JPWO2017104073A1 - Humidifier - Google Patents

Abstract

The humidifier (20) includes a circulation fan (3) that forms an air flow from the suction port (5) to the blowout port (6) in a circulation wind passage connecting the suction port (5) and the blowout port (6). A humidifier (7) disposed in a circulating air passage between the circulation blower (3) and the blower outlet (6), and a water supply / drainage system for supplying water to the humidifier (7) and draining from the humidifier (7) (8), a temperature / humidity sensor that is disposed in a circulation air passage between the circulation fan (3) and the suction port (5) and measures the temperature and relative humidity of indoor air, and the room measured by the temperature / humidity sensor And a controller for controlling the operation and stop of the circulating fan (3) and the water supply to the humidifier (7) based on the temperature and relative humidity of the air.

Description

  The present invention relates to a humidifier that circulates and humidifies indoor air.

  In general, in winter when the temperature is low, the absolute humidity is low and the air is dried, so that various troubles due to static electricity are likely to occur, and in some cases, the operating rate of the apparatus may be reduced. For this reason, the humidifier is used to prevent a decrease in humidity.

  Various types of humidifiers are known, but any type requires water supply and drainage. Therefore, if the humidifier is accidentally operated in the summer when humidification is not required, water supply and drainage will be performed wastefully.

  In Patent Document 1, from the viewpoint of saving resources, in order to automatically stop water supply in the summer, an outside air temperature sensor is provided at an outdoor air inlet of a ventilator such as an air conditioner or a ventilator, and the detected outside air temperature is When the temperature is 20 ° C. or higher, a technique is disclosed in which it is determined that the summer is not the humidification season, and water supply to the humidifier is stopped.

Japanese Patent Laid-Open No. 10-288357

  However, unlike the heat exchange ventilator disclosed in Patent Document 1, the circulation-type humidifier that circulates indoor air to humidify cannot obtain air temperature information alone, and does not obtain temperature information. There is a problem that it is necessary to perform an interlocking operation with the device that the device has, and the construction and setting become complicated.

  This invention is made | formed in view of the above, Comprising: It aims at obtaining the humidification apparatus which can control the driving | operation of a fan and the water supply to a humidifier independently.

  In order to solve the above-described problems and achieve the object, the present invention provides a circulation blower that forms an air flow from the suction port toward the blowout port in a circulation wind passage that connects the suction port and the blowout port, a circulation blower, and a blower. A humidifier disposed in a circulation air passage between the outlet and a water supply / drainage system for supplying water to the humidifier and draining from the humidifier. The present invention is based on a temperature / humidity sensor that is disposed in a circulation air passage between a circulation fan and a suction port and measures the temperature and relative humidity of room air, and the temperature and relative humidity of the room air measured by the temperature / humidity sensor. And a controller for controlling the operation and stop of the circulation blower and the water supply to the humidifier.

  The humidifier according to the present invention has an effect that the operation of the blower and the water supply to the humidifier can be controlled independently.

The perspective view of the humidification apparatus which concerns on Embodiment 1 of this invention. The perspective view seen from the other direction of the humidification apparatus which concerns on Embodiment 1. FIG. The perspective view which shows the structure of the humidification part of the humidification apparatus which concerns on Embodiment 1. FIG. Functional block diagram of the controller of the humidifier according to the first embodiment The figure which shows the structure which implement | achieved the function of the controller of the humidification apparatus which concerns on Embodiment 1 with the hardware. The figure which shows the structure which implement | achieved the function of the controller of the humidification apparatus which concerns on Embodiment 1 with software. Air line diagram showing an example of a humidifying operation condition of the humidifying device according to Embodiment 1. Air line diagram showing another example of the humidifying operation condition of the humidifying device according to the first embodiment. Air line diagram showing another example of the humidifying operation condition of the humidifying device according to the first embodiment. Air line diagram showing another example of the humidifying operation condition of the humidifying device according to the first embodiment.

  Hereinafter, a humidifier according to an embodiment of the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

