JP5318220B2 - A small air purifier equipped with ion generating means that can change the blowing direction. - Google Patents

Description

【Technical field】
[0001]
The present invention relates to a small air cleaner equipped with ion generating means (ion generator). More specifically, the present invention relates to a small portable air purifier equipped with an ion generating means for changing the blowing direction of air to which ions are added to a predetermined range.
[Background]
[0002]
Among indoor air purifiers, indoor combustion equipment, and the like, it is known that the direction of blowing hot air into the room can be changed.
In Japanese Patent Application Laid-Open No. 11-128769 (Patent Document 1) “Air Cleaner” and Japanese Patent Application Laid-Open No. 2003-106584 (Patent Document 2), the deflection angle of the flap (wind direction regulating member) 31 is selected and changed. It is the structure which changes the blowing direction from a blower outlet, and blows out toward the desired range in a room.
In the ion generation means (ion generator), negative ions (or negative ions + positive ions) generated from the ion generator are added to the air blown from the blower mechanism of the main body, and directed from the jet outlet to the appropriate place in the room. It is something that blows out.
When blowing the ion-added air into the room, applying the deflection angle selection / change technique using the known flap (wind direction regulating member) causes ion attenuation by collision of ions with the flap (wind direction regulating member). There is a problem that a desired amount of ions cannot be released into the room.
[Prior art documents]
[Patent Literature]
[0003]
[Patent Document 1] JP-A-11-128769 [Patent Document 2] JP-A-2003-106584 [Summary of the Invention]
[Problems to be solved by the invention]
0004
The present invention relates to a small air purifier equipped with an ion generating means that adds negative ions / positive ions generated from an ion generator to air blown from a main body blower mechanism and discharges the air into a room. It is an object to blow out from a blow-out port in an appropriate direction without using a member (without causing ion attenuation).
Furthermore, in a small air purifier (mobile / portable air purifier), it is possible to enhance the air purifying effect by adding air by supplying air to a predetermined range in the vicinity of the occupant. Let it be an issue.
[Means for Solving the Problems]
[0005]
The present invention is an air purifier equipped with an ion addition air passage communicating with the air duct of the air blowing mechanism in the main body case ,
Adjacent the ion generating means to form an ion generating unit on the outer peripheral surface of the blower case forming the ion additional air path therein, axially rack with horizontal axis the blower case to the main body case, blower mechanism in the main body case A curved extension duct is extended to the blower duct 5a, and a curved rotating air passage Q is extended to the blow passage P so that it extends from the inner end of the blow case and is curved to overlap the extension duct. Forming a portion, communicating the ion addition air passage to the air passage P through the rotation air passage, and providing air blowing case driving means for driving the air blowing case with the horizontal axis as a fulcrum, The blowout port at the tip of the ion addition air passage of the ion generation unit can be freely changed within a predetermined range, and the blowout port 7 of the main body case can be changed with respect to the tip opening of the blower case 10a of the ion generation unit. The shape of the main body case is extended upward and downward with respect to the front end opening of the air generation unit at the vertical center position of the air generation unit, and upward and downward of the front end portion of the air generation case 10a of the ion generation unit. A blowout port cover 14 having a shape facing the upper extension portion and the lower extension portion of the blowout port 7 is provided, and the effective range of the blowout port 7 of the main body case is changed with the peristalsis of the blower case 10a of the ion generation unit. The blowing direction can be freely changed by changing the effective range of the outlet 7 of the main body case and changing the blowing direction from the ion generating unit 10 when the air blowing case 10a of the ion generating unit is swung. An air purifier equipped with an ion generating means is provided.
【Effect of the invention】
[0006]
Although this invention is a small air cleaner, it has the effect which can supply the ventilation which added ion to the predetermined environment near the indoor resident sufficiently, and can raise the air purification effect by the ventilation which added ion .
[Brief description of the drawings]
[0007]
[Figure 1]
1 is a perspective view of a small air cleaner equipped with ion generating means, showing a first embodiment of the present invention. FIG.
[Figure 2]
Similarly front view.
[Fig. 3]
Similarly rear view.
[Fig. 4]
FIG.
[Figure 5]
Similarly, in the longitudinal sectional view, the ion generation unit 10 indicates the blowing direction at the lowest position.
[Fig. 6]
Similarly, in the longitudinal sectional view, the ion generation unit 10 indicates the blowing direction at the uppermost position.
[Fig. 7]
FIG. 6 is a partial longitudinal sectional view of the upper part of a small air cleaner equipped with ion generating means, showing a second embodiment of the present invention.
[Fig. 8]
Similarly side view partial longitudinal cross-sectional view.
FIG. 9
Similarly, in the vertical cross-sectional view of the blower case vertical drive means, the ion generation unit indicates the blowing direction at the lowest position.
FIG. 10
Similarly, in the vertical cross-sectional view of the blower case vertical drive means, the ion generation unit shows the blowing direction at the uppermost position.
FIG. 11
The longitudinal section of a main part case right-and-left drive means similarly.
FIG.
FIG.
FIG. 13
The top view explaining a rocking | fluctuation drive effect | action similarly.
【Example】
[0008]
A first embodiment of the present invention will be described with reference to FIGS.
The main body 1 of the air cleaning means (ion generator) is configured such that the main body unit 3 is rotatable on the support base unit 2 in the horizontal direction via the vertical axis S2.
[0009]
The support base unit 2 is configured by integrating a disk-like support base 2a and a cylindrical support case 2b, and includes a power supply device 2A such as a transformer and an AC / DC converter, and a main body case swing mechanism (cam drive mechanism and An electric motor) 2B is provided in the support base case 2a. 16 is a swing cam.
[0010]
The main body unit 3 is formed with a blowout port 7 in the upper half of the front wall 6a of the main body case 6 and a suction port 8 in the center of the back wall 6b, and a support base 9 for the ion generating unit 10 inside the main body case. Are integrally formed with the main body case 6.
