JP4190189B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner that can supply air-conditioned air from an indoor unit to a plurality of air-conditioning zones using a blowout duct or the like.
[0002]
[Prior art]
In the air conditioner 100, as shown in FIG. 11, from one indoor unit 102 installed in, for example, a shed space of a building 101 to an air conditioning zone 105 on the first floor using a blowout duct 103, There is one configured so that air conditioned by the indoor unit 102 can be supplied to the air conditioning zone 106 on the second floor using the blowout duct 104. In such an air conditioner 100, a damper device 107 is installed between the indoor unit 102 and the blowout ducts 103 and 104, and the air volume balance of the air supplied to the air conditioning zones 105 and 106 by the action of the damper device 107. Is adjusted.
[0003]
These air conditioning zones 105 and 106 are respectively provided with air conditioning remote controllers 108 and 109 that incorporate a temperature sensor and can control the indoor unit 102. One of the air conditioning remote controller 108 and the air conditioning remote controller 109 is a main remote controller, and the other is a sub remote controller. The indoor unit 102 is controlled only by the main remote controller. The master-slave switching of the air-conditioning remote controllers 108 and 109 is executed by operating the keys of the respective remote controllers, and the air-conditioning remote controller 108 or 109 that has been key-operated last becomes the main remote controller.
[0004]
In addition, the damper device 107 is controlled by a duct-dedicated remote controller 110 independently of the control of the indoor unit 102 by the air conditioning remote controllers 108 and 109. The duct remote controller 110 is installed in either one of the air-conditioning zones 105 or 106 (in this embodiment, the air-conditioning zone 105). In addition, the code | symbol 111 in FIG. 3 shows an outdoor unit.
[0005]
[Problems to be solved by the invention]
In the conventional air conditioner 100, the duct-specific remote controller 110 for controlling the damper device 107 as described above is installed separately from the air conditioning remote controllers 108 and 109, and thus the cost increases. .
[0006]
The object of the present invention has been made in consideration of the above-mentioned circumstances, and eliminates the damper-specific remote controller that controls the damper device that adjusts the air volume balance of the air supplied to each of the plurality of air conditioning zones. It is in providing the air conditioning apparatus which can reduce.
[0007]
[Means for Solving the Problems]
The invention according to claim 1 is an air conditioner in which a damper device installed in an indoor unit is air conditioned by the indoor unit, and the air volume balance of air supplied to each of the plurality of air conditioning zones can be adjusted. , The damper device includes a damper opening / closing mechanism that adjusts the opening degree of the damper plate, and an opening degree detection unit that detects the opening degree of the damper, Remote controller for air conditioning that controls the indoor unit The damper opening / closing mechanism controls the damper device according to the operation of the damper. Damper opening to one air conditioning zone But When fully open When In Detected by the opening detector Measured damper opening and damper opening to the other air conditioning zone But Fully open When In Detected by the opening detector Based on the actual measured value of the damper opening, position control is performed to calculate the position of each of the plurality of damper setting openings set between the damper opening fully opened positions toward the one and the other air conditioning zones. Control means, the control means performs the positioning control when the air conditioning remote controller is operated to power on the air conditioner, It is characterized by.
[0009]
Claim 2 The invention described in claim 1 In the invention described in the above, the remote controller for air conditioning is Provided with a setting key for setting the damper opening corresponding to each air conditioning zone, the control means, Air conditioning remote controller Depending on the setting key operation Based on the measured damper opening, the damper opening of the damper device , Set by the above setting key The damper device is configured to be controlled so as to be positioned at a target damper setting opening.
[0010]
Claim 3 The invention described in claim 1 or In the invention according to 2, Above opening detector Is The damper opening / closing mechanism has Potentiometer provided on the rotating shaft of the damper plate Is It is characterized by this.
[0011]
Claim 4 The invention described in claim Any one of 1 to 3 In the invention described in the above, the remote controller for air conditioning is a master-slave remote controller in which the indoor unit is controlled only by the selected main remote controller, The control means includes Primary remote controller and secondary remote controller Depending on the operation Further, the present invention is characterized in that the position setting control of the damper set opening degree is performed.
[0012]
Claim 5 The invention described in claim Any one of 1 to 3 In the invention described in the above, the remote controller for air conditioning is a master-slave remote controller in which the indoor unit is controlled only by the selected main remote controller, The control means is the above Main remote controller Depending on the operation The damper opening of the damper device is configured to be controlled so as to be positioned at a target damper setting opening.
