blower fan 4 is the target rotational speed r41, the process proceeds to step S410, and control is performed so as to maintain the current rotational speed r45 (≈r41).
[0095]
Otherwise, the process proceeds to step S411, the drive voltage of the fan motor 44 is adjusted in step S411, the blower fan 4 is adjusted to the target rotational speed r41, and the process returns to step S408.
[0096]
According to this configuration, when the wide wind direction is set, the target rotational speed of the blower fan 4 is corrected to be lower by a predetermined rotational speed only when the piping temperature of the indoor heat exchanger 3 is low during heating operation. Even when the wide air direction is set when the piping temperature of the indoor heat exchanger 3 is high during the heating operation, the air conditioner can be prevented from falling into an overload state.
[0097]
Note that the upper and lower blades in each embodiment of the present invention have been described as being divided into three parts in order to make the spot wind direction and the wide wind direction effective. It is obtained.
[0098]
【The invention's effect】
As is apparent from the above description, according to the first aspect of the present invention, the indoor heat exchanger, the blower fan, the fan motor that rotates the blower fan, and the blower fan are disposed inside the indoor unit of the air conditioner. A rotational speed detection means for detecting the rotational speed; a fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan detected by the rotational speed detection means becomes a predetermined target rotational speed; In an air conditioner equipped with upper and lower blades that change the wind direction in the vertical direction at the air outlet of the machine and a plurality of left and right blades that change the wind direction in the horizontal direction, the wind direction to be sent is at the position of the spot wind direction closer to the center When set, the target rotational speed of the blower fan is corrected to be higher by a predetermined rotational speed, so the direction of the upper and lower blades and the plurality of left and right blades is determined as the spot wind direction. According to, it is possible to prevent deterioration in blowing performance with increasing ventilation resistance.
[0099]
As a result, it is possible to secure a sufficient wind speed of the blowing air, so that it is possible to give the occupant a sufficient cooling feeling and a feeling of heating and to improve the comfort of the living space.
[0100]
According to the invention of claim 2, inside the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotation speed detection that detects the rotation speed of the blower fan. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in the vertical direction and a plurality of left and right blades that change the wind direction in the horizontal direction, the direction of the upper and lower blades and the plurality of left and right blades is distributed in the left and right directions. When the position of the wide wind direction is set to blow out, the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed during the heating operation. According to the setting of the orientation of the right wing to the wide wind direction can prevent an increase in air volume due to a decrease in ventilation resistance.
[0101]
As a result, it is possible to provide a uniform and comfortable indoor environment without giving the resident a feeling of cold air.
[0102]
According to the third aspect of the present invention, in the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotational speed detection that detects the rotational speed of the blower fan. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in a vertical direction and a plurality of left and right blades that change a wind direction in a horizontal direction, the indoor heat exchanger is provided with pipe temperature detecting means for detecting pipe temperature, and the upper and lower blades When the direction of the plurality of left and right blades is set to a spot wind direction position where the wind direction to be sent is closer to the center, the pipe temperature of the indoor heat exchanger is a predetermined pipe during heating operation. Since the target rotational speed of the blower fan is corrected to be higher by a predetermined rotational speed only when the temperature is higher than the degree, when the pipe temperature of the indoor heat exchanger is low, that is, when the temperature of the blown air is low, Even when the direction of the upper and lower blades and the plurality of left and right blades is set to the spot wind direction, it is possible to prevent the resident from being exposed to winds of low temperature intensively.
[0103]
As a result, the comfort of the living space can be improved without giving the indoor occupant a feeling of cold air.
[0104]
According to the fourth aspect of the present invention, in the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, and a rotational speed detection that detects the rotational speed of the blower fan. Means, fan rotation speed control means for performing feedback control so that the rotation speed of the blower fan detected by the rotation speed detection means becomes a predetermined target rotation speed, and the air direction at the air outlet of the indoor unit In an air conditioner having upper and lower blades that change in a vertical direction and a plurality of left and right blades that change a wind direction in a horizontal direction, the indoor heat exchanger is provided with pipe temperature detecting means for detecting pipe temperature, and the upper and lower blades And the direction of the plurality of left and right blades is set to a position of a wide wind direction in which the wind direction to be sent is distributed to the left and right, and the pipe temperature of the indoor heat exchanger is predetermined during the heating operation Since the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed only when the temperature is lower than the piping temperature, when the piping temperature of the indoor heat exchanger is high during heating operation, Even when the direction of the left and right blades is set to the wide wind direction, the air conditioner can be prevented from falling into an overload state.
[0105]
As a result, a uniform and comfortable indoor environment can be provided without applying a load to the air conditioner.
[Brief description of the drawings]
FIG. 1 is a perspective view of an indoor unit of an air conditioner showing an embodiment of the present invention.
FIG. 2 is a longitudinal sectional view taken along line II in FIG.
FIG. 3 is a schematic diagram showing the arrangement of left and right blades and upper and lower blades according to an embodiment of the present invention.
FIG. 4 is a block diagram of an air conditioner control device showing an embodiment of the present invention.
FIG. 5 is a control flowchart showing an embodiment of the present invention.
FIG. 6 is a control flowchart showing another embodiment in the embodiment of the present invention.
FIG. 7 is a control flowchart showing another embodiment of the present invention.
FIG. 8 is a control flowchart showing another embodiment of the present invention.
[Explanation of symbols]
A Air conditioner
1 Front cover
2 Air inlet
3 Indoor heat exchanger
4 Blower fans
5 Rear guider
6 Stabilizer
7 Air passage
8 Air outlet
19 Top and bottom blades
19a Center upper and lower blades
19b Left and right upper and lower blades
20 left and right feathers
20a Center left and right blades
20b End left and right blades
41 Control board
42 Microcomputer
43 Fan motor drive circuit
44 Fan motor
45 Motor drive circuit for upper and lower blades
46 Upper and lower blade motors
47 Motor drive circuit for left and right blades
48 Left and right blade motors
49 Piping temperature sensor
50 Rotational speed detection means