Embodiment 1 FIG.
FIG. 1 is a perspective view of a humidifier according to Embodiment 1 of the present invention. FIG. 2 is a perspective view of the humidifying device according to Embodiment 1 as seen from another direction. FIG. 3 is a perspective view showing a structure of a humidifying unit of the humidifying device according to Embodiment 1. In FIG. 1, the interior of the exterior box 1 is visualized with the top surface of the exterior box 1 not shown, and in FIG. 2, the interior of the exterior box 1 is visualized with the bottom surface of the exterior box 1 not illustrated. It shows. The humidifier 20 is a ceiling concealed humidifier installed behind the ceiling. The exterior box 1 is configured as a hexahedral box having a top plate, a bottom plate, and four side surfaces. The interior of the exterior box 1 is partitioned into a blower unit 1a and a humidifying unit 1b by a partition plate 2. A circulation blower 3 and a temperature / humidity sensor 4 are arranged inside the blower unit 1a. Moreover, the suction inlet 5 which takes in indoor air is arrange | positioned at the side surface 1c by the side of the air blower part 1a of the exterior box 1. FIG. Moreover, the blower outlet 6 which sends air into the room | chamber interior is arrange | positioned at the side surface 1d by the side of the humidification part 1b of the exterior box 1. FIG. The outlet of the circulation fan 3 is disposed so as to contact the partition plate 2. Inside the exterior box 1, a circulating air passage 1 f that connects the suction port 5 and the air outlet 6 t is provided. The circulation blower 3 forms an air flow from the suction port 5 toward the blowout port 6 in the circulation wind passage 1f. That is, the humidifier 20 has a structure that takes in room air from the suction port 5 and blows out air toward the humidifier 1b.

  As shown in FIG. 3, the humidifier 7 and the water supply / drainage system to the humidifier 7 are arrange | positioned inside the humidification part 1b. A water supply device 8 constituting the water supply / drainage system is disposed on the air inflow side of the humidifier 7 and is connected to the humidifier 7 by a water supply tube 9. The air filter 10 disposed on the air inflow side of the humidifier 7 removes dust from the indoor air sent from the circulation blower 3. The eliminator 11 disposed on the air outflow side of the humidifier 7 prevents water droplets from being scattered when air is sent to the humidifier 7. The drain pan 12 disposed on the bottom surface of the humidifier 7 receives the waste water from the humidifier 7 and forms a flow of water discharged from the humidifier 20. When the air sent from the blower unit 1 a passes through the humidifier 7, the air sucked from the room is humidified when it contains water vapor, and is sent to the room again from the outlet.

  As shown in FIG. 2, a water supply / drainage system for the humidifier 7 and an inspection port 13 for maintaining the humidifier 7 are provided on the humidifying portion 1 b side of the side surface 1 e of the outer box 1. The exterior box 1 further includes a water supply port 14 for supplying water to the water supply device 8 and a drainage port 15 for discharging the drainage from the drain pan 12 from the humidification device 20 on the side surface 1e provided with the inspection port 13. Yes.

  As shown in FIG. 1, ceiling hanging hardware 16 for suspending the humidifier from the ceiling is disposed at each corner where the four side surfaces of the outer box 1 intersect.

  A controller 30 for controlling the operation of the circulation fan 3 and the water supply to the humidifier 7 is housed in the control board box 17. The control board box 17 is arranged on the side face 1e different from the side faces 1c and 1d on which the suction port 5 and the air outlet 6 are arranged, among the four side faces of the exterior box 1.

  The controller 30 performs the operation of the circulating blower 3 and the water supply control to the humidifier 7 based on the indoor temperature and relative humidity information detected by the temperature / humidity sensor 4.

  FIG. 4 is a functional block diagram of the controller of the humidifier according to Embodiment 1. The controller 30 performs a humidifying operation for controlling the execution and stop of the humidifying operation based on the indoor temperature and relative humidity measured by the temperature / humidity sensor 4, and the humidifying operation for operating the circulation fan 3 and supplying water to the humidifier 7. And a storage unit 32 for storing a humidifying operation condition indicating a condition to be performed.

  The function of the control unit 31 is realized by the processing circuit 19. That is, the controller 30 includes a processing circuit 19 that controls execution and stop of the humidification operation based on the indoor temperature and relative humidity measured by the temperature and humidity sensor 4. The processing circuit 19 also performs processing for calculating absolute humidity and enthalpy based on room temperature and relative humidity. The processing circuit 19 may be dedicated hardware or an arithmetic device that executes a program stored in a memory.

  If the processing circuit 19 is dedicated hardware, the processing circuit 19 may be a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an application specific integrated circuit, a field programmable gate array, or a combination thereof. Applicable. FIG. 5 is a diagram illustrating a configuration in which the function of the controller of the humidifier according to the first embodiment is realized by hardware. In the processing circuit 19, a program 19a for realizing the control unit 31 is incorporated by a logic circuit. The storage unit 32 is realized by a nonvolatile semiconductor memory 33.

