JP2009119362A - Air cleaning apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To design thinning-down of an apparatus main body by thinning down an air-blowing fan (5) in an air cleaning apparatus (1) having a dust collecting part and the air-blowing fan (5). <P>SOLUTION: The air-blowing fan (5) is provided with a hollow platy fan main body (10) having a vibrating diaphragm at the one side face. The fan main body (10) has an air room formed at a hollow part, an exhaust path communicating with the air room and formed at the front face part, and a suction path communicating with the air room and formed at the back face part. Meanwhile, it is so configured that air is taken into the air room in the fan main body (10) from the suction path by the vibration of the vibrating diaphragm and exhausted from the exhaust path out of the air room. The dust collecting part is constituted by a suction face which is a face formed with an inlet of an opening part of the suction path. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an air cleaning device having a dust collecting section and a blower fan.

  2. Description of the Related Art Conventionally, air purifiers that purify indoor air are known. For example, an air cleaning device of Patent Document 1 includes a casing having a suction port and a blower outlet, a blower fan that generates an air flow sucked from the suction port and blown out from the blower port, And a dust collecting part for collecting dust.

The casing is formed in a rectangular parallelepiped shape. And the said suction inlet and the said blower outlet are formed in the upper surface of this casing along with a longitudinal direction, and the air channel which connects the said suction inlet and the said blower outlet is formed in the inside of this casing in U shape. ing. Further, a dust collection filter (dust collection part) and a sirocco fan (blower fan) are arranged in this order on the downstream side of the suction port and in the thickness direction of the casing. Further, a deodorizing filter is arranged on the upstream side of the air outlet and so as to face the air outlet.
JP 11-319445 A

  In the air cleaning device of Patent Document 1, by arranging the dust collection filter, the blower fan, and the deodorization filter as described above, compared to the case where the dust collection filter, the sirocco fan, and the deodorization filter are arranged in series, The apparatus main body can be thinned. However, it is difficult to make the air cleaning device thinner than the thickness of the sirocco fan.

  The present invention has been made in view of the above points, and an object of the present invention is to reduce the thickness of the apparatus main body by reducing the thickness of the blower fan in an air cleaning apparatus having a dust collecting portion and a blower fan. There is.

  The first invention generates a casing (3) having an inlet (7) and an outlet (8), and an air flow sucked from the inlet (7) and blown out from the outlet (8) It presupposes an air cleaning device provided with a blower fan (5) to be operated and a dust collecting part for collecting dust in the air flow.

  And the ventilation fan (5) of the said air purifying apparatus is equipped with the hollow plate-shaped fan main body (10) which has a membrane-like vibrating body (19) on one side, and the said fan main body (10) has an air chamber in a hollow part. (14) is formed, an exhaust passage (15) communicating with the air chamber (14) is formed on the front surface portion (11), and an intake passage (16) communicating with the air chamber (14) on the back surface portion (12) ) Is formed, and air is taken into the air chamber (14) in the fan body (10) from the intake passage (16) by the vibration of the membrane-like vibrating body (19), and the air is discharged from the exhaust passage (15). The surface of the intake passage (16) where the inlet of the opening is formed is defined as an intake surface (16a), and the dust collection portion is formed by the intake surface (16a). It is characterized by comprising.

  In 1st invention, the ventilation fan (5) of the said air purifying apparatus is provided with the fan main body (10) formed in plate shape. And this fan main body (10) is different from the conventional case where the fan is rotated around the rotation axis to generate an air flow, and the plate-like front part (11) or the plate-like back part (12) An air flow can be generated by vibrating the membrane-like vibrating body (19) provided on the. Therefore, the said ventilation fan (5) can be made thinner than before.

  Further, the intake passage (16) can be provided so as to penetrate the back surface portion (12) formed in a plate shape. Then, on the intake surface (16a) in which the opening on the inlet side of the intake passage (16) is formed, the air taken into the air chamber (14) flows through the opening, and the wall other than the opening in the air The dust contained in can be captured. Therefore, the dust collection part can be constituted by the intake surface (16a).

  According to a second aspect, in the first aspect, the intake passage (16) includes a plurality of intake holes formed in the back surface portion (12).

  In the second invention, the intake passage (16) is constituted by a plurality of intake holes, whereby the intake surface (16a) can be formed in a filter shape, and dust contained in the air can be easily captured. .

