JP3567860B2 - Humidifier and air conditioner using the same - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a humidifying device for supplying humidified air to a room and an air conditioner using the same.
[0002]
2. Description of the Related Art
Conventionally, as a humidification device, a humidification rotor, a humidification fan provided in a humidification passage passing through the humidification rotor, a humidification fan provided in a humidification passage passing through the humidification rotor, and a constant rotation speed And a heater provided on the humidification passage upstream of the humidification rotor. In this humidification device, after moisture is adsorbed from the outside air to the humidification rotor outside the room, moisture is desorbed from the humidification rotor and humidified air is supplied to the room through a humidification hose. By doing so, it is possible to improve the comfort by adjusting the humidity in the room that tends to dry in winter.
[0003]
However, in the humidifying device, since the rotation speed of the humidifying rotor is constant, there is a problem that the adsorption / desorption capacity of the humidifying rotor changes due to a change in the outside air humidity or the outside air temperature, and an optimum humidifying operation cannot be performed.
[0004]
In addition, the applicant has proposed a humidifying device that alternately repeats a humidifying operation of blowing humidified air into a room through a humidifying hose and a drying operation of blowing dry air into a humidifying hose. In this humidifier, it is possible to prevent the dew condensation in the humidifier hose at low cost (note that this humidifier is described in order to facilitate understanding of the present invention, and is not a known technique, Not a prior art). However, in the humidifying device that alternately performs the humidifying operation and the drying operation, the drying operation is controlled regardless of the outside air temperature and the outside air humidity, and even though the dew condensation hardly occurs inside the humidifying hose when the outside air temperature is high or low. Since the drying operation is performed without drying, there is a problem that the humidification operation time is shortened, the humidification amount is insufficient, and the comfort is impaired.
[0005]
Therefore, an object of the present invention is to provide a humidifying device capable of performing an optimal humidifying operation, eliminating a humidifying amount shortage and improving indoor comfort, and an air conditioner using the same.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a humidifying device according to claim 1 includes a humidifying rotor, a humidifying fan provided in a humidifying passage passing through the humidifying rotor, and a humidifying fan provided in a humidifying passage passing through the humidifying rotor. A humidifying device comprising: a humidifying rotor motor that drives the humidifying rotor; and a heater provided upstream of the humidifying rotor in the humidifying passage.A humidifying hose that conveys the humidified air from the humidifying passage into the room, and an outside air temperature. , Length of above humidification hose , Air volume of the above humidifying fan , Heater input above , Based on at least one of the temperature of the blowing air on the outlet side of the humidifying hose and the humidity of the blowing air on the outlet side of the humidifying hose, the humidified air having a humidity at which the inside of the humidifying hose does not condense through the humidifying hose. As supplied toThe humidifying rotor is provided with control means for controlling the number of revolutions of the motor.
[0007]
According to the humidifying device of the first aspect, the outside air is passed through the region of the humidifying rotor, which is rotated by the humidifying rotor motor, facing the moisture absorbing passage, by the moisture absorbing fan provided in the moisture absorbing passage, and the humidifying rotor absorbs moisture. Moisture is adsorbed from the outside air in a region facing the passage. The area facing the humidification passage of the humidification rotor rotated by the humidification rotor motor (the area where moisture has been adsorbed) faces the humidification passage in order with the rotation of the humidification rotor, and With the provided humidifying fan, the air heated by the heater is passed through the area of the humidifying rotor facing the humidifying passage, and moisture is desorbed from the humidifying rotor to humidify the air. In this way, suction and desorption are repeated with the rotation of the humidification rotor, and humidified air is supplied to the room. At this time, if the rotation speed of the humidification rotor is high, the amount of moisture adsorbed and desorbed increases, and the humidity of the humidified air increases.If the rotation speed of the humidification rotor is slow, the amount of moisture adsorbed and desorbed decreases, and the humidity of the humidified air decreases. Is lower,Outside air temperature , Length of above humidification hose , Air volume of the above humidifying fan , Heater input above , At least one of the temperature of the outlet air of the humidifying hose and the humidity of the outlet air of the humidifying hose.Based on, by controlling the humidification rotor motor by the control means,The humidifying hose is supplied to the room through the humidifying hose so that the humidified air does not dew inside the humidifying hose.By setting the humidification rotor to an appropriate rotation speed,While preventing condensation inside the humidifying hoseIt is possible to optimize the humidity of the humidified air. Therefore, an optimal humidification operation can be performed, and the humidification amount shortage can be resolved and the indoor comfort can be improved.
