JP2004317046A - Air blowout device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air blowout device for reducing the number of constituent parts. <P>SOLUTION: This air blowout device has a blowout port 3 for blowing off wind from a device body 1, and a cover body 5 for opening-closing this blowout port 3. An auxiliary blowout port 5 is arranged separately from the blowout port 3. When operating the device body in a state of blocking up the blowout port 3 by the cover body 5, the wind is blown off from the auxiliary blowout port 5, to prevent adverse influence on the other apparatus such as an air blower. The constituent part for stopping operation in a closed state of the cover body 5 can be omitted. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to an air blowing device for blowing air from an electric device such as a dehumidifier.
[0002]
[Prior art]
2. Description of the Related Art Generally, an electric device such as a dehumidifier is provided with an air blowing device for blowing air from an outlet thereof. The blower blowout device includes a lid (wind direction plate) for opening and closing the outlet, and means for preventing adverse effects on other devices such as a blower fan caused by blowing air with the lid closed. Is provided.
[0003]
FIGS. 13, 14 and 15 show a dehumidifier of Patent Document 1. FIG. FIG. 13 is a side sectional view of the dehumidifier of Patent Document 1, FIG. 14 is an enlarged sectional view of the outlet (closed state), and FIG. 15 is an enlarged sectional view of the outlet (opened state).
[0004]
The outer shell of the dehumidifier includes a front cover 101, a rear box 102, and a top cover 103, in which a fan 104 for blowing air, an evaporator 105, a condenser 106, and a compressor 107 are provided. The front cover 101 is provided with a suction port 108 for sucking room air, and the top cover 103 is provided with a blowout port 109 for blowing air into the room.
[0005]
A wind direction plate (lid) 110 in which guide wings 110 b and 110 c are attached to the outer peripheral surface of a cylindrical rotating body 110 a is rotatably supported via a rotating shaft 111 at the outlet 109. The wind direction plate 110 is rotated around a rotation shaft 111 manually or by a motor to open and close the air outlet 109.
[0006]
When the wind direction plate 110 is manually rotated, a cam 112 provided at one end of the rotating shaft 111, a micro switch 113 for stopping air blowing, and a push rod for turning on and off the micro switch 113 by contacting and separating from the cam 112. 113a. Thus, when the wind direction plate 110 closes the air outlet 109, the blowing is stopped.
[0007]
When the wind direction plate 110 is rotated by driving a motor, an operation switch is operated to start the operation, and the control unit sends an instruction to a motor for driving the wind direction plate 110 to rotate the wind direction plate 110. As a result, the air outlet 5 is switched from the closed state at the time of operation stop to the open state, and the air can be blown.
[0008]
FIGS. 16 and 17 show an opening / closing mechanism of an air outlet in Patent Document 2. FIG. FIG. 16 is an exploded perspective view showing an opening / closing mechanism of the outlet of Patent Document 2, and FIG. 17 is a partial sectional view near the outlet.
[0009]
The opening / closing mechanism of the outlet is configured to open and close the outlet 114, a rotating plate 116 coaxially rotating with the lid 115, a spring 117 for urging the rotating plate 116 in an opening direction, and a power supply. And a connecting rod 119 which rotates in conjunction with the depression of the power switch operation unit 118 and engages and disengages with the projection engaging portion 116a of the rotating plate 116.
[0010]
When the power is turned on by depressing the power switch operation unit 118, the connecting rod 119 is rotated to release the engagement with the projection engaging portion 116a, and the rotating plate 116 is moved in the opening direction by the urging force of the spring 117. Rotate. Thereby, the lid 115 semi-fixed to the bearing 116b of the rotating plate 116 rotates to open the outlet 114.
[0011]
The rotation shaft 115a of the lid 115 and the bearing 116b of the rotation plate 116 can be slipped around their axes, and by rotating them relatively, the angle of the lid 115 in the open state is adjusted. Has become.
