JP3627689B2 - Humidity adjustment device and air conditioner using the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a humidity adjusting device and an air conditioner that perform at least one of a humidifying operation or a dehumidifying operation.
[0002]
[Background Art and Problems to be Solved by the Invention]
Conventionally, there is a humidity adjusting device that adsorbs and desorbs moisture with an adsorption rotor. When the motor that drives the adsorption rotor is locked or the motor that drives the adsorption fan that adsorbs moisture is locked, this temperature adjustment device dries the humidification air on the downstream side of the adsorption / desorption region of the adsorption rotor. Therefore, the temperature sensor determines an increase in the temperature of the humidified air, lowers the output of the heater, or turns off the heater. However, when the relative humidity of the outdoor air decreases, the temperature of the humidified air rises, so the user could not recognize whether it was a mechanical failure or temporary protection due to a decrease in the relative humidity of the outdoor air. . It is only necessary to detect the lock of the motor for rotating the suction rotor and the suction fan. However, if the lock of the motor is recognized by mechanical, optical and electrical means, there is a problem that the cost is high.
[0003]
Therefore, the object of the present invention is to detect the lock of the suction rotor and the suction fan at a low cost without using a dedicated sensor, and to adjust the humidity so that the user can be notified that the suction rotor and the suction fan are locked. An apparatus and an air conditioner using the same are provided.
[0004]
[Means for Solving the Problems]
In order to achieve the above object, a humidity adjusting apparatus according to claim 1 includes an adsorption rotor, an adsorption fan provided in an adsorption passage that passes through the adsorption rotor, and a desorption fan provided in a desorption passage that passes through the adsorption rotor. A humidity adjusting device that performs at least one of a humidifying operation or a dehumidifying operation on the downstream side of the adsorption rotor of the desorption passage. When the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor rises above a predetermined value, the suction rotor or the suction fan rotates. It is characterized by comprising lock detecting means for detecting that it is locked.
[0005]
According to the humidity control apparatus of the first aspect, the outside air is passed through the adsorption rotor by the adsorption fan provided in the adsorption passage, and moisture is adsorbed from the outside air to the region facing the adsorption passage of the adsorption rotor to dehumidify. To do. On the other hand, the outside air heated by the heater is passed through the adsorption rotor by the desorption fan provided in the desorption passage, and the moisture in the region facing the desorption passage of the adsorption rotor is desorbed and humidified. At this time, if the rotation of the suction rotor or suction fan is locked (stopped due to an abnormality), the moisture adsorbed on the suction rotor disappears and no moisture is released, so the relative humidity of the humidified air decreases and humidifies along with it. The temperature of the air rises rapidly (because there is no cooling due to heat of vaporization). Therefore, the temperature at which the humidified air temperature detected by the humidified air temperature sensor is detected by the lock detecting means by detecting the temperature of the humidified air downstream of the adsorption rotor of the desorption passage by the humidified air temperature sensor. When the gradient is greater than or equal to a predetermined value, it is detected that the rotation of the suction rotor or suction fan is locked. Therefore, the lock of the suction rotor and the suction fan can be accurately detected at low cost without using a dedicated sensor.
[0006]
According to a second aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage passing through the adsorption rotor; a desorption fan provided in a desorption passage passing through the adsorption rotor; and the desorption passage. A humidity adjusting device that performs at least one of a humidifying operation or a dehumidifying operation, an outdoor air temperature sensor that detects the temperature of outdoor air, and a desorption passage. A humidified air temperature sensor for detecting the temperature of humidified air downstream of the adsorption rotor, and a temperature difference between the temperature of the outdoor air detected by the outside air temperature sensor and the temperature of the humidified air detected by the humidified air temperature sensor Lock detecting means for detecting that the rotation of the suction rotor or the suction fan is locked when the gradient of the temperature difference when the temperature increases is a predetermined value or more. It is characterized in that was example.
