JP2011069563A - Interior panel device including air blowing function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an interior panel device including an air blowing function capable of reducing effects of discharge noise of an electrostatic atomizer on an indoor space and reducing an ozone concentration of air emitted to the indoor space. <P>SOLUTION: The interior panel device 1 including the air blowing function has: an inner air blowing passage 2 provided in a panel interior space; a pair of ventilation openings communicated via the inner air blowing passage 2, opened on the panel surface and constituting an air suction port 4 and an air exhaust port 3; an air blowing means 5; and the electrostatic atomizer 40 installed in an inner space near one side part of the air exhaust port 3 and discharging charged microparticle water toward a direction intersecting with the air current direction of air made to flow in the inner air blowing passage 2. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to an interior panel device having a blowing function.

Conventionally, a blower has been used to prevent stagnation of indoor air or to stir indoor air in which a temperature distribution is generated by air conditioning or the like.
As such a blower, a fan type fan is known which is arranged indoors. However, such a fan has a problem that the indoor space cannot be effectively used.
In the following Patent Document 1, a partition having a blowing function is proposed, and this partition communicates with an air passage provided inside the partition via the air passage and is opened to the surface of the partition. And an exhaust port and a line flow fan provided as a blowing means in the air passage. According to this, the air in the space partitioned by the partition can be circulated and agitated, and since it is a panel-shaped partition, the indoor space can be effectively utilized.

JP-A-6-307707 (see FIG. 1)

By the way, in recent years, by applying a high voltage between the discharge electrode (atomization electrode) and the counter electrode, the water held by the discharge electrode is atomized, thereby charging the nanometer-sized charged fine particle water. Producing electrostatic atomizers have been proposed.
Such an electrostatic atomizer may generate a discharge sound during discharge and may generate ozone as a by-product. The electrostatic atomizer is incorporated into a blower installed in a room as described above. Therefore, it is desired to reduce the influence of these discharge sounds and the concentration of ozone.

  The present invention has been made in view of the above circumstances, and is capable of reducing the influence of the discharge sound of the electrostatic atomizer on the indoor space and reducing the ozone concentration of the air released into the indoor space. The object is to provide an interior panel device with a door.

  In order to achieve the above object, an interior panel device with an air blowing function according to the present invention communicates with an internal air passage provided in a panel internal space via the internal air passage, opens to the panel surface, and is an intake port. And a pair of ventilation openings constituting the air outlet, the air blowing means, and an inner space in the vicinity of one side of the air outlet, and intersecting the air flow direction of the air flowing through the internal air passage And an electrostatic atomizer that discharges charged fine particle water in the direction.

By setting it as such a structure, the indoor air taken in from the inlet port can be ventilated via an internal ventilation path, and it can discharge | emit it toward a room | chamber interior from an exhaust port. Therefore, indoor air can be circulated and agitated by installing the interior panel device with a blowing function in a suitable place in the room.
In addition, since the electrostatic atomizer is provided, the charged fine particle water can be discharged into the indoor space by being put on the air flow discharged from the exhaust port into the room as described above.
Furthermore, an electrostatic atomizer is installed in the inner space near one side of the exhaust port, and the electrostatic atomizer is directed from the electrostatic atomizer in a direction intersecting the airflow direction of the air flowing through the internal air passage. For example, compared to the case where an electrostatic atomizer is installed to discharge charged fine particle water directly from the panel surface, the indoor space of the discharge sound generated at the time of discharge is reduced. The influence on can be reduced. Also, when ozone is generated during discharge, the ozone is diluted by the air blown through the internal air passage, so that the ozone concentration of the air released from the exhaust port to the indoor space should be relatively small. Can do.

In the present invention, the exhaust port is provided with a louver made of a plurality of slats, and each slat of the louver has a substantially straight shape along the blowing direction, and the width along the blowing direction of each of these slats. It is good also considering a dimension as 5 mm or more and 15 mm or less.
If it is set as such a structure, the penetration | invasion of the foreign material into an internal ventilation path can be prevented with a louver.
In addition, by configuring each louver of the louver as described above, the charged fine particle water discharged from the electrostatic atomizer and released into the indoor space while being discharged from the electrostatic atomizer while ensuring a suitable rectifying effect by the louver. The louver interference with respect to can be reduced.

  The interior panel device with a blowing function according to the present invention is configured as described above, so that it is possible to reduce the influence of the discharge sound of the electrostatic atomizer on the indoor space and to be released into the indoor space. The ozone concentration of air can be reduced.

(A), (b) shows typically one Embodiment of the interior panel apparatus with a ventilation function which concerns on this invention, (a) is a schematic whole perspective view of the interior panel apparatus, (b) is FIG. 2 is a partially exploded schematic perspective view of the interior panel device. It is a schematic front view which expands and shows the exhaust-port vicinity of the interior panel apparatus. (A) is the schematic longitudinal cross-sectional view made to respond | correspond to the XX arrow in FIG. 1 (a), (b) And (c) is explanatory drawing for demonstrating opening / closing operation | movement of an opening / closing door. It is the figure which showed typically other embodiment of the interior panel apparatus with a ventilation function which concerns on this invention, and was made to respond | correspond to Fig.3 (a).