The humidifying device according to claim 2 is the humidifying device according to claim 1, wherein the control unit is configured to determine a length of the humidifying hose. , Air volume of the above humidifying fan , Heater input above , The rotation speed of the humidification rotor motor is controlled based on at least one of the temperature of the blown air on the outlet side of the humidifying hose or the humidity of the blown air on the outlet side of the humidifying hose and the outside air temperature. .
According to a third aspect of the present invention, in the humidifying apparatus according to the first aspect, the control unit controls the humidifying rotor based on at least two of a length of the humidifying hose and an air volume of the humidifying fan or an input of the heater. It is characterized in that the number of rotations of the motor for use is controlled.
[0008]
Claims4The humidifier of claim 1Or 2The humidifying device further includes an outside air temperature sensor that detects an outside air temperature, and the control unit controls the humidification rotor so that the lower the outside air temperature detected by the outside air temperature sensor, the lower the rotation speed of the humidification rotor. It is characterized by controlling the motor.
[0009]
Claims above4According to the humidification device, the lower the outside air temperature detected by the outside air temperature sensor, the higher the humidity (relative humidity) of the air humidified by the humidification rotor, so that the rotation speed of the humidification rotor is reduced. By controlling the humidification rotor motor by the control means, the humidity of the humidification air blown out from the humidification passage can be reduced, and the humidification air having an appropriate humidity according to the outside air temperature can be supplied. Further, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0010]
[0011]
[0012]
Claims5The humidifier of claim 1Any one of to 4Humidification equipment,When the control means controls the number of rotations of the humidification rotor motor based on the length of the humidification hose,A humidifying hose that conveys humidified air from the humidifying passage into the room, wherein the control unit controls the humidifying rotor motor such that the longer the humidifying hose is, the lower the rotation speed of the humidifying rotor is. Features.
[0013]
Claims above5According to the humidification device, the longer the humidification hose that conveys the humidification air from the humidification passage into the room, the lower the temperature of the humidification air when passing through the humidification hose, Since the humidity (relative humidity) increases, the control unit controls the humidification rotor motor so that the rotation speed of the humidification rotor is reduced, thereby lowering the humidity of the humidification air blown out from the humidification passage and increasing the humidification hose length. Humidified air having an appropriate humidity according to the temperature can be supplied. Also, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in the humidified hose that conveys the humidified air from the humidification passage into the room.
[0014]
Claims6The humidifier of claim 1Any one of to 5Humidification equipment,When the control means controls the rotation speed of the humidification rotor motor based on the air volume of the humidification fan,The control means controls the humidification rotor motor such that the rotation speed of the humidification rotor decreases as the air volume of the humidification fan decreases.
[0015]
Claims above6According to the humidifying device, the humidity (relative humidity) of the air humidified by the humidifying rotor increases as the air volume of the humidifying fan decreases, so that the control unit controls the humidification so that the rotation speed of the humidifying rotor decreases. By controlling the rotor motor, the humidity of the humidified air blown out from the humidification passage can be reduced, and the humidified air having an appropriate humidity according to the air volume of the humidification fan can be supplied. Further, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0016]
Claims7The humidifier of claim 1Any one of to 6Humidification equipment,When the control means controls the rotation speed of the humidification rotor motor based on the input of the heater,The control means controls the humidifying rotor motor such that the smaller the input of the heater, the lower the rotational speed of the humidifying rotor.