[0007]
According to the humidity adjusting apparatus of the second aspect, the outside air is passed through the adsorption rotor by the adsorption fan provided in the adsorption passage, and moisture is adsorbed from the outside air to the region facing the adsorption passage of the adsorption rotor to dehumidify. To do. On the other hand, the outside air heated by the heater is passed through the adsorption rotor by the desorption fan provided in the desorption passage, and the moisture in the region facing the desorption passage of the adsorption rotor is desorbed and humidified. At this time, if the rotation of the suction rotor or suction fan is locked (stopped due to an abnormality), the moisture adsorbed on the suction rotor disappears and no moisture is released, so the relative humidity of the humidified air decreases and humidifies along with it. Air temperature rises rapidly. Therefore, the outdoor air temperature sensor detects the temperature of the outdoor air, the humidified air temperature sensor detects the temperature of the humidified air on the downstream side of the adsorption rotor of the desorption passage, and the lock detection means detects the temperature of the outdoor air. The rotation of the suction rotor or suction fan is locked when the gradient of the temperature difference when the temperature difference between the temperature of the outdoor air and the temperature of the humidified air detected by the humidified air temperature sensor increases. Is detected. Accordingly, the lock of the suction rotor and the suction fan can be reliably detected at low cost without being affected by the change in the temperature of the outdoor air and without using a dedicated sensor.
[0008]
According to a third aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage passing through the adsorption rotor; a desorption fan provided in a desorption passage passing through the adsorption rotor; and the desorption passage. A humidity adjusting device that performs at least one of a humidifying operation or a dehumidifying operation, an outdoor temperature sensor that detects the temperature of outdoor air, and A dehumidified air temperature sensor that detects the temperature of the dehumidified air downstream of the adsorption rotor, and the temperature of the dehumidified air detected by the dehumidified air temperature sensor is equal to or greater than a certain value from the outdoor air temperature detected by the outside air temperature sensor. And a lock detecting means for detecting that the rotation of the suction rotor or the suction fan is locked when it does not rise.
[0009]
According to the humidity adjusting apparatus of the third aspect, the outside air is passed through the adsorption rotor by the adsorption fan provided in the adsorption passage, and moisture is adsorbed from the outside air to the region facing the adsorption passage of the adsorption rotor to dehumidify. To do. At this time, when the rotation of the suction rotor or the suction fan is locked (stopped due to an abnormality), there is no heat loss from the suction rotor to the suction passage, so that the temperature of the air in the suction passage does not increase. Therefore, the temperature of the dehumidified air is detected by the dehumidified air temperature sensor, and the temperature of the dehumidified air detected by the dehumidified air temperature sensor is detected by the lock detecting means from the temperature of the outdoor air detected by the outside air temperature sensor. When it does not rise above a certain value, it detects that the rotation of the suction rotor or suction fan is locked. Thereby, the lock | rock of an adsorption | suction rotor or an adsorption | suction fan can be reliably detected at low cost, without using a dedicated sensor.
[0010]
According to a fourth aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage that passes through the adsorption rotor; a desorption fan provided in a desorption passage that passes through the adsorption rotor; and the desorption passage. A humidity adjusting device that performs at least one of a humidifying operation or a dehumidifying operation, the temperature of the humidified air on the downstream side of the adsorption rotor in the desorption passage When the temperature of the humidified air detected by the humidified air temperature sensor to detect, the temperature of the dehumidified air temperature sensor for detecting the temperature of the dehumidified air downstream of the adsorption rotor of the adsorption passage, and the humidified air temperature sensor increases The temperature gradient when the temperature gradient is equal to or higher than the predetermined value for humidified air and the temperature of the dehumidified air detected by the dehumidified air temperature sensor decreases is the predetermined value for dehumidified air. When it is above, it is characterized in that the suction rotor or the rotation of the suction fan and a lock detecting means for detecting that the lock.