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to 3 show an interior panel device with a sending function according to the first embodiment. In this embodiment, the interior panel device with a blowing function is shown in FIGS. 1 (a) and 3 (a). Thus, the vertically long and flat rectangular wall panel 1 installed vertically along the wall surface W is illustrated.
This wall panel 1 communicates with an internal air passage 2 provided in the panel internal space via the internal air passage 2 and opens to the surface of the panel to form an exhaust port and an air intake port. 3 and 4 and a sirocco fan 5 as a blowing means.

In the present embodiment, the pair of ventilation openings 3 and 4 are formed to be separated from each other in the vertical direction of the wall panel 1. The exhaust port 3 is provided on the upper end side, and the intake port 4 is provided on the lower end side. It is an aspect.
The wall panel 1 includes an intermediate portion 30 that is long in the vertical direction, and an upper outer portion 10 and a lower outer portion 20 that are connected to the upper and lower portions of the intermediate portion 30, respectively. A path 2 is formed.

As shown in FIG. 1, the intermediate portion 30 opens forward and vertically, and has a duct member 7 formed in the shape of a vertically long concave groove, and a vertically long rectangular plate-like front plate 6 that closes the front opening of the duct member 7. And. An operation section 9 for performing ON / OFF operation of the sirocco fan 5 and air volume adjustment is provided at a substantially intermediate portion in the longitudinal direction of the front plate 6 and closer to one long side.
As shown in FIG. 1 (b), the intermediate portion 30 is fixed to the rear surface of the front plate 6 by attaching mounting pieces 7 a and 7 a projecting outward from the front end portions of both side walls of the duct member 7. It is made into the hollow substantially square cylinder shape assembled | attached and opened up and down, and a part of internal blower path 2 is divided and formed by the inner peripheral wall 30a.
In addition, the front plate 6 is formed so that the vertical length and the horizontal width are larger than those of the duct member 7. When these are assembled, the vertical and horizontal ends of the front plate 6 are higher than the vertical and horizontal ends of the duct member 7. Are also assembled to extend in the vertical and horizontal directions.

As shown in FIGS. 1 and 3A, the lower outer portion 20 opens forward and upward, and houses a casing 21 that houses the sirocco fan 5 and the like, and a front cover that closes the front opening of the casing 21. 22 and the front cover 22 is provided with an intake port 4 formed in a horizontally-long rectangular shape. The lower outer portion 20 has a hollow shape in which the intake port 4 communicates with the upper opening, and a part of the internal air passage 2 is defined by the inner peripheral wall 20a.
Further, in a state in which the casing 21 and the front cover 22 are assembled to form the lower outer portion 20, the front side portion has a shape corresponding to the width and thickness of the front plate 6 of the intermediate portion 30 described above. And the back side part is made into the shape according to the horizontal width and front-back thickness of the duct member 7 of the above-mentioned intermediate part 30. FIG. That is, the front side part has the extension parts 26 and 26 (refer FIG.1 (b)) extended to the left and right rather than the back side part similarly to the right-and-left end part which the front plate 6 extended above. Yes. The back side portion is shaped to protrude upward from the front side portion. The upper opening on the rear side and the lower opening on the intermediate part 30 are connected in communication, and the rear surface of the lower end portion of the front plate 6 extended on the front surface of the protruding part on the rear side. Is abutted.

In addition, the above-described intake port 4 is provided with a louver 23 configured by arranging a plurality of blades in parallel.
As shown in FIG. 3A, the filter 24, the fan cover 25, and the sirocco fan 5 are arranged in this order on the back side of the intake port 4 toward the back side.
The filter 24 may be an activated carbon filter having dust capturing property and deodorizing property.
A plurality of sirocco fans 5 are installed in the left-right direction according to the width of the wall panel 1 (substantially the groove width of the duct member 7). It is set as the structure discharged toward the internal space of the intermediate part 30. FIG.
In the fan cover 25, a communication hole 25 a for communicating the intake port 4 and the suction portion of the sirocco fan 5 is formed in a portion corresponding to the suction portion of the sirocco fan 5.
Note that the lower outer portion 20 has a structure in which the front cover 22 can be easily attached to and detached from the casing 21, and the front cover 22 is detached by replacement of the filter 24 in the interior or maintenance of the sirocco fan 5. This is possible.

  As shown in FIG. 1 and FIG. 3A, the upper outer shell portion 10 has a casing shape that is generally inverted from the lower outer shell portion 20 up and down, and opens forward and downward. And a front cover 12 that closes the front opening of the casing 11, and a cover 17 that is disposed so as to cover a part of the horizontally long rectangular exhaust port 3 formed in the front cover 12.