[0017]
Claims above7According to the humidifying device, the smaller the input of the heater, the lower the temperature of the air passing through the humidifying rotor, and the higher the humidity (relative humidity) of the air humidified by the humidifying rotor. By controlling the motor for the humidification rotor by the control means so as to delay the humidification, the humidity of the humidification air blown out from the humidification passage can be reduced, and the humidification air having an appropriate humidity according to the input of the heater can be supplied. Further, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0018]
Claims8The humidifier of claim 1Any one of to 7Humidification equipment,UpAn outlet temperature sensor that detects the temperature of the air blown out from the outlet of the humidifying hoseSaPrepare,When the control means controls the number of rotations of the humidifying rotor motor based on the temperature of the outlet air blown out of the humidifying hose detected by the outlet temperature sensor,The control means controls the humidification rotor motor such that the lower the temperature of the outlet air of the humidification hose detected by the outlet temperature sensor is, the lower the rotation speed of the humidification rotor is. Features.
[0019]
Claims above8According to the humidifying device, the humidity (relative humidity) of the air humidified by the humidifying rotor increases as the temperature of the air blown out on the outlet side of the humidifying hose detected by the outlet-side temperature sensor decreases. By controlling the motor for the humidification rotor by the control means so that the rotation speed of the humidification rotor is reduced, the humidity of the humidification air blown out from the humidification passage is reduced, and an appropriate temperature corresponding to the temperature of the air blown out on the outlet side of the humidification hose is reduced. Humidified air of humidity can be supplied. Further, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0020]
Claims9The humidifier of claim 1Any one of to 8Humidification equipment,UpAn outlet humidity sensor that detects the humidity of the air blown from the outlet of the humidifying hose.SaPrepare,When the control means controls the number of revolutions of the motor for the humidifying rotor based on the humidity of the outlet air of the humidifying hose detected by the outlet-side humidity sensor,The control means controls the humidifying rotor motor such that the higher the humidity of the outlet air of the humidifying hose detected by the outlet-side humidity sensor is, the lower the rotation speed of the humidifying rotor is. Features.
[0021]
Claims above9According to the humidifying device, as the humidity of the outlet air at the outlet of the humidifying hose detected by the outlet-side temperature sensor increases, the control unit controls the humidifying rotor motor so that the rotation speed of the humidifying rotor decreases. By controlling, the humidity of the humidified air blown out from the humidification passage can be reduced, and the humidified air having an appropriate humidity according to the humidity of the blown air at the outlet side of the humidification hose can be supplied. Further, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0022]
Claims10The air conditioner of claims 1 to9Characterized in that any one of the humidifiers is used.
[0023]
Claims above10According to the air conditioner of the above, more comfortable heating can be provided by effectively humidifying the room by the humidifier during the heating operation in which the room is easily dried.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a humidifier according to the present invention and an air conditioner using the same will be described in detail with reference to the illustrated embodiments.
[0025]
FIG. 1 is a schematic block diagram of an air conditioner using a humidifier according to a first embodiment of the present invention, wherein 1 is an indoor unit, 2 is an outdoor unit, and 3 is a humidifier disposed above the outdoor unit 2. Reference numeral 4 denotes a humidifying hose 4 for connecting the indoor unit 1 and the humidifying device 3. An air conditioner using this humidifier is provided with a humidifier 3 through a humidifier hose 4.InsideHumidifying air is supplied to the unit 1 to humidify the room.
[0026]
FIG. 2 is a block diagram of a main part of an air conditioner using the humidifier 3 shown in FIG. 1. The humidifier 3 includes a disc-shaped humidifier rotor 11 in a casing (not shown). Are placed. The humidifying rotor 11 is formed of an adsorbent such as silica gel, zeolite, alumina or the like into, for example, a honeycomb shape or a multi-porous shape, and is rotated by a humidifying rotor motor 12 about a shaft 11a. Further, the inside of the casing is partitioned by a partition plate (not shown) to form a moisture absorption passage A and a humidification passage B passing through each part of the humidification rotor 11.
[0027]
A moisture absorption fan 13 is provided downstream of the humidification rotor 11 in the moisture absorption passage A, and a moisture absorption fan motor 14 for driving the moisture absorption fan 13 is provided. The humidification rotor 11 absorbs moisture (adsorbs moisture) from the air flowing through the moisture absorption passage A in the direction of the arrow.