[0011]
According to the humidity adjusting apparatus of the fourth aspect, the outside air is passed through the adsorption rotor by the adsorption fan provided in the adsorption passage, and moisture is adsorbed from the outside air to the region facing the adsorption passage of the adsorption rotor to dehumidify. To do. On the other hand, the outside air heated by the heater is passed through the adsorption rotor by the desorption fan provided in the desorption passage, and the moisture in the region facing the desorption passage of the adsorption rotor is desorbed and humidified. At this time, if the rotation of the suction rotor or suction fan is locked (stopped due to an abnormality), the moisture adsorbed on the suction rotor disappears and no moisture is released, so the relative humidity of the humidified air decreases and humidifies along with it. Air temperature rises rapidly. Therefore, the humidified air temperature sensor detects the temperature of the humidified air downstream of the adsorption rotor in the desorption passage, detects the temperature of the dehumidified air by the dehumidified air temperature sensor, and the humidified air temperature sensor is detected by the lock detecting means. The temperature gradient when the temperature of the humidified air detected by the above rises is equal to or higher than the predetermined value for humidified air, and the temperature gradient when the temperature of the dehumidified air detected by the dehumidified air temperature sensor decreases is for the dehumidified air When it is equal to or greater than the predetermined value, it is detected that the rotation of the suction rotor or the suction fan is locked. Thereby, the lock | rock of an adsorption | suction rotor or an adsorption | suction fan can be reliably detected at low cost, without using a dedicated sensor.
[0012]
According to a fifth aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage passing through the adsorption rotor; a desorption fan provided in a desorption passage passing through the adsorption rotor; and the desorption passage. A humidity adjusting device for performing at least one of a humidifying operation or a dehumidifying operation, the relative humidity of the humidified air downstream of the adsorption rotor in the desorption passage When the relative humidity gradient when the relative humidity of the humidified air detected by the humidified air humidity sensor is lower than a predetermined value, the suction rotor or the suction fan is locked. And a lock detection means for detecting the occurrence of the failure.
[0013]
According to the humidity control apparatus of the fifth aspect, the outside air is passed through the adsorption rotor by the adsorption fan provided in the adsorption passage, and moisture is adsorbed from the outside air to the region facing the adsorption passage of the adsorption rotor to dehumidify. To do. On the other hand, the outside air heated by the heater is passed through the adsorption rotor by the desorption fan provided in the desorption passage, and the moisture in the region facing the desorption passage of the adsorption rotor is desorbed and humidified. At this time, if the rotation of the suction rotor or suction fan is locked (stopped due to an abnormality), the moisture adsorbed on the suction rotor disappears and no moisture is released, so the relative humidity of the humidified air decreases and humidifies along with it. Air temperature rises rapidly. Therefore, when the relative humidity of the humidified air detected by the humidified air humidity sensor by the lock detecting means is detected by detecting the relative humidity of the humidified air downstream of the adsorption rotor of the desorption passage by the humidified air humidity sensor, When the relative humidity gradient is equal to or higher than a predetermined value, it is detected that the rotation of the suction rotor or the suction fan is locked. Accordingly, the lock of the suction rotor and the suction fan can be detected using the humidity sensor for controlling the humidity of the humidified air without using a dedicated sensor.
[0014]
According to a sixth aspect of the present invention, there is provided the humidity adjusting apparatus according to any one of the first to fifth aspects, wherein the lock detecting means locks the person when the rotation of the suction rotor or the suction fan is locked. It is characterized by providing notification means for notification.
[0015]
According to the humidity adjusting device of the sixth aspect, the notification means can notify the user that the rotation of the suction rotor or the suction fan is locked, and the user can take an appropriate action.
[0016]
An air conditioner according to a seventh aspect is characterized in that the humidity adjusting device according to any one of the first to sixth aspects is used.
[0017]
According to the air conditioner of the sixth aspect, it is possible to reliably detect the lock of the suction rotor and the suction fan of the humidity adjusting device without using a dedicated sensor.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a humidity adjusting device of the present invention and an air conditioner using the same will be described in detail with reference to the illustrated embodiments.