[0013]
Book The invention has the following effects.
[0014]
Since the indoor unit is controlled by the air conditioning remote controller and the damper device is also controlled by the air conditioning remote controller, the damper-specific remote controller for controlling the damper device can be eliminated, and the cost can be reduced.
[0015]
Also book The invention has the following effects.
[0016]
The remote controller for air conditioning has a plurality of measured values based on the measured damper opening when the damper opening to one air conditioning zone is fully opened and the measured damper opening when the damper opening is fully opened to the other air conditioning zone. Since the position of each damper set opening is calculated, each damper set opening can be accurately calculated even when the damper device is changed to a damper device having a different specification.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0018]
FIG. 1 is a configuration diagram showing an embodiment of an air conditioner according to the present invention.
[0019]
In the air conditioner 10 shown in FIG. 1, one outdoor unit 11 is installed outside the building 13, and one indoor unit 12 is installed in, for example, a shed space 14 of the building 13. A device 15 is continuously provided, and a plurality of, for example, two blowout ducts 16 and 17 are extended from the damper device 15. These blowing ducts 16 and 17 are also installed in the cabin space 14. In addition, although not shown, a suction duct or the like that guides air in the building 13 to the indoor unit 12 is connected to the indoor unit 12 in the cabin space 14.
[0020]
The indoor unit 12 includes an indoor heat exchanger 18 and a fan 19. The indoor heat exchanger 18 is connected to the outdoor unit 11 using the refrigerant pipe 20, and cools the air sucked into the indoor unit 12 by evaporating or condensing the refrigerant guided from the outdoor unit 11. Or warm.
[0021]
The blowing ducts 16 and 17 have one end coupled to the damper device 15 and a blowing grill 21 attached to the other end. The blowing grill 21 of the blowing duct 16 is installed on the ceiling plate 22 on the first floor of the building 13, and the blowing grill 21 of the blowing duct 17 is installed on the ceiling plate 23 of the second floor of the building 13. The ceiling board 22 faces the air conditioning zone 24 on the first floor, and the ceiling board 23 faces the air conditioning zone 25 on the second floor.
[0022]
Accordingly, the rotation of the fan 19 of the indoor unit 12 causes the air in the building 13 to be sucked into the indoor unit 12 via a suction duct (not shown) and the like, and heat exchange is performed by the indoor heat exchanger 18 of the indoor unit 12. Air is blown out from the blow grill 21 to the air conditioning zone 24 (A zone) on the first floor through the blow duct 16, and blown out from the blow grill 21 to the air conditioning zone 25 (B zone) on the second floor through the blow duct 17. The
[0023]
The damper device 15 adjusts the air volume balance of the air supplied to the air conditioning zones 24 and 25 after being conditioned by the indoor unit 12, and is disposed corresponding to each of the outlet ducts 16 and 17. It comprises plates 26 and 27 and a damper motor 28 for driving these damper plates 26 and 27.
[0024]
The damper motor 28 is coupled to the rotating shafts 38 of the damper plates 26 and 27 and drives the damper plates 26 and 27 simultaneously in conjunction with each other. For example, the damper motor 28 increases the amount of air supplied to the air-conditioning zone 24 (A zone) through the blowing duct 16 by increasing the damper opening degree by the damper plate 26 at the time of forward rotation, and by the damper plate 27. By reducing the damper opening, the air volume of the air supplied to the air conditioning zone 25 (B zone) through the blowout duct 17 is reduced. In addition, the damper motor 28 reduces the amount of air supplied to the air conditioning zone 24 (A zone) through the blowout duct 16 by reducing the damper opening by the damper plate 26 at the time of reverse rotation, and also by the damper plate 27. The damper opening is increased, and the air volume of air supplied to the air conditioning zone 25 (B zone) through the blowout duct 17 is increased.
[0025]
Air conditioning remote controllers 29 and 30 for controlling the outdoor unit 11 and the indoor unit 12 are installed in the air conditioning zones 24 and 25, respectively, and the temperature of the air conditioning zones 24 and 25 is controlled by built-in temperature sensors (not shown). Each can be detected. One of these air conditioning remote controllers 29 and 30 is a master-slave remote controller in which one is a master remote controller and the other is a slave remote controller, and only the master remote controller controls the outdoor unit 11 and the indoor unit 12.