[0012]
[Patent Document 1]
JP-A-2-37235 (pages 4-5, FIG. 3, FIG. 8, FIG. 9)
[0013]
[Patent Document 2]
JP-A-8-114350 (paragraph number 0020 to paragraph number 0025, FIG. 3, FIG. 4)
[0014]
[Problems to be solved by the invention]
However, the above-described blower / blower device has a complicated structure because many components are provided as a structure for opening the air outlet during operation. When an abnormality occurs in the drive mechanism of the lid and operation is performed with the air outlet closed, there is a possibility that other devices such as a blower fan may be adversely affected. The structure provided with the electric components requires a space for mounting the electric components, and the entire electric device tends to be large, and the electric components may increase the cost of the entire electric device.
[0015]
In addition, the number of components increases, and since a rotating shaft that rotatably supports both ends of the lid is mounted on the bearing, it is easy to assemble it. The lid as the wind direction plate is fixed around the axis by friction with the bearing, so when adjusting the angle of the lid, it is necessary to apply a force large enough to resist the friction and rotate the lid. Yes, it is easy to adjust the angle of the lid.
[0016]
SUMMARY OF THE INVENTION It is an object of the present invention to provide an air blowing device having a structure having a small number of components and easy to assemble, and capable of easily adjusting the angle of a wind direction plate.
[0017]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is based on the premise that the air outlet blows air out of the apparatus main body, and a lid body that opens and closes the air outlet is provided with an auxiliary outlet different from the air outlet. Further, the present invention provides an air blowing device that blows air from an auxiliary air outlet when the lid is closed.
[0018]
According to this configuration, even when the apparatus main body is operated with the air outlet closed with the lid, the air is blown out from the auxiliary air outlet, so that adverse effects on other devices such as the blower can be prevented. Thus, the configuration for stopping the operation in the closed state of the lid can be omitted, and the number of components of the air blowing device can be reduced, and the assembly thereof can be simplified.
[0019]
Further, the present invention provides a blower blower that presupposes a structure in which a wind direction adjuster that adjusts the direction of the wind blown from the blower outlet is provided at the blower outlet of the apparatus main body so as to be rotatable around a rotation axis. I do. On the axial end side of the rotating shaft, a rotating shaft is formed on one of the end of the wind direction adjusting body and the inner wall of the outlet facing the wind direction adjusting body, and a bearing for supporting the rotating shaft is formed on the other. I do.
[0020]
If a notch is formed in the bearing for inserting the rotating shaft from a direction perpendicular to the axis of the rotating shaft, after assembling other parts than the wind direction adjusting body, the wind direction adjusting body is attached to the outlet. And the assembly of the device can be simplified.
[0021]
If a notch is formed in the notch to prevent the rotating shaft from coming out of the shaft hole, the wind direction adjusting body after mounting can be prevented from coming off. This retaining means is constituted by a retaining piece which can be elastically deformed between a retaining position located in the notch and an insertion position retracted from the notch in the axial direction of the rotation shaft. Then, the retaining piece is elastically deformed to the insertion position, the wind direction adjusting body is mounted, and after the mounting, the retaining piece can be returned to the retaining position by its elastic force.
[0022]
If the retaining piece is elastically deformed from the retaining position to the insertion position by inserting it into the notch from the direction perpendicular to the axis of the rotating shaft, simply pushing the rotating shaft into the notch will allow the retaining piece to come off. The stop posture and the insertion posture can be switched.
[0023]
By providing a first stopper which abuts the rotation shaft and prevents the wind direction adjustment member from moving in the axial direction outside the bearing in the axial direction of the rotation shaft, it is possible to prevent the wind direction adjustment member from rattling. . Further, by forming a second stopper on the base end side of the rotation shaft relative to the bearing to abut against the inner wall of the air outlet to prevent axial movement of the wind direction adjusting body, it is possible to prevent the wind direction adjusting body from rattling. be able to. If the second stopper is formed around the bearing or the notch and serves as a guide rib for guiding the rotation axis, the mounting of the wind direction adjusting body can be simplified.
[0024]
On the axial end side of the rotating shaft, a locked portion is formed on one of the end of the wind direction adjusting body and the inner wall of the outlet facing the wind direction adjusting body, and the locked portion is locked on the other. A plurality of locking portions are formed radially around the center of rotation of the wind direction adjuster so that the angle of the wind direction adjuster can be adjusted stepwise. Then, the angle adjustment of the wind direction adjuster can be simplified.