  According to a third invention, in the first or second invention, a dust removing body (34) for removing dust adhering to the intake surface (16a), and the dust remover (34) along the intake surface (16a). And a drive mechanism (37a) for moving the head to the head.

  In the third invention, the dust attached to the intake surface (16a) can be removed by moving the dust removing body (34) along the intake surface (16a) by the drive mechanism (37a).

  According to a fourth invention, in the third invention, the static electricity generating part (35) for inducing static electricity on the surface of the dust removing body (34) and the dust in the air stream on the upstream side of the intake surface (16a) It is characterized by comprising charging means (6) for charging the dust removing body (34) with a reverse polarity.

  In 4th invention, a static electricity can be induced on the surface of the said dust removal body (34) by the said static electricity generation part (35). Further, the charging means (6) can positively charge the dust contained in the air to be sucked into the blower fan to a polarity opposite to that of the dust removing body (34). Thereby, a Coulomb force is generated between the dust removing body (34) induced by static electricity and the dust. And by this Coulomb force, dust can be adsorbed to the dust removing body (34).

  According to a fifth invention, in the fourth invention, the dust removing body (34) can be switched between a first state in which the dust removing body (34) is connected to the static electricity generating part (35) and a second state in which the dust removing body (34) is grounded. The switching means (32) is provided.

  In the fifth invention, the switching means (32) can appropriately switch between a first state where static electricity is induced on the surface of the dust removing body (34) and a second state where no static electricity is induced. Therefore, the first state can be set when dust is adsorbed to the dust removing body (34), and the second state can be set when dust adsorbed on the dust removing body (34) is removed.

  The sixth invention is characterized in that, in any one of the third to fifth inventions, a scraping member (41) for scraping dust is provided on the surface of the dust removing body (34). .

  In the sixth invention, by providing the scraping member (41) on the surface of the dust removing body (34), when the dust removing body (34) in which static electricity is induced is moved along the adsorption surface, Large dust that is difficult to be adsorbed by the dust removing body (34) can be removed from the intake surface (16a) by contacting the scraping member (41).

  According to a seventh invention, in any one of the third to sixth inventions, the dust removing body (34) includes a first position on a surface of the intake surface (16a) and a surface of the intake surface (16a). The drive mechanism (37a) is configured to reciprocate between the first position and the second position, and is configured to be settable to a second position off the top. An accommodating portion (36) for accommodating the dust removing body (34) in the second position, a cleaning means (37b, 39) for removing dust adhering to the surface of the dust removing body (34), and the accommodating portion (36) And a collecting member (42) that collects the dust removed by the cleaning means (37b, 39).

  In 7th invention, the dust adhering to the surface of the said dust removal body (34) can be removed by the said cleaning means (37b, 39). Further, the removed dust can be collected in the collecting member (42).

  According to an eighth invention, in any one of the first to seventh inventions, the plurality of fan main bodies (10) are arranged in parallel in a direction orthogonal to the air blowing direction of the fan main body (10). It is characterized by that.

  In the eighth invention, also in the blower fan configured by arranging a plurality of fan bodies (10) in parallel in a direction orthogonal to the blower direction, the dust removal body (34) is moved to the intake surface by the drive mechanism (37a). By moving along (16a), dust adhering to the intake surface (16a) can be removed.

  According to 1st invention, the ventilation fan (5) of the said air purifying apparatus is equipped with the hollow plate-shaped fan main body (10) which has a film-form vibrating body (19) on one side, Therefore The said ventilation is more than conventional. The fan (5) can be made thinner. Further, since the dust collecting part is constituted by the intake surface (16a) of the fan main body (10), the blower fan (5) and the dust collecting part can be constituted integrally. Therefore, it is possible to reduce the thickness of the air cleaning device including the blower fan (5).

  According to the second aspect of the invention, the intake surface (16a) can be formed in a filter shape by configuring the intake passage (16) with a plurality of intake holes. Therefore, dust contained in the air can be easily captured, so that the dust collection capability of the air cleaning device can be improved.

  According to the third aspect of the invention, the dust attached to the intake surface (16a) is removed by moving the dust removing body (34) along the intake surface (16a) by the drive mechanism (37a). be able to. Thereby, it can suppress that dust accumulates on the suction surface (16a) of the said fan main body (10), and can suppress the fall of the ventilation volume of the said ventilation fan (5) resulting from this dust.

