KR200476276Y1 - Device for controlling ventilation direction - Google Patents

Abstract

A design for a blowing direction regulating device is disclosed. The disclosed airflow direction adjusting device includes a driving motor provided in a main body and provided with power by a shaft driven gear, a first driving link portion coupled to one side of the driving gear to provide a rotational force, a second driving link portion coupled to the other side of the driving gear, A first blowing blade which is provided at one side with respect to a center in a discharge port of the main body and which is composed of at least one group rotated by the first drive link portion, And a second blowing blade provided on the other side with respect to the center of the discharge port of the first blowing fan and composed of at least one group rotating in a symmetrical direction with respect to the first blowing blade by the second driving link.

Description

{DEVICE FOR CONTROLLING VENTILATION DIRECTION}

The present invention relates to a blowing direction regulating device, and more particularly, to a blowing direction regulating device in which an asymmetrical gear structure is disposed on both sides of a driving motor so that first and second air blowing blades are blown in different directions, To a regulating device.

Generally, an air conditioner is an air conditioner and a heater, which are used for adequately heating or cooling air inside a building or a home.

Air conditioners are mainly used for air conditioners such as wall-mounted type, stand type, and ceiling type. Wall-mounted type is used for a room or a small living room because the capacity is small and it is installed on a window many times. And it is widely used in a living room and a spacious home.

1 is a view showing a conventional stand type air conditioner.

A conventional stand type air conditioner includes an air conditioner main body 2, a discharge port 4 provided at the front of the air conditioner main body 2 and discharging the air sucked in the suction port 1 through a heat exchanger in the indoor heat exchanger and discharging the cooled air into cold air; And left and right fan blades (6) for adjusting the left and right direction of cool air blown from the discharge port (4); And upper and lower air blowing vanes 8 provided on the front side of the left and right air blowing blades to adjust the vertical direction of the cool air blown out from the air blow-out port 4. [

The technical structure described above is a background technology for assisting the understanding of the present invention and does not mean a conventional technology widely known in the art to which the present invention belongs.

However, in the case of the conventional stand type air conditioner, there is a problem in that it is inconvenient to use because manual blowing operation of the left and right air blowing blades is required to adjust the blowing direction.

 In addition, in the conventional stand type air conditioner, when the automatic air conditioner is automatic, both of the left and right air blowing blades are simultaneously rotated to the left or rotated to the right, so that the blowing area is very narrow.

Therefore, there is a need to improve this.

The present invention has been made in view of the above-described need, and it is an object of the present invention to provide a blowing direction adjusting device for widening a blowing area by disposing asymmetrical gear structures on both sides of a driving motor so as to make different blowing directions of first and second blowing blades The purpose is to provide.

According to an aspect of the present invention, there is provided a blowing direction adjusting device including: a driving motor installed in a main body to provide power to a shaft driven gear; A first drive link coupled to one side of the drive gear to provide a rotational force; A second drive link coupled to the other side of the drive gear and providing a rotational force in a direction opposite to the first drive link; A first blowing blade installed at one side of a center of the discharge port of the main body and composed of at least one group rotating by the first driving link portion; And a second blowing blade provided on the other side of the discharge port of the main body with respect to a center thereof, the second blowing blade comprising at least one group rotating in a direction symmetrical to the first blowing blade by the second driving link.

The first driving link portion may include a first driven gear coupled to the first driving shaft so as to engage with one side of the driving gear; A first turning link whose one end is coupled to the first driving shaft and the other end is turned; And a first linear link that linearly moves by a first operating shaft inserted in a first installation hole formed at the other end of the first rotation link and rotates the first air bladder.

The first installation hole is a long hole formed in the other end of the first rotation link so as to compensate a rotation distance of the first rotation link when the first rotation link rotates, and the first straight link is provided with a rear lower end A first insertion hole into which a first rotation shaft is inserted is formed so that the first blowing blade is rotated about a first hinge axis formed at a lower front end of the first air blowing blade.

The second link driving unit includes an intermediate gear axially coupled to the other side of the driving gear, A second driven gear engaged with the intermediate gear and coupled to the second drive shaft to rotate in a direction opposite to the first driven gear; A second turning link whose one end is coupled to the second driving shaft and the other end is rotated; And a second linear link that linearly moves by a second operation shaft inserted in a second installation hole formed at the other end of the second rotation link and which rotates the second airflow vane.

