WO2013151036A1 - Air blower - Google Patents

Abstract

This air blower (1) is provided with: a suction port (4) and an air outlet (5) that open to a main housing (2); an air blowing passage (20) that is disposed inside the main housing (2), and links the suction inlet (4) and air outlet (5); an air blowing fan (7) that is disposed inside the air blowing passage (20); and wind direction plates (25) that are disposed in the air outlet (5). The air blowing passage (20) has a plurality of divided passages (22) that are divided by dividers (21) downstream from the air blowing fan (7). Each wind direction plate (25) has a flexible section (25a) comprising a flexible member, extends from the downstream end of the dividers (21), and varies the wind direction by moving the leading end in a direction that intersects the air flow. Furthermore, each wind direction plate (25) is formed by a transparent member, and is provided with an illumination part (28) that is disposed at the end of the air outlet (5) in the direction in which the wind direction plates (25) are arranged side by side, and projects illumination light toward the wind direction plates.

Description

Blower

The present invention relates to an air blower provided with a wind direction plate at an air outlet.

A conventional blower is disclosed in Patent Document 1. This blower device includes a main body casing installed on a floor surface, and opens a suction port and an outlet in the main body casing. A blower passage that connects the suction port and the blower outlet is formed in the main body housing, and a blower fan is disposed in the blower passage. The blower outlet is provided with a plurality of wind direction plates that change the wind direction. Each wind direction plate is formed by a plate-like member connected by a link, and rotates integrally to be arranged in a predetermined direction.

In the air blower having the above configuration, indoor air flows into the air passage from the suction port by driving the air blower fan. The air flowing through the air passage is sent out from the outlet in a direction corresponding to the direction of the wind direction plate. Thereby, while ventilating toward a user, indoor air can be circulated.

Japanese Patent Laid-Open No. 2-185696 (pages 2 to 3 and FIG. 2)

However, according to the conventional blower, the wind direction plate is formed by a plate member. For this reason, if the inclination angle of the wind direction plate increases with respect to the air flow direction in the vicinity of the air outlet, the pressure loss of the air flowing through the air passage increases. For this reason, there existed a problem which the power consumption of an air blower becomes large.

Also, according to the conventional blower, the user cannot easily visually recognize the direction of the wind direction plate when the room is dark. For this reason, there is a problem that the user cannot determine whether the wind direction is desired and the convenience of the blower is poor.

An object of the present invention is to provide a blower capable of reducing power loss by reducing pressure loss due to a wind direction plate. Moreover, an object of this invention is to provide the air blower which can improve the convenience.

In order to achieve the above object, the present invention provides a suction port and an air outlet that are opened in a main body housing, an air passage that is arranged in the main body housing and communicates the air inlet and the air outlet, and the air passage. In a blower provided with a blower fan arranged inside and a wind direction plate arranged in the blower outlet, the blower passage has a plurality of divided passages divided by a partition plate downstream of the blower fan, The wind direction plate has a flexible portion made of a flexible member, and extends from the downstream end of the partition plate, and moves the tip in a direction intersecting the air flow to vary the wind direction.

According to this configuration, when the blower fan is driven, indoor air flows into the blower passage from the suction port, and flows through the plurality of divided passages divided by the partition plate downstream of the blower fan. The airflow flowing through the dividing passage flows along the curved flexible portion of the wind direction plate extending from the downstream end of the partition plate, and is sent out in a predetermined direction from the outlet.

Further, the present invention is characterized in that, in the air blower configured as described above, the blower fan is a centrifugal fan. According to this configuration, the airflow is guided in the direction of the one wall surface of the blower passage by the centrifugal force of the centrifugal fan. At this time, the airflow is prevented from being biased by the divided passage, and the airflow is uniformly sent from the outlet.

Further, the present invention is characterized in that, in the air blower configured as described above, the tip of the wind direction plate is made of a hard member. According to this structure, a hard member is exposed from a blower outlet and damage to a wind direction board when a user's finger | toe contacts can be prevented.