[0026]
Switching between the main remote controller and the slave remote controller is executed by operating the keys of the respective remote controllers, and the air conditioning remote controller 29 or 30 in which the key is operated last becomes the main remote controller.
[0027]
The outdoor unit 11 and the indoor unit 12 are controlled by this main remote controller. For example, the operation and stop of the outdoor unit 11 and the indoor unit 12 are controlled by the operation of the operation / stop key 31 shown in FIG. 2 of the air-conditioning remote controller 29 or 30 serving as the main remote controller. In addition, the outdoor unit 11 and the indoor unit 12 are configured such that the air conditioning remote controller 29 or 30 serving as the main remote controller based on the temperature detected by the temperature sensor of the air conditioning remote controller 29 or 30 serving as the main remote controller. The temperature is controlled to be the set temperature set by the temperature setting key 32.
[0028]
The air conditioning remote controller 29 and the air conditioning remote controller 30 are configured to control the damper device 15 when they become main remote controllers.
[0029]
Here, the air volume balance of the air supplied to each of the air conditioning zones 24 and 25 is adjusted by the damper device 15, but the air conditioner remote controllers 29 and 30 include the damper of the damper device 15 as shown in FIG. 2. Air volume balance setting keys 33 and 34 are provided as damper opening setting keys that allow the setting opening (that is, the setting value of the damper opening) to be changed. The display units 35 of the air conditioning remote controllers 29 and 30 are provided with level meters 36 and 37 that can visually display the damper set opening degree of the damper device 15.
[0030]
The air volume balance setting key 33 and the level meter 36 correspond to the air conditioning zone 24 (A zone), and the air volume balance setting key 34 and the level meter 37 correspond to the air conditioning zone 25 (B zone). Further, the level meters 36 and 37 are configured such that their display levels can be increased or decreased within a range of, for example, 10 levels according to the damper set opening.
[0031]
In the air-conditioning remote controller 29 or 30 that has become the main remote controller, the damper setting opening by the damper plate 26 (FIG. 1) is increased by the pressing operation of the air volume balance setting key 33, and the air-conditioning zone 24 (A zone) is entered. The air volume of the supplied air is increased, the damper opening degree by the damper plate 27 (FIG. 1) is decreased, and the air volume of the supplied air to the air conditioning zone 25 (B zone) is decreased. Therefore, in the air conditioning remote controllers 29 and 30, when the air volume balance setting key 33 is pressed, the display level of the level meter 36 corresponding to the air conditioning zone 24 (A zone) on the side where the damper setting opening increases is set. The display level of the level meter 37 corresponding to the air conditioning zone 25 (B zone) on the side where the damper setting opening degree is increased and the damper setting opening degree is decreased is decreased.
[0032]
Further, in the air conditioning remote controller 29 or 30 that is the main remote controller, the damper set opening degree by the damper plate 27 is increased by the pressing operation of the air volume balance setting key 34, and the supply to the air conditioning zone 25 (B zone). While the air volume is increased, the damper opening degree set by the damper plate 26 is decreased, and the air volume supplied to the air conditioning zone 24 (A zone) is decreased. Therefore, in the air conditioning remote controllers 29 and 30, when the air volume balance setting key 34 is pressed, the display level of the level meter 37 corresponding to the air conditioning zone 25 (B zone) on the side where the damper setting opening increases is increased. Then, the display level of the level meter 36 corresponding to the air conditioning zone 24 (A zone) on the side where the damper set opening is decreased decreases.
[0033]
When one of the air conditioning remote controllers 29 or 30 is selected as the main remote controller, the selected air conditioning remote controller 29 or 30 is set and displayed according to the display level of its level meters 36 and 37. The damper device 15 is controlled based on the damper setting opening.
[0034]
When the damper device 15 is not connected to the indoor unit 12 shown in FIG. 1, the level meters 36 and 37 on the display unit 35 of the air conditioning remote controllers 29 and 30 are not displayed. In this case, when the air volume balance setting key 33 or 34 of the air-conditioning remote controllers 29 and 30 is operated, the display unit 35 of the air-conditioning remote controllers 29 and 30 displays “There is no such function” or the like. A message indicating that the damper opening setting function does not operate is displayed.
[0035]
The control of the damper device 15 by the air conditioning remote controller 29 or 30 will be described in detail with reference to the block diagram of FIG. 3 and the flowcharts of FIGS.