[0028]
On the other hand, a humidification fan 15 is provided downstream of the humidification rotor 11 in the humidification passage B, and a humidification fan motor 16 for driving the humidification fan 15 is provided so that air is sucked and flown as shown by an arrow. ing. A heater 17 is provided in a portion of the humidification passage B upstream of the humidification rotor 11, and the air heated by the heater 17 is humidified by the humidification rotor 11 when passing through the humidification rotor 11 (from the humidification rotor 11). Desorb water). As described above, the moisture adsorbed by the humidifying rotor 11 from the air in the moisture absorbing passage A is desorbed by the air heated by the heater 17, and the air is humidified. The humidified air is sent to the humidification hose 4 by the humidification fan 15.
[0029]
In FIG. 2, reference numeral 21 denotes an outlet-side humidity sensor which is disposed near the outlet 4 a of the humidifying hose 4 of the indoor unit main body 5 and detects the humidity (relative humidity) of the blown air on the outlet side of the humidifying hose 4. An outlet-side temperature sensor 23 is disposed near the outlet 4a and detects the temperature of the blown air on the outlet side of the humidifying hose 4, and is disposed near the downstream side of the humidifying fan 15 of the humidifying hose 4. An inlet-side temperature sensor for detecting the temperature of the outlet-side blown air, an outside-air temperature sensor 24 for detecting the outside-air temperature, and an outside-air humidity sensor 25 for detecting the outside-air humidity. An indoor control unit 31 receives signals from the outlet-side humidity sensor 21 and the outlet-side temperature sensor 22 and controls an indoor fan (not shown) and the like. 32 is an inlet-side temperature sensor 23 and an outside air temperature sensor. An outdoor control unit 33 that receives a signal from the outside air humidity sensor 25 and controls a compressor (not shown) and the like, and 33 receives a signal from the outdoor control unit 32 and controls a humidifying operation. Is a humidification operation control unit. The humidification operation control unit 23 controls the humidification rotor motor 12, the humidification fan motor 14, the humidification fan motor 16 and the heater 17.
[0030]
FIG. 3 shows the rotation speed (rpm) of the humidification rotor 11 and the humidification hose 4 when the outside air temperature, the outside air humidity, the air volume of the humidification fan 13, the air volume of the humidification fan 15 and the input of the heater 17 are constant. FIG. 4 is a diagram showing the relationship between the outlet humidity (RH%) and the relationship between the rotation speed (rpm) of the humidification rotor 11 and the humidification capacity (g / h). As shown in FIG. 3, as the rotation speed of the humidification rotor 11 increases, the humidity of the humidified air increases, and the humidification capacity increases. On the other hand, as the rotation speed of the humidification rotor 11 decreases, the humidity of the humidification air decreases. The humidification capacity is reduced.
[0031]
In the humidifying device 3 having the above configuration, the humidifying operation control unit 33 determines the outside air temperature, the outside air humidity, the length of the humidifying hose 4, the air volume of the humidifying fan 15, the input of the heater 17, and the temperature of the outlet air of the humidifying hose 4. And controlling the rotation speed of the humidification rotor 11 by controlling the humidification rotor motor 12 based on one of the humidity of the blown air on the outlet side of the humidification hose 4 and the dew condensation inside the humidification hose 4. Do humidification operation at the optimal point.
[0032]
Below, the outside air temperature, the outside air humidity, the length of the humidifying hose 4, the air volume of the humidifying fan 15, the input of the heater 17, the temperature of the outlet air of the humidifying hose 4 and the humidity of the outlet air of the humidifying hose 4 The processing for controlling the rotation speed of the humidifying rotor 11 based on each of the above will be described in the following (1) to (7).
[0033]
(1) The humidification operation control unit 33 controls the humidification rotor motor 12 so that the rotation speed of the humidification rotor 11 decreases as the outside air temperature detected by the outside air temperature sensor 24 decreases. It is possible to supply humidified air having an optimum humidity such that the humidity is not dew condensation and the humidification ability is the highest. Also, the humidity (relative humidity) of the air fed into the humidifying hose 4 increases as the outside air temperature decreases, and the inside of the humidifying hose 4 is easily condensed. Reduce the rotation speed.