The upper outer portion 10 has a hollow shape in which the exhaust port 3 communicates with the lower opening, and a part of the internal air passage 2 is defined by the inner peripheral wall 10a.
Further, in a state where the casing 11, the front cover 12 and the cover 17 are assembled to form the upper outer portion 10, the front side portion is the width of the front plate 6 of the intermediate portion 30, similar to the lower outer portion 20 described above. The rear side portion is shaped according to the lateral width and front / rear thickness of the duct member 7 of the intermediate portion 30, as with the lower outer portion 20, and is formed on both sides of the front side portion. Are extended portions 13 and 13. The back side portion is shaped to protrude downward from the front side portion. The lower opening of the back side and the upper opening of the intermediate part 30 are connected in communication, and the back of the upper end portion of the front plate 6 extended to the front of the protruding portion of the back side. Is abutted.

As shown in FIG. 2, a louver 18 composed of a plurality of slats forming the exhaust port 3 is provided at the central portion of the cover 17 of the upper outer portion 10. Cover portions 17a and 17a for partitioning the inner space are provided. An electrostatic atomizing device 40 that discharges charged fine particle water is provided on the back side of one of these cover portions 17a (the right-side cover portion 17a in the illustrated example). That is, in this embodiment, the electrostatic atomizer 40 is located in the vicinity of one side portion (right side portion in the example) of the exhaust port 3 formed by the louver 18 provided in the cover 17 in the upper outer portion 10. It is set in the direction space, and it is set as the structure by which the front side was covered with one cover part 17a.
In the illustrated example, from the viewpoint of design, the cover portions 17a and 17a are provided on the left and right sides of the central portion where the louvers 18 are provided so as to be symmetric, but only one cover portion is provided. And the electrostatic atomizer 40 may be installed on the back side.

As shown in FIGS. 2 and 3A, the electrostatic atomizer 40 is disposed so as to face a pin-shaped discharge electrode (atomization electrode) 43 and the discharge electrode 43, and is coaxial with the discharge electrode 43. And a counter electrode 44 having a ring shape and a ring shape. The electrostatic atomizer 40 generates a discharge phenomenon by applying a high voltage between the discharge electrode 43 and the counter electrode 44, and electrostatically atomizes water held in the discharge electrode 43. Thus, the charged fine particle water is discharged from between the electrodes.
The charged fine particle water is a charged fine particle droplet including a nanometer-sized particle diameter (for example, about 5 nm to 20 nm), and can float in the air in a mist state.

As means for retaining moisture in the discharge electrode 43, moisture (water vapor) contained in the air around the discharge electrode 43 is obtained by cooling the discharge electrode 43 by the cooling means 42 provided continuously at the base end portion of the discharge electrode 43. ) May be condensed and held on the surface of the discharge electrode 43.
As this cooling means 42, it is good also as a Peltier device etc., for example. In this case, the base end portion of the discharge electrode 43 is connected to the cooling surface of the Peltier element 42 via an electrical insulating material, and the heat dissipation portion 41 made of heat dissipation fins is connected to the heat dissipation surface of the Peltier element 42. You may do it.
Alternatively, instead of the above-described embodiment, the discharge electrode is formed of a porous body such as porous ceramic, and a liquid supply unit that stores liquid is connected to the base end portion of the discharge electrode. The liquid may be sucked up by the capillary action of the discharge electrode so that the water is retained at the tip.

The electrostatic atomizer 40 configured as described above is installed such that the opening as the charged fine particle water discharge port of the counter electrode 44 formed so as to surround the discharge electrode 43 opens toward the internal air passage 2. The charged fine particle water is discharged in a direction intersecting the air flow direction of the air blown through the internal air passage 2.
In this embodiment, as shown in FIG. 2 and FIG. 3A, the charged fine particle water discharge direction of the electrostatic atomizer 40 and the airflow direction of the air blown through the internal air passage 2 are orthogonal to each other. The electrostatic atomizer 40 is installed in the inner space of the upper outer shell 10. That is, from the discharge port of the electrostatic atomizer 40 installed on the back side of one cover portion 17a of the cover 17, the charged fine particles are arranged along the back surface of the louver 18 in which the exhaust port 3 is formed between the blades. Water is discharged, and the discharged charged fine particle water is discharged into the indoor space from the exhaust port 3 along with the airflow of the internal air passage 2 that is blown in a direction orthogonal to the discharge direction.

  The cover 17 has a structure that can be easily attached to and detached from the front cover 12 or the casing 11. Maintenance of the electrostatic atomizer 40 installed in the inner space of the cover 17 causes the cover 17 to be detached. It is possible with. Alternatively, the cover 17 and the front cover 12 or the casing 11 may be integrally formed, and an opening / closing lid for maintenance or the like may be provided in a portion corresponding to the cover portion 17a.

