JP2012000180A - Air purification device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air purification device capable of supplying a purified air toward a predetermined indoor area and easy to pair with an existing air conditioner.SOLUTION: The air purification device 1 is used for purifying air blown out of the blowoff port 101 of the air conditioner 100 installed on a ceiling. The air purification device 1 includes: a body 2 having an ion generator 3 discharging the ion for purifying the air blown out of the blowoff port 101; and the mounting screws 31b, 32a, 32b, 32c, 33a, 33b and 33c for fixing the body 2 to the downstream side of the blowoff port 101 on a ceiling plane.

Description

  The present invention relates to an air purification device for purifying air blown from an air outlet of an air conditioner installed on a ceiling.

  In an air conditioner installed on a ceiling in a room, in order to purify air supplied to the room with ions, an air conditioner in which an ion generator is installed in a casing as described in Patent Document 1 has been conventionally used. More proposed. In this air conditioner, the air taken in the casing is purified by ions generated from the ion generator. By purifying the air with ions, it is possible to decompose fine particles that are the source of the odor contained in the air and to sterilize mold fungi in the air. Thereafter, the purified air is discharged to the outside of the casing and supplied to the indoor space.

JP-A-9-17362

  However, in such an air conditioner, since all of the air taken in the casing is purified by ions generated from the ion generator and then released to the outside of the casing, the purified air is supplied only to a predetermined area in the room. Is difficult. For example, in an air conditioner with multiple air outlets, air purified by ions blows out from all air outlets, so only certain areas (such as areas where there are many people) where you want to send purified air in the indoor space. It is difficult to supply toward For this reason, in order to distribute sufficiently purified air to a predetermined area, a large amount of ions must be generated, which is wasteful in terms of cost.

  In addition, when such an ion generator is used by being incorporated in an existing air conditioner installed on the ceiling, the work of incorporating the ion generator is very laborious. In addition, when the ion generator is installed in the air flow path inside the casing, there is a possibility that the air volume of the air conditioner is reduced or wind noise is generated.

  The present invention has been made in view of the circumstances as described above, and can purify air to be supplied toward a predetermined area in the room and can be easily combined with an existing air conditioner. An object is to provide an apparatus.

  In order to solve the above problems, the present invention is an air purification device for purifying air blown out from an air outlet of an air conditioner installed on a ceiling, and purifies air blown out from the air outlet. And a mounting means for fixing the main body portion to the downstream side of the air outlet on the ceiling surface.

  According to this configuration, the air blown out from the predetermined air outlet is purified and purified by installing the main body of the air purifier on the downstream side of the air outlet of the air conditioner using attachment means such as screws. The air thus supplied can be supplied toward a predetermined area in the room.

  Further, since the main body is installed on the downstream side of the predetermined air outlet of the air conditioner, it can be easily combined with the existing air conditioner as compared with the case where it is installed inside the air conditioner.

  The main body includes a pedestal to which the ion generator is fixed and a cover that covers the ion generator, and air that is blown out from the air outlet of the air conditioner is introduced into the cover. It is preferable that an introduction port to be introduced and a discharge port to be introduced into the cover portion from the introduction port and discharge the ions together with air are preferably formed.

  According to this configuration, the cover portion having the introduction port and the discharge port covers the ion generation unit, thereby protecting the ion generation unit and discharging the air purified by the ions and the ion flow from the discharge port in a predetermined direction. can do.

  Further, the main body portion includes at least one spacer disposed between the pedestal portion and the ceiling surface, and the attachment means includes a pedestal portion fixing portion that fixes the pedestal portion to the spacer. And a spacer fixing part for fixing the spacer to the ceiling surface.

  According to this configuration, by arranging one or a plurality of spacers interposed between the pedestal part and the ceiling surface, the inlet of the cover part can be positioned according to the position of the outlet and the wind direction. .

  Furthermore, the spacer fixing portion is a screw, the spacer has a screw hole through which the screw for fixing the spacer to the ceiling surface passes, and the pedestal portion has the screw of the spacer. The opening is preferably formed so as to have the same planar arrangement as the hole.