[0025]
As a specific configuration, the plurality of locking portions are formed as a plurality of protrusions formed at intervals from each other, the locked portion is a projection, and the elastic displacement of at least one of the locking portion and the locked portion is performed. The engagement and disengagement may be made possible. If a rotation stopper is provided on the inner wall of the outlet to restrict the rotation of the wind direction adjuster within a predetermined range, the wind direction adjuster can be prevented from turning over.
[0026]
The wind direction adjuster can also be used as a lid for opening and closing the air outlet, and can prevent foreign substances from entering from the air outlet when the operation is stopped. It is preferable that these air blowing devices are provided in electric equipment such as a dehumidifier.
[0027]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of a blower blowing device according to the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the dehumidifier provided with the air blow-off device of the present invention as viewed from the front side, and FIG. 2 is a perspective view as viewed from the rear side of the dehumidifier.
[0028]
This dehumidifier dehumidifies the indoor air sucked from the suction port 2 on the back of the apparatus main body 1 and blows the air into the room. The dehumidifier includes a blower blower for blowing out the dehumidified air. The blower / blower device includes an air outlet 3 for blowing air from the device main body 1, an auxiliary air outlet 4 different from the air outlet, and a lid 5 for opening and closing the air outlet 3. The lid 5 is in an open state. When the lid 5 is closed, the air is blown out from the auxiliary outlet 4 when the lid 3 is closed.
[0029]
The outlet 3 is formed by forming an opening in a bottom plate 7 a of a concave portion 7 provided in the upper cover 6 of the apparatus main body 1 and having a longitudinal direction in the left-right direction. The outlet 3 is divided into front, rear, left and right by grid-like ribs 8 so as to pass air blown from a blower 34 to be described later while preventing intrusion of foreign matter.
[0030]
The auxiliary outlet 4 includes a large number of square holes 4 a formed at the rear end of the upper cover 6, and blows the air discharged from the recess 7 through the outlet 9. The outlet 9 is formed on the rear inner wall 7b of the recess 7 by a plurality of ribs to form an opening left and right. Under the upper cover 6, when the cover is in a closed state, the auxiliary outlet is provided through the outlet 9. An auxiliary passage 10 for guiding the wind to 4 is formed.
[0031]
The lid 5 is formed by bending a substantially rectangular plate whose longitudinal direction is the left-right direction so as to be curved back and forth so that the surface side expands, and covers the upper opening of the recess 7 flush with the upper cover 6 in the closed state. Are arranged as follows.
[0032]
On the back side of the lid 5, there are disposed a plate-shaped wind direction plate 11 which is slightly smaller than the lid 5 and is substantially parallel to the cover 5, and five standing walls 12 connecting the lid 5 and the wind direction plate 11. You. The lid 5, the wind direction plate 11 and the upright wall 12 constitute a wind direction adjuster 13 for adjusting the direction of the wind blown out from the outlet 3, and the cover 5 is also used as a part of the wind direction adjuster 13.
[0033]
The upright wall 12 is a substantially trapezoidal flat plate orthogonal to the left-right direction, and is integrally formed with the lid 5 at predetermined intervals on the left and right. By screwing the wind direction plate 11 to the end face of the vertical wall 12, the lid 5, the wind direction plate 11, and the vertical wall 12 form four passages having a rectangular cross section through which the wind blown out from the outlet 3 passes. The standing wall 12 prevents foreign matter from entering and increases the overall rigidity of the wind direction adjusting body 13.
[0034]
Flat plate-like side plates 14a, 14b orthogonal to the left-right direction are integrally formed on the back surfaces of both ends of the lid 5, and bearings 15 are formed on the side plates 14a, 14b. Rotating shafts 16 inserted into the bearings 15 are provided on the left and right inner walls 7c and 7d of the concave portion 7 so as to project into the concave portion 7, and the rotary shaft 16 rotatably supports the lid 5. By rotating the lid 5 around the rotation shaft 16, the direction of the wind sent from the blower 34 can be adjusted.
