JP2017115629A - Blower module and air cleaner with blower module function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a blower module capable of realizing occurrence of air flow of substantial uniform air speed in a wide range while eliminating uneasiness caused through contact by enclosing an impeller in it.SOLUTION: A blower module 31 is constituted in such a way that a casing 12 comprises an intake port, an impeller and a motor for generating high pressure air and several nozzles 13 raised up from one surface of the casing 12. The side part of each of the nozzles 13 comprises a blowing-out port 19 for blowing out high pressure air in a direction perpendicular to a raised-up direction of each of the nozzles 13, an inside part of each of the nozzles 13 is provided with a duct for guiding the high pressure air to the blowing-out port 19. Each of the nozzles 13 has a section in a vertical direction is elongated in a blowing-out direction, each of the several blowing-out ports 19 is spaced apart in such a way that they may be flush with each other and an air inducing air passage 22 induced by air blown out of the blowing-out ports 19 is formed by the clearances and it is possible to realize a substantial uniform air speed in a wide range while eliminating uneasiness caused by contact under inclusion of the impeller.SELECTED DRAWING: Figure 5

Description

  The present invention purifies the air that is installed in a living room, such as a fan that is used to reduce the sensible temperature due to the direct air flow and circulates the air in the room, and the air that is taken into the air blower, and the purified air flows The present invention relates to an air purifier with a blowing function that is used for purifying indoor air by blowing out and reducing the temperature of sensation due to direct airflow and circulating indoor air.

  Conventionally, this type of air blower has an impeller and a motor enclosed in a base that serves as a base, and air is circulated from the annular air blower provided in the upper part of the base so that the air is blown horizontally to the floor surface. In addition, a home blower that generates a flow of air is known (for example, see Patent Document 1).

  Hereinafter, the blower will be described with reference to FIGS. 8 and 9.

  FIG. 8 is a projection view of the blower assembly 100 as viewed from the front, and FIG. 9 is a cross-sectional projection view of the blower assembly 100. The blower assembly 100 has an annular nozzle 101 that defines a central opening 102. A motor 122 that creates an air flow through the annular nozzle 101 is disposed within the base 116 along with the motor housing 126. Further, the impeller (impeller) 130 is connected to a rotating shaft extending outward from the motor 122, and the motor 122 in which the diffuser 132 is positioned downstream of the impeller 130 is connected to an electrical connection unit and a power source. A plurality of selection buttons 120 allow the user to operate the blower assembly 100.

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

  When the user appropriately selects 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 air flow that exits the outlet 136 of the diffuser 132 and the exhaust portion of the impeller 130 is divided into two air flows that travel in opposite directions through the internal passage 110.

  The air flow is squeezed as it enters the mouth 112 and is further squeezed at the outlet 144 of the mouth 112. This throttling creates pressure in the system.

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

JP 2010-077969 A

  In such a conventional blower, since the primary air flow exits from the outlet, the secondary air flow is generated by the suction of air from the outside environment, particularly the area around the outlet and the outer edge of the annular nozzle. The suction of air is large in the vicinity of the annular nozzle in the central opening, and the suction of air becomes smaller as the center of the central opening is approached. For this reason, when the diameter of the annular nozzle is increased in order to send the airflow over a wide range, the airflow near the center of the central opening is reduced, and there is a problem that it is impossible to provide an airflow with a substantially uniform wind speed over a wide range.

  Accordingly, the present invention solves the above-described conventional problems, and a blower device that can provide a substantially uniform wind speed air flow over a wide range while eliminating anxiety due to contact by including an impeller, and It aims at providing the air purifier with a ventilation function.

  In order to achieve this object, the present invention provides a high-pressure air composed of a suction port for taking in air, an impeller for generating high-pressure air, and a motor for driving the impeller. A high-pressure air generated by the high-pressure air generation unit in a direction perpendicular to a direction in which the nozzle is raised at a side portion; and a plurality of nozzles raised from one surface of the housing. The nozzle has a duct for guiding high-pressure air to the outlet, and the nozzle has a vertical section in the outlet direction, and a plurality of the outlets are the same. It is provided with a gap so as to be a surface, and is an air blower characterized in that an air induction air passage attracted by the air blown out from the air outlet is formed by the gap, As a result, the intended purpose It is intended to formed.