  According to this configuration, either the pedestal portion or the spacer can be screwed at the same position with respect to the ceiling surface. That is, the spacer can be selectively used. Therefore, if a screw mounting location is formed in advance by embedding an anchor in the ceiling at a predetermined position on the ceiling surface, either the pedestal or the spacer is screwed at the common anchor mounting location. It becomes possible.

  Furthermore, it is further provided with guide means provided inside the cover part and on the side opposite to the introduction port with respect to the ion generation part, and guides the air flow inside the cover part downward. preferable.

  According to this configuration, the air purified inside the cover portion can be smoothly guided downward by the guide means. Thereby, the quantity of the purified air supplied toward a predetermined area can be increased.

  Moreover, it is preferable that the said guide means is integrally formed with the said cover part by filling a part of discharge port of the said cover part.

  According to this configuration, the air purified inside the cover part can be smoothly guided downward by the guide means integrally formed with the cover part. In addition, since the guide means is constituted by the inner peripheral surface of the cover portion, it is very easy to form the cover portion and the guide means.

  Furthermore, it is preferable that the cover part can be rotated and opened in a direction away from the air conditioner.

  According to this configuration, since the cover part can be rotated and opened in a direction away from the air conditioner, the cover part can be easily opened and closed without colliding with the air conditioner.

  Further, the cover part has a cover part main body and a hinge part protruding from the cover part main body to the pedestal part side, and the hinge part is rotatably connected to the pedestal part. Is preferred.

  According to this structure, since the cover part is connected with the base part only by the part of the hinge part which protruded from the cover part main body, the removal of a cover part is easy.

  Furthermore, it is preferable that a lead-out hole for pulling out the electric wire connected to the ion generating part is formed on the outer peripheral surface exposed to the outside of the pedestal part.

  According to this configuration, it is possible to draw out the electric wire from the outer peripheral surface of the pedestal part through the drawing hole formed in the outer peripheral surface of the pedestal part. Therefore, wiring along the ceiling surface becomes very easy

  As described above, according to the air purification apparatus of the present invention, the purified air can be supplied toward a predetermined area in the room. Moreover, the air purification apparatus of the present invention can be easily combined with existing air conditioners.

It is a perspective view showing the state where the air purification device concerning a 1st embodiment of the present invention was installed around the ceiling installation type air conditioner. It is a perspective view of the air purification apparatus of FIG. It is a side view of the state installed in the ceiling surface of the air purification apparatus of FIG. It is a top view which shows the state which opened the cover part of the air purification apparatus of FIG. It is an expanded sectional view of the screw vicinity for fixing the base part of FIG. 4 to a ceiling. It is a perspective view which shows the inner side of the cover part of FIG. It is a perspective view which shows the state in the middle of installing the spacer of the air purification apparatus of FIG. It is a top view which shows arrangement | positioning of the screw hole of the spacer of FIG. It is sectional explanatory drawing which shows a mode that the air which blown off from the air conditioner by the air purification apparatus of FIG. 1 is purified. It is sectional drawing of the air purification apparatus with which the guide part was formed with the internal peripheral surface of the cover part concerning 2nd Embodiment of this invention. It is a perspective view in case the cover part main body which is a modification of the air purification apparatus of this invention is trapezoid shape. It is a perspective view in case the cover part main body which is the other modification of the air purifying apparatus of this invention is a shape where the trapezoid-shaped slope curved inside.

(First embodiment)
The air purification apparatus 1 according to the first embodiment shown in FIG. 1 purifies air blown out from an air conditioner 100 installed on a ceiling surface CS of a ceiling C.

  The air conditioner 100 has an air outlet 101 that opens in four directions along the ceiling surface CS, and an air inlet 102 that opens downward at a position surrounded by the four air outlets 101.

  The air purification device 1 is installed in front of the air outlet 101 and generates ions P to purify the air blown out from the air outlet 101.

  The four air purification apparatuses 1 shown in FIG. 1 are electrically connected to each other via a harness 20 wired along the ceiling surface CS. Since one of the four air purification apparatuses 1 is a master unit and the electrical system branches to the other slave units via the harness 20, the four air purification apparatuses 1 can be controlled collectively. Is possible. The harness 20 is wired to the ceiling surface CS in a state of being covered with a synthetic resin molding.

