JP2011002229A - Air cleaner and building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To downsize an air cleaner equipped with a ventilation function.SOLUTION: The air cleaner 1 includes a circulation fan 2 for taking inside air and outside air and supplying the taken air to a room, a ventilation fan 3 for taking the inside air and exhausting the taken air to the outside, and an air cleaning filter 4 for cleaning the outside air and the inside air taken by the circulation fan 2. The circulation fan 2 and the ventilation fan 3 are arranged to be vertically overlapped. The air cleaning filter 4 is vertically placed at side parts of the circulation fan 2 and the ventilation fan 3 to suppress the width of a device body 1.

Description

  The present invention relates to an air purifier having an air purifying function that takes in indoor air with a circulation fan, cleans the air with an air purifying filter, and supplies the air into the room, and a ventilation function that takes in indoor air with a ventilation fan and exhausts the air. The present invention relates to a building equipped with this air purifier.

  An air purifier used by being installed in a building or the like is usually configured to supply clean air to the room by purifying it with a filter while circulating the air in the room (see, for example, Patent Document 1). ).

  The conventional air purifier does not have a ventilation function for exhausting indoor air, and it is necessary to install another ventilator for ventilation.

  On the other hand, an air purifier equipped with a ventilation function has also been proposed (see, for example, Patent Document 2). An air purifier equipped with a ventilation function includes a circulation fan for circulating indoor air and a ventilation fan for exhausting indoor air. And it is the structure which cleans with a filter, circulating indoor air with a circulation fan, supplies the clean air indoors, sucks indoor air with a ventilation fan, and exhausts it outdoors.

JP 2000-171066 A JP 2001-157807 A

  However, in the air purifier equipped with the ventilation function, it is necessary to mount two fans. For this reason, there has been a problem that it is difficult to install an air purifier having a ventilation function behind the ceiling of a building where installation space is limited.

  Moreover, in the air purifier equipped with the ventilation function, the air outlet that blows out the clean air into the room and the air inlet that sucks in the indoor air for exhaust are formed in the same device, so the air is blown out from the air outlet. There has been a problem that a shortcut phenomenon occurs in which the cleaned air is sucked from the suction port, and the efficiency of the air cleaning is lowered.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide a small-sized air cleaning device having high air cleaning efficiency and a building including the air cleaning device.

  In order to solve the above-described problem, an air purifying apparatus according to a first aspect of the present invention includes a circulation fan that takes in indoor air and supplies the taken air into the room, and takes in the indoor air and takes the taken-in air outdoors. It is equipped with a ventilation fan that exhausts and an air purification filter that purifies the air taken in by the circulation fan. The circulation fan and the ventilation fan are placed one above the other with the rotation axis in the vertical direction, and the air purification filter is placed in the circulation fan. And it is characterized by being placed vertically on the side of the ventilation fan.

  An air cleaning device according to a second aspect of the present invention is the air cleaning device according to the first aspect of the present invention, wherein the circulation fan is disposed on the upper side of the ventilation fan and the air suction port of the circulation fan is disposed on the upper surface. An air path that passes from below one surface of the air purifying filter to above the other surface is formed.

  An air cleaning device according to a third aspect of the present invention is the air cleaning device according to the first or second aspect of the present invention, wherein the air cleaning device communicates with the circulation fan, and communicates with the circulation air outlet for blowing air into the room, and the ventilation fan. In addition, a panel portion having a ventilation suction port for sucking indoor air is provided, and the panel portion is characterized in that directions of the formation surface of the circulation outlet and the formation surface of the ventilation suction port are different.

  An air purifying device according to a fourth aspect of the present invention is the air purifying device according to the first, second or third aspect, wherein the air purifying filter is detachably mounted on the filter mounting portion and in the middle of the mounting and dismounting. A drop prevention member that prevents the air purifying filter from dropping is provided.

  The air purifying device according to claim 5 is the air purifying device according to claim 1, 2, 3 or 4, wherein the outside air communicates upstream of the circulation fan and the air purifying filter and takes in the outside air. A suction port is provided.

  The air purifying device of the invention according to claim 6 is the air purifying device of the invention according to claim 1, 2, 3, 4 or 5, wherein the air purifying operation is controlled by controlling the circulation fan, and ventilation is performed. Control means for controlling the fan to perform a ventilation operation, operation means independent of the apparatus main body, and environment detection means attached to the operation means for detecting the state of air at the installation location, the control means is the environment detection means The air purifying operation and the ventilating operation are performed according to the air condition detected in (1).

  The air purifier of the invention according to claim 7 is the air purifier of claim 1, 2, 3, 4, 5 or claim 6, wherein ions are generated in the air passage formed by the circulation fan. Means are provided.

  Moreover, the building of the invention which concerns on Claim 8 equips the ceiling with the air purifier in any one of Claim 1 thru | or 7. It is characterized by the above-mentioned.

  According to the air cleaning device of the present invention, the circulation fan and the ventilation fan are arranged one above the other and the air purification filter is vertically placed on the side of the circulation fan and the ventilation fan, so that the width of the entire device is reduced. can do.

  Thereby, the air purifying apparatus which has a ventilation function can be installed in the ceiling of the building where installation space is limited.

  In addition, the circulation fan is arranged on the upper side of the ventilation fan, and the air suction port of the circulation fan is arranged on the upper surface, so that air can be passed over the entire surface of the vertically installed air purification filter. Can be used effectively to reduce ventilation resistance.