The upper shell 10 is provided with a pivotable opening / closing door 15 for opening and closing the exhaust port 3, and the cover 17 is opened and closed as shown in FIGS. 1 (b) and 3 (c). It is provided so as to be located on the back side of the open / close door 15 in the closed state of the door 15.
As shown in FIG. 3, the opening / closing door 15 has a structure in which the support shaft 16 provided in the casing 11 is pivoted and moved upward and rearward so as to bypass the cover 17. Yes. Details of the louver 18 and the open / close door 15 provided on the cover 17 will be described later.

Further, as shown in FIG. 3 (a), the inner surface 2a of the inner air passage 2 on the inner wall surface 2a (in the illustrated example, the inner wall surface of the upper shell 10) facing the exhaust port 3 is approximately R as shown in FIG. A curved partition member 14 that is curved and formed in a shape is fixed to partition the upper space of the upper outer portion 10 and the internal air passage 2.
In the curved partition member 14, the lower extending portion 14 a on the upstream side in the air blowing direction is fixed to the inner wall surface 2 a on the inner side of the internal air passage 2, and the lower end thereof is about the same height as the lower edge of the exhaust port 3. It is located and is made into a concave curve shape from this lower end toward the air flow direction downstream side. The downward extending portion 14a functions as a blowing guide surface that guides the air flow direction of the air blown through the internal blowing passage 2 so as to change toward the exhaust port 3 side.
Further, on the downstream side in the blowing direction of the downward extending portion 14a, an arc-shaped portion 14b is obtained by dividing a circle whose center is the axis of the support shaft 16 of the opening / closing door 15 into approximately six equal parts via a stepped portion. It is coupled. A flat partition portion is formed at the upper end portion of the arc-shaped portion 14b, and the front end of the partition portion is in close proximity to or in contact with the back surface of the front cover 12 near the upper edge of the exhaust port 3, and The upper space of the outer shell 10 and the internal air passage 2 are partitioned.

In the upper space partitioned from the internal air passage 2 by the curved partition member 14 as described above, the control unit 8 electrically connected to the sirocco fan 5, the operation unit 9, and the electrostatic atomizer 40 is arranged. It is installed.
Thus, by arrange | positioning the control part 8 in the upper space divided with the internal ventilation path 2, it is hard to be influenced by the air which blows the internal ventilation path 2, and a failure etc. can be prevented.
The control unit 8 receives an operation signal from the operation unit 9 and performs drive control (ON / OFF control, air volume control, etc.) of the sirocco fan 5 and drive control of the electrostatic atomizer 40.

The sirocco fan 5, the control unit 8 and the operation unit 9, and the power supply to the Peltier element 42 and the electrodes 43 and 44 of the electrostatic atomizer 40 described above are appropriately connected to a power source (not shown) drawn to the back side of the part. This is done via a code.
Further, the upper outer portion 10 has a structure in which the front cover 12 can be easily attached to and detached from the casing 11 in the same manner as the lower outer portion 20 described above. It is possible by desorbing.

The louver 18 provided on the cover 17 is configured by arranging a plurality of slats side by side, and is vertically erected from the vicinity of the back surface of the front cover 12 near the lower edge of the exhaust port 3. It is formed so as to bend backward from the part, and the front surface of the curved part includes the parts of the cover parts 17a and 17a described above, and is formed into an R-shaped surface 17b. The R-shaped surface 17b has a substantially arc shape obtained by dividing a circle whose center is the axis of the support shaft 16 of the door 15 in a side view.
A gap is formed between the R-shaped surface 17b at the upper end of the cover 17 and the upper edge of the exhaust port 3 formed in the front cover 12 and the partition section front end of the curved partition member 14 described above. The gap serves as a detour movement space and a storage space for the door 15.
Further, each louver of the louver 18 is substantially straight along the blowing direction (the same direction as the thickness direction of the wall panel 1) as shown in FIG. 3A except for the uppermost slat. And a substantially flat plate portion 18a, and an air guide portion 18b that is bent and coupled to the upstream end of the flat plate portion 18a in the air blowing direction. The air blowing guide portion 18b functions as a air blowing guide portion that guides the air flow direction of the air blown through the internal air passage 2 to be changed to the exhaust port 3 side.

As shown in FIGS. 1B and 3C, the open / close door 15 has a flat plate portion 15a that substantially covers the cover 17 provided in the exhaust port 3 in the closed state, and this flat plate portion 15a. A curved R-shaped piece 15b is coupled to one end portion (the upper end portion in the closed state and the rear end portion in the open state).
The open / close door 15 has a mounting piece 15d protruding from the left and right end portions of the flat plate portion 15a toward the back side (the back side in the closed state), and a shaft insertion hole provided in the mounting piece 15d. Further, the support shaft 16 provided in the casing 11 is inserted into the support shaft 16 and is rotatably supported by the support shaft 16 (see also FIG. 2).
As shown in FIG. 2, notches are formed in the left and right ends of the cover 17 so that the mounting piece 15d can be moved.