The second installation hole is a long hole formed in the other end of the second rotation link so as to compensate a rotation distance when the second rotation link rotates, and the second straight link is provided with a rear lower end A second insertion hole into which a second rotation shaft is inserted is formed to rotate the second air blowing vane about a second hinge axis formed at a lower front end of the second air blowing vane.

The first blowing vane and the second blowing vane are arranged symmetrically with respect to the center of the discharge port, and the first blowing vane and the second blowing vane are installed perpendicularly to the discharge opening, And the left and right air blowing blades adjust the air blowing direction in the direction of the arrow.

As described above, according to the present invention, the asymmetrical gear structure is disposed on both sides of the driving motor so that the first and second air blowing blades are blown in different directions, It is possible to widen the area considerably.

1 is a perspective view showing a conventional stand type air conditioner.
FIG. 2 is an exploded perspective view of a blowing direction adjusting device according to an embodiment of the present invention; FIG.
3 is an assembled perspective view of a blowing direction adjusting device according to an embodiment of the present invention;
4 is a cross-sectional view of a blowing direction adjusting device according to an embodiment of the present invention as viewed from the bottom when the blowing direction of the blowing direction adjusting device is narrowed.
5 is a cross-sectional view of the blowing direction adjusting device according to an embodiment of the present invention as viewed from the bottom when widening the blowing direction of the blowing direction adjusting device.

Hereinafter, a blowing direction adjusting apparatus according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions in the present invention, and this may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is an exploded perspective view of a blowing direction adjusting device according to an embodiment of the present invention. FIG. 3 is an assembled perspective view of a blowing direction adjusting device according to an embodiment of the present invention, FIG. 4 is a cross- FIG. 5 is a cross-sectional view of the blowing direction adjusting device according to an embodiment of the present invention as viewed from the bottom when widening the blowing direction of the blowing direction adjusting device according to an embodiment of the present invention.

2 to 5, a blowing direction adjusting device according to an embodiment of the present invention includes a driving motor 10, a first driving link portion 20, a second driving link portion 40, And includes a blade (60) and a second blowing blade (70).

The drive motor 10 is installed in the main body 2 and provides power to the axially coupled drive gear 12. [ The main body 2 is a main body that is applied to a device for blowing a stand-type air conditioner or cold air or warm air.

The first driving link portion 20 is coupled to one side of the driving gear 12 to provide a turning force.

The first driving link portion 20 includes a first driven gear 22, a second turning link 26, and a first straight link 30.

The first driven gear 22 is coupled to the first driving shaft 24 so as to engage with one side of the driving gear 12. The first drive shaft (24) is pivotally coupled to the main body (2).

One end of the first turning link 26 is coupled to the first driving shaft 24, and the other end of the first turning link 26 rotates as the first driving shaft 24 rotates.

The first straight link 30 is linearly operated by the first operating shaft 32 inserted into the first mounting hole 28 formed at the other end of the first tilting link 26, .

The first installation hole 28 is a slot formed in the longitudinal direction at the other end of the first rotation link 26 so as to compensate the rotation distance of the first rotation link 26 when the first rotation link 26 rotates.

The first straight link 30 is formed with a first insertion hole 34 into which a first rotation shaft 64 formed at the lower rear end of the first air bladder 60 is inserted, The first air blowing blade 60 is rotated about the first hinge shaft 62 formed on the first hinge shaft 62.

It is preferable that the first insertion holes 34 of the first rectilinear link 30 are formed by the same number as the number of the first air blades 60 and are formed at regular intervals.

The second driving link portion 40 is coupled to the other side of the driving gear 12 and provides a rotational force in a direction opposite to the first driving link portion 20.

The second drive link portion 40 includes an intermediate gear 41, a second driven gear 42, a second turning link 46, and a second straight link 50.

The intermediate gear 41 is pivotally coupled to the body 2 so as to be engaged with the other side of the driving gear 12. [

The second driven gear 42 meshes with the intermediate gear 41 and is coupled to the second drive shaft 44 so as to rotate in the opposite direction to the first driven gear 22. The second drive shaft (44) is pivotally coupled to the main body (2).