[0035]
A notch 17 is formed in the side plates 14a and 14b of the lid 5 for inserting the bearing 15 into the rotation shaft 16 from above, and the notch 17 prevents the rotation shaft 16 from coming out of the bearing 15. A piece 18 is formed. At the end of the notch 17 opposite to the bearing 15, the retaining piece 18 has its leg 18 a connected to the side plates 14 a and 14 b and protrudes toward the bearing 15.
[0036]
The distal end portion of the retaining piece 18 is formed in a tapered shape that increases the distal end side, is set to a thickness having strength as the bearing 15, and forms a part of the bearing 15. Other portions of the retaining piece 18 are formed thinner than the side plates 14a and 14b so as to pass through the rotation shaft 16.
[0037]
When the rotating shaft 16 is inserted into the bearing 15 from the notch 17, the distal end of the rotating shaft 16 contacts the tapered surface of the retaining piece 18 by pushing the lid 5 from above. When the lid 5 is further pushed in, the retaining shaft 18 is elastically deformed while the rotating shaft 16 slides on the tapered surface, and is retracted inward in the left-right direction. After the completion of the insertion of the rotating shaft 16, the retaining piece 18 returns to the retaining position located in the notch 17, and prevents the rotating shaft 16 from coming off the bearing 15.
[0038]
At the left end of the lid 5, a first stopper 19 that contacts the rotation shaft 16 and prevents the lid 5 from moving leftward is formed. The first stopper 19 is formed in a flat plate shape parallel to the left-right direction, and is formed on the right side of the bearing 15 of the side plate 14a in alignment with the center axis of the bearing 15.
[0039]
A second stopper 20 is formed at the right end of the lid 5 to abut the right inner wall 7 d of the recess 7 to prevent the lid 5 from moving rightward. The second stopper 20 is formed on the right side of the side plate 14b around the bearing 15 and the notch 17, and also serves as a guide rib for guiding the rotating shaft 16.
[0040]
At the right end of the lid 5, a locked portion is provided which is locked to the locking portion on the concave portion 7 side and regulates the rotation of the lid 5 at a desired angle. A projection 21 is formed at the rear end of the right side surface of the side plate 14b. The protrusion 21 has a substantially R-shaped tip, and the distance from the center of rotation is set longer than the second stopper 20. The rear end 22 of the side plate 14b is formed thinner than other parts, and a hole 23 is formed in the vicinity thereof. The rear end 22 and the hole 23 allow the projection 21 to be elastically displaceable.
[0041]
A plurality of substantially trapezoidal protrusions 24 as locking portions for locking the projections 21 are formed radially around the rotation shaft 16 at intervals on the right inner wall 7d of the recess 7. The protrusion 24 is formed at a predetermined interval from the rotation shaft 16, and has a taper that is gently inclined at the end on the rotation shaft 16 side to prevent the second stopper 20 from contacting. .
[0042]
The gap 25 between the protrusions 24 is sized to allow the R portion at the tip of the projection 21 to enter, and regulates the rotation of the lid 5 in a state where the tip of the projection 21 enters the gap 25. By rotating the lid 5 by applying a certain amount of force, the projection 21 rides on the projection 24 with the elastic displacement of the projection 21. Thus, the angle of the lid 5 can be adjusted stepwise while the projection 21 and the projection 24 are disengaged from each other.
[0043]
At the base end of the rotating shaft 16 formed on the left inner wall 7c of the concave portion 7, a fan-shaped rotating stopper 26 located in the lower rear half of the rotating shaft 16 is formed. The rotation stopper 26 restricts the rotation of the lid 5 by bringing the rear surface of the lid 5 into contact with the end surface thereof, and restricts the rotation of the lid 5 within a predetermined range. One end surface of the rotation stopper 26 determines the starting point of the rotation of the lid 5, and the other end surface determines the end point.
[0044]
Next, the configuration of the dehumidifier will be described. The device main body 1 has a compact structure with a horizontal length and a small depth, a cover 5 for opening and closing the air outlet 3 on an upper cover 6 on an upper surface thereof, an operation unit 27 for starting and stopping operation, and a device. A handle 28 for carrying the main body 1 is provided. A fastening hole 4b for fixing the upper cover 6 to the apparatus main body 1 is formed in a portion where the handle 28 is stored. A suction port 2 for sucking indoor air is provided on a back portion of the device main body 1, and a drain tank 29 for storing water generated by dehumidification is provided at a lower portion of a right side surface of the device main body 1. .