  When the processing circuit 19 is an arithmetic device, the function of the control unit 31 is realized by software, firmware, or a combination of software and firmware. FIG. 6 is a diagram illustrating a configuration in which the function of the controller of the humidifier according to the first embodiment is realized by software. The processing circuit 19 includes an arithmetic device 191 that executes the program 19a, a memory 192 that the arithmetic device 191 uses as a work area, and a storage device 193 that stores the program 19a. The control unit 31 is realized by the arithmetic device 191 expanding and executing the program 19a stored in the storage device 193 on the memory 192. The storage unit 32 is realized by a nonvolatile semiconductor memory 33. Software or firmware is described in a program language and stored in the storage device 193. The processing circuit 19 implements the function of the control unit 31 by reading and executing the program 19a stored in the storage device 193. That is, when executed by the processing circuit 19, the controller 30 performs a humidifying operation when the temperature and humidity of the indoor air satisfy the conditions, and stops the humidifying operation when the conditions are not satisfied. Is provided with a storage device 193 for storing a program 19a to be executed as a result. It can also be said that the program 19a causes the computer to execute the procedure and method of the control unit 31.

  Note that a part of the function of the control unit 31 may be realized by dedicated hardware, and a part may be realized by software or firmware. For example, a part of the function of the control unit 31 is realized by a processing circuit using dedicated hardware, and the remaining part of the function of the control unit 31 is executed by the processing circuit reading and executing a program stored in the memory. By doing so, the function can be realized.

  As described above, the processing circuit 19 can realize the above-described functions by hardware, software, firmware, or a combination thereof.

  FIG. 7 is an air line diagram illustrating an example of a humidifying operation condition of the humidifying device according to Embodiment 1. When the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are in the area A indicated by hatching in FIG. 7, the controller 30 operates the circulation blower 3 and supplies water to the humidifier 7. Set to the operating state. Moreover, when the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are outside the region A, the controller 30 sets the humidification stop state in which the circulation blower 3 is stopped and the water supply to the humidifier 7 is also stopped.

  Region A shown in FIG. 7 assumes the use of a humidifier in a general room such as an office. Generally, since a humidifier is used to humidify the room so as to satisfy the relative humidity standard 40% RH defined in the Building Sanitation Law, the humidification operation is performed with the relative humidity 40% RH also in the first embodiment. The upper limit of the condition is set. Further, by setting 28 ° C., which is a general indoor air conditioning setting condition, as the upper limit temperature of the humidifying operation condition, the humidifying device 20 is prevented from being erroneously humidified in the summer. Further, the lower limit temperature of the humidifying operation condition is set to 0 ° C. so as not to perform the humidifying operation at 0 ° C. or lower where the moisture freezes. In addition, when the use temperature range is defined by the product specification, it is possible to omit the setting of at least one of the lower limit temperature and the upper limit temperature of the humidification temperature condition. The threshold value of the area A illustrated in FIG. 7 is merely an example, and different values can be used. Further, the threshold value of the area A may be changed from the controller 30.

  FIG. 8 is an air line diagram illustrating another example of the humidifying operation condition of the humidifying device according to Embodiment 1. In addition, since the use temperature range shall be set to the range of 0 degreeC to 40 degreeC by the product specification here, the minimum temperature of humidification operation conditions is 0 degreeC, and the upper limit temperature is 40 degreeC. Moreover, the upper limit of the relative humidity of the humidifying operation condition is 40% RH. Moreover, the upper limit of the absolute humidity of the humidifying operation condition is 0.0065 kg / kg (DA). When the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are in the region B indicated by hatching in FIG. 8, the controller 30 operates the circulation fan 3 and supplies water to the humidifier 7. Set to the operating state. In addition, when the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are outside the region B, the controller 30 stops the circulation blower 3 and also stops water supply to the humidifier 7, so that the humidifier 20 Is in a humidified stop state.

  In addition to the temperature and relative humidity of the room air, the controller 30 can also set a control region for the humidifying operation state by adding information on absolute humidity that can be calculated from the temperature and relative humidity.

  FIG. 9 is an air line diagram illustrating another example of the humidifying operation condition of the humidifying device according to Embodiment 1. In this case, since the operating temperature range is set to 0 ° C. to 40 ° C. in the product specification, the lower limit temperature of the humidification temperature condition is 0 ° C., and the upper limit temperature is 40 ° C. Moreover, the upper limit of the relative humidity of the humidifying operation condition is 40% RH. Moreover, the upper limit of the enthalpy of the humidifying operation condition is 52 kJ / kg (DA). When the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are in the area C indicated by shading in FIG. 9, the controller 30 operates the circulation fan 3 and supplies water to the humidifier 7. The humidifier 20 is set in a humidifying operation state. In addition, when the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are outside the region C, the controller 30 stops the circulation blower 3 and also stops water supply to the humidifier 7 to activate the humidifier 20. Let the humidification stop state.

  In addition to the temperature and relative humidity of the room air, the controller 30 can also be set with a control region for the humidifying operation state by adding enthalpy information that can be calculated from the temperature and relative humidity.

