JP6755725B2 - Blower and air purifier with ventilation function - Google Patents

Description

The present invention purifies a blower such as a fan installed on the ceiling, wall, or floor of a living room and used for reducing the sensible temperature due to direct airflow and circulating air in the room, and the air taken into the blower. It relates to an air purifier with a ventilation function used for purifying indoor air by blowing out purified air as an air flow, reducing the sensible temperature due to direct air flow, and circulating air in the room.

Conventionally, in this type of blower, an impeller and a motor are included in a base that serves as a pedestal, and air is circulated so as to be blown out horizontally from the ring-shaped blower provided on the upper part of the base. And a household blower that produces an air flow is known (see, for example, Patent Document 1).

Hereinafter, the blower will be described with reference to FIGS. 5 and 6.

FIG. 5 shows a front view of the blower assembly 100, and FIG. 6 shows a cross-sectional view of a main part of the blower assembly 100. The blower assembly 100 has an annular nozzle 101 that defines a central opening 102. Inside the base 116 of the blower assembly 100, a blower device that generates an air flow through the annular nozzle 101 is arranged. In the blower, the impeller (impeller) 130 is connected to a rotating shaft extending outward from the motor 122 arranged together with the motor housing 126, and the diffuser 132 is positioned downstream of the impeller 130. The motor 122 is connected to an electrical connection and a power source (not shown), and the user can operate the blower assembly 100 by a plurality of selection buttons 120.

With the above configuration, the blower assembly 100 operates as follows.

When the user selects a favorite button from the plurality of selection buttons 120 and the motor 122 is activated, air is sucked into the blower assembly 100 through the air inlet 124. Air flows through the outer casing 118 to the inlet 134 of the impeller 130. The airflow exiting the outlet 136 of the diffuser 132 and the exhaust portion of the impeller 130 is divided into two airflows traveling in opposite directions through the internal passage 110.

The air flow is throttled as it enters the port 112 and is further throttled at the outlet 144 of the port 112. This throttle creates pressure in the annular nozzle 101.

The airflow thus created overcomes the pressure generated by the throttle and exits through outlet 144 as the primary airflow. The primary airflow is focused or focused towards the user by the arrangement of the guide portion 148. The secondary airflow is generated by suction of air from the external environment, particularly the area around the outlet 144 and around the outer edge of the annular nozzle 101. This secondary airflow passes through the central opening 102, where a total airflow that mixes with the primary airflow and is discharged forward from the blower assembly 100 is generated.

JP-A-2010-079969

In such a conventional blower, the secondary air flow is generated by suction of air from the region around the outlet and around the outer edge of the annular nozzle, so that the secondary air flow is near the annular nozzle near the center of the central opening. Compared to this, it became weaker, and there was a problem that a core region (a region where the air flow was gathered) could not be sufficiently formed in the central part of the entire air flow.

Therefore, the present invention solves the above-mentioned conventional problems, and can efficiently generate an air flow that forms a core region in the center of an air flow, has excellent straightness, and reaches a long distance with little attenuation of wind speed. An object of the present invention is to provide an air blower and an air purifier with a blower function.

In order to achieve this object, the present invention includes blowing the inlet for taking air into the housing, a high pressure air generating means for Installing put air generated on the high-pressure air, high pressure air to the outside a blower device comprising an outlet issuing, the blow outlet, forms a ring shape dividing the outer casing on one side and the other side, on one side of the housing surface, the hemisphere comprises a Coanda surface having a curved surface including, blower, characterized in that to converge along the air blown from the blow outlet Coanda surface, and further comprising an air cleaning filter outlet of the above-mentioned blower It is a featured air purifier with a ventilation function , which achieves the intended purpose.

According to the present invention, the core region is formed in the center portion of the air stream, excellent linearity, blower capable of producing efficiently airflow reaching attenuation of wind speed less longer distance, and the blower function with the air cleaning apparatus Can be realized to provide.