Claims (4)

Inside the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, a rotational speed detection means that detects the rotational speed of the blower fan, and the rotational speed detection means Fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan is a predetermined target rotational speed, upper and lower blades for changing the wind direction to the air outlet of the indoor unit, and the wind direction In the air conditioner having a plurality of left and right blades that change the horizontal direction, when the direction of the upper and lower blades and the plurality of left and right blades is set to a spot wind direction position where the wind direction to be sent is closer to the center, A blower fan control method for an air conditioner, wherein the target rotational speed of the blower fan is corrected to be higher by a predetermined rotational speed. Inside the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, a rotational speed detection means that detects the rotational speed of the blower fan, and the rotational speed detection means Fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan is a predetermined target rotational speed, upper and lower blades for changing the wind direction to the air outlet of the indoor unit, and the wind direction In the air conditioner equipped with a plurality of left and right blades that change the horizontal direction of the airflow, when the direction of the upper and lower blades and the plurality of left and right blades is set to a wide wind direction where the sent wind direction is distributed to the left and right Furthermore, the air blower fan control method for an air conditioner, wherein the target rotational speed of the blower fan is corrected to be lower by a predetermined rotational speed during the heating operation. Inside the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, a rotational speed detection means that detects the rotational speed of the blower fan, and the rotational speed detection means Fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan is a predetermined target rotational speed, upper and lower blades for changing the wind direction to the air outlet of the indoor unit, and the wind direction In the air conditioner having a plurality of left and right blades that change the horizontal direction, the indoor heat exchanger is provided with pipe temperature detection means for detecting a pipe temperature, and the orientation of the upper and lower blades and the plurality of left and right blades is determined. When the wind direction to be sent is set to the position of the spot wind direction that is closer to the center, during the heating operation, only when the piping temperature of the indoor heat exchanger is higher than a predetermined piping temperature, the sending direction is set. Fan controlling method of an air conditioner so as to correct to a higher target rotational speed of the fan a predetermined rotational speed by. Inside the indoor unit of the air conditioner, an indoor heat exchanger, a blower fan, a fan motor that rotates the blower fan, a rotational speed detection means that detects the rotational speed of the blower fan, and the rotational speed detection means Fan rotational speed control means for performing feedback control so that the rotational speed of the blower fan is a predetermined target rotational speed, upper and lower blades for changing the wind direction to the air outlet of the indoor unit, and the wind direction In the air conditioner having a plurality of left and right blades that change the horizontal direction, the indoor heat exchanger is provided with pipe temperature detection means for detecting a pipe temperature, and the orientation of the upper and lower blades and the plurality of left and right blades is determined. When the wind direction to be sent is set to the position of the wide wind direction that is dispersed and blown to the left and right, the heating operation only when the pipe temperature of the indoor heat exchanger is lower than the predetermined pipe temperature, Fan controlling method of an air conditioner so as to correct the low target revolution speed predetermined rotational speed by the serial blower fan.

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