[0045]
The inside of the apparatus main body 1 is vertically divided by a partition plate 30. The upper chamber is partitioned back and forth by a middle partition plate 31, an evaporator 32 and a condenser 33 are stored in a rear space A, and a blower 34 is stored in a front space B. The space A that houses the evaporator 32 and the condenser 33 is covered with an upper partition plate 35 at the upper side, and a space surrounded by the upper partition plate 35 and the upper cover 6 is the auxiliary passage 10.
[0046]
The lower chamber is divided into right and left by a lower partition plate 35, the left space is a machine room D for storing refrigeration cycle components such as the compressor 36, and the right space allows the drain tank 29 to be taken in and out from the outside. A tank room E is accommodated. A discharge port 37 for discharging drain (water) from the evaporator 32 or the condenser 33 to the drain tank 29 is formed in the partition plate 30, and the discharge port 37 is opened and closed by a valve mechanism 38. The valve mechanism 38 opens and closes the discharge port 37 in conjunction with the taking in and out of the drain tank 29.
[0047]
Next, a state when the dehumidifier is operated will be described. By driving the blower 34, the indoor air sucked from the suction port 2 is heat-exchanged (cooled) while passing through the evaporator 32 and dehumidified, and heat-exchanged (heated) while passing through the condenser 33. You. Thereafter, the air is sucked from the motor side of the blower 34 (turbo fan), and is blown out from the outlet 3 into the recess 7 by the blower 34.
[0048]
The wind blown into the concave portion 7 is blown out from the upper opening of the concave portion 7 when the lid 5 is open, and when the lid 5 is closed, the air flows from the outlet 9 through the auxiliary passage 10 to the auxiliary outlet. It is blown out from 4. That is, a passage from the suction port 2 to the outlet 3 through the evaporator 32, the condenser 33, and the blower 34, and from the outlet 3 to the upper opening of the recess 7 or the auxiliary outlet 4 is formed as an air passage. ing.
[0049]
According to the above configuration, when the outlet 3 is closed by the lid 5 during the dehumidifying operation, the air can be blown out from the auxiliary outlet 4. Thereby, the high temperature air after dehumidification is not discharged from the apparatus main body 1 and the blower 34 does not idle, so that the dehumidification ability can be prevented from being reduced.
[0050]
Since the notch 17 is formed in the bearing 15 of the lid 5, the lid 5 can be easily mounted, and the retaining piece 18 can prevent the lid 5 from being detached after the mounting. Further, since the lid 5 can be rotated stepwise, the angle adjustment of the lid 5 can be simplified.
[0051]
It should be noted that the present invention is not limited to the above-described embodiment, and can be appropriately modified within the scope of the present invention. For example, this blowing and blowing device may be provided in another electric device such as a humidifier instead of the dehumidifier.
[0052]
The rotating shaft may be formed on either the lid side or the apparatus main body side. The locking portion and the locked portion may be formed on either the lid or the apparatus main body, and the locking portion may be elastically displaced instead of elastically displacing the locked portion.
[0053]
【The invention's effect】
As is clear from the above description, in the present invention, since the auxiliary outlet for blowing air when the lid is in the closed state is provided, the device can be opened without opening the outlet by rotating the lid. Even when the main body is operated, air is discharged from the main body to the outside, and the safety of the main body can be improved.
[0054]
In addition, the number of components can be reduced by omitting components for preventing erroneous opening and closing of the lid, so that the size of the device can be reduced. Since the lid can be easily attached, assembly can be facilitated. Since the lid can be rotated stepwise, adjustment of the wind direction can be simplified.
[Brief description of the drawings]
FIG. 1 is a perspective view of a dehumidifier provided with a blow-off device of the present invention as viewed from the front side. FIG. 2 is a perspective view as viewed from the rear side of the dehumidifier. FIG. 3 is a plan view of an upper cover. FIG. 6A is a plan view of the lid, FIG. 6B is a cross-sectional view of CC, FIG. 6C is a bottom view, and FIG. (E) is a right side view.