Perspective view of the air purifying device with a ventilation function according to the first embodiment of the present invention. A block diagram showing a cross section of the blower device of the first embodiment. An airflow analysis diagram showing the flow of the airflow of the blower of the first embodiment. Perspective view of the blower of the second embodiment of the present invention Front view showing an example of the prior art Sectional view showing an example of the prior art

Blowing device according to the present invention includes a suction port for taking the air inside the housing, a high pressure air generating means for Installing put air generates a high pressure air, and air outlet for blowing out the high-pressure air to the outside a was blower, blow outlet forms a ring shape dividing the outer casing on one side and the other side comprises a Coanda surface on the surface of one side of the housing, blowing the blowing outlet and it is characterized in that for air to the convergence along the Coanda surface.

As a result, in a compact configuration, the high-pressure air blown out from the outlet flows while attracting the surrounding air along the Coanda surface, and the ring-shaped blowout forms a negative pressure region at a predetermined location on the Coanda surface. Therefore, the air flowing along the Coanda surface converges near the negative pressure region and becomes an air flow in a cohesive state. Therefore, the core region is formed in the center of the air flow, which makes it excellent in straightness and the wind speed to a long distance. It is possible to efficiently generate an air flow that reaches with little attenuation. Here, high-pressure air means air having an atmospheric pressure or higher.

Furthermore, in the blowing device according to the present invention, the length of the outer periphery of the Coanda surface, the ring shape parallel to a section, characterized in that greater than the length of the outer circumference of the ring shape, the outer periphery of the Coanda surface Since the length is larger than the length of the outer circumference of the ring-shaped outlet, the outlet cannot be seen from the direction of the air flow, so the user feels that the air flow is flowing from an object without holes. It can give the user the impression of a natural breeze rather than mechanical. In addition, the ring-shaped high-pressure air blown out from the air outlet expands beyond the outer peripheral length of the ring-shaped air outlet at the point where the outer peripheral length of the Coanda surface is maximum, so that the contact area with the surrounding air becomes larger. , It is possible to efficiently entrain the surrounding air and efficiently amplify the air volume of the air flow.

Furthermore, in the blowing device according to the present invention, the suction port, characterized in that it comprises on the other side of the housing divided by ring-shaped, blow air is incorporated have again suction to the suction port Since this can be prevented, an air flow can be efficiently generated.

Furthermore, in the blowing device according to the present invention, the Coanda surface, characterized in that it has a curved containing hemisphere, high pressure air blown out from the outlet port is uniformly hemisphere from the circumferential direction of the hemisphere It flows while attracting the surrounding air along the coanda surface of the air, and it is possible to reduce the turbulence of the air when it converges near the negative pressure region, and the air can be efficiently collected and flowed as an air flow. Since the core region is formed in the center of the flow, it has excellent straightness, and it is possible to efficiently generate an air flow that reaches a long distance with little attenuation of wind speed.

Further, the air purifying device with a blowing function according to the present invention is an air purifying device with a blowing function, characterized in that the suction port of the blowing device is provided with an air purification filter, and the air taken in from the suction port. Is purified by an air purification filter and blown out from the air outlet, so that purified air can be provided to the user.

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

(Embodiment 1)
FIG. 1 shows a perspective view, FIG. 2 shows a configuration diagram showing a cross section A, and FIG. 3 shows an airflow analysis diagram showing an airflow flow.

As the blower device of the present embodiment, the air purifier 11 with a blower function is attached to a suction port 13 for taking in air inside the spherical housing 12 and a suction port 13 as shown in FIGS. 1 and 2. A high-pressure air generating means 17 including an air purification filter 14 for purifying the collected air, an impeller 15 for generating the taken-in air into high-pressure air, and a motor 16 for driving the impeller 15, and blowing high-pressure air to the outside. It is composed of a ring-shaped nozzle 18 as an air outlet. The high-pressure air generating means 17 is included in the housing 12. Here, high-pressure air means air having an atmospheric pressure or higher.

The position of the nozzle 18 is offset to either side of the great circle of the spherical housing 12, and the ring-shaped nozzle 18 divides the spherical housing 12 into one side and the other side to form a great circle. A spherical surface on one side including the above is provided as a Coanda surface 19, and a suction port 13 is provided on the other side.