[0034]
(2) By controlling the humidification rotor motor 12 by the humidification operation control unit 33 so that the rotation speed of the humidification rotor 11 decreases as the outside air humidity detected by the outside air humidity sensor 2 increases, the humidification hose 4 It is possible to supply humidified air having an optimum humidity such that the humidity is not dew condensation and the humidification ability is the highest. Further, the higher the outside air humidity, the higher the humidifying capacity and the higher the humidity of the air sent to the humidifying hose 4, and the more easily the dew condensation occurs in the humidifying hose 4. Slow down the rotation speed.
[0035]
(3) By controlling the humidification rotor motor 12 by the humidification operation control unit 33 so that the rotation speed of the humidification rotor 11 decreases as the humidification hose 4 becomes longer, the humidification hose 4 is humidified at a humidity that does not cause dew condensation. It is possible to supply humidified air having the optimum humidity so that the capacity is the highest. Also, since the longer the humidifying hose 4 is, the more easily the dew condensation in the humidifying hose 4 occurs, the rotation speed of the humidifying rotor 11 is reduced in order to reduce the humidity of the air sent into the humidifying hose 4.
[0036]
(4) By controlling the humidification rotor motor 12 by the humidification operation control unit 33 so that the rotation speed of the humidification rotor 11 decreases as the air volume of the humidification fan 15 decreases, the humidity in the humidification hose 4 does not condense. Further, it is possible to supply the humidified air having the optimum humidity such that the humidification ability becomes the highest. In addition, the smaller the air volume of the humidifying fan 15, the higher the humidity of the air sent to the humidifying hose 4 and the more easily the dew condensation occurs in the humidifying hose 4. Decrease speed.
[0037]
(5) By controlling the humidifying rotor motor 12 by the humidifying operation control unit 33 so that the rotation speed of the humidifying rotor 11 decreases as the input of the heater 17 decreases, the humidity within the humidifying hose 4 does not dew and It is possible to supply the humidified air having the optimum humidity such that the humidification ability is the highest. In addition, the smaller the input of the heater 17, the higher the humidity of the air sent to the humidifying hose 4 and the more easily the dew condensation occurs in the humidifying hose 4. Slow down.
[0038]
(6) The humidification motor 12 for the humidification rotor is controlled by the humidification operation control unit 33 so that the rotation speed of the humidification rotor 11 decreases as the temperature of the outlet air of the humidification hose 4 detected by the exit temperature sensor 22 decreases. , Humidified air having an optimum humidity such that the inside of the humidifying hose 4 does not cause dew condensation and has the highest humidifying ability can be supplied. Further, the lower the temperature of the air blown out on the outlet side of the humidifying hose 4, the higher the humidity (relative humidity) of the air sent to the humidifying hose 4 and the more easily the dew condensation occurs in the humidifying hose 4. The rotation speed of the humidifying rotor 11 is reduced to reduce the humidity.
[0039]
(7) The humidification rotor motor 12 is controlled by the humidification operation control unit 33 so that the rotation speed of the humidification rotor 11 decreases as the humidity of the outlet air of the humidification hose 4 detected by the exit-side humidity sensor 21 increases. , Humidified air having an optimum humidity such that the inside of the humidifying hose 4 does not cause dew condensation and has the highest humidifying ability can be supplied. Further, since the dew condensation in the humidification hose 4 is more likely to occur as the humidity of the blown air on the outlet side of the humidification hose 4 becomes higher, the rotation speed of the humidification rotor 11 is reduced in order to reduce the humidity of the air sent into the humidification hose 4.
[0040]
In the above (1) to (7), the humidified air having the optimum humidification capacity with the highest humidification capacity was supplied at the humidity where the inside of the humidification hose 4 did not condense. Of course, it may be possible.
[0041]
As described above, the humidifying device 3 is provided with an outside air temperature, an outside air humidity, a length of the humidifying hose 4, an air volume of the humidifying fan 15, an input of the heater 17, an outlet air temperature of the humidifying hose 4, and an outlet of the humidifying hose 4. The humidification operation control unit 33 controls the humidification rotor motor 12 based on any one of the humidity of the side blowing air to control the humidification rotor 11 to an appropriate rotation speed, thereby reducing the dew condensation in the humidification hose. The optimal humidification operation can be performed while preventing the humidification, and the humidification amount shortage can be resolved to improve the indoor comfort.