  According to the present invention, a suction port for taking air into the housing, an impeller for generating high-pressure air, and a high-pressure air generator configured to drive the impeller, and the housing A plurality of nozzles erected from one surface, and the nozzles have outlets for blowing out high-pressure air generated by the high-pressure air generator in a direction perpendicular to the direction in which the nozzles are erected, Inside, a duct for guiding high-pressure air to the air outlet is provided, and the nozzle has a vertically long cross section in the air outlet direction, and a plurality of air outlets are provided on the same surface. The air blower is characterized in that an air induction air passage attracted by the air blown out from the air outlet is formed by the gap. While eliminating anxiety It can be realized to provide a wide range substantially uniform flow rate of the airflow.

The perspective view of the air cleaner with a ventilation function of Embodiment 1 of this invention The block diagram which shows the cross section of the air blower of Embodiment 1 The block diagram which shows the cross section of the air blower of Embodiment 1 The block diagram which shows the cross section of the air blower of Embodiment 1 The perspective view of the air blower of Embodiment 2 of this invention The perspective view of the air blower of Embodiment 3 of this invention The block diagram which shows the partial cross section of the house provided with the air blower of Embodiment 4 of this invention. Front view showing an example of conventional technology Sectional drawing which shows an example of a prior art

  The blower according to claim 1 of the present invention is a high-pressure air generating unit comprising a suction port for taking in air, an impeller for generating high-pressure air, and a motor for driving the impeller. And a plurality of nozzles erected from one surface of the housing, and the nozzles blow high-pressure air generated by the high-pressure air generator in a direction perpendicular to the direction in which the nozzles are erected. A nozzle for guiding high-pressure air to the outlet, and the nozzle has a vertical cross section in the outlet direction, and a plurality of the outlets are flush with each other. A gap is provided so as to form an air attraction air passage that is attracted to the air blown out from the air outlet.

  This eliminates anxiety due to contact by including the impeller, and a plurality of nozzles are provided with gaps provided so that the air attracted by the high-pressure air blown from the outlet is not reduced. A surface airflow composed of high-pressure air blown out from the air outlet and air induced by blowing out the high-pressure air from the air outlet can be made into an airflow having a substantially uniform wind speed over a wide range. Moreover, the airflow which blows off becomes a surface airflow by making a blower outlet into the same surface. This surface airflow is a uniform air velocity over a wide area and is linear in the blowing direction, so the core area is formed in the center of the surface airflow, so it has excellent straightness, and it reaches the far side with little attenuation of the wind speed. Can do.

  Here, the plurality of nozzles indicates three or more nozzles, the substantially uniform wind speed indicates a wind speed up to half of the maximum wind speed, and the high-pressure air indicates air above atmospheric pressure. The length of the gap is preferably not less than the length in the direction perpendicular to the blowing direction in the vertical section of the nozzle and not more than half of the length in the standing direction of the nozzle because the wind speed is uniform.

  The blower according to claim 2 is characterized in that the lengths of the plurality of nozzles in the standing direction are the same. In addition to the uniformity of the wind speed in the direction in which the plurality of nozzles are arranged, Since all the nozzles can be made substantially uniform in the standing direction, a surface airflow having a substantially uniform wind speed can be provided over a wide range. In addition, the surface airflow is almost uniform over the wide area, and the airflow is straight in the blowing direction, so the core area is formed in the center of the surface airflow, so it is excellent in straightness and reaches far away with little wind speed attenuation. be able to.

  According to a third aspect of the present invention, the plurality of nozzles are provided at a wide angle so that the air blowing direction is away from the central nozzle as it goes from the center of the housing to the nozzle provided outside. Since the surface airflow is almost uniform in the wide area and the airflow is straight in the blowing direction, a core area is formed in the center of the surface airflow, so Although the wind speed distribution becomes larger, the nozzle is provided with a wide angle as it goes from the center of the housing to the nozzle provided on the outside, so that it is possible to suppress the air current from collecting in the center, so that it is substantially uniform from far to far. It is possible to send airflow at wind speed.

  According to a fourth aspect of the present invention, the air passage cross section of the duct is vertically long in the direction of blowing from the outlet, and becomes smaller toward the tip where the nozzle is erected. The air volume of the air is partly blown out from the outlet and becomes smaller as it goes to the tip where the nozzle is erected, so the cross section of the duct air path is made smaller toward the tip where the nozzle is erected, so that the nozzle is erected It is possible to suppress the internal static pressure of the duct from decreasing as it goes to the tip, and the high-speed air blown from the outlet can be made uniform in the direction of the nozzle, providing a surface airflow with a substantially uniform wind speed over a wide range. can do.