[0019]
(First embodiment)
FIG. 1 is a configuration diagram of a main part of an air conditioner using a humidifying device as a humidity adjusting device according to a first embodiment of the present invention. The air conditioner includes an indoor unit 1, an outdoor unit 2, and the above-described unit. And a humidifier 3 disposed at the upper part of the outdoor unit 2. The indoor unit 1 and the humidifier 3 are connected via a humidification duct 4 as a transport passage. The air conditioner using the humidifier 3 supplies humidified air from the humidifier 3 to the indoor unit 1 via the humidification duct 4 to humidify the room.
[0020]
FIG. 2 is a block diagram of the main part of FIG. 1, and the humidifying device 3 has a disk-shaped adsorption rotor 11 disposed in a casing (not shown). The adsorption rotor 11 is formed by adsorbing material such as silica gel, zeolite, alumina, etc., for example, in the form of honeycomb or porous multi-grains, and is rotated by an adsorption rotor motor 12 about a shaft 11a. Further, the inside of the casing is partitioned by a partition plate (not shown) to form an adsorption passage A and a desorption passage B that pass through each part of the adsorption rotor 11. An adsorption fan 13 is provided downstream of the adsorption rotor 11 in the adsorption passage A, and an adsorption fan motor 14 for driving the adsorption fan 13 is provided. The adsorption rotor 11 absorbs moisture (adsorbs moisture) from the air flowing through the adsorption passage A in the direction of the arrow.
[0021]
On the other hand, a desorption fan 15 is provided on the downstream side of the adsorption rotor 11 in the desorption passage B, and a desorption fan motor 16 for driving the desorption fan 15 is provided to suck and flow air as indicated by an arrow. ing. A heater 17 is provided in a portion upstream of the adsorption rotor 11 in the desorption passage B, and the air heated by the heater 17 is humidified by the adsorption rotor 11 when passing through the adsorption rotor 11 (from the adsorption rotor 11). Desorb moisture). As described above, the moisture adsorbed by the adsorption rotor 11 from the air in the adsorption passage A is desorbed by the air heated by the heater 17 and is humidified. The air thus humidified is sent to the humidification duct 4 by the desorption fan 15.
[0022]
Moreover, FIG. 2 is a block diagram of the principal part of the said air conditioner. In FIG. 2, reference numeral 21 denotes a humidified air temperature sensor that is disposed in the vicinity of the dehumidifying fan 15 in the humidifying duct 4 and detects the temperature of the humidified air, and 22 is an outdoor temperature as an outdoor temperature sensor that detects the temperature of the outdoor air. A sensor 23 is an outdoor humidity sensor that detects the relative humidity of the outdoor air. Reference numeral 31 denotes an indoor control unit that controls an indoor fan (not shown) and the like. Reference numeral 32 denotes a compressor (not shown) that receives signals from the humidified air temperature sensor 21, the outdoor temperature sensor 22, and the outdoor temperature sensor 23. ), Etc., is a humidifying operation control unit that receives a signal from the outdoor controlling unit 32 and controls the humidifying operation. The outdoor control unit 32 includes a lock detection unit 32a that detects that the rotation of the suction rotor 11 or the suction fan 13 is locked. The humidifying operation control unit 33 controls the adsorption rotor motor 12, the adsorption fan motor 14, the desorption fan motor 16, and the heater 17.
[0023]
Further, the indoor unit body 5 is provided with a display unit 6 as a notification unit, and this display unit 6 displays the lock of the suction rotor 11 (or the suction fan 13) detected by the lock detection unit 32a and notifies the user. To do.
[0024]
FIG. 3 shows a flowchart for explaining the lock detection process of the humidifying operation control unit 33. Hereinafter, the process of detecting the lock of the suction rotor 11 will be described with reference to FIG.
[0025]
First, when the process starts, a humidifying operation is started in step S1.
Next, it progresses to step S2 and it is discriminate | determined whether the phenomenon that the humidification amount falls rapidly is recognized. That is, when the suction rotor 11 or the suction fan 13 is in a locked state, the region of the suction rotor 11 facing the desorption passage B is dried, moisture is not desorbed, and heat of vaporization is not removed. In this case, the humidification amount decreases rapidly and the temperature of drying increases rapidly. Therefore, it is determined whether or not the humidification amount is rapidly decreased by determining whether or not the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor 21 is higher than a predetermined value. It is.