[0011]
A blower mechanism (a blow duct, a blower fan, and a blower motor) 5 is provided near the back of the main unit 3.
[0012]
The suction port 8 is equipped with a filter 20.
[0013]
If desired, an air conditioner 21 such as humidifying / dehumidifying / sterilizing is interposed between the fimeter 20 and the blower mechanism 5.
[0014]
An extension duct 22 that is curved above the blower duct 5a of the blower mechanism 5 in the main body case is formed to extend, and the rotating air passage Q is formed to extend above the blower passage P in the vertical direction.
[0015]
The ion generating unit 10 is mounted on the support base 8 of the main body case 6 via a horizontal shaft S1 integrally formed with the air blowing case 10a, and is built in the upper half of the main body case 6, and the horizontal axis S1 is a fulcrum. As shown in FIG.
0016
The blower case 10a is formed therein with an ion addition air passage connected to the rotating air passage, and an ion generator 11 is provided adjacent to the case peripheral surface 10b.
[0017]
Reference numeral 4 denotes a support fitting for the blower case 10a.
[0018]
A knob 13 is provided for projecting from the side wall 6c of the main body case to rotate the blower case 10a. The knob 13 has an integral structure with the horizontal axis S1.
[0019]
By rotating the knob 13 and rotating the air blowing case 10a, the air outlet 15 at the tip of the ion addition air passage R of the ion generating unit 10 is blocked by the air outlet cover 14 formed at the tip of the air blowing case 10a. Thus, the effective range of the blowout port 7 is changed, and the blowout direction from the ion generation unit 10 is changed.
[0020]
In the range of the blowout port 7 of the main body case, the blowout direction of the blown air to which ions are added can be freely changed.
[0021]
6 shows a balloon status of the upper limit angle 45 degrees upward, 5, substantially shows a horizontal 5 degrees upward blowing conditions, and optionally adjustable blowout angle by operating the knob 13 in the above-mentioned range.
[0022]
In a conventional apparatus having a flap (wind direction adjusting member), ions are attenuated. However, in the present invention, since there is no flap (wind direction adjusting member), ions are not attenuated. Therefore, the amount of ions released into the room is larger than when a flap (wind direction adjusting member) is used.
[0023]
Although the blowout port 7 is formed on the front surface of the main body, it is formed on the side surface of the main body, and the blower case 10a is in the front-rear direction, but may be in the left-right direction. Further, although the air passage P (air duct) of the main unit 3 is set in the vertical direction, it may be in the horizontal direction.
[0024]
In the second embodiment of the present invention, instead of the manual up-and-down swing mechanism (knob type) of the blower case in the first embodiment described above, a manual up-and-down drive means A for the blower case is provided. Further, instead of the cam 17 of the left / right swing mechanism of the main body case, the main body case left / right drive means B is provided.
[0025]
The second embodiment of the present application will be described below with reference to FIGS.
[0026]
The blower case vertical swing means A swings the blower case 10a of the ion generation unit 10 with respect to the main body case 6 with the horizontal axis S1 as a fulcrum, thereby moving the blowout port of the ion generation unit case 10 up and down. Swing in the direction.
[0027]
With reference to FIGS. 7 to 10, the blower case vertical swinging means A is configured to be driven to swing within a predetermined angle range via the first cam mechanism 30 by the electric motor M fixed to the main body case 6.
[0028]
The first cam mechanism 30 integrates the horizontal shaft S1 and the blower case 10a via the support fitting 4 of the blower case 10a of the ion generation unit 10 and fixes the drive arm 31 to the end of the horizontal shaft S1. The rotating cam 32 is fixed to the output shaft of the electric motor M, and the rotating cam 32 and the drive arm 31 are connected to each other by a connecting rod 33.
[0029]
Due to the presence of the first cam mechanism 30, the electric motor M always rotates continuously in the normal direction, but the horizontal axis S1 swings up and down at a set angle.
[0030]
Therefore, as compared with a method in which the rotation of the electric motor M is controlled to be rotated forward and backward and the horizontal axis S1 is driven to swing, the structure can be simplified and the product cost can be reduced by eliminating the need for the rotation control device.
[0031]
Further, the vertical swing angle can be easily set by setting / changing the distances between the pivot points (operating points) of the rotating cam 32, the drive arm 31, and the connecting rod 33.
[0032]
Referring to FIGS. 11 to 13, the main body case vertical drive means B is configured to be driven to swing within a predetermined angle range via the second cam mechanism 40 by the electric motor Mb fixed to the support case.
0033
The second cam mechanism 40 is integrated with the main body case and the vertical shaft S2, fixes the drive arm 41 to the end of the vertical shaft S2, and fixes the rotating cam 42 to the output shaft of the electric motor Mb. The cam 42 and the drive arm 41 are connected by a connecting rod 43.
[0034]
Due to the presence of the second cam mechanism 40, the electric motor Mb always rotates continuously continuously, but the vertical axis S2 swings up and down at a set angle.
[0035]
Therefore, as compared with the method in which the rotation of the electric motor Mb is controlled to be forward / reversely controlled and the vertical axis S2 is driven to swing, the structure can be simplified and the product cost can be reduced by eliminating the need for the rotation control device.
[0036]
In addition, by setting and changing the distance between the pivot point (operating point) of the rotating cam 42, the drive arm 41, and the connecting rod 43, there is an effect that the right and left swing angle can be easily set.
[0037]
That is, the second cam mechanism 40 has the same effect as the first cam mechanism 30.
[Industrial applicability]
[00038]
The present invention enhances the ion effect by increasing the ion supply into the air purifier (ion generator) room, thereby promoting the use of the air purifier (ion generator) and the air purifier (ion generator). It contributes to the development of the manufacturing industry.
[Explanation of symbols]
[0039]
DESCRIPTION OF SYMBOLS 1 Air cleaner (ion generator) main body 2 Support base unit 3 Main body unit 7 Outlet 10 Ion generating unit 10a Ion generating unit cases 31, 41 Drive arm 32, 42 Rotating cams 33, 43 Connecting rod A Blow Case vertical swing means B Body case vertical drive means M, Mb Electric motor S1 Horizontal axis S2 Vertical axis