  As shown in FIGS. 2 to 4, the air purification device 1 includes a main body portion 2 and attachment means for fixing the main body portion 2 to the downstream side (that is, the front side) of the air outlet 101 in the ceiling surface CS. Yes.

  2-4, the main-body part 2 is provided with the ion generation part 3, the base part 4, and the cover part 5 as basic composition. Further, if necessary, the main body 2 is provided with the inlets 14a and 14b (see FIG. 9) of the cover 5 according to the height and direction of the air blown out from the air outlet 101, as shown in FIGS. The spacer 6 is provided between the pedestal 4 and the ceiling surface CS.

As shown in FIG. 9, the ion generator 3 has a needle-like discharge electrode 3a and an annular induction electrode 3b surrounding the needle-like discharge electrode 3a. The ion generation part 3 is equipped with the acicular discharge electrode 3a for positive electrodes and negative electrodes, respectively. By applying a voltage to these needle-like discharge electrodes 3a, ions P for purifying the air blown out from the outlet 101 are generated. The ions P are positive ions (for example, H ⁺ (H ₂ O) _m (m is an arbitrary value) generated by ionizing water molecules in the air by applying a voltage to the acicular discharge electrode 3a, for example. Natural number)) and negative ions (for example, O ₂ ⁻ (H ₂ O) _n (n is an arbitrary natural number)).

  The pedestal 4 is a pedestal to which the ion generator 3 is fixed. The ion generator 3 is mounted on the mounting surface 4 h (surface opposite to the ceiling surface CS) of the pedestal portion 4 and is fixed to the mounting surface 4 h of the pedestal portion 4 by screws 34. In the example of FIG. 4, the two ion generation units 3 are mounted on the mounting surface 4 h of the single pedestal unit 4, but at least one ion generation unit 3 is sufficient.

  Further, as shown in FIG. 4, the base portion 4 has three openings 17 a, 17 b, and 17 c.

  In addition, as shown in FIGS. 2 to 3 and FIG. 7, mounting step portions 22 that are partially recessed inward are formed on both side surfaces of the pedestal portion 4. The mounting step portion 22 has an arcuate smooth inner peripheral surface. A female screw hole 23 is formed in the mounting step 22.

  In addition, on three side surfaces of the pedestal portion 4, lead-out holes 4 a, 4 b, 4 c for drawing out a harness 20 for electrical connection with another air purification device 1 are opened. The size of the lead-out holes 4a, 4b, 4c is set to a size that allows the harness 20 and the molding covering it to be inserted.

  The pedestal portion 4 is formed with through holes 4e, 4f, and 4g that communicate with the drawing holes 4a, 4b, and 4c, respectively. The harness 20 is connected to the ion generator 3 through these through holes 4e, 4f, and 4g.

  Further, as shown in FIG. 3, columnar shaft portions 21 projecting vertically from the both side surfaces protrude from both side surfaces of the pedestal portion 4.

  The cover 5 is a member that covers the ion generator 3 and is attached to the pedestal 4. The cover part 5 is provided with the cover part main body 11 and the hinge part 12, as FIG. 2-4, FIG. 6, and FIG. 9 show.

  The cover part main body 11 is a long cover having an arcuate surface, and is integrally molded with synthetic resin together with the hinge part 12 and the guide part 13.

  A plurality of slits 30 extending in the width direction are formed on the semi-cylindrical peripheral surface of the cover body 11. The slit 30 includes the inlets 14a and 14b and the outlets 15a and 15b shown in FIG.

  As shown in FIG. 9, the inlets 14 a and 14 b are slits that introduce the air A <b> 1 blown out from the outlet 101 of the air conditioner 100. The discharge ports 15a and 15b are slits for discharging the air and ions P introduced into the cover portion 5 from the introduction ports 14a and 14b.

  Therefore, among the slits 30, the slits closer to the air outlet 101 of the air conditioner 100 become the inlets 14a and 14b, and the slits farther away become the outlets 15a and 15b.