  According to the fourth aspect of the invention, static electricity can be induced on the surface of the dust removing body (34) by the static electricity generating part (35). Then, the Coulomb force can be generated between the dust removing body (34) and the dust by moving the dust removing body (34) in which static electricity is induced on the surface along the intake surface (16a). . Due to the generated Coulomb force, dust adhering to the intake surface (16a) can be adsorbed to the dust removing body (34), and dust can be removed from the intake surface (16a). Thereby, it is possible to suppress dust from accumulating on the intake surface (16a), and it is possible to suppress a decrease in the amount of air blown by the dust.

  According to the fifth aspect of the present invention, when the dust adsorbed on the dust removing body (34) is removed, static electricity is not induced on the surface of the dust removing body (34) by the switching means (32). Can be in a state. Therefore, since the dust removing body (34) and the dust are not attracted to each other by the Coulomb force, the dust on the dust removing body (34) can be easily removed.

  Further, according to the sixth aspect, by providing the scraping member (41) on the surface of the dust removing body (34), the dust removing body (34) in which static electricity is induced is moved along the adsorption surface. In this case, large dust that is difficult to be adsorbed by the dust removing body (34) can be removed from the intake surface (16a). As a result, the dust removing capability of the dust removing body (34) is improved, so that dust adhering to the intake surface (16a) can be more reliably removed.

  Further, according to the seventh aspect, the dust attached to the surface of the dust removing body (34) can be removed by the cleaning means (37b, 39). Further, the removed dust can be collected in the collecting member (42). Therefore, even when the amount of dust adhering to the dust removing body (34) increases and the dust removing capacity of the dust removing body (34) is reduced, the cleaning means (37b, 39) reduces the dust removal reduced. Ability can be restored.

  Therefore, the dust removal capability of the dust remover (34) can be maintained in the initial state, and dust adhering to the intake surface (16a) can be efficiently removed in the long term. Moreover, since the removed dust is collected by the said collection member (42), dust can be thrown away without taking time and effort.

  According to the eighth aspect of the invention, in the blower fan configured by arranging the plurality of fan bodies (10) in parallel in a direction orthogonal to the blower direction, the drive mechanism (37a) also removes the dust remover (34). ) Is moved along the intake surface (16a), dust attached to the intake surface (16a) can be removed. Thereby, it is possible to suppress dust from accumulating on the intake surface (16a) of the fan main body (10), and it is possible to suppress a decrease in the blowing amount of the blower fan due to the dust.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a schematic view of an air cleaner (1) according to an embodiment of the present invention. This air cleaner (1) is installed in a general household, a store, etc., and purifies indoor air.

  The air cleaner (1) includes a casing (3) provided with a suction grill (2) (left side in FIG. 1) and a blowout grill (4) (right side in FIG. 1). Inside, in order from the suction grill (2) to the blowout grill (4), a prefilter (9), a charging part (charging means) (6), and a thin blower fan (fan) (5) are provided. ing.

<Prefilter, charged part>
The pre-filter (9) constitutes a filter for collecting relatively large dust contained in the air sucked into the casing (3) from the suction grill (2). The charging unit (6) is for charging dust in the air sucked into the casing (3). The dust is configured to be charged with a reverse polarity to the cleaning rod (34) provided on the thin blower fan (5) by the charging unit (6).

<Thin blower fan>
FIG. 2 is a front view of the thin blower fan (5), and FIG. 3 is a side view. As shown in FIG. 2, the thin blower fan (5) includes a plurality of fan bodies (10), a support member (21), and a cleaning device (30).

-Fan body-
4 (a) is a front view of the fan body (10), FIG. 4 (b) is a rear view, and FIG. 5 is a cross-sectional view. As shown in FIGS. 4 and 5, the fan body (10) has a thickness of about 1 to 5 mm, is formed in a square hollow plate shape with a side of 3 cm, for example, and has a front surface portion (11) constituting the front surface. And a back surface portion (12) constituting the back surface and a side surface portion (13) constituting the side surface.

  The front part (11) and the back part (12) are both rectangular flat plates having a small thickness. The side surface (13) is a frame member having a rectangular outer shape. The front surface portion (11) and the back surface portion (12) are connected to the side surface portion (13) at a predetermined interval. The front surface portion (11) is connected to the inner periphery on one end side of the side surface portion (13) over the entire periphery, and the back surface portion (12) is connected to the side surface portion (13) over the entire periphery. It is connected with the inner periphery of the other end side.