If a phenomenon in which the humidification amount is suddenly reduced in step S2 is recognized, the process proceeds to step S3. On the other hand, if a phenomenon in which the humidification amount is suddenly reduced is not recognized in step S2, the process proceeds to step S7, and normal operation is performed. It returns to step S2.
In step S3, it is determined whether or not the actuator other than the motor that rotates the suction rotor 11 (or suction fan 13) is normal, and the actuator other than the motor that rotates the suction rotor 11 (or suction fan 13) is normal. If it is determined that there is, the process proceeds to step S4, where it is determined that the suction rotor 11 is locked, and the process proceeds to step S6.
On the other hand, if it is determined in step S3 that the actuator other than the motor that rotates the suction rotor 11 (or suction fan 13) is not normal, the process proceeds to step S5, where there is an abnormality other than the lock of the suction rotor 11 (or suction fan 13). Determine and proceed to step S6.
In step S6, the failure content is displayed on the display unit 6 so that the user can recognize the failure, and the process returns to step S2.
[0026]
Thus, in the air conditioner using the humidifying device as the humidity adjusting device of the first embodiment, the lock of the suction rotor 11 and the suction fan 13 can be accurately detected at low cost without using a dedicated sensor. .
[0027]
Further, the display unit 6 can notify the user that the rotation of the suction row 11 or the suction fan 13 has been locked, thereby enabling the user to quickly take appropriate measures.
[0028]
(Second Embodiment)
Next, an air conditioner using a humidifying device as a humidity adjusting device according to a second embodiment of the present invention will be described. The air conditioner using the humidifier of the second embodiment has the same configuration as the air conditioner using the humidifier of the first embodiment except for the processing of the lock detection means, and uses FIG. To do.
[0029]
In the air conditioner using the humidifier, the gradient of the temperature difference when the temperature difference between the temperature of the outdoor air detected by the outdoor temperature sensor 22 and the temperature of the humidified air detected by the humidified air temperature sensor 21 increases. Is equal to or greater than a predetermined value, the lock detecting means 32a detects that the rotation of the suction rotor 11 or the suction fan 13 is locked. That is, it is recognized that a phenomenon has occurred in which the humidification amount suddenly decreases. Thereby, it is possible to reliably detect the lock of the suction rotor 11 and the suction fan 13 at a low cost without being affected by a change in the temperature of the outside air and without using a dedicated sensor.
[0030]
Further, similarly to the air conditioner using the humidifier of the first embodiment, the display unit 6 can notify the user that the rotation of the suction row 11 or the suction fan 13 is locked, and the user can appropriately Can respond quickly.
[0031]
(Third embodiment)
Next, an air conditioner using a humidifying device as a humidity adjusting device according to a third embodiment of the present invention will be described. The air conditioner using the humidifier of the third embodiment has the same configuration as the air conditioner using the humidifier of the first embodiment except for the processing of the lock detection means and the dehumidified air temperature sensor. FIG. 1 is incorporated. Note that an air conditioner using this humidifier includes a dehumidified air temperature sensor 25 that detects the temperature of the dehumidified air downstream of the adsorption rotor 11 in the desorption passage A. The signal from the dehumidified air temperature sensor 25 is input to the outdoor control unit 32 via the humidification operation control unit 33.
[0032]
In the air conditioner using the humidifier, the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor 21 rises is not less than a predetermined value for the humidified air and is detected by the dehumidified air temperature sensor 25. When the temperature gradient when the temperature of the dehumidified air drops is equal to or higher than the predetermined value for the dehumidified air, the lock detection means 32a detects that the rotation of the suction rotor 11 or the suction fan 13 is locked. That is, it is recognized that a phenomenon has occurred in which the humidification amount suddenly decreases. Thereby, the lock | rock of the adsorption | suction rotor 11 and the adsorption | suction fan 13 can be reliably detected at low cost, without using a dedicated sensor.