  FIG. 10 is an air line diagram illustrating another example of the humidifying operation condition of the humidifying device according to Embodiment 1. In this case, since the operating temperature range is set to 0 ° C. to 40 ° C. in the product specification, the lower limit temperature of the humidification temperature condition is 0 ° C., and the upper limit temperature is 40 ° C. Moreover, the upper limit of the absolute humidity of the humidifying operation condition is 0.0065 kg / kg (DA). Moreover, the upper limit of the enthalpy of the humidifying operation condition is 52 kJ / kg (DA). When the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are in the area D indicated by shading in FIG. 10, the controller 30 operates the circulating fan 3 and supplies water to the humidifier 7. The humidifier 20 is set in a humidifying operation state. In addition, when the indoor temperature and relative humidity measured by the temperature / humidity sensor 4 are outside the region D, the controller 30 stops the circulation blower 3 and also stops water supply to the humidifier 7 to activate the humidifier 20. Let the humidification stop state.

  In addition to the temperature and relative humidity of the room air, the controller 30 can also set a control region for the humidifying operation state by adding information on absolute humidity and information on enthalpy that can be calculated from the temperature and relative humidity.

  7 does not need to calculate absolute humidity or enthalpy from the indoor temperature and relative humidity measured by the temperature / humidity sensor 4, the processing load on the controller 30 can be reduced. Also, if the room is likely to dry in the summer, or if the room temperature is likely to rise due to excessive heating in the middle period, such as the beginning of autumn, or in the winter, the absolute humidity or enthalpy should be adjusted as shown in FIG. By using and defining the humidifying operation conditions, it becomes possible to set the humidifying operation conditions more finely than the combination of only the temperature and the relative humidity, and the humidifying operation control adapted to the state of the room air can be performed.

  The controller 30 can calculate the absolute humidity and enthalpy from the temperature and relative humidity of the room air measured by the temperature / humidity sensor 4, and the circulation blower when the room air temperature, relative humidity, absolute humidity and enthalpy satisfy the humidifying operation condition By operating 3 and supplying water to the humidifier 7, it is possible to perform the humidification operation even in a situation where the humidification operation is stopped when the humidification operation condition is defined only by the temperature and relative humidity of the room air. Become.

  The humidifying device 20 according to Embodiment 1 measures the indoor temperature and relative humidity by the temperature and humidity sensor 4 disposed in the blower unit 1a of the outer box 1, and makes a pseudo season determination from the temperature and relative humidity. Thus, the operation of the circulating blower 3 and the water supply control to the humidifier 7 can be performed by the humidifier 20 alone. Therefore, the humidifier 20 can keep the room comfortable while suppressing unnecessary humidification operation and suppressing consumption of operating power and water.

  The configuration described in the above embodiment shows an example of the contents of the present invention, and can be combined with another known technique, and can be combined with other configurations without departing from the gist of the present invention. It is also possible to omit or change the part.

  DESCRIPTION OF SYMBOLS 1 Exterior box, 1a Blower part, 1b Humidification part, 1c, 1d, 1e Side face, 1f Circulating air passage, 2 Partition plate, 3 Circulating fan, 4 Temperature / humidity sensor, 5 Suction port, 6 Outlet, 7 Humidifier, 8 Water supply device, 9 Water supply tube, 10 Air filter, 11 Eliminator, 12 Drain pan, 13 Inspection port, 14 Water supply port, 15 Drainage port, 16 Ceiling mount, 17 Control board box, 19 Processing circuit, 19a Program, 20 Humidifier, 30 controller, 31 control unit, 191 arithmetic device, 192 memory, 193 storage device.

Claims (3)

A circulating blower that forms an airflow from the suction port toward the blowout port in a circulation wind passage that connects the suction port and the blowout port;
A humidifier disposed in the circulating air passage between the circulating fan and the outlet;
A water supply / drainage system for supplying water to the humidifier and draining from the humidifier;
A temperature / humidity sensor that is disposed in the circulation air passage between the circulation fan and the suction port and measures the temperature and relative humidity of indoor air;
A humidifier comprising: a controller that controls operation and stop of the circulating blower and water supply to the humidifier based on the temperature and relative humidity of the room air measured by the temperature and humidity sensor.   The controller includes a storage unit that stores a humidifying operation condition indicating a condition for performing a humidifying operation for operating the circulating fan and supplying water to the humidifier, and operating and stopping the circulating fan based on the humidifying operation condition; The humidifier according to claim 1, wherein the humidifier controls water supply to the humidifier. The storage unit stores the humidifying operation condition defined by combining two or more of temperature, relative humidity, absolute humidity, and enthalpy,
The controller can calculate absolute humidity and enthalpy from the temperature and relative humidity of the room air measured by the temperature and humidity sensor, and the temperature, relative humidity, absolute humidity and enthalpy of the room air satisfy the humidifying operation condition. The humidifier according to claim 2, wherein the circulating fan is operated and water is supplied to the humidifier.

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