  The front surface portion (11) includes a thin film (18), and an exhaust hole for discharging the air in the air chamber (14) to the outside of the fan body (10) in the central portion of the thin film (18). A plurality of (15) are provided. The plurality of exhaust holes (15) constitute an exhaust passage (15).

  On the other hand, the back surface portion (12) includes a substrate (20) having a circular opening formed at the center and a circular thin film vibrator (film-like) attached to and supported by the opening of the substrate (20). (Vibrating body) (19). The board (20) is provided with a plurality of air intake holes (16) through which the air is taken into the air chamber (14) from the outside of the fan body (10). . Here, the opening area of each intake hole (16) is formed smaller than the opening area of each ventilation hole formed in the pre-filter (9). The plurality of intake holes (16) constitute the intake passage (16), and the surface on which the inlet opening of each intake hole (16) is formed constitutes the intake surface (16a).

  Also, a piezoelectric element (17) formed in an annular shape is attached on the outer surface of the substrate (20) and between the intake surface (16a) and the thin film vibrator (19). . The piezoelectric element (17) is configured by, for example, laminating two piezoelectric members. For example, piezoelectric ceramic is used for the piezoelectric member. Piezoelectric members are members that have the function of converting electrical energy into mechanical energy. The configuration of the piezoelectric element (17) is not limited to this configuration.

  As described above, the thin-film vibrator (19) is attached to the opening of the substrate (20), and vibrates through the substrate (20) by the vibration of the piezoelectric element (17). That is, in FIG. 5, when a voltage is applied to the piezoelectric element (17) so that the outer surface (the lower surface in FIG. 5) of the piezoelectric element (17) contracts and the inner surface (the upper surface in FIG. 5) extends. As shown in FIG. 6, the substrate (20) together with the piezoelectric element (17) is curved convexly on the back side. When a voltage is applied to the piezoelectric element (17) so that the outer surface of the piezoelectric element (17) extends and the inner surface contracts, as shown in FIG. 7, the substrate (20) together with the piezoelectric element (17) is convex on the front side. To curve. The thin film vibrator (19) vibrates in the thickness direction of the fan body (10) due to the curvature of the substrate (20).

-Support member-
The support member (21) is for fixing a plurality of fan bodies (10) side by side in a direction perpendicular to the air blowing direction of the fan body (10). Specifically, as shown in FIG. 2, the support member (21) has an outer periphery formed in a rectangular shape, and the support member (21) has a plurality of frame-like portions (22). . And each frame-shaped part (22) is arranged in the grid | lattice form with respect to the longitudinal direction and transversal direction of a supporting member (21). The shape of the inner opening (23) of each frame-like part (22) is the same as that of the fan main body (10) in plan view, and the fan main body (10) is fitted into the inner opening (23). It is fixed. The fan body (10) is arranged in such a direction that the front side of the fan body (10) faces the suction grill (2) and the back side of the fan body (10) faces the blowing grill (4). Is done.

-Cleaning device-
As shown in FIG. 2 or FIG. 3, the cleaning device (30) is disposed on the intake side of the thin blower fan (5), and cleans the intake surface (16a) of each fan body (10). Cleaning rod (dust remover) (34). The cleaning rod (34) is formed in an elongated cylindrical shape, and its length is longer than the width of the support member (21). A pair of guide rails (38) are provided for slidably holding the cleaning rod (34).

  The pair of guide rails (38) are linearly formed. The pair of guide rails (38) are positioned on both sides of the support member (21), and are spaced apart from the support member (21) with respect to the thickness direction of the support member (21). ) In parallel. The upper end of the guide rail (38) is fixed to the upper end of the support member (21), and the lower end of the guide rail (38) is positioned below the lower end side of the support member (21). Here, the said cleaning stick (34) is arrange | positioned ranging over this pair of guide rail (38). The cleaning device (30) is provided with a first drive portion (drive mechanism) (37a) that reciprocally slides the cleaning rod (34) along the rail direction of the guide rail (38).

  The cleaning device (30) is provided with a static electricity generating part (35) electrically connected to the cleaning rod (34). The static electricity generator (35) generates static electricity using the power supplied to the air cleaner (1) as a power source, and the generated static electricity is induced on the surface of the cleaning rod (34). A switch (switching means) (32) is provided between the static electricity generating part (35) and the cleaning rod (34).