[0036]
As shown in FIG. 3, a power transformer 40 and a relay board 41 are connected to the control device 39 of the indoor unit 12, and a damper motor 28 and a potentiometer 42 of the damper device 15 are connected to the relay board 41. Further, the control device 39 of the indoor unit 12 is configured to be able to wirelessly communicate with the air conditioning remote controllers 29 and 30 by infrared rays or the like.
[0037]
The relay board 41 is provided with an A-zone relay 43A, a B-zone relay 43B, and a buffer 48. The power transformer 40 supplies power of a necessary voltage to the control device 39 and the relay board 41, respectively.
[0038]
The damper motor 28 has a rotor 44 rotatably coupled to the rotating shaft 38 of the damper plates 26 and 27, and includes an A-zone stator coil 45A and a B-zone stator coil 45B. Due to the excitation of the A-zone stator coil 45A, the damper opening by the damper plate 26 (FIG. 1) increases and the rotor 44 rotates so that the damper opening by the damper plate 27 (FIG. 1) decreases. Further, due to excitation of the B-zone stator coil 45B, the damper opening by the damper plate 27 increases and the rotor 44 rotates so that the damper opening by the damper plate 26 decreases.
[0039]
The potentiometer 42 is installed on the rotation shaft 38 of the damper plates 26 and 27, and measures the damper opening by the damper plates 26 and 27 driven by the damper motor 28 as a voltage value. In the present embodiment, the measured voltage value is referred to as a damper opening actual measurement value, and is output to the control device 39 via the buffer 48.
[0040]
When the air-conditioning remote controller 29 or 30 transmits an A-zone side ON signal to the control device 39, the control device 39 excites the relay coil 46 of the A-zone relay 43A and the relay contact of the A-zone relay 43A. 47 is turned ON, and the power from the power transformer 40 is supplied to the A-zone stator coil 45 </ b> A of the damper motor 28. Thereby, the damper opening degree by the damper board 26 increases, and the air volume of the air supplied to the air-conditioning zone 24 (A zone) increases. At this time, the remote controller 29 or 30 for air conditioning feeds back the measured value of the damper opening (voltage value) detected by the potentiometer 42 via the control device 39, grasps the current damper opening, and the damper device 15 Feedback control.
[0041]
Further, when the air-conditioning remote controller 29 or 30 transmits a B-zone side ON signal, the control device 39 excites the relay coil 46 of the B-zone relay 43B and turns on the relay contact 47 of the B-zone relay 43B. Then, power from the power transformer 40 is supplied to the B-zone stator coil 45B of the damper motor 28. Thereby, the damper opening degree by the damper board 27 increases, and the air volume of the air supplied to the air-conditioning zone 25 (B zone) increases. At this time, the remote controller 29 or 30 for air conditioning feeds back the measured value of the damper opening (voltage value) detected by the potentiometer 42 via the control device 39, grasps the current damper opening, and the damper device 15 Feedback control.
[0042]
When the air conditioner remote controller 29 or 30 controls the damper device 15 as described above, when the air conditioner 10 including the air conditioner remote controllers 29 and 30 is turned on, the damper set opening degree shown in FIGS. Positioning control is executed, and then normal damper control shown in FIGS. 6 to 8 for positioning the damper opening at the damper setting opening is executed. The positioning control of the damper set opening is executed individually with both the air conditioning remote controllers 29 and 30 serving as the main remote controller. Further, the normal damper control is executed only by the air conditioning remote controller 29 or 30 which is the main remote controller.
[0043]
Here, the positioning control of the damper set opening is performed by opening the damper measured by the potentiometer 42 when the damper opening is fully opened to the air conditioning zone 24 (A zone) that supplies air only to the air conditioning zone 24 (A zone). The difference between the actually measured value and the damper opening measured value measured by the potentiometer 42 when the damper opening is fully opened to the air conditioning zone 25 (B zone) that supplies air only to the air conditioning zone 25 (B zone). This is control for equally dividing (e.g., equally dividing 10) and calculating the positions of the plurality of damper setting openings (positions indicated by the voltage values of the potentiometer 42) using the equally divided values. Each of the plurality of damper set opening amounts is plural at equal intervals between the damper opening fully opened position toward the air conditioning zone 24 (A zone) and the damper opening fully opened position toward the air conditioning zone 25 (B zone). For example, it is a set value of 11 damper openings.