[0033]
Further, similarly to the air conditioner using the humidifier of the first embodiment, the display unit 6 can notify the user that the rotation of the suction row 11 or the suction fan 13 is locked, and the user can appropriately Can respond quickly.
[0034]
(Fourth embodiment)
Next, an air conditioner using a humidifying device as a humidity adjusting device according to a fourth embodiment of the present invention will be described. The air conditioner using the humidifier of the fourth embodiment has the same configuration as the air conditioner using the humidifier of the first embodiment except for the processing of the lock detection means and the humidified air humidity sensor. FIG. 1 is incorporated. In the air conditioner using the humidifier, a humidified air humidity sensor 24 is disposed instead of the humidified air temperature sensor 21. The humidified air humidity sensor 24 is used for humidity control of the humidified air.
[0035]
In the air conditioner using the humidifier, when the relative humidity gradient when the relative humidity of the humidified air detected by the humidified air humidity sensor 24 is lower than a predetermined value, the lock rotor 11 is used by the lock detecting means 32a. Alternatively, it is detected that the rotation of the suction fan 13 is locked. That is, it is recognized that a phenomenon has occurred in which the humidification amount suddenly decreases. Thereby, the lock | rock of the adsorption | suction rotor 11 and the adsorption | suction fan 13 can be reliably detected at low cost using the humidity sensor for humidity control of humidified air, without using a dedicated sensor.
[0036]
Further, similarly to the air conditioner using the humidifier of the first embodiment, the display unit 6 can notify the user that the rotation of the suction row 11 or the suction fan 13 is locked, and the user can appropriately Can respond quickly.
[0037]
In the first to fourth embodiments, the air conditioner using the humidifier as the humidity adjusting device has been described. However, the present invention may be applied to a humidity adjusting device that performs a dehumidifying operation, and both humidification and dehumidification are performed. The present invention may be applied to a humidity adjusting device having the above functions.
[0038]
Moreover, you may detect the lock | rock of rotation of an adsorption | suction rotor or an adsorption | suction fan by combining at least 2 of the lock | rock detection methods in the air conditioner using the humidification apparatus of the said 1st-4th embodiment.
[0039]
【The invention's effect】
As is clear from the above, the humidity adjusting device of the invention of claim 1 is provided in the adsorption rotor, the adsorption fan provided in the adsorption passage that passes through the adsorption rotor, and the desorption passage that passes through the adsorption rotor. A humidity adjusting device comprising a desorption fan and a heater provided upstream of the adsorption rotor of the desorption passage, and performing at least one of a humidifying operation or a dehumidifying operation, wherein the adsorption rotor of the desorption passage by a humidified air temperature sensor When the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor is detected by the lock detecting means and the temperature rises above a predetermined value is detected by the lock detecting means. Detects the lock of the suction rotor and suction fan accurately at low cost without using a dedicated sensor. Door can be.
[0040]
According to a second aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage that passes through the adsorption rotor; a desorption fan provided in a desorption passage that passes through the adsorption rotor; A humidity adjusting device that performs at least one of a humidifying operation and a dehumidifying operation, and detects the temperature of the outdoor air by an outside air temperature sensor, and also includes humidified air. The temperature of the humidified air downstream of the adsorption rotor in the desorption passage is detected by the temperature sensor, and the temperature of the outdoor air detected by the outdoor air temperature sensor and the temperature of the humidified air detected by the humidified air temperature sensor are detected by the lock detection means. The rotation of the suction rotor or suction fan is detected when the gradient of the temperature difference when the temperature difference from the , Without being affected by changes in outside air temperature, without the use of a dedicated sensor, it can reliably detect the lock of the adsorption rotor and the suction fan at a low cost.
[0041]
According to a third aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage that passes through the adsorption rotor; a desorption fan provided in a desorption passage that passes through the adsorption rotor; A humidity adjusting device that performs at least one of a humidifying operation and a dehumidifying operation, detecting a temperature of outdoor air by an outside air temperature sensor, and dehumidifying air When the temperature of the dehumidified air is detected by the temperature sensor, and the temperature of the dehumidified air detected by the dehumidified air temperature sensor is not increased by a certain value or more than the temperature of the outdoor air detected by the outside air temperature sensor, Since it detects that the rotation of the suction rotor or suction fan is locked, the suction rotor and suction fan can be used without using a dedicated sensor. It is possible to detect the lock securely at a low cost.