  3-4 and FIG. 6, the engaging part 11a is formed in the center edge part of the cover part main body 11. As shown in FIG. The engaging portion 11a can lock the cover portion 5 in the closed state by engaging with a receiving portion 4d provided at the center of the pedestal portion 4.

  Further, in the present embodiment, a magnetic body (not shown) such as an iron plate is provided on a portion of the cover portion main body 11 that faces the mounting surface 4h of the pedestal portion 4, for example, an edge extending on both sides of the engaging portion 11a. Is provided. By adsorbing the magnetic body on the cover portion main body 11 side to the two magnets 35 provided on the mounting surface 4h of the pedestal portion 4, the state in which the cover portion 5 is closed can be reliably held. Moreover, if the engagement part 11a and the receiving part 4d are disengaged and the cover part 5 is opened by hand while resisting the magnetic force of the magnet 35, the cover part 5 can be easily opened and closed.

  As shown in FIGS. 3 and 9, the hinge portion 12 projects from the cover portion main body 11 to the pedestal portion 4 side. The hinge portion 12 is rotatably connected to a shaft portion 21 protruding outward from both side surfaces of the pedestal portion 4 in the hole 12a.

Also, as shown in FIG. 3, the hinge portion 12 and the shaft portion 21 are arranged on the side farther from the air conditioner 100 in the main body portion 2, so that the cover portion 5 does not collide with the air conditioner 100. It is possible to rotate and open in a direction away from the air conditioner 100.
As shown in FIG. 1 and FIGS. 7 to 8, the spacer 6 is configured to adjust the height of the inlets 14 a and 14 b of the cover portion 5 in accordance with the height and direction of the air blown from the blower outlet 101. If necessary, it is interposed between the pedestal 4 and the ceiling surface CS.

  As shown in FIGS. 7 to 8, the spacer 6 has a shape that can be overlapped with the pedestal portion 4 and other spacers 6, and is only a predetermined height (about 20 mm) per step of the spacer 6. It is possible to adjust the height of the inlets 14a and 14b.

  Further, the shape of the surface installed on the ceiling surface CS of the spacer 6 and the planar arrangement of the screw holes 16a to 16c are the same as the installation surface shape of the pedestal portion 4 and the planar arrangement of the openings 17a to 17c. Therefore, the spacer 6 can be fixed using the anchor 103 arranged on the ceiling surface CS as it is to fix the pedestal 4.

  Specifically, it is as follows.

  As shown in FIG. 8, the spacer 6 has three screw holes 16a, 16b, and 16c.

  The screw holes 16a, 16b, and 16c of the spacer 6 and the openings 17a, 17b, and 17c of the base portion 4 are formed so as to have the same planar arrangement. Therefore, the screw holes 16a, 16b, and 16c of the spacer 6 can be overlaid on the position of the anchor 103 arranged on the ceiling surface CS in order to fix the base portion 4. Therefore, either the base part 4 or the spacer 6 can be screwed using the anchor 103 disposed at the same position with respect to the ceiling surface CS.

  Further, on the three side surfaces of the spacer 6, lead-out holes 6 a, 6 b, 6 c for drawing out the harness 20 for electrical connection with the other air purification device 1 are opened. The size of the drawing holes 6a, 6b, 6c is the same size as the drawing holes 4a, 4b, 4c of the pedestal part 4, and is set to a size that allows the harness 20 and the molding covering it to be inserted. .

  Further, the spacer 6 is formed with through holes 6d, 6e, and 6f that communicate with the drawing holes 6a, 6b, and 6c, respectively. These through holes 6d, 6e, 6f can communicate with the through holes 4e, 4f, 4g of the pedestal part 4, respectively, and the harness 20 is connected to these through holes 6d, 6e, 6f, 4e, 4f, It is possible to connect to the ion generating part 3 installed on the surface of the base part 4 through 4g.

  As shown in FIG. 7, mounting protrusions 26 are formed on both side surfaces of the spacer 6. The attachment protrusion 26 has an opening 27 into which the side surface fixing screws 31a and 31b are inserted. The tip of the mounting projection 26 is rounded in an arc shape.