[0044]
On the other hand, in the normal damper control, the current damper opening of the damper device 15 is grasped (tracked) by the actual measured damper opening by the potentiometer 42, and this measured damper opening is the target damper set opening. The damper motor 28 is operated so as to coincide with the position (the position indicated by the voltage value of the potentiometer 42 and determined by the positioning control of the damper setting opening), and the damper opening is positioned at the target damper setting opening. Control.
[0045]
First, the positioning control of the damper set opening will be described with reference to FIGS.
[0046]
The air conditioning remote controllers 29 and 30 send an A zone side ON signal to the control device 39 of the indoor unit 12 to supply air only to the air conditioning zone 24 (A zone), to the air conditioning zone 24 (A zone) side. The damper motor 28 is rotated to fully open the damper opening (S1). The air conditioning remote controllers 29 and 30 rotate the damper motor 28 until the damper opening degree toward the air conditioning zone 24 (A zone) is fully opened, and wait for a certain time (S2).
[0047]
The air conditioning remote controllers 29 and 30 request the actual measured damper opening measured by the potentiometer 42 when the damper opening to the air conditioning zone 24 (A zone) is fully opened to the control device 39 of the indoor unit 12. And after reading by communication (S3), this damper opening actual value is memorize | stored as A fully open position (S4). One of the air-conditioning remote controllers 29 or 30 waits until the other executes step S4 and stores the A fully opened position (S5).
[0048]
Next, the air conditioning remote controllers 29 and 30 send the B zone side ON signal to the control device 39 of the indoor unit 12 to supply air only to the air conditioning zone 25 (B zone). The damper motor 28 is rotated so as to fully open the damper opening toward the) side (S6). The air conditioning remote controllers 29 and 30 rotate the damper motor 28 until the damper opening toward the air conditioning zone 25 (B zone) is fully opened, and wait for a certain time (S7).
[0049]
The air conditioning remote controllers 29 and 30 request the actual measured damper opening measured by the potentiometer 42 when the damper opening toward the air conditioning zone 25 (B zone) is fully opened to the control device 39 of the indoor unit 12. And after reading by communication (S8), this damper opening actual value is memorize | stored as B full open position (S9). One of the air conditioning remote controllers 29 or 30 waits until the other executes step S9 and stores the B fully open position (S10).
[0050]
Thereafter, the air conditioner remote controllers 29 and 30 are equally spaced between the damper opening fully opened position toward the air conditioning zone 24 (A zone) and the damper opening fully opened position toward the air conditioning zone 25 (B zone). For example, the step width X of each of the 11 damper setting openings (0th step to 10th step) is calculated by the following equation (S11).
[0051]
Step width X = (B full open position−A full open position) / 10
The air conditioner remote controllers 29 and 30 calculate the position of the voltage value display by the potentiometer 42 for each damper set opening from the 0th step to the 10th step using the step width X by the following equation (S12). .
[0052]
N-th damper set opening = A fully open position + n × X
However, n is a natural number from 0 and 1 to 10 (n = 0, 1, 2,..., 9, 10). In this manner, the air conditioning remote controller 29 and the air conditioning remote controller 30 complete the positioning control of each damper opening degree independently.
[0053]
Next, normal damper control will be described with reference to the flowcharts of FIGS.
[0054]
As shown in FIG. 6, the air conditioning remote controller 29 or 30 serving as the main remote controller stores the damper setting opening of the damper device 15 set by operating the air volume balance setting key 33 or 34 (S21).
[0055]
The storage of the damper set opening is executed according to the procedure shown in FIG. The air conditioning remote controller 29 or 30 first determines whether or not the air volume balance setting key 33 on the air conditioning zone 24 (A zone) side is pressed (ON) (S31), and the air volume balance setting key 33 is pressed. In this case, the damper set opening set in the air conditioning remote controller 29 or 30 is decreased and stored by one step for each operation of the air volume balance setting key 33 (S32). For example, if the current air conditioner remote controller 29 or 30 is the fifth damper set opening degree, the air conditioner remote controller 29 or 30 changes to the fourth damper set opening degree by one press operation of the air volume balance setting key 33 and stores it.