Further, the present invention is characterized in that, in the air blower configured as described above, the flexible portion is made of polyethylene and the tip portion is made of acrylic.

Further, the present invention is characterized in that the blower configured as described above includes an ion generator that emits ions toward the blower passage on the downstream side of the blower fan. According to this configuration, ions are released into the blower passage by driving the ion generator, and an airflow containing ions is sent out from the blowout port.

In addition, the present invention provides a suction port and an air outlet opening in the main body housing, an air passage that is disposed in the main body housing and connects the air inlet and the air outlet, and an air flow disposed in the air passage. A fan and a plurality of wind direction plates arranged in one direction while being arranged at the air outlet and changing the air direction, each air direction plate is formed of a transparent member, and the air direction plate of the air outlet is An illuminating unit that emits illuminating light toward the wind direction plate is provided at an end portion in a direction in which the two are arranged side by side.

に よ る According to this configuration, when the blower fan is driven, indoor air flows from the suction port into the blower passage. The airflow flowing through the air passage is sent out from the outlet in a direction corresponding to the direction of the wind direction plate. A plurality of wind direction plates formed by the transparent member are arranged side by side, and illumination light emitted from an illumination unit disposed at one end of the wind direction plates in the direction of arrangement is transmitted through each wind direction plate and reflected on each wind direction plate.

Further, the present invention is characterized in that, in the air blower configured as described above, the wind direction plate is made of acrylic.

The present invention is characterized in that, in the air blower configured as described above, the wind direction plate swings. According to this configuration, the direction of the reflected light of the swaying wind direction plate is sequentially changed.

According to the present invention, in the air blower configured as described above, an ion generator that emits ions to the air passage is provided, and the color of the illumination light emitted from the illumination unit is different between when the ion generator is driven and when the ion generator is stopped. It is characterized by that.

According to this configuration, ions are released into the blower passage by driving the ion generator, and an air stream containing ions is sent out from the outlet. At this time, for example, green illumination light is emitted from the illumination light. When the ion generator is stopped, air is blown from the outlet, and indoor air circulates. At this time, for example, blue illumination light is emitted from the illumination light.

According to the present invention, since the wind direction plate extending from the downstream end of the partition plate that forms the wall surface of the division passage has the flexible portion, the airflow flowing through the division passage smoothly flows and blows along the curved flexible portion. Sent from the exit. Therefore, it is possible to reduce the pressure loss due to the wind direction plate and save power in the blower.

Further, according to the present invention, the wind direction plates arranged in one direction are formed of the transparent member, and the illumination unit is arranged at the end in the direction in which the wind direction plates of the outlets are arranged in parallel, so that the illumination emitted from the illumination unit Light passes through each wind direction plate and is reflected on the surface of each wind direction plate. Thereby, even if the room is dark, a plurality of wind direction plates are visually recognized by the user due to the reflection of the illumination light. Therefore, the user can easily determine the wind direction, and the convenience of the blower can be improved.

The perspective view of the air blower of 1st Embodiment of this invention. The side view which shows the inside of the air blower of 1st Embodiment of this invention. The perspective view which shows the ion generator of the air blower of 1st Embodiment of this invention. The perspective view which shows the wind direction board of the air blower of 1st Embodiment of this invention. The side view which shows the wind direction board of the air blower of 1st Embodiment of this invention. The side view which shows the inside of the air blower of 2nd Embodiment of this invention.

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view of the blower according to the first embodiment. In the figure, white arrows indicate the direction of air flow. The blower device 1 includes a main body housing 2 having a columnar shape and a pedestal portion 3 disposed below the main body housing 2.

The main body housing 2 is formed in a columnar shape extending vertically. The main body housing 2 has a circular bottom surface, and a portion from a substantially central portion in the vertical direction to the upper end is formed in a substantially rectangular parallelepiped shape. The upper part of the substantially rectangular parallelepiped shape has a longer front and rear length than a lateral width, and is curved so that the left and right side surfaces bulge outward.