  Further, on both side surfaces of the spacer 6, mounting step portions 24 that are partially recessed inward are formed. A female screw hole 25 is formed in the mounting step 24. The mounting step 24 has an arcuate smooth inner peripheral surface.

  The air purification apparatus 1 of 1st Embodiment is further provided with the guide part 13, as FIG. 6 and FIG. 9 shows.

  As shown in FIGS. 6 and 9, the guide portion 13 is provided inside the cover portion 5 and on the side opposite to the introduction ports 14 a and 14 b with respect to the ion generating portion 3, and the air inside the cover portion 5. The flow is guided downward. The guide unit 13 is included in the concept of the guide means of the present invention.

The attachment means for fixing the main body 2 to the ceiling surface CS is composed of, for example, screws, and specifically, pedestal fixing screws 33a, 33b, 33c (see FIG. 4) and side fixing screws 31a, 31b (see FIG. 7) and spacer portion fixing screws 32a, 32b, 32c (see FIG. 8). These screws are included in the concept of the attachment means of the present invention.

  Here, the base part fixing screws 33a, 33b, 33c (see FIG. 4) are screws that fix the base part 4 to the ceiling C. The side surface fixing screw 31 a (see FIG. 7) is a screw that fixes the side surface of the spacer 6 and the side surface of the base portion 4. The side surface fixing screw 31b (see FIG. 7) is a screw for fixing the side surfaces of the spacers 6 to each other. The spacer portion fixing screws 32a, 32b, and 32c (see FIG. 8) are screws that fix the spacer portion 6 to the ceiling C.

  The side surface fixing screw 31a is a concept included in the pedestal portion fixing portion of the present invention.

  In the air purification apparatus 1 configured as described above, it is attached to the ceiling C as follows.

  First, when the base part 4 is directly screwed to the ceiling C, the base part fixing screws 33a, 33b, 33c are inserted into the openings 17a, 17b, 17c of the base part 4, and the predetermined air outlet 101 of the ceiling surface CS is inserted. Fix downstream. Specifically, as shown in FIG. 5, the pedestal fixing screw 33 c is opened with the position of the anchor 103 embedded in the position downstream of the air outlet 101 on the ceiling C and the position of the opening 17 c aligned. In a state where it is inserted through 17c, it is screwed into the female screw hole 104 of the anchor 103. Thereby, the pedestal part 4 is fixed along the ceiling surface C.

  When the spacer 6 is used, first, as shown in FIGS. 7 to 8, the lowermost spacer 6 is moved downstream of the outlet 101 of the air conditioner 100 using the spacer fixing screws 32 a, 32 b, and 32 c. Screw to the position of the anchor 103 (see FIG. 5) embedded in the ceiling surface CS on the side. Thereafter, the second-stage spacer 6 or the pedestal 4 is overlapped and screwed with the side surface fixing screws 31a and 31b.

  When attaching the second-stage spacer 6, as shown in FIG. 7, the attachment protrusion 26 of the lowermost-layer spacer 6 is inserted into the attachment step portion 24 of the second-stage spacer 6, and the side surface is fixed in that state. By inserting the screw 31 b into the opening 27 of the mounting projection 26 and screwing it into the female screw hole 25 of the mounting step portion 24, the spacers 6 are coupled to each other. The same applies to the case where the third-stage spacer 6 is attached.

  In addition, when attaching the pedestal part 4 in the second and subsequent stages, the attachment protrusion 26 of the spacer 6 is inserted into the attachment step part 22 of the pedestal part 4 in the same manner as in the case where the spacers 6 are stacked, and the side surface is fixed in that state The base part 4 and the spacer 6 are coupled by inserting the screw 31 a into the opening 27 of the attachment protrusion 26 and screwing it into the female screw hole 23 of the attachment step part 22.

  Next, a method for purifying the air A <b> 1 blown out from the outlet 101 of the air conditioner 100 using the air purification device 1 of the first embodiment will be described.