  Moreover, the air purifier with an air blowing function according to claim 5 is an air purifier with an air blowing function, characterized in that an air purification filter is provided at the air inlet of the air blower, and is taken in from the air inlet. Since the air is purified by the air purification filter and blown out from the outlet, the 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 is a perspective view, FIG. 2 is a cross section A, FIG. 3 is a cross section B, and FIG.

  As an air blower, the air purifier 11 with an air blowing function of this Embodiment is provided with the nozzle 13 in the upper part of the housing | casing 12, as shown in FIG.

  As shown in FIG. 2, the air purifier 11 with a blowing function includes a suction port 14 that takes air into the housing 12, an air purification filter 15 that purifies the air that is attached to the suction port 14 and that is taken in, and is shown in FIG. 3. As described above, a high-pressure air generator 18 composed of an impeller 16 for generating high-pressure air and a motor 17 for driving the impeller 16, and a plurality of equal lengths erected from one surface of the housing 12. Nozzles 13 (six in this embodiment). In this embodiment, the housing 12 is erected from the upper surface.

  As shown in FIG. 2, the side of the nozzle 13 is provided with an outlet 19 for blowing out the high-pressure air generated by the high-pressure air generator 18 in one direction perpendicular to the direction in which the nozzle 13 is erected. ing. Inside the nozzle 13, a duct 20 for guiding the high-pressure air to the outlet 19 is provided. The duct 20 includes at least the same number as the nozzles 13.

  As shown in FIG. 3, a chamber space 21 is provided between the high-pressure air generator 18 and the plurality of ducts 20 to divert high-pressure air to the nozzles.

  As shown in FIG. 4, the nozzle 13 has a vertically long cross section in the blowing direction. The plurality of nozzles 13 are provided with gaps so that the air outlets 19 are flush with each other, and an air induction air passage 22 that is attracted by the airflow blown from the air outlets 19 is formed by the gaps. Yes. That is, in the example of the present embodiment, since six nozzles 13 are provided, five induction air passages 22 that are smaller than the number of nozzles 13 can be formed in the gaps sandwiched between the nozzles 13, respectively. The length of the gap is equal to or longer than the length in the vertical direction (the width of the nozzle 13) with respect to the blowing direction in the vertical section of the nozzle 13, and the length of the nozzle 13 in the standing direction from the top surface of the casing 12. In this embodiment, for example, the width of the nozzle 13 is 30 mm, the length of the nozzle 13 in the standing direction is 600 mm, the length of the gap is 100 mm, and the nozzle 13 is blown out. The case where the direction length is 200 mm is shown. In the present embodiment, the cross-sectional shape in the vertical direction of the nozzle 13 is a rectangular shape, but it may be vertically long in the blowing direction, and may be another shape such as an ellipse. The air purification filter 15 can be a known deodorizing filter such as a dust collection filter or activated carbon. The air that has passed through the air purification filter 15 is supplied to the impeller 16 as purified air from which dust, pollen, allergens, and the like have been removed.

  Further, as shown in FIG. 4, the plurality of nozzles 13 have a wide angle so that the air blowing direction is away from the central nozzle 13 as it goes from the center of the housing 12 to the nozzle 13 provided outside. Is provided.

  As shown in FIG. 2, a wind direction adjusting rib 24 that adjusts the wind direction in the standing direction of the nozzle 13 is provided in the vicinity of the air outlet 19 in the nozzle 13. Here, the plurality of nozzles 13 indicate three or more. Further, the uniformity of the wind speed is focused on the distribution of the wind speed of the surface airflow obtained by combining the blown air flow 25 and the induced air flow 26, which will be described later, and is observed on a plane viewed from the front at a predetermined distance from the air outlet 19. It is shown that the distribution of the wind speed is within a predetermined range. That is, the minimum wind speed on the plane is allowed to be at least half of the maximum wind speed. Moreover, high pressure air shall show the air above atmospheric pressure.

  According to such a configuration, when the air cleaning device 11 with the air blowing function is operated, the motor 17 is driven and the impeller 16 rotates, so that the indoor air flows from the suction port 14 as shown in the internal flow 23. After being taken into the air purifier 11 with the air blowing function and cleaned of dirt such as dust and smell by the air purifying filter 15, it passes through the impeller 16 and reaches the chamber space 21. In the chamber space 21, the high-pressure air is divided into a plurality of ducts 20, passes through the ducts 20, the air direction in the nozzle 13 standing direction is adjusted by the air direction adjusting rib 24 provided in the vicinity of the air outlet 19, and is blown out from the air outlet 19. , A blown air flow 25 is obtained.