As shown in FIG. 3C, the flat plate portion 15a of the open / close door 15 is configured such that the front surface of the open / close door 15 is substantially flush with the surface of the wall panel 1 when the open / close door 15 is closed, and the inner side surface 15c. However, it is configured to abut against or close to the front surface of the hand of the cover 17.
Further, as shown in FIG. 3A, the flat plate portion 15 a is mostly accommodated in the internal space of the upper outer shell portion 10 in the open state of the open / close door 15 and is disposed substantially horizontally. The front end portion is configured to protrude forward from the surface of the wall panel 1, and is configured to approach or abut on the upper edge portion of the exhaust port 3.

The R-shaped piece 15b of the open / close door 15 has an arc shape whose cross-sectional shape is obtained by dividing a circle whose center is the axis of the support shaft 16 into approximately six equal parts.
That is, the arc-shaped portion 14 b of the curved partition member 14, the R-shaped surface 17 b of the cover 17, and the R-shaped piece 15 b of the open / close door 15 are all concentric arc shapes with the axis of the support shaft 16 as the center. It is said that.
Further, as shown in FIG. 3 (c), the R-shaped piece 15 b includes the R-shaped surface 17 b at the upper end of the cover 17, the upper edge of the exhaust port 3, and the curved section when the door 15 is closed. It is set as the structure accommodated in the space | gap between the division part front ends of the member 14. As shown in FIG.

Further, as shown in FIG. 3 (a), the R-shaped piece 15b is configured such that the rearmost end portion thereof is generally located on the horizontal line from the axial center in the open state of the open / close door 15, and the curved section described above. The member 14 is configured to come into contact with a step formed between the downwardly extending portion 14a and the arcuate portion 14b.
In this state, a continuous surface having an R surface shape is formed by the downward extending portion 14a of the curved partition member 14 and the R shape piece 15b of the open / close door 15, and thereby the inside of the internal air passage 2 is directed upward. A blowing guide surface that guides the air blown toward the exhaust port 3 so as to change the airflow direction is configured. That is, between the inner wall surface 2a on the back side of the vertical internal air duct 2 and the inner side surface 15c of the horizontal flat plate portion 15a of the open / close door 15 in the open state, It is set as the structure connected with the inner surface of the downward extension part 14a and the R-shaped piece 15b of the opening-and-closing door 15. FIG.

The support shaft 16 is provided in the inner space of the upper outer shell portion 10 slightly to the right side of the front and rear direction substantially central portion and slightly to the upper side of the exhaust port 3 in the upper and lower direction substantially central portion.
In the present embodiment, the center of gravity of the opening / closing door 15 is positioned rearward and upward in the opened state of the opening / closing door 15 with respect to the axis of the support shaft 16, and forward in the closed state of the opening / closing door 15. It is supposed to be positioned.

As described above, the opening / closing door 15 has a center of gravity behind the axis of the support shaft 16 when the opening / closing door 15 is open. The moment to the side which maintains an open state acts, and the open state of the door 15 can be stabilized. Therefore, there is no need to provide a fixing means such as a lock mechanism for holding the open / close door 15 open, and the structure of the apparatus can be simplified.
In particular, in the present embodiment, since the R-shaped piece 15b is provided at the rear end portion of the open / close door 15 in the open state as described above, the thickness of the wall panel 1 is not increased, and the exhaust port 3 The center of gravity of the open / close door 15 can be efficiently positioned behind the axis of the support shaft 16 without reducing the vertical opening width.
In the closed state, the center of gravity of the open / close door 15 is located on the front side of the axis of the support shaft 16, so that a moment to the side maintaining the closed state acts, and the closed state of the open / close door 15 is stabilized. be able to.

When the open / close door 15 having the above-described configuration is opened and closed, the cover 17 provided with the louver 18 is bypassed as shown in each drawing of FIG. The inner surface 15c of the flat plate portion 15a moves so as to face each other along the R-shaped surface 17b of the cover 17. In addition, the opening / closing door 15 that is pivotally moved faces each other so that the outer surface (the surface on the side different from the support shaft 16) of the R-shaped piece 15 b is along the front surface of the arcuate portion 14 a of the curved partition member 14. Move while.
In the open state of the open / close door 15, as described above, a moment to the side that maintains the open state is acting, but the rearmost end portion of the R-shaped piece 15 b of the open / close door 15 is the above-mentioned of the curved partition member 14. The open state is maintained by being in contact with the stepped portion and being regulated.
On the other hand, in the closed state of the open / close door 15, as described above, a moment is exerted on the side that maintains the closed state, but the flat plate portion 15 a of the open / close door 15 is connected to the lower edge of the exhaust port 3. Is in contact with the front surface of the cover 17 and is regulated, and the closed state is maintained.