  Furthermore, by arranging the circulation outlet that blows out the purified air into the room and the ventilation inlet that sucks in the room air for exhaust, the cleaned air blown out from the circulation outlet is placed in the ventilation inlet. The occurrence of a shortcut phenomenon that is sucked from the mouth can be prevented, and the efficiency of air cleaning can be improved.

  According to the building of the present invention, by providing the above-described air purifier, air can be purified while the room is ventilated, and the indoor air can be purified in a short time.

It is sectional drawing which shows an example of a structure of the air purifying apparatus of this Embodiment. It is a disassembled perspective view of the air purifying apparatus of this Embodiment. It is a top view of the air purifying apparatus of this Embodiment. It is a functional block diagram which shows an example of the control system of the air purifying apparatus of this Embodiment. It is an example of a table which shows the combination of the operation mode of the air purifying apparatus of this Embodiment, and operation | movement of each part. It is a block diagram which shows an example of a remote control apparatus. It is a block diagram which shows an example of the building of this Embodiment. It is a block diagram which shows the example of installation of an air purifying apparatus.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a building equipped with an air cleaning device and an air cleaning device of the present invention will be described with reference to the drawings.

<Configuration example of the air purifying device of the present embodiment>
FIG. 1 is a cross-sectional view showing an example of the configuration of an air cleaning device 1 according to the present embodiment, FIG. 2 is an exploded perspective view of the air cleaning device 1 according to the present embodiment, and FIG. 3 is an air cleaning device 1 according to the present embodiment. FIG. Here, FIG. 1A is a cross-sectional view taken along line AA in FIG. 3, and FIG. 1B is a cross-sectional view taken along line BB in FIG.

  The air purifying apparatus 1 according to the present embodiment includes a circulation fan 2 that takes in indoor air and outside air, supplies the taken air into the room, and a ventilation fan 3 that takes in the indoor air and exhausts the taken air to the outdoors. And an air purifying filter 4 for purifying outside air and indoor air taken in by the circulation fan 2.

  The circulation fan 2 is a multi-blade fan called a sirocco fan, and includes a multi-blade impeller 5, a circulation fan motor 6 that rotationally drives the impeller 5, and a circulation fan case 7 that forms an air passage. The shaft is attached to the main body case 1a with the vertical direction.

  The circulation fan case 7 communicates with a circulation suction port 7a formed by opening an upper surface along the axial direction of the impeller 5 and an air passage formed along the tangential direction of the impeller 5, and the main body case 1a. The circulation blower outlet 7b formed by opening the lower surface is provided.

  The ventilation fan 3 is a multi-blade fan called a sirocco fan, similar to the circulation fan 2, and includes a multi-blade impeller 9, a ventilation fan motor 10 that rotationally drives the impeller 9, and a ventilation fan that forms an air passage. A case 11 is provided, and is attached to the main body case 1a with the rotation axis in the vertical direction.

  The ventilation fan case 11 communicates with a ventilation suction port 11a formed by opening a lower surface along the axial direction of the impeller 9 and an air passage formed along the tangential direction of the impeller 9, and the main body case 1a. The ventilation blower outlet 11b formed by opening the side surface of is provided.

  The circulation fan 2 and the ventilation fan 3 are arranged so that the respective impellers almost overlap each other, and the circulation fan 2 is placed on top and bottom with the circulation fan 2 on the upper side. The ventilation suction port 11a of the ventilation fan 3 opens the lower surface of the main body case 1a. Formed.

  Further, a space is formed between the upper surface of the circulation fan case 7 of the circulation fan 2 and the ceiling surface of the main body case 1a, and the circulation suction opening 12 communicated with the circulation suction port 7a on the upper side of the circulation fan 2. Is formed.

  The circulation fan 2 includes an ion generator 8. The ion generator 8 constitutes an ion generating means, and is attached so that a discharge surface (not shown) for generating ions is exposed inside the circulation fan case 7, and ions are supplied into an air passage formed by the circulation fan case 7. Is done.

The ion generator 8 generates both positive ions and negative ions or negative ions. The principle of generation of positive ions and negative ions is that a corona discharge is caused by boosting and applying an AC voltage taken from a household AC power source or the like between a pair of electrodes opposed so as to interpose a dielectric, Oxygen or water in the air is ionized by receiving energy by ionization, and H ⁺ (H ₂ O) _m (m is an arbitrary natural number) and O ₂ ⁻ (H ₂ O) _n (n is an arbitrary natural number). The main ions are emitted.

These H ⁺ (H ₂ O) _m and O ₂ ⁻ (H ₂ O) _n adhere to the surface of the floating bacteria and chemically react to generate H ₂ O ₂ or .OH as an active species. Since H ₂ O ₂ or .OH exhibits a very strong activity, they can surround and inactivate airborne bacteria in the air. Here, .OH is one kind of active species, and represents radical OH.

  As a result, a positive / negative ion generation mode for generating approximately the same number of positive ions and negative ions is provided, and air that contains approximately the same number of positive ions and negative ions is blown to inactivate airborne bacteria in the air. Can be suppressed.

  Also, it has a negative ion generation mode that generates only negative ions or more negative ions than positive ions, and blowing out air containing negative ions has a relaxing effect such as stabilizing the mind and improving the function of the respiratory organs. It is said that there is.