  As shown in FIG. 9, first, when the air A <b> 1 blown out from the air outlet 101 of the air conditioner 100 is introduced into the cover part 5 from the inlets 14 a and 14 b of the cover part 5, Part of the air is purified by the generated ions P. Air and ions P are discharged to the outside of the cover portion 5 through the discharge ports 15a and 15b.

  A part of the air purified inside the cover part 5 is guided downward by the guide part 13 as shown by the downward flow A3 in FIG. 9 and discharged downward from the discharge port 15a. It merges with the flowing air A2 and is supplied indoors.

  Furthermore, the ions P generated from the ion generator 3 of the first embodiment are composed of positive ions and negative ions obtained by ionizing and decomposing water molecules in the air, and these ions P are covered with water molecules. Life is relatively long (such ions P have a life of about 3 seconds from the generation). Therefore, a part of the ions P is released into the room together with the purified air, and the indoor air can be further purified by the released ions P.

  For example, as shown in FIG. 9, a part of the ions P is released to the outside of the cover part 5 through the slit 30 located below the needle-like discharge electrode 3 a, and the released ions P are emitted from the cover part 5. It is possible to purify the air A2 flowing outside and to be supplied to a predetermined area in the room together with the air A2 and to purify the air in the predetermined area with priority.

(Characteristics of the first embodiment)
In the air purification apparatus 1 according to the first embodiment, the main body 2 is installed on the downstream side of the predetermined air outlet 101 of the air conditioner 100 using attachment means such as screws 31 to 33, so that the predetermined air outlet 101 The blown out air can be purified, and the purified air can be supplied toward a predetermined area in the room.

  For example, in FIG. 1, the air purification device 1 is installed on all downstream sides of the four-way outlets 101, but in the present invention, any one downstream side of the four-way outlets 101, for example, It is also possible to install the air purification device 1 only on the downstream side of the air outlet 101 facing an area where there are many people. Thereby, the purified air and ions P can be supplied toward a predetermined area, and the purified air can be effectively discharged.

  Moreover, since the main body 2 is installed outside the air conditioner 100, specifically, on the downstream side of the air outlet 100 of the air conditioner 100 on the ceiling surface CS, it is compared with the case where it is installed inside the air conditioner 100. Thus, it can be easily combined with existing air conditioners.

  The main body 2 includes a pedestal 4 to which the ion generator 3 is fixed, and a cover 5 that covers the ion generator 3. The cover 5 is blown out from the air outlet of the air conditioner 100. Inlet ports 14a and 14b for introducing air and exhaust ports 15a and 15b for discharging air and ions P are formed. According to this configuration, the ion generator 3 can be protected by covering the ion generator 3 with the cover 5 having the inlets 14a and 14b and the outlets 15a and 15b. At the same time, the air purified by the ions P and the flow of the ions P can be discharged from the discharge ports 15a and 15b in a predetermined direction.

  Furthermore, the main body 2 of the first embodiment includes at least one spacer 6 that is disposed between the pedestal 4 and the ceiling surface CS. As attachment means, a side surface fixing screw 31a which is a base portion fixing portion for fixing the base portion 4 to the spacer 6 and spacer fixing screws 32a, 32b and 32c for fixing the spacer 6 to the ceiling surface CS are included. According to this configuration, by arranging one or a plurality of spacers 6 interposed between the base part 4 and the ceiling surface CS, the inlets 14a and 14b of the cover part 5 Can be positioned according to the wind direction.

  The spacer 6 has screw holes 16a, 16b, and 16c through which spacer fixing screws 32a, 32b, and 32c for fixing the spacer 6 to the ceiling surface CS are passed. Openings 17a, 17b, and 17c are formed so as to have the same planar arrangement as the holes 16a, 16b, and 16c. According to this configuration, since the screw holes for screwing the base portion 4 and the spacer 6 to the CS on the ceiling surface have the same planar arrangement, the anchor 103 arranged at the same position with respect to the ceiling surface CS. Can be used to screw either the pedestal 4 or the spacer 6.