[0042]
Further, according to the air conditioner using the humidifier, more comfortable heating can be performed by effectively humidifying the room during the heating operation in which the room is easily dried.
[0043]
In the above embodiment, the air conditioner using the humidifier has been described. However, the humidifier of the present invention may be used for another heating device, or the present invention is applied to a humidifier used alone. May be.
[0044]
Further, in the above embodiment, the outside air temperature, the outside air humidity, the length of the humidifying hose 4, the air volume of the humidifying fan 15, the input of the heater 17, the temperature of the outlet air of the humidifying hose 4 and the outlet of the humidifying hose 4. The rotation speed of the humidification rotor 11 was controlled by controlling the humidification rotor motor 12 based on any one of the air humidity, but the outside air temperature, the outside air humidity, the length of the humidification hose 4, the moisture absorption fan, The humidifying rotor is controlled by controlling the motor for the humidifying rotor based on at least two of the air volume of the humidifying hose 4, the input of the heater 17, the temperature of the outlet air of the humidifying hose 4, and the humidity of the outlet air of the humidifying hose 4. May be controlled.
[0045]
【The invention's effect】
As is clear from the above, the humidifying device according to the first aspect of the present invention includes a humidifying rotor, a humidifying fan provided in a humidifying passage passing through the humidifying rotor, and a humidifying fan provided in a humidifying passage passing through the humidifying rotor. A humidifying device including a fan, a humidifying rotor motor that drives the humidifying rotor, and a heater provided on the humidifying passage upstream of the humidifying rotor;A humidifying hose that conveys the humidified air from the humidifying passage into the room, and an outside air temperature. , Length of above humidification hose , Air volume of the above humidifying fan , Heater input above , Based on at least one of the temperature of the blowing air on the outlet side of the humidifying hose and the humidity of the blowing air on the outlet side of the humidifying hose, the humidified air having a humidity at which the inside of the humidifying hose does not condense through the humidifying hose. As supplied toIt is provided with a control means for controlling the rotation speed of the humidifying rotor motor.
[0046]
Therefore, according to the humidifying device of the first aspect of the present invention, the control unit controls the humidifying rotor motor to set the humidifying rotor to an appropriate rotation speed,Prevent condensation inside the humidifying hoseBy optimizing the humidity of the humidified air,While preventing condensation inside the humidifying hoseOptimum humidification operation can be performed, and the humidification amount shortage can be resolved and indoor comfort can be improved.
[0047]
Claims4The humidifying device of the invention of claim 1 isOr 2In the humidifying device, as the outside air temperature detected by detecting the outside air temperature decreases, the control unit controls the humidification rotor motor so that the rotation speed of the humidification rotor becomes slow. By lowering the humidity of the humidified air blown out from the humidifying passage when the relative humidity increases, it is possible to supply humidified air having an appropriate humidity according to the outside air temperature, and by optimally controlling the humidity of the humidified air, It is possible to prevent dew condensation in a passage such as a humidifying hose that conveys humidified air from the humidifying passage into the room.
[0048]
[0049]
Claims5The humidifying device of the invention of claim 1 isAny one of to 4In the humidifier, the control unit controls the humidifying rotor motor so that the longer the humidifying hose that conveys the humidified air from the humidifying passage into the room, the lower the rotational speed of the humidifying rotor. The humidity of the humidified air blown out from the humidifying passage when the inside of the humidifying hose is prone to dew condensation is long, and the humidified air of the appropriate humidity according to the length of the humidified hose can be supplied, and the humidity of the humidified air is optimally controlled. By doing so, dew condensation in the humidification hose that conveys the humidification air from the humidification passage into the room can be prevented.
[0050]
Claims6The humidifying device of the invention of claim 1 isAny one of to 5In the humidifying device, since the motor for the humidifying rotor is controlled by the control means so that the rotation speed of the humidifying rotor is reduced as the air volume of the humidifying fan decreases, the humidifying fan air volume is reduced and the humidified air humidity (relative humidity ) Becomes high, the humidity of the humidified air blown out from the humidification passage is lowered, and the humidified air having an appropriate humidity according to the air volume of the humidifying fan can be supplied, and the humidity of the humidified air is optimally controlled, It is possible to prevent dew condensation in a passage such as a humidifying hose that conveys humidified air from the humidifying passage into the room.