  The main body case 1 a is formed with a filter attachment portion 13 on the sides of the circulation fan 2 and the ventilation fan 3. The filter attachment portion 13 is configured by a space that communicates with the circulation suction opening portion 12 and communicates with the attachment opening portion 14 formed on the lower surface of the main body case 1 a, and includes a guide member 15 that guides attachment / detachment of the air purification filter 4. .

  The guide member 15 includes a drop prevention claw portion 16 that supports the air purification filter 4 so as to be movable in the vertical direction and prevents the air purification filter 4 from falling off. The drop-off preventing claw portion 16 has flexibility and is configured to hold the air purification filter 4 in the middle of attachment / detachment and to be elastically deformed and retracted with the attachment / detachment of the air purification filter 4.

  The air purification filter 4 includes a panel member 20 on which a HEPA filter 17, a frame 18 to which the HEPA filter 17 is attached, and a circulation suction grille 19 are formed, and is detachably attached to the filter attachment portion 13.

  The HEPA (High Efficiency Particulate Air) filter 17 is formed by bending a sheet-like filter material into a bellows shape, and is intended to increase the surface area. And it attaches to the frame 18 by making a fold into a vertical direction.

  In the panel member 20, the HEPA filter 17 is vertically attached by the frame body 18, and a circulation suction grill 19 is formed on the lower side portion of the attachment position of the HEPA filter 17. Further, the panel member 20 includes a detachable lever 21 and a frame body 18 including a drop prevention protrusion 22.

  The detachable lever 21 is configured to be slidable by a user's operation, and when the air purification filter 4 is attached to the filter attachment portion 13, the detachable lever 21 is locked to prevent dropping and unlocked for detachment.

  The drop-off prevention protrusion 22 is formed by projecting a part of the frame 18, and a drop-off prevention member is formed by the drop-off prevention protrusion 22 on the air cleaning filter 4 side and the drop-off prevention claw portion 16 on the apparatus body 1 a side. The

  The air purification filter 4 is attached to the filter attachment portion 13 with the frame 18 guided by the guide member 15 of the filter attachment portion 13. In the middle of attachment / detachment of the air purification filter 4, the drop prevention protrusion 22 of the frame 18 is locked to the drop prevention claw portion 16 of the guide member 15, thereby preventing the air purification filter 4 from falling off. Further, when the force is applied in the direction of pulling out the air cleaning filter 4 from the state in which the drop prevention protrusion 22 of the frame 18 is locked to the drop prevention claw part 16 of the guide member 15, the drop prevention protrusion 22 is removed. The air purifying filter 4 can be attached and detached by elastically deforming the drop-off preventing claw portion 16 by pushing.

  When the air cleaning filter 4 is attached to the filter attachment portion 13, the panel member 20 closes the attachment opening 14, and air is taken into the filter attachment portion 13 from the circulation suction grille 19 of the panel member 20. Further, the HEPA filter 17 is placed vertically on the sides of the circulation fan 2 and the ventilation fan 3 so as to face the circulation suction opening 12.

  The main body case 1 a includes an intake duct attachment portion 23 that communicates with the circulation fan 2 via the filter attachment portion 13 on one side surface. Moreover, the main body case 1a includes an exhaust duct mounting portion 24 that communicates with the ventilation outlet 11b on the other side surface.

  The intake duct mounting portion 23 constitutes an outside air suction port and includes an outside air shielding damper 25. The outside air shielding damper 25 is opened and closed by being driven by, for example, a damper motor, which will be described later, and switches whether to take in outside air.

  Further, the exhaust duct mounting portion 24 includes a backflow prevention damper 26. The backflow prevention damper 26 is opened and closed by a damper motor, which will be described later, for example, and prevents backflow of outside air when the ventilation is stopped. The backflow prevention damper 26 may be a shutter that opens and closes by wind pressure without using a damper motor.

  A front panel 27 is attached to the lower surface of the main body case 1a. The front panel 27 constitutes a panel portion, a cover portion 28 that covers the lower surface of the ventilation suction port 11a of the ventilation fan 3, a ventilation suction opening portion 29 that is formed on the side surface of the cover portion 28 and communicates with the ventilation suction port 11a, A circulation blow grill 30 is formed in the cover portion 28 and communicated with the circulation blow outlet 7 b of the circulation fan 2.

  The ventilation suction opening 29 is formed in, for example, three directions other than the air passage formation portion of the circulation blow-out grill 30, and air is sucked in from the three directions indicated by arrows RA in FIG.

  The front panel 27 includes an opening 31 that communicates with the mounting opening 14 of the filter mounting portion 13. The front panel 27 is attached to the main body case 1 a and the air cleaning filter 4 is attached to the filter mounting portion 13. It can be attached and detached.

  In the air cleaning device 1 having the above-described configuration, as indicated by a two-dot chain line in FIG. 1A, the air is passed through the air suction filter 4 from the circulation suction grille 19 and the intake duct mounting portion 23, and is circulated from the circulation suction opening portion 12. A circulation air passage 32 communicating with the circulation blow grill 30 through the suction port 7a and the circulation fan case 7 is formed.

  In addition, by closing the outside air shielding damper 25 at the intake duct mounting portion 23, it is possible to form a circulation air path that only circulates indoor air without taking in outside air.

  Further, in the air cleaning device 1, as shown by a two-dot chain line in FIG. 1 (b), the ventilation air communicated from the ventilation suction opening 29 to the exhaust duct mounting portion 24 through the ventilation suction opening 11 a and the ventilation fan case 11. A path 33 is formed.