[0042]
According to a fourth aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage that passes through the adsorption rotor; a desorption fan provided in a desorption passage that passes through the adsorption rotor; A humidity adjusting device that performs at least one of a humidifying operation and a dehumidifying operation, and is humidified on the downstream side of the adsorption rotor of the desorption passage by a humidified air temperature sensor. While detecting the temperature of the air, the temperature of the dehumidified air is detected by the dehumidified air temperature sensor, and the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor is increased by the lock detection means is for humidified air. The temperature gradient when the temperature of the dehumidified air detected by the dehumidified air temperature sensor is lower than a predetermined value is equal to or higher than the predetermined value for dehumidified air. Come, and detects that it has locked the rotation of the adsorption rotor or the suction fan, without using a dedicated sensor, can reliably detect the lock of the adsorption rotor and the suction fan at a low cost.
[0043]
According to a fifth aspect of the present invention, there is provided a humidity adjusting apparatus comprising: an adsorption rotor; an adsorption fan provided in an adsorption passage that passes through the adsorption rotor; a desorption fan provided in a desorption passage that passes through the adsorption rotor; A humidity adjusting device that performs at least one of a humidifying operation or a dehumidifying operation, and is humidified by a humidified air humidity sensor on the downstream side of the adsorbing rotor in the desorbing passage. When the relative humidity gradient when the relative humidity of the humidified air detected by the humidified air humidity sensor is detected by the lock detection means and the relative humidity gradient is greater than or equal to a predetermined value is detected by detecting the relative humidity of the air, the rotation of the adsorption rotor or the adsorption fan Because it detects that it is locked, the humidity sensor for humidity control of humidified air can be used without using a dedicated sensor. It is possible to detect the click.
[0044]
According to a sixth aspect of the present invention, there is provided the humidity adjusting apparatus according to any one of the first to fifth aspects, wherein when the rotation of the suction rotor or the suction fan is locked by the lock detecting means. The notification means can inform the person about it, so that the user can respond appropriately.
[0045]
An air conditioner according to a seventh aspect of the present invention ensures that the suction rotor and suction fan of the humidity control device according to any one of the first to sixth aspects can be locked at a low cost without using a dedicated sensor. Can be detected.
[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 the air conditioner.
FIG. 3 is a flowchart for explaining the operation of the air conditioner.
[Explanation of symbols]
1 ... Indoor unit,
2… Outdoor unit,
3 ... Humidity adjustment device,
4 ... Humidification duct,
5 ... Indoor unit body,
6 ... display part,
11 ... Adsorption rotor,
12 ... Motor for suction rotor,
13 ... Adsorption fan,
14 ... Motor for suction fan,
15 ... desorption fan,
16 ... Motor for desorption fan,
17 ... Heater,
21 ... Humid air temperature sensor,
22: outdoor temperature sensor,
23. Outdoor humidity sensor,
24 ... Humidified air humidity sensor,
25 ... Dehumidified air temperature sensor,
31 ... Indoor control unit,
32 ... outdoor control unit,
32a ... Lock detection means,
33: Humidification operation control unit.