  As shown in FIG. 2, the switch (32) is configured to be switchable so that the terminal connected to the cleaning rod (34) contacts the A-side terminal or the B-side terminal. In the switch (32), when the terminal connected to the cleaning bar (34) is switched so as to contact the terminal on the A side, the static electricity generating part (35) and the cleaning bar (34) are energized to Static electricity is induced on the surface of the cleaning rod (34). On the other hand, when the terminal connected to the cleaning bar (34) is switched so as to contact the B side terminal, the cleaning bar (34) is grounded, and static electricity is induced on the surface of the cleaning bar (34). Disappear.

  The cleaning device (30) includes a brush (cleaning means) (39) for removing dust adhering to the cleaning rod (34). This brush (39) is formed in an annular shape, and a cleaning rod (34) is inserted inside the annular shape. The brush (39) is in contact with the inner peripheral surface of the brush (39) and the outer peripheral surface of the cleaning rod (34). The cleaning device (30) is provided with a second drive unit (moving means) (37b) that reciprocally slides the brush (39) along the length direction of the cleaning rod (34).

  In the cleaning device (30), a storage for storing the cleaning rod (34) moved to the lower end of the guide rail (37) by the first driving portion (37a) at the lower end of the support member (21). (36) is provided. The storage (36) is formed in a box shape having an open top, and the brush (39) is slid on the bottom of the storage (36) by the second drive unit (37b). A dust collection receiver (42) for collecting the dust removed by the brush (39) is provided.

-Driving action-
Next, the operation of the air cleaner (1) will be described. In the air cleaner (1), an air blowing operation performed by driving the thin air blowing fan (5) and an air cleaning operation for removing dust in the air flow generated by the air blowing operation are performed. Hereinafter, the air blowing operation and the air cleaning operation will be described.

<Blower operation>
The air blowing operation includes a first operation of the fan main body (10) shown in FIG. 6 and a second operation of the fan main body (10) shown in FIG. 6 and 7 exaggerate the first operation and the second operation. In the first operation, the piezoelectric element (17) is curved in a convex shape toward the inside of the air chamber (14). Then, similarly, the board | substrate (21a) of the said back surface part (12) also curves in the convex shape toward the inward of an air chamber (14). The thin-film vibrating body (19) swings out of the air chamber (14) due to the curvature of the substrate (21a). When the thin-film vibrating body (19) swings outward from the air chamber (14), the volume of the air chamber (14) increases, and the air outside the suction grille (2) becomes a plurality of intake holes (16). And is taken into the air chamber (14).

  In the second operation, the piezoelectric element (17) is curved in a convex shape toward the outside of the air chamber (14). Then, similarly, the board | substrate (21a) of the said back part (12) also curves in convex shape toward the outward of an air chamber (14). The thin film vibrator (19) swings inward of the air chamber (14) due to the curvature of the substrate (21a). When the thin-film vibrating body (19) swings inward of the air chamber (14), the volume of the air chamber (14) decreases, and the air in the air chamber (14) passes through the plurality of exhaust holes (15). After that, it is blown out from the blowing grill (4).

  By repeating the first operation and the second operation as described above, the air blowing operation of the thin blower fan (5) is performed, and the air flow sucked from the suction grill (2) and blown out from the blow grill (4). Will occur.

<Air cleaning operation>
The air sucked into the casing (3) by the blowing operation of the thin blower fan (5) passes through the prefilter (9) and the charging unit (6). Here, among the dust contained in the air, relatively large dust is collected by the prefilter (9), and relatively small dust that could not be collected by the prefilter (9) is collected by the charging unit (6 ) To charge. The charged dust flows together with the air passing through the charging section (6) to the fan bodies (10) and adheres to the intake surface (16a) of the fan body (10). The dust adhering to the intake surface (16a) is removed by the cleaning operation of the cleaning device (30).

  The cleaning operation includes a dust removing operation for removing dust adhering to the intake surface (16a) of the fan body (10) and a dust collecting operation for removing dust adsorbed on the cleaning rod (34). It is configured. Here, the dust collecting operation is performed when the cleaning rod (34) is stored in the storage (36).