Both side surfaces of the upper portion of the main body housing 2 are covered with an exterior cover 2 a, and one side surface of the lower portion is covered with a ventilation plate 9 that opens the suction port 4. An air outlet 5 is opened in the upper front of the main body housing 2. An operation unit 6 is provided on the upper surface of the main body housing 2.

The pedestal portion 3 has a circular shape in plan view, and supports the main body housing 2 erected on the upper surface. A power cord 8 is led out on the peripheral surface of the pedestal 3. When a displacement motor (not shown) provided at the lower portion is driven, the main body housing 2 rotates in a horizontal plane with respect to the pedestal portion 3 about a rotation axis extending in the vertical direction provided at the radial center. As a result, the main body housing 2 is reciprocated within a predetermined angle range to perform a swinging motion.

FIG. 2 is a side view showing the inside of the blower 1 with the exterior cover 2a and the ventilation plate 9 removed. A blower passage 20 is provided in the main body housing 2 so as to extend in the vertical direction and allow the suction port 4 and the blowout port 5 to communicate with each other. A blower fan 7 is disposed inside the blower passage 20 and below the main body housing 2.

The blower fan 7 is constituted by a centrifugal fan such as a sirocco fan, and an intake port (not shown) is arranged facing the intake port 4. The exhaust port 7a of the blower fan 7 opens upward. The air sucked from the suction port 4 by the drive of the blower fan 7 flows toward the blower outlet 5. The blower fan 7 may be constituted by a turbo fan.

The blower passage 20 has a plurality of divided passages 22 that extend upward at the downstream side of the blower fan 7 and are curved toward the front outlet 5 and divided by the partition plate 21. In the present embodiment, six dividing passages 22 are provided by five partition plates 21. The divided passages 22 are arranged in a line in the front-rear direction of the blower 1 at the inlet 23 and in a line in the vertical direction at the outlet 24. The partition plate 21 forms upper and lower wall surfaces of the divided passage 22, and six wind direction plates 25 are arranged at the outlet 5 so as to extend the partition plate 21 and the lower wall 26 of the blower passage 20.

An ion generator 30 that generates ions is disposed between the blower fan 7 and the divided passage 22. Since the ion generator 30 is disposed downstream of the blower fan 7, it is possible to prevent the disappearance of ions due to the collision with the blower fan 7.

FIG. 3 shows an external perspective view of the ion generator 30. The ion generator 30 is packaged by disposing a discharge electrode and other electronic components in a housing 31. The ion generator 30 includes a circuit unit (not shown), a positive ion generator 32P, and a negative ion generator 32N. The circuit unit is provided with a high voltage electricity generation circuit that generates a high voltage electric pulse by receiving power supply from the outside.

The positive ion generator 32P includes a positive discharge electrode 33P, and the negative ion generator 32N includes a negative discharge electrode 33N. The two pairs of the positive discharge electrode 33P and the negative discharge electrode 33N are each formed in a needle shape, arranged side by side at a predetermined interval, and face the blower passage 20 through the opening.

Both the positive ion generator 32P and the negative ion generator 32N are formed in the same structure. A high voltage generated by the high voltage electricity generation circuit is supplied to each of the positive discharge electrode 33P and the negative discharge electrode 33N to generate a discharge and release ions.

A voltage having an AC waveform or an impulse waveform is applied to the positive discharge electrode 33P and the negative discharge electrode 33N. A positive voltage is applied to the positive discharge electrode 33P, and hydrogen ions generated by corona discharge combine with moisture in the air to generate positive ions mainly composed of H ⁺ (H ₂ O) m.

A negative voltage is applied to the negative discharge electrode 33N, and oxygen ions generated by corona discharge combine with moisture in the air to generate negative ions mainly composed of O ₂ ⁻ (H ₂ O) n. Here, m and n are arbitrary natural numbers. H ⁺ (H ₂ O) m and O ₂ ⁻ (H ₂ O) n aggregate around the surface of airborne bacteria and odorous components and surround them.