In the wall panel 1 configured as described above, as shown in FIG. 3A, the door 15 is opened, the exhaust port 3 is opened, and the sirocco fan 5 is activated by operating the operation unit 9. Then, indoor air is taken in from the intake port 4.
The taken-in air is discharged upward from the outlet of the sirocco fan 5 and is blown through the internal air passage 2.
The air that is blown upward toward the internal air passage 2 reaches the internal space of the upper outer portion 10, and the downward extending portion 14 a of the curved partition member 14 that forms the air blowing guide surface and the R-shaped piece of the open / close door 15. The exhaust port 3 is guided by the inner surface of 15b so as to change the air flow direction toward the exhaust port 3 and includes the space between the louvers 18 along the inner surface 15c of the flat plate portion 15a of the door 15. It is discharged toward the indoor space.
Moreover, if the electrostatic atomizer 40 is started in the state where the sirocco fan 5 is started as described above, the charged fine particle water discharged from the electrostatic atomizer 40 is indoors as described above. It is released into the indoor space by riding on the airflow that is exhausted toward it.

As described above, according to the wall panel 1 according to the present embodiment, the air that has been sucked in from the lower intake port 4 positioned near the floor surface of the room is used as the upper exhaust port positioned near the indoor ceiling. Since it can be made to discharge from 3, indoor air can be circulated efficiently and can be stirred.
Further, since the charged fine particle water is released into the indoor space by riding the air flow discharged from the exhaust port 3, the charged fine particle water can be diffused over a wide range of the indoor space. Therefore, the air in the indoor space can be efficiently cleaned by the action of the charged fine particle water, and the effect of deodorizing the indoor adhering odor and the inactivation effect of pollen and the like by the charged fine particle water can be improved.

Moreover, by installing the electrostatic atomizer 40 as described above, for example, it occurs at the time of discharge as compared with the case where the electrostatic atomizer is installed so as to discharge charged fine particle water directly from the panel surface. The influence of the discharge sound on the indoor space can be reduced. In particular, as in the present embodiment, by covering the front side of the electrostatic atomizer 40 with the cover portion 17a, the influence of the discharge sound in the indoor space can be reduced more efficiently. Moreover, according to such a structure, the charged fine particle water discharge port of the electrostatic atomizer 40 is not exposed to the panel surface, and the appearance is good.
Further, even when ozone is generated during discharge, the ozone is diluted by the air blown through the internal air passage 2. Therefore, for example, electrostatic atomization is performed so as to discharge charged fine particle water directly from the panel surface. Compared with the case where an apparatus is installed, the ozone concentration of the air discharged from the exhaust port 3 into the indoor space can be reduced.

Moreover, in this embodiment, since the opening / closing door 15 that opens and closes the exhaust port 3 is provided, when the door is not in use, the opening / closing door 15 is closed so that foreign matters such as dust and insects enter the internal air passage 2. Can be prevented, and the exhaust port 3 can be made inconspicuous by the open / close door 15, so that the appearance can be improved.
Furthermore, an air guide surface having an R-surface shape is provided that forms a continuous surface that extends from the inner wall surface 2a of the inner air passage 2 to the inner surface 15c of the flat plate portion 15a of the door 15 when the door 15 is open. Therefore, the air flow direction of the air blown through the internal air passage 2 is changed to the inner wall surface 2a on the inner side of the internal air passage 2, the downward extending portion 14a of the curved partition member 14, the R-shaped piece 15b of the open / close door 15, and the open / close door. It can be smoothly changed along the inner side surface 15c of the 15 flat plate portions 15a. Therefore, pressure loss can be reduced and air blowing efficiency can be improved.
Furthermore, in this embodiment, since the front end portion of the flat plate portion 15a of the open / close door 15 protrudes forward from the surface of the wall panel 1 in the open state of the open / close door 15, the protruding flat plate portion. The front end part of 15a functions as a rectification | straightening part, and smoother and efficient ventilation is made | formed.

Further, in the present embodiment, when the exhaust port 3 is provided with a cover 17 having a louver 18, the open / close door 15 covers the front side of the cover 17 in the closed state, while rotating to open the exhaust port 3. Since the cover 17 moves so as to detour, the cover 17 having the louver 18 can be installed in the exhaust port 3 provided with the opening / closing door 15. Therefore, the louver 18 can prevent foreign matter from entering the internal air passage 2 even when the open / close door 15 is open.
Furthermore, since the front surface side of the cover 17 having the louver 18 can be covered by closing the open / close door 15, the cover 17 having the louver 18 is concealed and the appearance can be improved.
In particular, in the present embodiment, the upper end portion of the cover 17 on the side where the opening / closing door 15 is rotated and moved has a shape having an R-shaped surface 17b along the inner side surface 15c of the opening / closing door 15 that rotates. The moving radius of the opening / closing door 15 that is opened and closed by moving so as to bypass the cover 17 can be made relatively small, and the gap between the opening / closing door 15 and the cover 17 can be made relatively small.