Claims (4)

In an air purifier equipped with an ion addition air passage communicating with the air duct of the air blowing mechanism in the main body case ,
An ion generating unit is formed adjacent to the ion generating means on the outer peripheral surface of the air blowing case in which the ion addition air passage is formed inside,
The fan case is mounted on the main body case with a horizontal axis ,
A curved extension duct is extended to the blower duct 5a of the blower mechanism in the main body case, and a curved rotating air passage Q is extended to the blow passage P.
Forming a curved inward extension extending from the inner end of the air blowing case and overlapping with the extension duct, the ion addition air passage is communicated with the air passage P through the rotation air passage,
A blower case driving means for driving the blower case with the horizontal axis as a fulcrum is provided.
The outlet at the tip of the ion addition air path of the ion generation unit can be freely changed within a predetermined range,
The air outlet 7 of the main body case has a shape extending adjacently upward and downward with respect to the front end opening of the blower case 10a of the ion generation unit with respect to the front end opening of the blower case of the ion generation unit. ,
Toward upward and downward of the tip of the blower case 10a of the ion generation unit
Accordingly, a blowout port cover 14 having a shape opposite to the upper extension portion and the lower extension portion of the blowout port 7 of the main body case is provided, and the effective range of the blowout port 7 of the main body case is set to the blowing case 10a of the ion generation unit. It can be changed freely with peristalsis.
When the air blowing case 10a of the ion generating unit is swung, the effective range of the air outlet 7 of the main body case is changed to change the blowing direction from the ion generating unit 10.
A small air purifier equipped with ion generating means that can change the blowing direction. The main body unit 3 can be rotated in the horizontal direction via the vertical axis S2 on the support base unit 2, the ion generation unit 10 is moved left and right, and the blowing direction from the ion generation unit 10 is changed in the vertical direction. 2. The small air purifier equipped with ion generating means capable of changing the blowing direction according to claim 1, wherein the air generating direction is also changed in the left-right direction. And Jikuka via a vertical axis to scan, a support Ke - - before Symbol body case support table Ke as a fulcrum the vertical axis with respect to scan, by providing the main body casing lateral drive means for driving the swing,
It is characterized by constantly changing the blowing direction of the blown air to which ions are added within a predetermined range vertically and horizontally,
2. A small air cleaner according to claim 1, comprising ion generating means that can change the blowing direction. The blower case vertical drive means is configured to be driven to swing within a predetermined angle range via the first cam mechanism by an electric motor fixed to the main body case,
The main body case left and right drive means is configured to swing and drive within a predetermined angle range via a second cam mechanism by an electric motor fixed to a support base case.
4. A small air purifier equipped with an ion generating means according to claim 3, wherein the blowing direction is freely changeable .

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