One end of the second rotation link 46 is coupled to the second drive shaft 44, and the other end of the second rotation link 46 rotates as the second drive shaft 44 rotates.

The second linear link 50 is linearly operated by the second operating shaft 52 inserted into the second mounting hole 48 formed at the other end of the second rotary link 46, .

The second installation hole 48 is an elongated hole formed at the other end of the second rotation link 46 in the longitudinal direction so as to compensate the rotation distance when the second rotation link 46 rotates.

The second straight line link 50 is formed with a second insertion hole 54 into which a second rotation shaft 74 formed at the lower rear end of the second air blowing vane 70 is inserted, The second blowing vane 70 is rotated about the second hinge shaft 72 formed on the second hinge shaft 72. [

It is preferable that the second insertion holes 54 of the second straight line link 50 are formed by the same number as the number of the second blowing vanes 70 and are formed at even intervals.

The first air blowing vane 60 is provided on one side of the discharge port 4 of the main body 2 with respect to the center and comprises at least one group rotating by the first driving link portion 60.

The second blowing vane 70 is provided on the other side with respect to the center in the discharge port 4 of the main body 2 and is rotatable in the opposite direction to the first blowing vane 70 by the second drive link 70 Or more.

The first blowing vane 60 and the second blowing vane 70 are arranged symmetrically in the same number about the center of the discharge port 4.

The first blowing vane 60 and the second blowing vane 70 are preferably left and right air blowing vanes 6 vertically installed on the discharge port 4 and adjusting the air blowing direction in the lateral direction. Of course, the first blowing vane 60 and the second blowing vane 70 may be left and right air blades 8 horizontally installed at the discharge port 4 and adjusting the blowing direction in the vertical direction.

In addition, the first blowing vane 60 and the second blowing vane 70 can be applied to various types of air conditioners as well as various types of air conditioners to collect the blowing direction or to open the blowing direction.

Hereinafter, the operation and effect of the air flow direction adjusting device according to one embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 4, first, a state in which the first blowing vane 60 and the second blowing vane 70 are pinched will be described.

When the driving motor 10 is rotated in the counterclockwise direction, the first driven gear 22 of the first driving link portion 20 engaged with the left side of the driving gear 12 is rotated clockwise about the first driving shaft 24 .

The first rotating link 26 integrally coupled to the first driving shaft 24 is also rotated clockwise to rotate the first operating shaft 32 inserted in the first mounting hole 28 to the left.

The first linear link 30 is moved to the left by the left movement of the first operating axis 32 and the first rotary shaft 64 axially coupled to the first insertion hole 34 of the first linear link 30 The first blowing blade 60 rotates clockwise about the first hinge shaft 62 fixed to the main body 2 and the blowing direction is determined to the right side.

The intermediate gear 41 of the second drive link portion 40 engaged with the right side of the drive gear 12 rotates clockwise about the axis.

The second driven gear 42 engaged with the right side of the intermediate gear 41 rotates counterclockwise around the second drive shaft 44.

The second rotation link 46 integrally coupled to the second drive shaft 44 is also rotated counterclockwise to rotate the second operation shaft 52 inserted in the second installation hole 48 to the right.

The second linear link 50 is moved to the right by the right movement of the second operating axis 52 and the second rotary shaft 74 axially coupled to the second insertion hole 54 of the second linear link 50 The second blowing vane 70 is rotated counterclockwise around the second hinge shaft 72 fixed to the main body 2 and the blowing direction is determined to the left side.

Thus, the first air bladder 60 and the second air bladder 70 are disengaged when viewed from the front with respect to the center, so that the air blowing direction is centered.

5, first, a state in which the first blowing vane 60 and the second blowing vane 70 are opened wide will be described.

When the driving motor 10 is rotated clockwise, the first driven gear 22 of the first driving link portion 20 engaged with the left side of the driving gear 12 is rotated counterclockwise about the first driving shaft 24 .

The first rotation link 26 integrally coupled to the first drive shaft 24 is also rotated counterclockwise to rotate the first operation shaft 32 inserted in the first installation hole 28 to the right.