  In the front panel 27, a circulation blow grill 30 for blowing air from the circulation fan 2 is formed on the lower surface of the cover portion 28, and a ventilation suction opening 29 through which the ventilation fan 3 sucks air is provided by the circulation blow grill 30. It is formed on the side surface of the cover portion 28 that is one step higher. And the circulation blowing grill 30 and the ventilation suction opening 29 are not in communication and are not formed on the same plane. As a result, the so-called shortcut phenomenon in which the air blown out from the circulation blow-out grill 30 is directly sucked in from the ventilation suction opening 29 is prevented.

<Example of control function of the air purifier according to the present embodiment>
FIG. 4 is a functional block diagram showing an example of the control system of the air cleaning device 1 of the present embodiment. Next, the configuration of the control system of the air cleaning device 1 of the present embodiment will be described.

  The air cleaning device 1 includes a control unit 51 composed of a CPU or the like. The control unit 51 includes a remote control device 52, the circulation fan motor 6 described in FIG. 1 and the like, the ventilation fan motor 10, and an ion generator. 8 etc. are connected. Further, the control unit 51 is connected to a damper motor 25a that opens and closes the outside air shielding damper 25 shown in FIG. 1 and a damper motor 26a that drives the backflow prevention damper 26 to open and close.

  The remote control device 52 constitutes an operation means, and includes an operation unit 53 that receives a user's operation, a dust sensor 54 that detects dust, and an odor sensor 55 that detects odor as environment detection means. An environmental state such as the presence or absence of dust and odor in the installed room is detected at the place where the remote control device 52 is installed.

  The control unit 51 constitutes a control means, and as an operation mode of the air cleaning device 1 executed in accordance with the operation of the operation unit 53 of the remote control device 52, an automatic operation mode in which air cleaning and ventilation are linked, and air cleaning and ventilation. A manual operation mode for selectively performing is provided. In addition, an ion generation mode that links the air purification and the generation of ions is provided.

  In the automatic operation mode, the controller 51 controls the air volume by driving the circulation fan motor 6 and the ventilation fan motor 10 according to the outputs of the dust sensor 54 and the odor sensor 55 and the like. In the manual operation mode, the circulation fan motor 6 and the ventilation fan motor 10 are driven according to the user's operation to control the presence / absence of operation and the air volume.

  That is, the control unit 51 drives the circulation fan motor 6 in accordance with the selected operation mode, and performs control such as operation and stop of the circulation fan 2 and switching of the fan air volume during operation. Further, the ventilation fan motor 10 is driven to perform control such as operation and stop of the ventilation fan 3 and switching of the fan air volume during operation.

  Further, the control unit 51 controls the driving of the damper motor 25a to switch the presence / absence of external air supply. In addition, the damper motor 26a is driven to perform backflow prevention control when the ventilation fan 3 is stopped.

  In addition, the control unit 51 performs control to drive the ion generator 8 and switch whether or not ions are generated.

  FIG. 5 is an example of a table showing combinations of operation modes of the air cleaning device 1 and operations of the respective units. In addition, what is described in FIG. 5 as an operation mode of the air purification apparatus 1 is an example.

  The control unit 51 switches the fan air volume of the circulation fan 2 to, for example, four stages of “weak”, “medium”, “strong”, and “rapid”. It should be noted that the fan air volume is an example, and for example, a “weak” air volume may be selected from preset air volumes.

  Further, the control unit 51 switches the fan air volume of the ventilation fan 4 to, for example, two stages of “weak ventilation (24-hour ventilation)” and “strong ventilation”.

  FIG. 5A shows an example of the automatic operation mode. The control unit 51 determines the degree of indoor air contamination from the outputs of the dust sensor 54 and the odor sensor 55, and the circulation fan according to the degree of contamination. 2 and the example which controls the fan air volume of the ventilation fan 3 are shown.

  In the automatic operation mode shown in FIG. 5 (a), the dust and odor exceeding the predetermined detection level are not detected from the outputs of the dust sensor 54 and the odor sensor 55, and the indoor air is not contaminated. If it is determined, the operation is performed with the fan air volume of the circulation fan 2 set to “weak” and the fan air volume of the ventilation fan 3 set to “weak ventilation”.

  On the other hand, if it is determined from the outputs of the dust sensor 54 and the odor sensor 55 that the indoor air is more dirty than usual and the degree of contamination is weak, the fan air volume of the circulation fan 2 is set to “medium” and the ventilation fan The operation is performed with the fan air volume of 3 as “weak ventilation”.

  Furthermore, if it is determined from the outputs of the dust sensor 54 and the odor sensor 55 that the indoor air is more dirty than usual and the degree of dirt is strong, the fan air volume of the circulation fan 2 is set to “strong” and the ventilation fan The operation is performed with the fan air volume of 3 as “strong ventilation”.

  In the manual operation mode, the circulation fan 2 and the ventilation fan 3 are operated so that the fan air volume corresponding to the user's selection is obtained.

  FIGS. 5B and 5C show an example of controlling the air volume of the circulation fan 2 and the ventilation fan 3 according to the outputs of the dust sensor 54 and the odor sensor 55 as another example of the automatic operation mode.

  The output of the dust sensor 54 changes according to the amount of dust in the air. In this example, the dust detection level in the dust sensor 54 is set to three levels of “none”, “low”, and “high”. The output of the odor sensor 55 changes according to the strength of the odor in the air. In this example, the odor detection level in the odor sensor 55 is set to three levels of “none”, “small”, and “many”.