[0051]
Claims7The humidifying device of the invention of claim 1 isAny one of to 6In the humidifying device, as the input of the heater decreases, the control unit controls the humidifying rotor motor so that the rotation speed of the humidifying rotor decreases, so that the input of the heater is small and the humidity of the humidified air (relative humidity). The humidity of the humidified air blown out from the humidifying passage is reduced when the humidifying air becomes high, the humidified air having an appropriate humidity according to the input of the heater can be supplied, and the humidity of the humidified air is controlled optimally. Dew condensation in a passage such as a humidifying hose that conveys humidified air from the room to a room can be prevented.
[0052]
Claims8The humidifying device of the invention of claim 1 isAny one of to 7Humidification equipment,UpAn outlet temperature sensor that detects the temperature of the air blown out from the outlet of the humidifying hoseSaThe control unit controls the humidifying rotor motor such that the lower the temperature of the outlet air of the humidifying hose detected by the outlet-side temperature sensor is, the lower the rotation speed of the humidifying rotor is. When the humidity of the humidified air (relative humidity) becomes high, the humidified air blown out from the humidifying passage is lowered, and humidified air with an appropriate humidity is supplied according to the outlet air temperature. In addition, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0053]
Claims9The humidifying device of the invention of claim 1 isAny one of to 8Humidification equipment,UpAn outlet humidity sensor that detects the humidity of the air blown from the outlet of the humidifying hose.SaThe humidification rotor motor is controlled by the control means so that the rotation speed of the humidification rotor is slowed down as the humidity of the air blown out on the exit side of the humidification hose detected by the exit-side humidity sensor increases. When the humidity (relative humidity) of the humidified air is high, the humidity of the humidified air blown out from the humidifying passage is reduced, and humidified air with the appropriate humidity according to the outlet air humidity at the outlet side is supplied. In addition, by optimally controlling the humidity of the humidified air, it is possible to prevent dew condensation in a passage such as a humidified hose that conveys the humidified air from the humidified passage to the room.
[0054]
Claims10The air conditioner of the invention of the invention is characterized by claims 1 to9Since any one of the humidifiers is used, an air conditioner that can provide more comfortable heating can be realized by effectively humidifying the room with the humidifier during the heating operation in which the room is easily dried. .
[Brief description of the drawings]
FIG. 1 is a schematic block diagram of an air conditioner using a humidifier according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of a main part of an air conditioner using the humidifier.
FIG. 3 is a diagram showing a relationship between a rotation speed of a humidification rotor and an outlet humidity of a humidification hose and a relationship between a rotation speed of the humidification rotor and a humidification ability of the humidification device.
[Explanation of symbols]
1 ... indoor unit, 2 ... outdoor unit,
3 ... humidifying device, 4 ... humidifying hose,
5 ... indoor unit body, 6 ... display unit,
11: Humidifying rotor, 12: Motor for humidifying rotor,
13: a moisture absorption fan, 14: a motor for a moisture absorption fan,
15 ... humidifying fan, 16 ... humidifying fan motor,
17 ... heater, 21 ... outlet side humidity sensor,
22 ... outlet side temperature sensor, 23 ... inlet side temperature sensor,
24 ... outside air temperature sensor, 25 ... outside air humidity sensor,
31 ... indoor control unit, 32 ... outdoor control unit,
33 ... humidification operation control unit.

Claims (10)

A humidification rotor (11), a humidification fan (13) provided in a humidification passage passing through the humidification rotor (11), and a humidification fan (15) provided in a humidification passage passing through the humidification rotor (11). A humidifying device comprising: a humidifying rotor motor (12) for driving the humidifying rotor (11); and a heater (17) provided upstream of the humidifying rotor (11) in the humidifying passage.