In this way, in one cross section parallel to the ring shape, the length of the outer circumference of the Coanda surface 19 is made larger than the length of the outer circumference of the ring-shaped nozzle 18. That is, one side provided with the coranda surface 19 has a curved surface including a hemisphere, and includes a great circle having the maximum outer circumference in the sphere. Therefore, in one cross section parallel to the ring shape, the outer circumference is formed. The length of the ring-shaped nozzle 18 is larger than the length of the ring-shaped nozzle 18. The wind blown from the nozzle 18 can flow air along the surface of the sphere by blowing air from the nozzle 18 in the outer peripheral direction larger than the length of the ring-shaped nozzle 18. That is, the Coanda effect can be exerted on the surface of the sphere.

As the air purification filter 14, a known dust collecting filter or a deodorizing filter such as activated carbon can be used. The air that has passed through the air purification filter 14 becomes purified air from which dust, pollen, allergens, and the like have been removed, and is supplied to the impeller 15.

Further, the ring shape is a shape that surrounds the outer circumference of the housing 12 in an annular shape, and is not limited to an annular shape. As long as it is a ring, it may be a shape composed of polygons or curves. Further, the ring shape is preferably continuous, but the core region is formed in the central portion in the process in which the air blown from the nozzle 18 converges along the Coanda surface 19, and if the core region can be formed, the rib is formed. There is no problem even if it is partially interrupted due to such reasons.

Further, in the present embodiment, a turbofan is used as the impeller 15, but if a high-pressure air can be blown from the nozzle 18, a known fan such as a sirocco fan can be freely arranged inside the housing 12. No problem.

According to such a configuration, when the air purifying device 11 with a ventilation function is operated, the motor 16 is driven and the impeller 15 is rotated, so that the indoor air is sucked as shown in the internal flow 20 shown in FIG. It is taken into the inside of the air purifying device 11 with a ventilation function from the mouth 13, and after purifying dirt such as dust and odor with the air purifying filter 14, it passes through the impeller 15 and reaches the nozzle 18. The high-pressure air blown out from the nozzle 18 flows along the Coanda surface 19 while attracting the surrounding air, as shown in FIG. 3, and the ring-shaped blowout causes a pole on one side of the Coanda surface 19. Since the negative pressure region 41 is formed in the vicinity, the air flowing along the Coanda surface 19 converges in the vicinity of the negative pressure region 41, and the air flow 21 is in a cohesive state. Since the core region is formed in the central portion of the air flow 21, the air flow 21 has excellent straightness, and can efficiently generate an air flow that reaches a long distance with little attenuation of the wind speed. Here, the negative pressure region 41 is a region near the pole surrounded by the air flow, and indicates a region where the pressure is lower than the region where the air flow flows. Further, the core region indicates a central portion of the air flow 21 in a cohesive state, and is generated at a location farther from the surface of the housing 12 than the negative pressure region 41.

Further, the maximum length of the outer circumference of the coranda surface 19 (the outer circumference length of the large circle) is provided to be larger than the length of the ring-shaped nozzle 18, so that the ring-shaped high-pressure air blown out from the nozzle 18 is discharged from the coranda surface. Since the length of the outer circumference of 19 is the maximum, it is wider than the length of the outer circumference of the ring-shaped nozzle, so the contact area with the surrounding air becomes large, and the surrounding air is efficiently entrained and the air volume of the air flow is efficiently amplified. can do. Further, since the portion where the outer peripheral length of the Coanda surface 19 is maximized is larger than the outer peripheral length of the ring-shaped nozzle 18, the nozzle 18 cannot be seen when viewed from the downstream direction to the upstream direction in which the air flow flows. , The user can feel the air flow coming from an object without holes, giving the user the impression of a natural wind rather than mechanical . Also, inlet 13, due to the provision on the other side of the housing 12, it is possible to prevent the blow air is again sucked into the suction port 13, it is produced efficiently airflow 21 it can.

Further, since the coanda surface 19 has a curved surface including a hemisphere, the high-pressure air blown out from the nozzle 18 uniformly attracts the surrounding air along the coanda surface 19 of the hemisphere from the circumferential direction of the hemisphere. The air turbulence can be reduced when the air flows and converges in the vicinity of the negative pressure region, and the air can be efficiently bundled into the air flow 21 so that the air flow 21 has a core region formed in the center. Therefore, it has excellent straightness and can efficiently generate an air flow that reaches a long distance with little attenuation of wind speed.