The first linear link 30 moves to the right due to the right movement of the first operating axis 32 and the first rotary shaft 64 axially coupled to the first insertion hole 34 of the first linear link 30 The first blowing blade 60 is rotated counterclockwise around the first hinge shaft 62 fixed to the main body 2 and the blowing direction is determined to the left side.

The intermediate gear 41 of the second drive link portion 40 engaged with the right side of the drive gear 12 rotates counterclockwise around the axis.

The second driven gear 42 engaged with the right side of the intermediate gear 41 rotates in the clockwise direction around the second drive shaft 44.

The second rotation link 46 integrally coupled to the second drive shaft 44 is also rotated clockwise to rotate the second operation shaft 52 inserted in the second installation hole 48 to the left.

The second linear link 50 is moved to the left by the left movement of the second operating shaft 52 and the second rotary shaft 74 axially coupled to the second insertion hole 54 of the second linear link 50 The second blowing vane 70 rotates clockwise around the second hinge shaft 72 fixed to the main body 2 and the blowing direction is determined to the right side.

Since the group of the first air blades 60 and the group of the second air blades 70 are opened to the both sides when viewed from the front with respect to the center portion, the air blowing direction includes not only the center direction but also the left and right wide areas Blowing.

Therefore, according to the present invention, asymmetrical gear structures are disposed on both sides of the driving motor 10 so that the first and second fan blades are blown in different directions, Effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. I will understand.

Therefore, the true technical protection scope of this invention should be determined by the following utility model registration claim scope.

2: main body 10: drive motor
12: drive gear 20: first drive link portion
22: first driven gear 26: first driven link
30: first straight link 40: second driving link portion
42: intermediate gear 42: second driven gear
50: second straight line link 60: first blowing blade
64: first rotating shaft 70: second blowing blade

Claims (6)

A driving motor installed in the main body and providing power to the driving gear shaft-coupled;
A first drive link coupled to one side of the drive gear to provide a rotational force;
A second drive link coupled to the other side of the drive gear and providing a rotational force in a direction opposite to the first drive link;
A first blowing blade installed at one side of a center of the discharge port of the main body and composed of at least one group rotating by the first driving link portion; And
And a second blowing blade provided on the other side of a center of the discharge port of the main body and composed of at least one group rotating in a direction symmetrical to the first blowing blade by the second driving link,
The first drive link portion includes a first driven gear coupled to a first drive shaft so as to engage with one side of the drive gear;
A first turning link whose one end is coupled to the first driving shaft and the other end is turned; And
And a first linear link that linearly moves by a first operating shaft inserted in a first mounting hole formed at the other end of the first rotating link and rotates the first air blowing vane,
The first mounting hole is a slot formed in the other end of the first rotating link in the longitudinal direction so as to compensate the rotating distance of the first rotating link when the first rotating link rotates,
The first straight link is formed with a first insertion hole into which a first rotary shaft formed at a lower rear end of the first air bladder is inserted so that the first air bladder is rotated about the first hinge axis formed at the lower front end of the first air bladder Wherein the air blowing direction adjusting device comprises:
delete delete 2. The apparatus of claim 1, wherein the second link driver
An intermediate gear axially coupled to the other side of the driving gear so as to be engaged with the intermediate gear;
A second driven gear engaged with the intermediate gear and coupled to the second drive shaft to rotate in a direction opposite to the first driven gear;
A second turning link whose one end is coupled to the second driving shaft and the other end is rotated; And
And a second linear link which is linearly operated by a second operating shaft inserted into a second installation hole formed at the other end of the second rotation link and which rotates the second blowing vane.
5. The method of claim 4,
The second mounting hole is a slot formed in the other end of the second turning link in the longitudinal direction so as to compensate the turning distance when the second turning link rotates,
The second straight link is formed with a second insertion hole into which a second rotation shaft formed at the lower rear end of the second air blowing wing is inserted so that the second air blowing wing is rotated about the second hinge axis formed at the lower front end of the second air blowing wing Wherein the air blowing direction adjusting device comprises:
The method according to claim 1,
Wherein the first air blowing fan and the second air blowing fan are arranged symmetrically with respect to the center of the discharge opening,
Wherein the first air blowing blade and the second air blowing blade are left and right air blowing vanes which are installed perpendicularly to the discharge port and adjust the air blowing direction in the left and right direction.

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