Claims (7)

An adsorption rotor (11), an adsorption fan (13) provided in an adsorption passage via the adsorption rotor (11), and a desorption fan (15) provided in a desorption passage via the adsorption rotor (11) A humidity adjusting device that includes a heater (17) provided upstream of the adsorption rotor (11) in the desorption passage and performs at least one of a humidifying operation or a dehumidifying operation,
A humidified air temperature sensor (21) for detecting the temperature of the humidified air downstream of the adsorption rotor (11) in the desorption path;
That the rotation of the adsorption rotor (11) or the adsorption fan (13) is locked when the temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor (21) rises is a predetermined value or more. A humidity adjusting device comprising a lock detecting means (32a) for detecting. An adsorption rotor (11), an adsorption fan (13) provided in an adsorption passage via the adsorption rotor (11), and a desorption fan (15) provided in a desorption passage via the adsorption rotor (11) A humidity adjusting device that includes a heater (17) provided upstream of the adsorption rotor (11) in the desorption passage and performs at least one of a humidifying operation or a dehumidifying operation,
An outdoor temperature sensor (22) for detecting the temperature of the outdoor air;
A humidified air temperature sensor (21) for detecting the temperature of the humidified air downstream of the adsorption rotor (11) in the desorption path;
The gradient of the temperature difference when the temperature difference between the temperature of the outdoor air detected by the outside air temperature sensor (22) and the temperature of the humidified air detected by the humidified air temperature sensor (21) increases is a predetermined value or more. A humidity adjusting device comprising: a lock detecting means (32a) for detecting that the rotation of the suction rotor (11) or the suction fan (13) is sometimes locked. An adsorption rotor (11), an adsorption fan (13) provided in an adsorption passage via the adsorption rotor (11), and a desorption fan (15) provided in a desorption passage via the adsorption rotor (11) A humidity adjusting device that includes a heater (17) provided upstream of the adsorption rotor (11) in the desorption passage and performs at least one of a humidifying operation or a dehumidifying operation,
An outdoor air temperature sensor (22) for detecting the temperature of outdoor air, a dehumidified air temperature sensor (25) for detecting the temperature of dehumidified air downstream of the adsorption rotor (11) in the adsorption passage,
When the temperature of the dehumidified air detected by the dehumidified air temperature sensor (25) does not rise more than a certain value higher than the temperature of the outdoor air detected by the outside air temperature sensor (22), the adsorption rotor (11) or the adsorption A humidity adjusting device comprising: lock detecting means (32a) for detecting that the rotation of the fan (13) is locked. An adsorption rotor (11), an adsorption fan (13) provided in an adsorption passage via the adsorption rotor (11), and a desorption fan (15) provided in a desorption passage via the adsorption rotor (11) A humidity adjusting device that includes a heater (17) provided upstream of the adsorption rotor (11) in the desorption passage and performs at least one of a humidifying operation or a dehumidifying operation,
A humidified air temperature sensor (21) for detecting the temperature of the humidified air downstream of the adsorption rotor (11) in the desorption path;
A dehumidified air temperature sensor (25) for detecting the temperature of the dehumidified air downstream of the adsorption rotor (11) in the adsorption passage;
The temperature gradient when the temperature of the humidified air detected by the humidified air temperature sensor (21) rises is not less than a predetermined value for the humidified air, and the dehumidified air detected by the dehumidified air temperature sensor from (25). Lock detecting means (32a) for detecting that the rotation of the adsorption rotor (11) or the adsorption fan (13) is locked when the temperature gradient when the temperature drops is equal to or higher than a predetermined value for dehumidified air. A humidity control device characterized by that. An adsorption rotor (11), an adsorption fan (13) provided in an adsorption passage via the adsorption rotor (11), and a desorption fan (15) provided in a desorption passage via the adsorption rotor (11) A humidity adjusting device that includes a heater (17) provided upstream of the adsorption rotor (11) in the desorption passage and performs at least one of a humidifying operation or a dehumidifying operation,
A humidified air humidity sensor (24) for detecting the relative humidity of the humidified air downstream of the adsorption rotor (11) in the desorption passage;
The rotation of the adsorption rotor (11) or the adsorption fan (13) is locked when the gradient of the relative humidity when the relative humidity of the humidified air detected by the humidified air humidity sensor (24) is lower than a predetermined value. A humidity adjusting device comprising: a lock detecting means (32a) for detecting the occurrence of the failure. The humidity control apparatus according to any one of claims 1 to 5,
A humidity adjusting device comprising a notification means (6) for notifying a person when rotation of the suction rotor (11) or the suction fan (13) is locked by the lock detection means (32a). An air conditioner using the humidity adjusting device according to any one of claims 1 to 6.

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