  When performing the dust removal operation, the switch (32) is switched so that the terminal connected to the cleaning rod (34) contacts the terminal on the A side, and the surface of the cleaning rod (34) Static electricity is induced. On the other hand, when the dust collecting operation is performed, the switch (32) is switched so that the terminal connected to the cleaning rod (34) contacts the terminal on the B side, and the surface of the cleaning rod (34) is contacted. Does not induce static electricity.

  In the dust removal operation, the first drive unit (37a) moves the cleaning rod (34) in a state in which static electricity is induced along the rail direction of the guide rail (37) from the lower side in FIG. This is done by sliding back and forth to the side.

  Specifically, when the cleaning rod (34) slides and approaches the intake surface (16a), dust adhering to the intake surface (16a) is applied to the cleaning rod (34) as shown in FIG. 8 (a). Due to the influence of the induced static electricity, it is attracted to the cleaning rod (34) and adsorbed on the surface of the cleaning rod (34). As a result, dust adhering to the intake surface (16a) is removed. And as shown in FIG.8 (b), the cleaning stick (34) adsorb | sucks the dust adhering to an upper suction surface (16a), sliding further. In this way, by performing the dust removal operation, dust attached to the entire intake surfaces (16a) of the plurality of fan bodies (10) is removed.

  On the other hand, in the dust collecting operation, the brush (39) is moved along the length direction between both ends of the cleaning rod (34) with respect to the cleaning rod (34) in a state where static electricity is not induced. This is done by reciprocally sliding from the left side to the right side and from the right side to the left side.

  Specifically, when the brush (39) slides, the inner peripheral surface of the brush (39) abuts against the surface of the cleaning rod (34) and scrapes dust on the surface of the cleaning rod (34). Drop it. As a result, the scraped dust falls and is collected in the dust collecting receiver (42) installed at the bottom of the storage (36).

  By repeating such an operation, the air cleaning operation of the air cleaner (1) is performed.

-Effect of the embodiment-
According to this embodiment, the thin blower fan (5) of the air cleaner (1) includes a hollow plate-like fan body (10) having a membrane-like vibrating body (19) on one side, so that The thin blower fan (5) can also be thinned.

  Further, according to the present embodiment, the intake passage (16) is constituted by a plurality of intake holes (16), whereby the intake surface (16a) of the fan body (10) can be formed in a filter shape. . Therefore, since dust contained in the air can be easily captured on the intake surface (16a), the dust collection capability of the air cleaning device (1) can be improved.

  Further, according to the present embodiment, the cleaning rod (34) can be moved along the intake surface (16a) by the first drive unit (37a). Thereby, the charged dust can be adsorbed to the cleaning rod (34) by the Coulomb force generated between the charged dust and the cleaning rod (34), and the dust can be removed from the intake surface (16a). it can.

  According to the present embodiment, the brush (39) can remove dust adhering to the surface of the cleaning rod (34) and collect the removed dust in the dust collecting receiver (42). it can. Thereby, in the said cleaning stick (34), the dust removal capability reduced by adhesion of dust can be recovered.

  Further, according to the present embodiment, when the dust adsorbed on the cleaning rod (34) is removed by the brush (39), the switch (32) is switched and the surface of the cleaning rod (34) is electrostatically charged. It can be in the state which is not induced. Therefore, the dust adsorbed on the cleaning rod (34) can be easily removed as compared with a state where static electricity is induced.

-Modification of the embodiment-
FIG. 9 is a schematic view of a thin blower fan (60) according to a modification of the embodiment. The difference from the above-described embodiment is that the configuration of the cleaning rod (34) is different. Below, the same code | symbol is attached | subjected about the same part as embodiment, and only a different point is demonstrated.

  As shown in FIG. 9, a flocking brush (scraping member) (41) is provided on the surface of the cleaning rod (34). As a result, when the cleaning rod (34) in which static electricity is induced is moved along the suction surface, dust that cannot be absorbed by the cleaning rod (34) is brought into contact with the flocking brush (41). It can be removed from the intake surface (16a). Thereby, the dust removal capability of the cleaning rod (34) can be further improved.

<< Other Embodiments >>
In the present embodiment, the dust collector (42) is provided at the bottom of the storage (36). However, the present invention is not limited to this, and the storage (36) is connected to the dust collector ( 42).

  In the modification of the present embodiment, the flocked brush (41) is attached to the surface of the cleaning rod (34) capable of inducing static electricity. However, the present invention is not limited to this, and the first cleaning capable of inducing static electricity. You may divide into a stick and the 2nd cleaning stick which has a flocking brush on the surface, without inducing static electricity.