  And the control part 51 controls the air volume of the circulation fan 2 and the ventilation fan 3 according to the combination of the output of the dust sensor 54 according to the detection level of dust, and the output of the odor sensor 55 according to the detection level of smell. .

  For example, if the dust detection level in the dust sensor 54 is “none” and the odor detection level in the odor sensor 55 is “none”, the air volume of the circulation fan 2 is set to “weak” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “weak ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “none” and the odor detection level in the odor sensor 55 is “low”, the air volume of the circulation fan 2 is set to “medium” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “weak ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “none” and the odor detection level in the odor sensor 55 is “high”, the air volume of the circulation fan 2 is set to “strong” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “strong ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “low” and the odor detection level in the odor sensor 55 is “none”, the air volume of the circulation fan 2 is set to “medium” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “weak ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “low” and the odor detection level in the odor sensor 55 is “low”, the air volume of the circulation fan 2 is set to “medium” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “weak ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “low” and the odor detection level in the odor sensor 55 is “high”, the air volume of the circulation fan 2 is set to “strong” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “strong ventilation” as shown in FIG.

  Further, if the dust detection level in the dust sensor 54 is “high” and the odor detection level in the odor sensor 55 is “none”, the air volume of the circulation fan 2 is set to “strong” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “strong ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “high” and the odor detection level in the odor sensor 55 is “low”, the air volume of the circulation fan 2 is set to “strong” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “strong ventilation” as shown in FIG.

  When the dust detection level in the dust sensor 54 is “high” and the odor detection level in the odor sensor 55 is “high”, the air volume of the circulation fan 2 is set to “strong” as shown in FIG. The operation is performed with the air volume of the ventilation fan 3 as “strong ventilation” as shown in FIG.

  In the manual operation mode, for example, the circulation fan 2 and the ventilation fan 3 are operated by a combination of the operations shown in FIG. 5A so that the fan air volume according to the user's selection can be obtained.

  FIG. 6 is a block diagram showing an example of the remote control device 52. The remote control device 52 includes an automatic operation mode button 56 for selecting an automatic operation mode, and a lamp 56a indicating that the automatic operation mode is selected.

  In addition, the remote control device 52 includes a 24-hour ventilation operation mode button 57 for selecting the 24-hour ventilation operation mode as the manual operation mode, and a lamp 57a indicating that the 24-hour ventilation operation mode has been selected as the manual operation mode.

  Further, the remote control device 52 includes a ventilation operation mode button 58 for selecting the ventilation operation mode as the manual operation mode, and a lamp 58a indicating that the ventilation operation mode is selected as the manual operation mode.

  Here, in the ventilation operation mode, the fan air volume is set to be selectable, and a plurality of lamps 58a are provided according to the selectable fan air volume so that the selected fan air volume can be identified. In this example, two types of lamps 58a, “weak” and “strong”, are provided as the fan air volume.

  The remote control device 52 includes an air cleaning operation mode button 59 for selecting the air cleaning operation mode as the manual operation mode, and a lamp 59a indicating that the air cleaning operation mode is selected as the manual operation mode.

  Here, in the air cleaning operation mode, the fan air volume is set to be selectable, and a plurality of lamps 59a are provided according to the selectable fan air volume so that the selected fan air volume can be identified. In this example, four types of lamps 59a of “weak”, “medium”, “strong”, and “rapid” are provided as the fan air volume.

  Further, the remote control device 52 includes an ion operation mode button 60 for selecting an ion operation mode, and a lamp 60a indicating that the ion operation mode is selected.

  Further, the remote control device 52 includes a dust sensor air inlet 61 that takes air into a detection position of the dust sensor 54 shown in FIG. 4 and a dust sensor air outlet 62 that exhausts air that has passed through the dust sensor 54.

  Further, the dust sensor 54 uses an optical sensor and includes a dust sensor cleaning port 63 so that the lens can be cleaned. The dust sensor cleaning port 63 is configured by a door that can be opened and closed, and when cleaning the dust sensor 54, the door can be opened for cleaning.

  Further, the remote control device 52 includes a detection port 64 of the odor sensor 55 shown in FIG.

  The remote control device 52 and the air cleaning device 1 are connected by an electric cable in this example, but a modular cable used for a telephone line is used as the cable. This makes it easy to obtain a cable having a desired length and facilitates construction.

<Example of building structure>
FIG. 7 is a configuration diagram showing an example of a building 70 of the present embodiment in which the air purifying device 1 is installed. In the building 70, the air cleaning device 1 is installed on the ceiling 72 of the living room 71. In the air cleaning device 1, the front panel 27 is exposed to the ceiling 72, and the cleaned air SA is supplied to the living room 71 from the circulation blow grill 30 shown in FIG. The air RA is inhaled. Further, the air RA in the living room 71 is sucked from the circulation suction grill 19.

  In the building 70, an intake grill 73 and an exhaust grill 74 are attached to the outer wall. In the air cleaning device 1, the intake duct mounting portion 23 shown in FIG. 1 is connected to the intake grill 73 via the intake duct 75 and sucks the outside air OA. Further, the exhaust duct mounting portion 24 is connected to the exhaust grill 74 via the exhaust duct 76 and exhausts the sucked indoor air as exhaust EA.

  The remote control device 52 of the air cleaning device 1 is attached to the wall surface of the living room 71 where the air cleaning device 1 is installed, and the state of the air in the living room 71 is changed by the dust sensor 54 and the odor sensor 55 shown in FIG. To detect.