7A is a front view of a locking portion, FIG. 7B is a side view of the locking portion, and FIG. 7C is a plan view of the locking portion. FIG. 8A is a front view of a rotation stopper. (Closed state of the lid), (b) is a side view of the rotation stopper, and (c) is a front view of the rotation stopper (open state of the lid).
FIG. 9 is a cross-sectional view of an upper part of the dehumidifier. FIG. 10 is a plan view of an upper part of the dehumidifier. FIG. 11 is a cross-sectional view of a main part of a lower part of the dehumidifier. FIG. 14 is a side cross-sectional view of a conventional dehumidifier.
FIG. 15 is an enlarged sectional view of the outlet (open state).
FIG. 16 is an exploded perspective view showing another opening / closing mechanism of the outlet. FIG. 17 is a partial cross-sectional view near the outlet.
DESCRIPTION OF SYMBOLS 1 Apparatus main body 3 Air outlet 4 Auxiliary air outlet 5 Lid 15 Bearing 16 Rotating shaft 17 Notch 18 Retaining piece 19 First stopper 20 Second stopper 21 Projection 24 Convex part 26 Rotation stopper

Claims (13)

An air outlet that blows air from the apparatus body, a lid that opens and closes the air outlet, and an auxiliary air outlet that is different from the air outlet, and blows air from the auxiliary air outlet with the lid closed. A blow-off device characterized by the above. A blower blower in which a wind direction adjuster for adjusting a direction of wind blown out from the blower outlet is provided at a blower outlet of the device body so as to be rotatable around a rotary shaft, wherein an axial end of the rotary shaft is provided. On the part side, a rotation axis is formed on one of the end portion of the wind direction adjusting body and the inner wall of the air outlet opposed thereto, and a bearing for supporting the rotation axis is formed on the other, and in the bearing, A notch for inserting the rotating shaft from a direction perpendicular to the axis of the rotating shaft is formed. 3. The blower blower according to claim 2, wherein the notch is provided with a stopper for preventing the rotation shaft from coming out of the shaft hole. 4. The retaining means comprises a retaining piece that is elastically deformable between a retaining position located at the notch and an insertion position retracted from the notch in the axial direction of the rotation shaft. An air blowing device according to claim 3. The blow-off device according to claim 4, wherein the retaining piece is elastically deformed from the retaining position to the insertion position by being inserted into the notch from a direction perpendicular to the axis of the rotation shaft. . 6. A first stopper, which is provided outside the bearing in the axial direction of the rotation shaft and is in contact with the rotation shaft to prevent the wind direction adjusting body from moving in the axial direction, is provided. A blow-off and blow-off device according to item 1. 7. A second stopper formed at a base end side of the rotation shaft with respect to the bearing to abut against an inner wall of the air outlet to prevent the wind direction adjusting body from moving in the axial direction. An air blowing device according to any of the claims. The blowing device according to claim 7, wherein the second stopper is a guide rib formed around a bearing or a notch and guiding the rotation shaft. A locked portion is formed on one of the end of the wind direction adjuster and the inner wall of the outlet facing the wind direction adjusting body on the axial end side of the rotating shaft, and the locked portion is engaged with the other. The plurality of locking portions for stopping are formed radially around the rotation center of the wind direction adjusting body, and the angle of the wind direction adjusting body can be adjusted in a stepwise manner. A blow-off and blow-off device according to item 1. The plurality of locking portions are a plurality of convex portions formed at intervals from each other, and the locked portion is a projection, and is engaged by elastic displacement of at least one of the locking portion and the locked portion. The air blow-off device according to claim 9, wherein the air blow-off device can be separated. The blower blower according to any one of claims 2 to 10, wherein a rotation stopper for restricting the rotation of the wind direction adjuster to a predetermined range is provided on an inner wall of the outlet. The air blowing device according to any one of claims 2 to 11, wherein the wind direction adjusting body is also used as a lid for opening and closing the air outlet. An electric device comprising the air blowing device according to claim 1.

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