Then, as shown in the formulas (1) to (3), active species [· OH] (hydroxyl radicals) and H ₂ O ₂ (hydrogen peroxide) are agglomerated and produced on the surface of microorganisms or the like by collision. Destroy airborne bacteria and odorous components. Here, m ′ and n ′ are arbitrary natural numbers. Therefore, the ion generator 30 releases positive ions and negative ions into the air passage 20, and positive ions and negative ions are sent out from the blowout port 5. Thereby, indoor sterilization and deodorization can be performed, for example.

H ⁺ (H ₂ O) m + O ₂ ⁻ (H ₂ O) n → OH + _1/2 O ₂ + (m + n) H ₂ O (1)
_{^{H + (H 2 O) m}} + H + (H 2 O) m '+ O 2 - (H 2 O) n + O 2 - (H 2 O) n'
→ 2 · OH + O ₂ + (m + m ′ + n + n ′) H ₂ O (2)
_{^{H + (H 2 O) m}} + H + (H 2 O) m '+ O 2 - (H 2 O) n + O 2 - (H 2 O) n'
→ H ₂ O ₂ + O ₂ + (m + m ′ + n + n ′) H ₂ O (3)

In this embodiment, positive ions and negative ions are generated by the ion generator 30, but only positive ions or only negative ions may be generated.

Alternatively, the ion generator 30 may be an electrostatic atomizer that generates ions composed of charged fine particle water. Charged fine particle water containing a radical component is generated by the electrostatic atomizer. That is, condensation water is generated on the surface of the discharge electrode by cooling the discharge electrode provided in the electrostatic atomizer by the Peltier element. Next, when a negative high voltage is applied to the discharge electrode, charged fine particle water is generated from the dew condensation water. Further, negative ions released into the air together with the charged fine particle water are also generated from the discharge electrode.

4 and 5 show a perspective view and a side view of the wind direction plate 25. FIG. The wind direction plate 25 has a flexible portion 25a disposed on the upstream side and a tip portion 25c disposed on the downstream side. The flexible portion 25a is formed of a flexible member having flexibility, and for example, a soft resin such as polyethylene is used. The tip portion 25c is formed of a tip member, and for example, a hard resin such as ABS or acrylic is used. The flexible portion 25a and the tip portion 25c are integrally formed by, for example, two-color molding.

The front end portion 25 a is disposed at the front end of the wind direction plate 25 and is exposed from the air outlet 5. Thereby, when a user's finger penetrate | invades into the blower outlet 5, a finger will contact the hard front-end | tip part 25c. For this reason, it is possible to prevent the wind direction plate 25 from being damaged due to the fingers coming into contact with the soft flexible portion 25a having low strength.

A shaft portion 25b that is pivotally supported by the main body housing 2 is provided on both side surfaces of one end of the flexible portion 25a. The shaft portion 25b is disposed adjacent to the downstream ends of the partition plate 21 (see FIG. 2) and the lower wall 26 (see FIG. 2). As a result, the wind direction plate 25 is disposed extending from the downstream ends of the partition plate 21 and the lower wall 26.

Engagement elements 25d that fit into guide grooves 27 provided on the side wall of the air passage 20 are provided on both side surfaces of the tip 25c. Each engagement element 25d of the plurality of wind direction plates 25 is connected by a link member (not shown), and the link member is connected to a wind direction variable motor (not shown). The engagement elements 25d are displaced together in the guide groove 27 by the wind direction variable motor.

Thereby, the tip of the wind direction plate 25 is moved in the direction intersecting the air flow and arranged in a desired direction, and the wind direction of the air sent out from the outlet 5 (see FIG. 2) is varied. At this time, since the flexible portion 25a is bent and the wind direction plate 25 is bent, the air flowing through the divided passage 22 smoothly flows along the flexible portion 25a. Therefore, the pressure loss due to the wind direction plate 25 can be reduced. The wind direction variable motor (not shown) can be continuously driven to swing the wind direction plate 25.

In the blower 1 having the above-described configuration, the blower fan 7 and the ion generator 30 are driven by the operation of the operation unit 6. As a result, indoor air flows into the air passage 20 from the suction port 4 at the bottom of the main body housing 2. The air flowing into the air passage 20 includes ions generated by the ion generator 30.