  In addition, the above embodiment is an essentially preferable illustration, Comprising: It does not intend restrict | limiting the range of this invention, its application thing, or its use.

  As described above, the present invention is useful for an air cleaner having a dust collection unit and a blower fan.

It is the schematic of the air cleaner which concerns on embodiment of this invention. It is a front view of the thin ventilation fan concerning the embodiment of the present invention. It is a side view of the thin ventilation fan concerning the embodiment of the present invention. (A) is a front view of the fan main body which concerns on embodiment of this invention, (b) is a rear view of a fan main body. It is a cross-sectional view of a fan body according to an embodiment of the present invention. It is sectional drawing which shows the 1st operation | movement of the fan main body which concerns on embodiment of this invention. It is sectional drawing which shows the 2nd operation | movement of the fan main body which concerns on embodiment of this invention. It is a figure which shows the dust removal operation | movement of the thin ventilation fan which concerns on embodiment of this invention, (a) is a state figure before dust adsorb | sucks to a cleaning stick, (b) is after dust adsorb | sucks to a cleaning stick It is a state diagram. It is the schematic of the thin ventilation fan which concerns on the modification of embodiment.

Explanation of symbols

1 Air purifier
2 Suction grill
3 Casing
4 Blowout grill
5 Thin fan
6 Charging part (charging means)
10 Fan body
17 Piezoelectric element
19 Thin-film vibrator (membrane-like vibrator)
32 switch (switching means)
34 Cleaning stick (dust remover)
30 Cleaning device
35 Static electricity generator
36 Storage (container)
37a First drive unit (drive mechanism)
37b Second drive unit (moving means)
41 Flocking brush (scraping member)
42 Dust collection receiver (collection member)

Claims (8)

A casing (3) having an inlet (7) and an outlet (8), and a blower fan (5) for generating an air flow sucked from the inlet (7) and blown out from the outlet (8) And an air cleaning device provided with a dust collecting part for collecting dust in the air flow,
The blower fan (5) includes a hollow plate-shaped fan body (10) having a membrane-like vibrating body (19) on one side,
The fan body (10) has an air chamber (14) formed in a hollow portion, an exhaust passage (15) communicating with the air chamber (14) formed in a front surface portion (11), and a back surface portion (12). While an intake passage (16) communicating with the air chamber (14) is formed, the air chamber (14) in the fan main body (10) from the intake passage (16) is caused by the vibration of the membrane-like vibrating body (19). And is configured to discharge air from the exhaust passage (15) to the outside of the air chamber (14),
An air purifier characterized in that the surface on which the inlet of the opening of the intake passage (16) is formed is an intake surface (16a), and the dust collection portion is constituted by the intake surface (16a). In claim 1,
The air cleaner according to claim 1, wherein the intake passage (16) includes a plurality of intake holes formed in the back surface portion (12). In claim 1 or 2,
A dust removing body (34) for removing dust adhering to the intake surface (16a), and a drive mechanism (37a) for moving the dust removing body (34) along the intake surface (16a). Features an air purifier. In claim 3,
Static electricity generating part (35) that induces static electricity on the surface of the dust removing body (34), and the dust in the airflow on the upstream side of the air intake surface (16a) is charged with the opposite polarity to the dust removing body (34) An air purifier characterized by comprising charging means (6). In claim 4,
There is provided switching means (32) capable of switching between a first state in which the dust removing body (34) is connected to the static electricity generating part (35) and a second state in which the dust removing body (34) is grounded. Features an air purifier. In any one of claims 3 to 5,
An air cleaning device, wherein a scraping member (41) for scraping dust is provided on a surface of the dust removing body (34). In any one of Claims 3-6,
The dust remover (34) is configured to be settable at a first position on the surface of the intake surface (16a) and a second position off the surface of the intake surface (16a),
The drive mechanism (37a) is configured to reciprocate the dust remover (34) between a first position and a second position,
An accommodating portion (36) for accommodating the dust removing body (34) in the second position, a cleaning means (37b, 39) for removing dust adhering to the surface of the dust removing body (34), and an inside of the accommodating portion (36) And a collecting member (42) for collecting dust removed by the cleaning means (37b, 39). In any one of Claims 1-7,
A plurality of the fan main bodies (10) are arranged in parallel in a direction orthogonal to the air blowing direction of the fan main body (10).

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