Next, another embodiment according to the present invention will be described with reference to the drawings.
FIG. 4 schematically shows a wall panel (an interior panel device with a blowing function) 1A according to the second embodiment, and is a diagram corresponding to FIG. 3 (a).
Note that differences from the first embodiment will be mainly described, and the same components are denoted by the same reference numerals, and description thereof will be omitted or simplified.
The wall panel 1A according to the present embodiment is mainly different from the wall panel 1 according to the first embodiment in the aspect of the cover 17A of the upper outer portion 10A.

The cover 17A of the wall panel 1A has cover portions 17a and 17a (see FIG. 2) on the left and right as described above, and the configuration of the louver 18A formed in the central portion thereof is different from that of the first embodiment.
Each louver 18Aa of the louver 18A is substantially straight and substantially flat along the air blowing direction (the same direction as the thickness direction of the wall panel 1A) as shown in FIG. 4 except for the uppermost slat. It is made into a shape.
Moreover, the width dimension along the ventilation direction of each slat 18Aa is 5 mm or more and 15 mm or less.

According to the wall panel 1A according to the present embodiment having the above-described configuration, the same effects as the wall panel 1 according to the first embodiment can be obtained, and each wing plate 18Aa of the louver 18A can be configured as described above. The following effects are achieved.
That is, the air flow of the air discharged from the electrostatic atomizer 40 and blown through the internal air passage 2 while ensuring a suitable rectifying effect on the air blown through the internal air passage 2 and discharged into the indoor space. It is possible to reduce the interference of the louver 18A with the charged fine particle water released into the indoor space by riding on the vehicle.

If the width dimension along the blowing direction of each louver 18Aa of the louver 18A is larger than 15 mm, the rectifying effect can be improved, but the interference with the charged fine particle water tends to increase. On the other hand, if the width dimension of each louver 18Aa of the louver 18A along the blowing direction is smaller than 5 mm, interference with the charged fine particle water can be reduced, but there is a tendency that a sufficient rectifying effect cannot be obtained. . That is, in order to enhance the rectifying effect and the air blowing guide effect, the width of the wing plate is increased, and furthermore, the air blowing guide portion 18b is provided on each wing plate of the louver 18 as in the wall panel 1 according to the first embodiment. However, there is a tendency for the charged fine particle water discharged from the electrostatic atomizer 40 to collide with the flat plate portion of the slats or the air blowing guide portion 18b, and the charge discharged to the indoor space is increased. There is a tendency for particulate water to decrease.
On the other hand, according to the wall panel 1A according to the present embodiment configured as described above, the rectification of the air discharged into the indoor space is efficiently performed while reducing the collision of the charged fine particle water with the louver 18A. Made.

When attaching the wall panel 1, 1 </ b> A according to each embodiment configured as described above to an attachment target, part of the wall panel 1, 1 </ b> A is flush with the surface of another wall material or other wall panel with a blowing function. You may make it attach so that it may be embedded inside a wall, or you may make it attach to the existing wall surface.
When mounting so as to be flush with the surface of another wall panel or the like, the back side portion of the upper outer portion 10, the duct member 7 of the intermediate portion 30, and the lower outer portion between the pillars inside the wall 30 are arranged on the front side of the studs, and the front side extension parts 13 and 26 of the upper outer part 10 and the lower outer part 30 and the left and right extension parts of the front plate 6 of the intermediate part 30 are arranged. May be attached.

On the other hand, when it is attached to an existing wall surface, the extension portions 13 and 26 on the front side portions of the upper outer portion 10 and the lower outer portion 30 and the rear surfaces of the left and right extension portions of the front plate 6 of the intermediate portion 30 are provided. A spacer member may be disposed and attached between the side and the wall surface. Alternatively, the wall panel 1 or 1A may have a substantially uniform thickness without providing such an extension, and in this case, a spacer member or the like is unnecessary.
Thus, in each said embodiment, since it is an interior panel apparatus with a ventilation function, it can install so that a wall surface may be comprised and can aim at the effective utilization of indoor space compared with air blowers, such as an indoor installation type fan. it can.

In each of the above embodiments, a vertically long flat rectangular wall panel is illustrated as an interior panel device with a blowing function, but a horizontally long flat rectangular wall panel may be used. It may be provided on the opposite side.
Moreover, although the aspect which formed the pair of ventilation | gas_flowing opening parts opened on the surface of the wall panel spaced apart up and down was illustrated, you may make it form spaced apart left and right. That is, you may make it the aspect which installs the said wall panel horizontally.

Furthermore, in each said embodiment, although the discharge direction of the charged fine particle water of an electrostatic atomizer and the airflow direction of the air which blows through an internal ventilation path are orthogonal, the example which crosses these, The angle formed by these may be other than 90 degrees.
Furthermore, in each of the above-described embodiments, an example in which a part of the exhaust port is blocked by the cover portion of the cover having a louver and an electrostatic atomizer is installed on the back side of the cover portion is shown. However, it is not limited to such an aspect. It is good also as an aspect which provides a louver over substantially the whole left-right direction of a cover, and installs an electrostatic atomizer in the back side of the front cover in the one side part.