  Note that the building 70 includes, for example, a bathroom drying ventilation device 78 having a 24-hour ventilation function in the bathroom 77. The entire building 70 is ventilated by the bathroom drying ventilation device 78, and the ventilation of the living room 71 is air-cleaned. The apparatus 1 is used as an auxiliary.

  The bathroom drying ventilation device 78 includes an air inlet and an outlet on the front panel 79. The bathroom drying ventilation device 78 is connected to the bathroom 77 through a suction port 81 and a suction duct 82 attached to the ceiling of a washroom 80 adjacent to the bathroom 77, and is also connected to an exhaust grill 83 and an exhaust duct attached to the outer wall. 84 is connected.

  The bathroom drying ventilation device 78 has a circulating air blowing function that sucks air in the bathroom 77 and blows it out into the bathroom 77 as air blowing, and a circulation heating function that blows out air as hot air. Moreover, the ventilation function which inhales the air in the bathroom 77 and exhausts it outdoors is provided.

  When ventilation is performed by the bathroom drying ventilation device 78, air is sucked from the bathroom 77 and the washroom 80, and the air in the living room 71 is sucked from the undercut portion 86 of the door 85 and exhausted to the outside. And the bathroom drying ventilation apparatus 78 is equipped with the ventilation air volume which satisfy | fills the predetermined frequency | count of ventilation for performing ventilation for 24 hours in the whole building 70. FIG.

<Installation example of air purifier>
FIG. 8 is a configuration diagram showing an installation example of the air cleaning device 1. The air purifying apparatus 1 is fixed by a ceiling bracket or the like (not shown) in a form in which the apparatus main body 1a is inserted into an opening 87a formed in a ceiling panel 87 of a building and the front panel 27 is exposed from the ceiling panel 87.

  Now, the beam 88 and the edge 89 are provided in the ceiling back of a building, and the installation space of the air purifying apparatus 1 becomes a space between the beams 88. That is, if the width of the apparatus main body 1a of the air cleaning apparatus 1 is W1 and the dimension between the beams 88 is W2, it is necessary that W1 <W2.

  Further, in the structure having the upper floor, if the height H1 of the apparatus main body 1a of the air cleaning device 1 and the dimension from the ceiling panel 87 to the floor material 90 of the upper floor are H2, it is necessary that H1 <H2.

  In the air purifying apparatus 1 according to the present embodiment, as shown in FIG. 1, the circulation fan 2 and the ventilation fan 3 are arranged one above the other so that the comparison is made with the case where the circulation fan 2 and the ventilation fan 3 are arranged side by side. Thus, the width W1 of the apparatus main body 1a can be kept short. In addition, since the air purification filter 4 also has the HEPA filter 17 placed vertically, the width of the apparatus main body 1a can be reduced compared to the case where the filter is placed horizontally.

  Thereby, as shown in FIG. 8, even if the space | interval of the beam 88 of a ceiling back is narrow, the air purifying apparatus 1 can be installed. Specifically, while the distance between the beams 88 is about 45 cm, the width of the device main body 1a of the air cleaning device 1 can be kept to about 40 cm.

  In addition, since the fans are stacked in the form of being laid sideways by setting the rotation axis to the vertical orientation, the height dimension can be kept short. Specifically, the height of the back of the ceiling is about 23 cm. On the other hand, the height of the apparatus main body 1a could be kept to about 20 cm.

<Operation example of air purifier>
Next, the operation of the air cleaning device 1 will be described with reference to the drawings. When, for example, the automatic operation mode button 56 is pressed by the remote control device 52 shown in FIG. 6, the control unit 51 shown in FIG. 4 determines that the automatic operation mode is selected and turns on the lamp 56 a of the remote control device 52. . Further, the control unit 51 drives the circulating fan motor 6 and the like so as to obtain a predetermined air volume according to the table shown in FIG. 5 and executes an air cleaning operation, and the ventilation fan motor 10 so as to obtain a predetermined air quantity. Etc. to drive the ventilation operation.

  In the air cleaning operation, the outside air blocking damper 25 is opened by the damper motor 25a. In the air cleaning device 1, when the circulation fan 2 is driven by the rotation of the circulation fan motor 6, outside air is sucked through the intake duct 75 from the intake grill 73 shown in FIG. 7. In addition, indoor air is sucked from the circulation suction grille 19.

  The outside air and the room air sucked in by the circulation fan 2 pass through the HEPA filter 17 of the air purification filter 4. Here, the air sucked by the circulation fan 2 is sucked from the circulation suction opening 12 on the upper side of the circulation fan 2 located at the upper part of the apparatus main body 1a. Further, the circulation suction grille 19 is formed at the lower side portion of the HEPA filter 17.

  As a result, as indicated by a two-dot chain line in FIG. 1A, an air flow that obliquely crosses the HEPA filter 17 from below is generated, and air can be passed through the entire surface of the HEPA filter 17.

  The air that has passed through the HEPA filter 17 and is purified is sucked from the circulation inlet 7 a of the circulation fan case 7, passes through the circulation fan case 7, and circulates through the front panel 27 via the circulation outlet 7 b of the circulation fan case 7. Blow out from the blowout grill 30.

  Thereby, in the air cleaning operation, the outside air and the indoor air can be cleaned and blown out into the room. In the air cleaning operation, by closing the outside air shielding damper 25, it is also possible to perform air cleaning by circulating only indoor air without taking in outside air.