  For example, when the air purification device 1 is first installed on the ceiling surface CS, the pedestal portion 4 is directly screwed to the ceiling surface CS without using the spacer 6. When it is necessary to adjust the height of the inlets 14a and 14b of the cover part 5 for reasons such as changing the orientation, the anchor 103 used when fixing the base part 4 to the ceiling surface CS is used as it is. Thus, the additional spacer 6 can be screwed to the ceiling surface CS.

  Moreover, the air purification apparatus 1 of 1st Embodiment is provided in the cover part 5 inside and on the opposite side to the inlets 14a and 14b with respect to the ion generation part 3, and the flow of the air inside the cover part 5 is carried out. Since the guide part 13 which guides below is further provided, the air purified inside the cover part 5 can be smoothly guided downward like the downward flow A3 of FIG. Thereby, the amount of purified air and ions P supplied toward a predetermined area can be increased.

  Furthermore, in 1st Embodiment, the cover part 5 has the cover part main body 11, and the hinge part 12 which protrudes from the cover part main body 11 to the base part 4 side, and the hinge part 12 is on the base part 4. It is connected rotatably. Thus, since the cover part 5 is connected with the base part 4 only by the part of the hinge part 12 which protruded from the cover part main body 11, the removal of the cover part 5 is easy.

  Moreover, the hinge part 12 and the axial part 21 of 1st Embodiment are arrange | positioned at the side far from the air conditioner 100 among the main-body parts 2, and the cover part 5 rotates in the direction away from the air conditioner 100, and opens. Therefore, the cover part 5 can be easily opened and closed without colliding with the air conditioner 100. In addition, when a stepladder is installed directly below the air conditioner 100, it is retracted away from the air conditioner 100 when the cover unit 5 is opened, so that the inside of the air purification device 1 is not obstructed by the cover unit 5. The maintenance work can be easily performed.

  Moreover, in 1st Embodiment, the extraction holes 4a, 4b, and 4c for drawing out the harness 20 which is an electric wire for electrical connection connected to the ion generation part 3 are formed in the outer peripheral surface exposed to the outside of the base part 4. Therefore, the harness 20 can be pulled out from the outer peripheral surface of the base portion 4. Therefore, wiring of the harness 20 along the ceiling surface CS becomes very easy.

  Further, in the first embodiment, since the extraction holes 6a, 6b, 6c are also formed on the outer peripheral surface of each spacer 6, even when the spacer 6 is used while being superimposed on the pedestal portion 4, it is along the ceiling surface CS. Wiring of the harness 20 becomes very easy.

  Moreover, since the planar arrangement of the extraction holes 4a, 4b, and 4c of the pedestal portion 4 and the planar arrangement of the extraction holes 6a, 6b, and 6c of each spacer 6 are the same, even when the spacers 6 are added, the air purification device. It is possible to use the harness 20 wired to the ceiling surface CS when installing 1 for the first time without changing the position of the harness.

  In the first embodiment, an example in which the guide portion 13 is integrally formed with the cover portion main body 11 and the hinge portion 12 is shown, but the present invention is not limited to this, and the guide portion 13 is connected to the cover portion main body. 11 may be manufactured separately and attached to the cover body 11 in a detachable manner.

(Second Embodiment)
In said 1st Embodiment, although the guide part 13 which guides the flow of the air inside the cover part 5 below is protruded and formed from the internal peripheral surface of the cover part main body 11, this invention is limited to this. Instead of the thing, the wall itself of the inner peripheral surface of the cover body 11 may be used as the guide portion.

  Specifically, as shown in FIG. 10, the guide portion 28 is the most downstream discharge port 15 b (see FIG. 9) among the slits 30 on the inner peripheral surface of the cover portion main body 11 of the cover portion 5. ) Is formed integrally with the cover part main body 11 of the cover part 5 by filling a part of the slit corresponding to.

  In the second embodiment, by using the inner peripheral surface of the cover body 11 as the guide portion 28, the air and ions P purified inside the cover portion 5 are smoothly guided downward as shown by the downward flow A3 in FIG. can do. In addition, since the guide portion 28 is formed by the inner peripheral surface of the cover portion main body 11, the molding of the cover portion 5 and the guide portion 28 becomes very easy.