[0056]
When the air volume balance setting key 33 is not operated, the air conditioning remote controller 29 or 30 determines whether or not the air volume balance setting key 34 on the air conditioning zone 25 (B zone) side is operated (S33). When the air volume balance setting key 34 is pressed, the damper setting opening set in the air conditioning remote controller 29 or 30 is increased and stored by one step for each operation of the air volume balance setting key 34 ( S34). For example, if the current air conditioner remote controller 29 or 30 is the fifth damper set opening degree, the air conditioner remote controller 29 or 30 changes to the sixth damper set opening degree by one press operation of the air volume balance setting key 34 and stores it.
[0057]
The air-conditioning remote controller 29 or 30 maintains the current damper setting opening when the air volume balance setting key 33 is not operated in step S31 and the air volume balance setting key 34 is not operated in step S33.
[0058]
After executing step S21 (FIG. 6) including the above-described steps S31 to S34, the air conditioner remote controller 29 or 30 determines the current damper opening in the damper device 15 based on the measured value of the potentiometer 42. The measured value is taken in and stored (S22).
[0059]
The actual measured damper opening value of the damper opening is executed according to the procedure shown in FIG. The air conditioning remote controller 29 or 30 reads the damper opening actual measurement value by the potentiometer 42 from the potentiometer 42 via the control device 39 of the indoor unit 12 at regular time intervals. First, the constant time interval (interval time) elapses. It is determined whether or not (S41).
[0060]
The interval time is set to an extremely short time (for example, several seconds) during the operation of the damper motor 28 in the damper device 15.
[0061]
When the interval time elapses, the air conditioning remote controller 29 or 30 gives the actual damper opening measured value (voltage value by the potentiometer 42) of the damper apparatus 15 to the control device 39 of the indoor unit 12. A request command to be requested is transmitted (S42). The remote controller 29 or 30 for air conditioning takes in the reply data from the control device 39 of the indoor unit 12 after a predetermined waiting time has elapsed after transmitting the request command (S43), and opens the damper at the current damper opening degree. The actual measured value is stored (S44).
[0062]
After executing step S22 (FIG. 6) including the above-described steps S41 to S44, the air conditioning remote controller 29 or 30 determines the actual damper opening actual value (by potentiometer 42) obtained in step S22. It is determined whether or not (voltage value) matches the position of the target damper set opening obtained in step S21 (position of voltage value display by potentiometer 42) (S23). The remote controller 29 or 30 for air conditioning does not execute any processing when they match.
[0063]
If they do not match in step S23, the air conditioning remote controller 29 or 30 determines whether or not the actual damper opening actual value of the damper opening is smaller than the target damper setting opening position. Is determined (S24). When the actual measured value of the damper opening of the damper opening is smaller than the position of the target damper setting opening, the damper opening by the damper plate 27 of the damper device 15 is increased as shown in FIG. Since it is necessary to rotate the damper motor 28 in the direction, the air conditioning remote controller 29 or 30 transmits a B zone side ON signal to the control device 39 of the indoor unit 12 (S25), and the current damper opening is Match the target damper setting opening.
[0064]
After steps S23 and S24, it is determined whether or not the actual damper opening actual value of the damper opening is larger than the target damper setting opening (S26). When the actual measured value of the damper opening of the damper opening is larger than the position of the target damper setting opening, the damper opening by the damper plate 26 of the damper device 15 is increased as shown in FIG. Since it is necessary to rotate the damper motor 28 in the direction, the air conditioning remote controller 29 or 30 sends an A-zone side ON signal to the control device 39 of the indoor unit 12 (S27), and the current damper opening is Match the target damper setting opening.
[0065]
In this way, the current damper opening is controlled to the target damper setting opening by the normal damper control executed by the air conditioning remote controller 29 or 30 that has become the main remote controller.
[0066]
With the configuration as described above, the following effects (1) and (2) are achieved according to the above embodiment.
[0067]
(1) The outdoor unit 11 and the indoor unit 12 are controlled only by the air conditioning remote controller 29 or 30 which is selected and becomes the main remote controller, and the damper device 15 is also controlled by the air conditioning remote controller 29 or 30. As a result, the damper-specific remote controller that controls the damper device 15 can be eliminated, and the cost can be reduced.
[0068]
(2) When the remote controllers 29 and 30 for air conditioning have the damper opening measured by the potentiometer 42 when the damper opening is fully opened to the air conditioning zone 24 (A zone), the damper opening to the air conditioning zone 25 (B zone) is opened. Based on the actual measured value of the damper opening by the potentiometer 42 when fully opened, the position of each damper set opening (the position of the voltage value display by the potentiometer 42) is calculated and the positioning control is executed. Therefore, even when the damper device 15 is changed to a plurality of different damper devices 15, the position of each damper set opening can be accurately calculated.