  That is, as shown in FIG. 1, the air outside the induction air passage 22 and the outermost nozzle 13 is attracted by the blown air flow 25, resulting in an induced air flow 26. The blown air flow 25 and the induced air flow 26 are merged in front of the blowing direction of the air cleaning device 11 with the blowing function, and can blow the surface air flow of the purified air having a substantially uniform wind speed over a wide range. At this time, since the impeller 16 is included in the housing 12, the user cannot make contact from the outside, so that anxiety due to contact can be eliminated.

  In addition, the nozzle 13 is arranged with a gap so that the air outlet 19 is flush, so that the airflow to be blown becomes a surface airflow.

  The surface airflow is an airflow having a substantially uniform wind speed over a wide range, and is a straight airflow in the blowing direction, so that a core region is formed at the center of the surface airflow. Therefore, it is excellent in straightness and can reach far away with little attenuation of wind speed.

  In addition, the surface airflow is an airflow having a substantially uniform wind speed over a wide range, and is a straight airflow in the blowing direction, so that a core region is formed at the center of the surface airflow. In other words, the wind speed distribution may increase as the wind speed increases in the center as it goes farther away. For this reason, the nozzle 13 is provided at a wide angle so that the air blowing direction is away from the central nozzle 13 as it goes from the center of the housing 12 to the nozzle 13 provided on the outer side, so that airflow is generated in the center. It can suppress gathering. Thereby, the airflow of a substantially uniform wind speed can be sent farther.

Moreover, since the wind direction adjustment rib 24 can expand the wind direction in the standing direction of the nozzle 13 by adjusting the elevation angle, the air can be blown in a wider range than the length in the standing direction of the nozzle 13. That is, air can be blown above the height of the air purifier 11 with the air blowing function. In the present embodiment, the form of the air purifier 11 with the air blowing function including the air purifying filter 15 has been described. The air purification filter 15 is not essential as a blower.

(Embodiment 2)
FIG. 5 shows a perspective view of the blower 31. In addition, the same code | symbol is attached | subjected about the component similar to Embodiment 1, and the detailed description is abbreviate | omitted. The air blower 31 connects the upper part of the some nozzle 13 similar to FIG. 1 with the top plate 32, and the some induction | guidance | derivation wind path 22 becomes an independent structure, respectively.

  According to such a configuration, since the intrusion of the air current from above the nozzle 13 can be prevented by the top plate 32, the surface air current can be stably generated because it is not affected by the disturbance, and the impeller By enclosing 16 in the housing 12, it is possible to provide an air flow with a substantially uniform wind speed over a wide range, while eliminating anxiety due to the user's contact. Note that the airflow from above the nozzle 13 is assumed to be air blown from an air conditioner installed indoors.

  In addition, the surface airflow is an airflow with a substantially uniform wind speed over a wide area, and since the airflow is straight in the blowing direction, a core region is formed in the center of the surface airflow, so it has excellent straightness and the attenuation of the wind speed is far away. Can be reached.

  In addition, the air blower 31 of this Embodiment can also be set as the air purifier with a ventilation function by mounting | wearing the air purification filter 15 which purifies the air taken in into the suction inlet 14. FIG.

(Embodiment 3)
FIG. 6 shows a perspective view of the blower device 41. In addition, the same code | symbol is attached | subjected about the component similar to Embodiment 1, and the detailed description is abbreviate | omitted. The blower 41 may be placed on the floor 43 with one surface of the housing 12 opposite to the air outlet 19 in contact with the indoor wall 42.

  The nozzle 13 of the blower 31 is provided with a cross section that is made smaller toward the outlet 19 side toward the tip where the nozzle 13 is raised together with the air path cross section of the duct 20 already described in the first embodiment.

  According to such a configuration, a gap can be provided between the upper portion of the nozzle 13 and the indoor wall 42 even in a state of being placed in contact with the indoor wall 42, so that the induced air flow 26 is guided to the induced air path 22. Since the surface airflow can be generated and the impeller 16 is included in the housing 12, it is possible to provide an airflow with a substantially uniform wind speed over a wide range while eliminating the anxiety caused by the user's contact. it can.

  Moreover, it is possible to suppress the internal static pressure of the duct 20 from decreasing as it goes to the tip where the nozzle 13 is raised by reducing the air passage cross section of the duct 20 as it goes to the tip where the nozzle 13 is raised. In addition, the wind speed of the high-pressure air blown from the outlet 19 can be made uniform in the standing direction of the nozzle 13, and a surface airflow with a substantially uniform wind speed can be provided over a wide range.