  In the first and second embodiments described above, the screw has been described as an example of the attachment means for fixing the main body portion to the ceiling surface, but the present invention is not limited to this, and the main body portion is not limited to this. Any means may be adopted as long as it can be fixed to the ceiling surface. In addition to screws, various attachment means such as bolts, nuts, or nails may be used.

  In the first and second embodiments, the cover portion 5 is connected to the main body portion 2 via the hinge portion 12. In order to prevent the cover portion 5 from falling, the cover portion 5 and the pedestal portion 4 are further provided. Are preferably connected with a wire or the like.

  Further, as shown in FIG. 7, an air wing or the like may be attached to the outside of the cover portion 5 in order to adjust the direction of the air flow blown from the air outlet 101 of the air conditioner 100. For example, as shown in FIG. 7, it is preferable to form attachment holes 36 for attaching air wings on both side surfaces of the cover portion 5 in the longitudinal direction.

  In the first and second embodiments described above, an example is shown in which the shape of the cover body 11 is such that a cylinder having an arcuate surface is divided in half. It is not limited to this, It is possible to employ | adopt the cover part main body of various shapes. For example, the cover body 11 having a trapezoidal shape as shown in FIG. 11 or a trapezoidal slope as shown in FIG. In these cases, the same effects as those in the first and second embodiments can be obtained.

  Moreover, the shape of the slit 30 formed in the cover part main body 11 may be changed. For example, the width of the slit 30 may be increased.

DESCRIPTION OF SYMBOLS 1 Air purification apparatus 2 Main body part 3 Ion generation part 4 Base part 5 Cover part 6 Spacer part 11 Cover part main body 12 Hinge part 13 Guide part 14a, 14b Inlet 15a, 15b Discharge port 16a, 16b, 16c Screw hole 17a, 17b , 17c Opening 30 Slit 31a Side fixing screw (pedestal fixing part)
31b Side surface fixing screw 32a, 32b, 32c Spacer fixing screw (spacer fixing part)
33a, 33b, 33c Pedestal fixing screw 100 Air conditioner 101 Air outlet C Ceiling CS Ceiling surface

Claims (9)

An air purification device for purifying air blown out from an air outlet of an air conditioner installed on a ceiling,
A main body having an ion generator for discharging ions for purifying air blown from the outlet;
Mounting means for fixing the main body to the downstream side of the outlet on the ceiling surface;
With
Air purification device. The main body includes a pedestal to which the ion generator is fixed, and a cover that covers the ion generator,
The cover part is formed with an inlet for introducing air blown out from the air outlet of the air conditioner and an outlet for introducing the ions together with the air introduced into the cover part from the inlet. ,
The air purifier according to claim 1. The main body includes at least one spacer disposed so as to be interposed between the pedestal and the ceiling surface,
The attachment means includes a pedestal portion fixing portion that fixes the pedestal portion to the spacer, and a spacer fixing portion that fixes the spacer to the ceiling surface.
The air purification apparatus according to claim 2. The spacer fixing part is a screw,
The spacer has a screw hole through which the screw for fixing the spacer to the ceiling surface passes, and
In the pedestal portion, an opening is formed so as to have the same planar arrangement as the screw hole of the spacer.
The air purifier according to claim 3. A guide means provided inside the cover portion and on the opposite side of the introduction port with respect to the ion generating portion, and further guiding a flow of air inside the cover portion downward;
The air purification apparatus in any one of Claim 2 to 4. The guide means is integrally formed with the cover part by filling a part of the discharge port of the cover part.
The air purification apparatus according to claim 5. The cover part can be rotated and opened in a direction away from the air conditioner.
The air purification apparatus in any one of Claim 2 to 6. The cover part has a cover part main body and a hinge part protruding from the cover part main body to the pedestal part side;
The hinge part is rotatably connected to the pedestal part,
The air purification apparatus in any one of Claim 2 to 7. On the outer peripheral surface exposed to the outside of the pedestal part, a lead-out hole for drawing out the electric wire connected to the ion generating part is formed,
The air purification apparatus in any one of Claim 2 to 8.

Images