[0069]
As mentioned above, although this invention was demonstrated based on the said embodiment, this invention is not limited to this.
[0070]
For example, in the above embodiment, the case where there are two air-conditioning zones (air-conditioning zones 24 and 25) has been described. Good.
[0071]
【The invention's effect】
As described above, according to the air conditioner according to the present invention, it is possible to reduce the cost by eliminating the damper-specific remote controller that controls the damper device that adjusts the air volume balance of the air supplied to each of the plurality of air conditioning zones. .
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing an embodiment of an air conditioner according to the present invention.
FIG. 2 is a front view showing the air conditioning remote controller of FIG. 1;
FIG. 3 is a block diagram showing a damper control system that controls the damper device of FIG. 1;
4 is a flowchart showing a part of damper positioning opening position control executed by the air conditioning remote controller of FIG. 1; FIG.
FIG. 5 is a flowchart showing the remaining part of the position setting control of the damper opening degree executed by the air conditioning remote controller of FIG. 1;
6 is a flowchart showing a main routine of normal damper control executed by the air conditioning remote controller of FIG. 1 for positioning the damper opening at the damper set opening. FIG.
FIG. 7 is a flowchart of a subroutine of FIG. 6 showing a setting process of a damper setting opening degree by key operation of the air conditioning remote controller.
FIG. 8 is a flowchart of a subroutine of FIG. 6 showing a process of reading a measured damper opening value executed by the air conditioning remote controller.
FIG. 9 is a diagram showing a relationship between a target damper setting opening and a current damper opening actual value of the damper opening.
FIG. 10 is a diagram showing a relationship between a target damper setting opening and a current damper opening actual value of the damper opening.
FIG. 11 is a configuration diagram showing a conventional air conditioner.
[Explanation of symbols]
10 Air conditioner
12 Indoor units
15 Damper device
24, 25 Air-conditioning zone
26, 27 Damper plate
28 Damper motor
29, 30 Remote controller for air conditioning
33, 34 Air volume balance setting key (Damper opening setting key)
38 Rotating shaft
42 Potentiometer

Claims (5)

In the air conditioner in which the damper device installed in the indoor unit is air conditioned by the indoor unit and can adjust the air volume balance of the air supplied to each of the plurality of air conditioning zones.
The damper device includes a damper opening / closing mechanism that adjusts the opening degree of the damper plate, and an opening degree detection unit that detects the opening degree of the damper,
In response to the operation of the remote controller for air-conditioning to control the indoor unit, the opening degree when by controlling the damper device, the damper opening into one of the air conditioning zone side by the damper opening and closing mechanism is a full open based on the damper opening measured value detected by the detection unit, and the damper opening degree measured value detected by the opening detection portion when the damper opening to the other air conditioning zone side is fully opened, the one and Control means for carrying out positioning control for calculating the position of each of a plurality of damper setting opening set between the damper opening fully opened position to the other air conditioning zone side ,
The control means performs the positioning control when an operation of turning on the power to the air conditioner is performed by the remote controller for air conditioning.
An air conditioner characterized by. The remote controller for air conditioning includes a setting key for setting a damper opening corresponding to each air conditioning zone,
The control means sets the damper opening of the damper device to the target damper setting opening set by the setting key based on the measured damper opening based on the operation of the setting key in the air conditioning remote controller . The air conditioner according to claim 1 , wherein the air conditioner is configured to control the damper device so as to be positioned. The opening degree detecting unit, an air conditioning apparatus according to claim 1 or 2, characterized in that a potentiometer provided on the rotary shaft of the damper plate which the damper opening and closing mechanism has. The air conditioning remote controller is a master-slave remote controller in which the indoor unit is controlled only by the selected main remote controller,
The air according to any one of claims 1 to 3, wherein the control means is configured to perform positioning control of a damper set opening degree in accordance with operations of a main remote controller and a slave remote controller. Harmony device. The air conditioning remote controller is a master-slave remote controller in which the indoor unit is controlled only by the selected main remote controller,
The control means, in response to the operation of the main remote controller, one of claims 1, characterized in that it is configured to control to position the damper opening degree of the damper device to the damper set opening a target 3 air conditioning apparatus according to any.

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