The air stream containing ions is divided into a plurality of divided passages 22 and circulates. The air current is guided in the outer circumferential direction of the air passage 20 by the centrifugal force of the air fan 7 formed of a centrifugal fan. At this time, the airflow is uniformly dispersed from the inlet portion 23 of the blower passage 20 to each of the divided passages 22 to prevent the airflow from being biased. And the airflow which distribute | circulates each division | segmentation channel | path 22 is uniformly sent in the direction according to the wind direction board 25 from the blower outlet 5. FIG. Thereby, the airflow containing ions can diffuse into the room and sterilize the room.

Further, when the ion generator 30 is stopped and the blower fan 7 is driven, it is possible to blow air toward the user and to circulate indoor air.

According to the present embodiment, since the wind direction plate 25 extending from the downstream end of the partition plate 21 that forms the wall surface of the division passage 22 has the flexible portion 25a, the airflow flowing through the division passage 22 is along the curved flexible portion 25a. Then, it circulates smoothly and is sent out from the outlet 5. Therefore, the pressure loss due to the wind direction plate 25 can be reduced, and power saving of the blower 1 can be achieved.

Also, since the blower fan 7 is a centrifugal fan, the airflow is guided toward the upper wall of the blower passage 20 by the centrifugal force of the centrifugal fan. At this time, the divisional passage 22 prevents the airflow from being biased, and the airflow can be sent out from the outlet 5 uniformly. In addition, you may form the ventilation fan 7 with a propeller fan or a cross flow fan. In this case as well, the airflow is prevented from being biased by the divided passage 22, and the airflow can be sent out uniformly from the outlet 5.

Moreover, since the front-end | tip part 25c which consists of a hard member was provided in the front-end | tip of the wind direction board 25, the front-end | tip part 25a is exposed from the blower outlet 5, and damage to the wind direction board 25 when a user's finger | toe contacts can be prevented. it can.

Further, since the flexible portion 25a is formed of polyethylene and the tip portion 25c is formed of acrylic, the wind direction plate 25 that can reduce pressure loss and prevent breakage can be easily realized. Note that other materials may be used for the flexible portion 25a as long as the material has flexibility. For example, other soft resins (soft vinyl chloride, polypropylene, etc.), rubber, cloth, etc. can be used.

Moreover, since the ion generator 30 which discharges | emits ion toward the ventilation path 20 downstream from the ventilation fan 7 was provided, ion can be sent out from the blower outlet 5 and indoor sterilization etc. can be performed. At this time, ions can be uniformly sent from the outlet 5 by the divided passage 22, and pressure loss can be reduced by the flexible portion 25 a of the wind direction plate 25.

Next, FIG. 6 is a side view showing the inside of the blower 1 of the second embodiment. For convenience of explanation, the same reference numerals are given to the same parts as those of the first embodiment shown in FIGS. In this embodiment, the lighting device 28 is provided, and the wind direction plate 25 is formed of a transparent member. Other parts are the same as those in the first embodiment.

The illumination unit 28 is disposed at the upper end of the outlet 5 which is one end in the direction in which the wind direction plates 25 are arranged side by side. The illumination unit 28 is formed of an LED or the like, and emits illumination light toward the tip 25c (see FIG. 4) of the wind direction plate 25 below. The distal end portion 25c is formed of a transparent member, and for example, a transparent hard resin such as acrylic is used.

Illumination light is emitted from the illumination unit 28 disposed at the upper end of the outlet 5 toward the tip 25c of the wind direction plate 25. The illumination light is transmitted through the front end portion 25c of each wind direction plate 25 and a part of the light is reflected on the surface of the front end portion 25c of each wind direction plate 25. Thereby, even if the room is dark, the plurality of wind direction plates 25 are visually recognized by the user due to the reflection of the illumination light.

When the wind direction plate 25 swings, the direction of the reflected light of the wind direction plate 25 is sequentially changed. Thereby, while the rocking | fluctuation state of the wind direction board 25 can be grasped | ascertained easily, the beauty | look of the air blower 1 can be improved.