  In the ventilation operation, the backflow prevention damper 26 is opened by the damper motor 26a. When the ventilation fan 3 is driven by the rotation of the ventilation fan motor 10, the air cleaning device 1 sucks indoor air from the ventilation suction opening 29 of the front panel 27. The air sucked from the ventilation suction opening 29 is sucked from the ventilation suction port 11 a of the ventilation fan case 11, passes through the ventilation fan case 11, and is attached to the exhaust duct mounting part 24 from the ventilation outlet 11 b of the ventilation fan case 11. The air is exhausted from the exhaust grill 74 to the outside through the exhaust duct 76.

  Thereby, in ventilation operation | movement, indoor air can be exhausted outdoors.

  Therefore, in the automatic operation mode, outside air and indoor air are taken in by the circulation fan 2, cleaned by the air cleaning filter 4 and supplied to the room, and indoor air is sucked by the ventilation fan 3 and exhausted to the outdoors. The room is ventilated while air is being purified.

  Here, as described above, in the front panel 27, the circulation blowing grill 30 and the ventilation suction opening 29 are not formed on the same surface. As a result, it is possible to prevent the so-called shortcut phenomenon in which the purified air blown out from the circulation blowout grill 30 is directly sucked and exhausted from the ventilation suction opening 29, and the efficiency of air purification can be prevented from being lowered.

  Further, with respect to the HEPA filter 17 placed vertically, the air intake port is on the lower side portion, and the air suction port by the circulation fan 2 is on the upper side portion, so that the HEPA filter 17 is moved upward from below. An air flow that crosses diagonally can be generated. Thereby, the entire surface of the HEPA filter 17 is effectively utilized, and the ventilation resistance can be reduced. By reducing the ventilation resistance, the circulating air volume can be secured without increasing the fan air volume, and the supply amount of purified air can be secured. Further, since there is no need to increase the fan air volume, noise reduction can be achieved.

  In the automatic operation mode, the state of indoor air is detected by the dust sensor 54 and the odor sensor 55, and the fan air volume is controlled in accordance with, for example, the table of FIG. For example, when the indoor air detected by the dust sensor 54 and the odor sensor 55 is less than a predetermined value and the indoor air state is determined to be normal, the control unit 51 determines the fan air volume of the circulation fan 2. The operation is performed with “weak” and the fan air volume of the ventilation fan 3 as “weak ventilation”. When the indoor air is less than a predetermined value, the fan air volume can be kept low to reduce the fan speed and achieve a silent operation.

  In addition, when it is determined from the outputs of the dust sensor 54 and the odor sensor 55 that the indoor air is more dirty than usual and the degree of dirt is weak, the control unit 51 sets the fan air volume of the circulation fan 2 to “medium”. And the fan air volume of the ventilation fan 3 is set to “weak ventilation”. When the indoor air is somewhat dirty, increasing the fan air volume of the circulation fan 2 can promote air purification and remove the dirt in a short time.

  Further, when it is determined from the outputs of the dust sensor 54 and the odor sensor 55 that the indoor air is more dirty than usual and the degree of dirt is strong, the control unit 51 sets the fan air volume of the circulation fan 2 to “strong”. And the fan air volume of the ventilation fan 3 is set to “strong ventilation”. When the degree of indoor air contamination is strong, the air flow is further promoted by further increasing the fan air volume of the circulation fan 2. In addition, the indoor air can be replaced in a short time by increasing the fan air volume of the ventilation fan 3. Thereby, the indoor air dirt can be removed in a short time.

  In this operation example, the air state is determined from the outputs of both the dust sensor 54 and the odor sensor 55. However, as shown in FIGS. 5 (b) and 5 (c), the dust sensor 54 and the odor The air state may be detected by each of the sensors 55, and the fan air volume may be controlled according to the output of each sensor. Moreover, you may utilize another sensor as a sensor which detects the state of air.

  Here, even if the combination of the sensor outputs and the fan air volume shown in FIGS. 5B and 5C is low in both dust and odor, the fan air volume of the circulation fan 2 and the ventilation fan 3 can be kept low. Silent operation can be realized.

  Further, by increasing the fan air volume of the circulation fan 2 as the dust increases, air cleaning can be promoted and dirt (dust etc.) can be removed in a short time. Furthermore, the indoor air is replaced in a short time by increasing the fan air volume of the ventilation fan 3 as the odor increases. Thereby, the smell of indoor air can also be removed in a short time.

  When the ion operation mode button 60 is pressed by the remote control device 52 shown in FIG. 6 in the automatic operation mode described above, the control unit 51 shown in FIG. 4 determines that the ion operation mode is selected, and the remote control device 52 The lamp 60a is turned on. In addition, the control unit 51 drives the ion generator 8 to generate approximately the same number of positive ions and negative ions.

  When positive ions and negative ions are generated by the ion generator 8, both positive ions and negative ions are released into the circulation fan case 7. As a result, by linking the automatic operation mode and the ion operation mode, purified air containing positive ions and negative ions is supplied from the circulation blow grill 30 into the room by the air flow by the circulation fan 2.

  Therefore, by interlocking the automatic operation mode and the ion operation mode, in addition to air purification, the airborne bacteria in the air can be inactivated, and generation of mold and the like can be suppressed. In this example, the ion generator 8 generates both positive ions and negative ions as the ion operation mode. However, an operation mode in which negative ions are generated may be selected. By linking the automatic operation mode and the ion operation mode for generating negative ions, it is possible to supply clean air containing negative ions from the circulation grill 30 into the room.