  In addition, the air blower 41 of this Embodiment can also be set as the air purifier with a ventilation function by mounting | wearing the air purification filter 15 which purifies the air taken in into the suction inlet 14. FIG.

(Embodiment 4)
As described above, in the first to third embodiments, the embodiments of the air cleaning device 11 with the air blowing function, the air blowing device 31, and the air blowing device 41 have been described. In this Embodiment, these are named generically and the form at the time of installing in a house as the air blower 51 is demonstrated.

  The block diagram which shows the partial cross section of the house provided with the air blower 51 in FIG. 7 is shown. In addition, the same code | symbol is attached | subjected about the component similar to Embodiment 1, and the detailed description is abbreviate | omitted. The blower 51 is provided with a plurality of nozzles 13 in a blow-out 54 communicating with the first floor 52 and the second floor 53 of the house, with the air outlet 19 directed toward the first floor 52, and the casing 12 (not shown) is mounted on the first floor ceiling 55. The first floor ceiling 55 is provided with a suction port 14 in the space between the first floor 56 and the second floor 56.

  According to such a configuration, by operating the air blower 51, air near the first floor ceiling 55 of the first floor 52 is taken in from the suction port 14 and blown out from the blowout port 19, thereby generating a blown air flow 25. As a result, the air on the second floor 53 above the blow-through 54 can be sent to the first floor 52 as the induced air flow 26 toward the first floor 52 through the induction air passage 22. At this time, since the blown air flow 25 of the air on the first floor 52 and the induced air flow 26 of the air on the second floor 53 are mixed, the indoor air can be efficiently stirred. In particular, the temperature difference between the first floor 52 and the second floor 53 can be efficiently eliminated (circulation effect) when the air conditioner is used in summer or winter. Moreover, since the impeller 16 is enclosed in the housing | casing 12, the cool feeling by a surface airflow and a circulation effect can be provided, without giving a user the feeling of pressure by a rotating body being visible.

  In addition, the air blower 51 of this Embodiment can also be set as the air purifier with a ventilation function by mounting | wearing the air purification filter 15 which purifies the air taken in into the suction inlet 14. FIG.

  The air blowing device and the air purifying device with the air blowing function according to the present invention can provide an air flow with a substantially uniform wind speed over a wide range while eliminating the anxiety caused by the user's contact by including the impeller. It is useful as various blower devices that are installed on ceilings and walls and used to reduce the temperature of sensation due to direct airflow and to circulate indoor air.

DESCRIPTION OF SYMBOLS 11 Air purifier with ventilation function 12 Housing | casing 13 Nozzle 14 Suction port 15 Air purification filter 16 Impeller 17 Motor 18 High pressure air generation part 19 Air outlet 20 Duct 21 Chamber space 22 Induction air path 23 Internal flow 24 Wind direction adjustment rib 25 Outlet Airflow 26 Induced airflow 31 Blower device 32 Top plate 41 Blower device 42 Indoor wall 43 Floor 51 Blower device 52 First floor 53 Second floor 54 Blowout 55 First floor ceiling 56 Second floor 100 Blower assembly 101 Ring nozzle 102 Central opening 110 Inside Passage 112 port 116 base 118 outer casing 120 selection button 122 motor 124 air inlet 126 motor housing 130 impeller 132 diffuser 134 inlet 136 outlet 144 outlet 148 guide portion

Claims (5)

A suction port for taking air into the housing, an impeller for generating high-pressure air, and a high-pressure air generating section composed of a motor for driving the impeller, and a plurality of erected from one surface of the housing With nozzles,
In order to guide the high-pressure air to the air outlet, the nozzle is provided with a air outlet that blows out the high-pressure air generated in the high-pressure air generator in a direction perpendicular to the direction in which the nozzle is raised. With a duct
In the nozzle, the vertical section is vertically long in the blowing direction,
A plurality of each of the air outlets are provided with a gap so that they are on the same plane,
An air blower characterized in that an air pulling air passage attracted by air blown from the air outlet is formed by the gap. The blower according to claim 1, wherein the plurality of nozzles have the same length in the standing direction. The plurality of nozzles are provided at a wide angle so that the air blowing direction is separated from the central nozzle as it goes from the center of the housing to the nozzle provided outside. 2. The air blower according to 2. The blower device according to any one of claims 1 to 3, wherein the air passage section of the duct is vertically long in a blowing direction from the blowout port and becomes smaller toward a tip where the nozzle is erected. An air purifier with an air blowing function, comprising an air purification filter at a suction port of the air blowing device according to any one of claims 1 to 4.