Further, the illumination unit 28 may be formed by a plurality of LEDs or multicolor LEDs having different emission colors, and the color of the illumination light may be varied according to the operating state of the blower 1. For example, green illumination light is emitted from the illumination unit 28 when the ion generator 30 is driven, and blue illumination light is emitted from the illumination unit 28 when the ion generator 30 is stopped and blown. Thereby, the user can visually recognize the drive state of the ion generator 30 easily.

According to this embodiment, the front-end | tip part 25c of the wind direction board 25 arranged in parallel by one direction is formed with a transparent member, and the illumination part 28 is distribute | arranged to the edge part of the direction in which the wind direction board 25 of the blower outlet 5 is arranged in parallel. Yes. For this reason, the illumination light emitted from the illumination unit 28 is transmitted through the front end portion 25c of each wind direction plate 25 and a part of the light is reflected on the surface of the front end portion 25c. Thereby, even if the room is dark, the plurality of wind direction plates 25 are visually recognized by the user due to the reflection of the illumination light. Therefore, the user can easily determine the wind direction, and the convenience of the blower 1 can be improved.

Moreover, since the tip 25c is formed of acrylic, the wind direction plate 25 that transmits the illumination light can be easily realized.

Further, since the wind direction plate 25 can swing, the direction of the reflected light of the swinging wind direction plate 25 is sequentially changed. Thereby, while being able to grasp | ascertain the rocking | fluctuation state of the wind direction board 25 easily, the beauty | look of the air blower 1 can be improved.

Further, when the color of the illumination light emitted from the illumination unit 28 is different between when the ion generator 30 is driven and when the ion generator 30 is stopped, the user can easily visually recognize the drive state of the ion generator 30. Therefore, the convenience of the blower device 1 can be further improved.

According to the present invention, it can be used for an air blower equipped with a wind direction plate at the outlet.

DESCRIPTION OF SYMBOLS 1 Air blower 2 Main body housing 3 Base part 4 Suction port 5 Air outlet 6 Operation part 7 Air blower fan 20 Air flow path 21 Partition plate 22 Dividing path 25 Airflow direction plate 25a Flexible part 25c Tip part 27 Guide groove 28 Illumination part 30 Ion generation apparatus

Claims (9)

1. A suction port and an air outlet opening in the main body housing; an air passage that is arranged in the main body housing and connects the air inlet and the air outlet; a blower fan that is disposed in the air passage; An air blower comprising a wind direction plate arranged at an outlet, wherein the air passage has a plurality of divided passages divided by a partition plate downstream of the blower fan, and the wind direction plate is made of a flexible member. An air blower characterized by having a flexible portion and extending from the downstream end of the partition plate and moving the tip in a direction intersecting the air flow to vary the air direction.
2. The blower according to claim 1, wherein the blower fan is a centrifugal fan.
3. The blower according to claim 1 or 2, wherein a tip portion of a tip of the wind direction plate is made of a hard member.
4. The air blower according to claim 3, wherein the flexible part is made of polyethylene and the tip part is made of acrylic.
5. The blower according to any one of claims 1 to 4, further comprising an ion generator that discharges ions toward the blower passage downstream of the blower fan.
6. A suction port and an air outlet opening in the main body housing; an air passage that is arranged in the main body housing and connects the air inlet and the air outlet; a blower fan that is disposed in the air passage; A plurality of wind direction plates arranged in one direction and arranged in one direction while being arranged at the outlet, each of the wind direction plates being formed of a transparent member, and the direction in which the wind direction plates of the air outlets are arranged in parallel An air blower characterized in that an illuminating unit is provided that emits illuminating light toward the wind direction plate.
7. The blower according to claim 6, wherein the wind direction plate is made of acrylic.
8. The air blower according to claim 6 or 7, wherein the wind direction plate swings.
9. The illuminating light emitted from the illuminating unit is different between when the ion generating apparatus is driven and when the ion generating apparatus is stopped. The air blower in any one of.

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