  In the manual operation mode, an air cleaning operation or a ventilation operation is performed according to the operation of the remote control device 52 by the user. In the manual operation mode, each fan motor is driven so that the fan air volume selected by the user can be obtained. In addition, when only ventilation operation is performed, indoor air cleaning is not performed. In the manual operation mode, the ion generation mode is linked with the air cleaning operation.

  Next, the operation of replacing the air cleaning filter will be described. The air cleaning filter 4 needs to be periodically replaced, and can be replaced by the user. When replacing the air purification filter 4, the user operates the detachable lever 21 shown in FIGS. 2 and 3 to release the lock of the air purification filter 4 on the apparatus main body 1a.

  When the lock of the detachable lever 21 is released, the air cleaning filter 4 can be pulled out downward. When the air cleaning filter 4 is pulled downward, the drop-off preventing protrusion 22 of the frame 18 is locked to the drop-off preventing claw portion 16 of the guide member 15 on the apparatus main body 1a. This prevents the air purification filter 4 from falling off when the hand is released from the air purification filter 4.

  Further, when pulling out the air purification filter 4 from the state in which the drop prevention protrusion 22 of the frame 18 is locked to the drop prevention claw portion 16 of the guide member 15, if the force is applied in the direction of pulling out the air purification filter 4, The prevention protrusion 22 pushes the drop-off prevention claw part 16 and elastically deforms the drop-off prevention claw part 16 to be retracted. Thereby, the air purification filter 4 can be removed.

  When the air purification filter 4 is attached, the air purification filter 4 is pushed up and inserted in a predetermined direction from the opening 31 of the front panel 27. During the insertion, the drop-off prevention protrusion 22 of the frame body 18 abuts against the drop-off prevention claw part 16 of the guide member 15, but when a force is applied in the direction of pushing up the air cleaning filter 4, the drop-off prevention protrusion 22 pushes the drop prevention claw part 16. By pushing, the drop prevention claw portion 16 is elastically deformed and retracted. Thereby, insertion of the air purifying filter 4 is attained. And the air purifying filter 4 is attached to the apparatus main body 1a by pushing up the air purifying filter 4 to a predetermined position and operating the detachable lever 21 to lock.

  The present invention is applied to an air purifier having a ventilation function installed on the ceiling of a living room.

  DESCRIPTION OF SYMBOLS 1 ... Air purification apparatus, 1a ... Main body case, 2 ... Circulation fan, 3 ... Ventilation fan, 4 ... Air purification filter, 5 ... Impeller, 6 ... Circulation fan Motor 7. Circulating fan case 7 a Circulating inlet 7 b Circulating outlet 8 Ion generator 9 Impeller 10 Ventilation fan motor 11 ... Ventilation fan case, 11a ... Ventilation suction port, 11b ... Ventilation outlet, 12 ... Circulation suction opening, 13 ... Filter mounting part, 14 ... Mounting opening, 15. ..Guide member, 16 ... Falling prevention claw, 17 ... HEPA filter, 18 ... Frame, 19 ... Circulating suction grill, 20 ... Panel member, 21 ... Removable lever, 22 ... Drop-off prevention protrusion, 23 ... Intake duct mounting part, 24 ... Exhaust duct Mounting part, 25 ... outside air shielding damper, 26 ... backflow prevention damper, 27 ... front panel, 28 ... cover part, 29 ... ventilation suction opening, 30 ... circulation blowout grill , 31 ... opening, 32 ... circulation air path, 33 ... ventilation air path

Claims (8)

A circulation fan that takes in indoor air and supplies the taken air into the room;
A ventilation fan that takes in indoor air and exhausts the taken air to the outdoors;
An air purifying filter for purifying the air taken in by the circulation fan,
The circulation fan and the ventilation fan are arranged so as to be vertically stacked with the rotation axis as a vertical orientation,
The air purifying apparatus, wherein the air purifying filter is placed vertically on a side of the circulation fan and the ventilation fan. The circulation fan is disposed on the upper side of the ventilation fan, and the air suction port of the circulation fan is disposed on the upper surface, and an air path that passes from below one surface of the air cleaning filter to above the other surface. The air cleaning device according to claim 1, wherein the air cleaning device is formed. A panel portion having a circulation outlet that communicates with the circulation fan and blows air into the room, and a ventilation suction port that communicates with the ventilation fan and sucks indoor air,
The air purifier according to claim 1 or 2, wherein the panel portion has different orientations of a formation surface of the circulation outlet and a formation surface of the ventilation suction port. A filter mounting portion on which the air purifying filter is detachably mounted;
The air purifier according to claim 1, 2 or 3, further comprising a drop-off preventing member that prevents the air purifier filter from dropping during attachment and detachment. The air purifier according to claim 1, 2, 3, or 4, further comprising an outside air intake port that communicates upstream of the circulation fan and the air purifying filter and takes in outside air. Control means for controlling the circulation fan to perform an air cleaning operation, and controlling the ventilation fan to perform a ventilation operation;
Operation means independent of the device body;
An environment detection unit that is attached to the operation unit and detects the state of air at the installation location,
The air cleaning device according to claim 1, 2, 3, 4, or 5, wherein the control means performs an air cleaning operation and a ventilation operation in accordance with an air state detected by the environment detection means. The air purifier according to claim 1, 2, 3, 4, 5 or 6, further comprising ion generating means in an air passage formed by the circulation fan. A building comprising the air purifier according to any one of claims 1 to 7 on a ceiling.

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