A humidifying hose ( 4 ) for conveying humidified air from the humidifying passage into the room ,
Outside air temperature, the humidification hose (4) of the length, the humidifying fan air volume (15), the input of the heater (17), the humidifying hose (4) on the outlet side of the blowoff air temperature or the humidifying hose (4 ) based on at least one humidity air blown on the outlet side of, as humidified air humidity which the humidifying hose (4) within no condensation is supplied to the room through the humidifying hose (4), the A humidifying device comprising a control means (33) for controlling the number of revolutions of a humidifying rotor motor (12). The humidifier according to claim 1,
The above control means ( 33 ) The above humidification hose ( 4 ) Length of , Humidifying fan above ( Fifteen ) Air volume , The above heater ( 17 ) Input , Above humidification hose ( 4 ) The outlet air temperature at the outlet or the above humidifying hose ( 4 ) The humidifying rotor motor based on at least one of the humidity of the blown air on the outlet side of the air and the outside air temperature. ( 12 ) A humidifier characterized by controlling the number of revolutions of the humidifier. The humidifier according to claim 1,
The above control means ( 33 ) The above humidification hose ( 4 ) The length and humidification fan above ( Fifteen ) Air flow or heater above ( 17 ) The humidifying rotor motor based on at least two of the inputs ( 12 ) A humidifier characterized by controlling the number of revolutions of the humidifier. The humidifier according to claim 1 or 2 ,
An outside air temperature sensor (24) for detecting outside air temperature is provided.
The controller (33) controls the humidifying rotor motor (12) such that the lower the outside air temperature detected by the outside air temperature sensor (24) is, the lower the rotation speed of the humidifying rotor (11) is. A humidifying device characterized by that: The humidifier according to any one of claims 1 to 4 ,
When the control means ( 33 ) controls the number of revolutions of the humidification rotor motor ( 12 ) based on the length of the humidification hose ( 4 ) , the control means (33) controls the humidification hose (4) A humidifying device characterized in that the humidifying rotor motor (12) is controlled so that the rotation speed of the humidifying rotor (11) decreases as the length increases. The humidifier according to any one of claims 1 to 5 ,
When the control means ( 33 ) controls the number of revolutions of the humidifying rotor motor ( 12 ) based on the air volume of the humidifying fan ( 15 ) , the control means (33) controls the air volume of the humidifying fan (15). A humidifying device characterized in that the humidifying rotor motor (12) is controlled so that the rotational speed of the humidifying rotor (11) decreases as the value of the humidifying rotor decreases. The humidifier according to any one of claims 1 to 6 ,
When the control means ( 33 ) controls the number of revolutions of the humidifying rotor motor ( 12 ) based on the input of the heater ( 17 ) , the control means (33) reduces the input of the heater (17). A humidifying device, wherein the humidifying rotor motor (12) is controlled so that the rotation speed of the humidifying rotor (11) becomes slower. The humidifier according to any one of claims 1 to 7 ,
An outlet side temperature sensor (22) for detecting the upper SL temperature of air blown on the outlet side of the humidifying hose (4),
The control means ( 33 ) controls the rotation speed of the humidifying rotor motor ( 12 ) based on the temperature of the outlet air of the humidifying hose ( 4 ) detected by the outlet temperature sensor ( 22 ). At this time, the control means (33) increases the rotation speed of the humidification rotor (11) as the temperature of the outlet air of the humidification hose (4) detected by the exit-side temperature sensor (22) decreases. A humidifying device characterized by controlling the humidifying rotor motor (12) so as to be delayed. The humidifier according to any one of claims 1 to 8 ,
An outlet-side humidity sensor (21) for detecting the upper Symbol humidity of the outlet side of the blowing air humidifying hose (4),
The control means ( 33 ) controls the number of rotations of the humidifying rotor motor ( 12 ) based on the humidity of the outlet air of the humidifying hose ( 4 ) detected by the outlet humidity sensor ( 21 ). At this time, the control means (33) increases the rotational speed of the humidifying rotor (11) as the humidity of the outlet air of the humidifying hose (4) detected by the outlet-side humidity sensor (21) increases. A humidifying device characterized by controlling the humidifying rotor motor (12) so as to be delayed. An air conditioner characterized by using a humidifier according to any one of claims 1 to 9.

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