  Furthermore, in each of the above-described embodiments, one of the pair of ventilation openings provided on the surface of the wall panel (in this example, the exhaust port on the upper side of the wall panel) is provided with an opening / closing door and a ventilation guide surface is provided. However, at least one of them may be provided on the other side (in the present embodiment, the inlet on the lower side of the wall panel). As described above, when the opening / closing door and the air blowing guide surface are provided in the ventilation opening on the lower side of the wall panel, the opening / closing door may be configured to rotate and move downward and rearward. In other words, the open / close door that opens and closes one of the ventilation openings may be configured to rotate in a direction away from the other ventilation opening and toward the rear side.

  Moreover, in each said embodiment, although the R-shaped piece of the rear-end part in the open state of an opening-and-closing door is set as the aspect which comprises a ventilation guide surface, it is not restricted to such an aspect. The opening / closing door has a flat plate shape, and an air blowing guide surface having an R-surface shape that forms a continuous surface connected to the inner surface of the opening / closing door in the open state of the opening / closing door is provided on the inner wall surface on the inner side of the internal air passage. It may be. For example, you may make it comprise a ventilation guide surface only by the downward extension part of the curved division member of an example of a figure. Or you may make it comprise a ventilation guide surface only by the R-shaped piece of an opening-and-closing door.

Further, in each of the above-described embodiments, the opening / closing door is manually opened and closed, and is provided in the upper ventilation opening so that the position of the center of gravity of the opening / closing door is adjusted so that the open state is stabilized. Although an example is shown in which it is configured to be located on the rear side of the moving fulcrum, a lock mechanism or the like for holding the open / closed state of the open / close door may be provided instead of such a configuration.
Or you may make it not provide such an opening-and-closing door and a ventilation guide surface, and you may make it not provide a louver. In this case, in the case of an exhaust port having a horizontally long shape along the long side in a direction orthogonal to the air blowing direction of the internal air passage, as in the above embodiments, the inner side in the vicinity of one side of the longitudinal direction You may make it install an electrostatic atomizer in space. Thereby, the discharge | release efficiency to the indoor space of the charged fine particle water discharged from the electrostatic atomizer can be improved compared with the case where it installs in the one side part vicinity internal space of a transversal direction.

Moreover, in each said embodiment, although the example which provided the sirocco fan in the lower outline part as a ventilation means for ventilating air is shown, you may make it provide in an upper outline part, or internal ventilation You may make it provide a crossflow fan, an axial fan, etc. in the middle part of a path | route as a ventilation means.
Furthermore, a honeycomb-like structure comprising an assembly of a large number of hollow cylindrical cells that open in the blowing direction, including a functional material such as a humidity control material or a deodorizing agent in the internal blowing passage of the wall panel according to each of the above embodiments. May be arranged. By arranging the honeycomb structure having such humidity control and deodorization properties in the internal air passage, the indoor air can be humidity controlled and deodorized.

Furthermore, a partition plate that divides the internal air passage of the wall panel according to each of the above embodiments in the panel width direction is provided, and air blowing means that can be independently driven is provided, respectively, one of which is the lower intake, the upper It is good also as an aspect which sets it as exhaust_gas | exhaustion and makes the other upper intake and lower exhaust. In this case, you may make it install an electrostatic atomizer in the inner space of the one side part vicinity of each exhaust port.
According to such a configuration, the temperature difference in the indoor space can be more efficiently reduced by driving any of the air blowing means according to the temperature distribution in the indoor space.
Or when it is set as the aspect which divides | segments an internal ventilation path in this way, it is good also as an aspect which arrange | positions a honeycomb-like structure in any internal ventilation path.

1,1A Wall panel (interior panel device with ventilation function)
2 Internal ventilation path 3 Exhaust port (ventilation opening)
4 Inlet (ventilation opening)
5 Sirocco fans (air blowing means)
18Aa Louver slat 40 Electrostatic atomizer

Claims (2)

An internal air passage provided in the space in the panel;
A pair of ventilation openings that communicate with each other through the internal air passage and open to the surface of the panel to form an intake port and an exhaust port;
Air blowing means;
An electrostatic atomizer that is installed in an inner space near one side of the exhaust port and that discharges charged fine particle water in a direction that intersects the airflow direction of the air flowing through the internal air passage;
An interior panel device with an air blowing function. In claim 1,
The exhaust port is provided with a louver composed of a plurality of slats,
Each louver board of this louver is made into a substantially linear shape along the blowing direction, and the width dimension along the blowing direction is 5 mm or more and 15 mm or less, The interior panel apparatus with a ventilation function characterized by the above-mentioned.

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