Further, by including the high-pressure air generating means 17, it is possible to make a compact structure while eliminating anxiety due to contact.

In the present embodiment, the embodiment of the air purifying device 11 with a blowing function provided with the air purifying filter 14 has been described, but the air purifying filter 14 is not indispensable when it is used as a blowing device.
(Embodiment 2)
FIG. 4 shows a perspective view of the blower device 31. The same components as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted. The blower 31 has the same main body configuration as in FIG. The housing 12 is provided with two boxes, and is formed in a chair shape in which a second box 35 having a large bottom surface 34 area is stacked on a first box 33 having a small top surface a32 area. The shape is such that a human can sit on the top surface b36 of the second box 35. The ring-shaped nozzle 18 is provided in an annular shape on the top surface a32 edge of the first box 33, and the Coanda surface 19 is provided with the side surface of the second box 35 as a main portion. That is, the length of the outer circumference of the Coanda surface 19 is larger than the length of the outer circumference of the ring-shaped nozzle 18.

According to such a configuration, the air sucked from the suction port 13 when the user is not sitting is blown out from the nozzle 18 as high-pressure air and flows along the Coanda surface 19 while attracting the surrounding air. Since the negative pressure region is formed near the top surface b36 by the ring-shaped blowout, the air flowing along the Coanda surface 19 converges near the negative pressure region and becomes the air flow 21 in a cohesive state. Therefore, the air flow 21 is Since the core region is formed in the central part, it is excellent in straightness, and it is possible to efficiently generate an air flow that reaches a long distance with little attenuation of wind speed. Further, when the user sits on the top surface b36, the air flowing along the Coanda surface 19 becomes an air flow flowing on the surface of the user's body because the user is in the negative pressure region, which is efficient for the user. It can send airflow well. Further, since the high-pressure air generating means 17 is included, it is possible to eliminate anxiety caused by contact with the impeller 15.

Further, although the housing 12 is formed into two boxes in the present embodiment, the shape of the housing 12 is not particularly limited to this, and the outer circumference of the coranda surface 19 is the outer circumference of the ring-shaped nozzle 18. If the configuration is larger than the length of, the polyhedron shape (regular polyhedron or truncated polyhedron), cylindrical shape, polygonal prism shape, organic form shape, etc. can be freely selected.

The blower and the air purifier with a blower function according to the present invention can be made compact while eliminating the anxiety caused by the contact of the user by including the impeller, so that the floor, ceiling and walls in the living room can be made compact. It is installed in and is useful as various blowers used for reducing the sensible temperature due to direct airflow and circulating air in the room.

11 Air purifier with ventilation function 12 Housing 13 Suction port 14 Air purification filter 15 Impeller 16 Motor 17 High-pressure air generating means 18 Nozzle 19 Coanda surface 20 Internal flow 21 Air flow 31 Air flow device 32 Top surface a
33 First box 34 Bottom surface 35 Second box 36 Top surface b
41 Negative pressure area 100 Blower assembly 101 Circular nozzle 102 Central opening 110 Internal passage 112 Port 116 Base 118 Outer casing 120 Select button 122 Motor 124 Air inlet 126 Motor housing 130 Impeller 132 Diffuser 134 Inlet 136 Outlet 144 Outlet 148 Guide part

Claims (4)

A blower device comprising a suction inlet for taking air into the housing, a high pressure air generating means for Installing put air generates a high pressure air, and air outlet for blowing the high-pressure air to the outside,
The outlet may form a ring shape dividing the outside of the housing on one side and the other side,
A Coanda surface having a curved surface including a hemisphere is provided on the surface of one side of the housing.
A blower that converges the air blown out from the outlet along the Coanda surface. In the ring-shaped parallel one cross section, the length of the outer periphery of the Coanda surface, air blowing apparatus according to claim 1, wherein the greater than the length of the outer circumference of said ring shape. The suction port is blowing device according to claim 1 or 2, characterized in that provided on the other side of the divided said housing by said ring-shaped. The air purifying device with a blowing function according to any one of claims 1 to 3 , wherein the suction port is provided with an air purifying filter.