KR200421314Y1 - a ventilation wing - Google Patents

Abstract

The present invention relates to a blower wing structure for the ventilator, the base 11 is axially coupled to the rotating shaft (P) of the motor (not shown), the inner edge 12 formed inside the base 11, and the base ( Rotating body (10) consisting of an outer border (13) on the outside of the 11; A plurality of blowing blades 20 having a wing shaft 25 fixed to the inner rim after penetrating the outer rim 13; A slider 30 inserted into the wing shaft 25 between the outer rim 13 and the inner rim 12 and sliding; And a spring 40 inserted into the blade shaft 25 between the outer rim 13 and the slider 30, wherein the blade shaft 25 has a long diagonal blade pin 25a formed in an oblique direction. The slider 30 is characterized in that the slider hole 35 into which the wing shaft 25 is inserted and the fitting groove 35a into which the diagonal wing pin 25a is fitted are formed.

Description

Ventilation wing structure for ventilator {a ventilation wing}

1 is a front view of the blower wing structure for the fan according to the present invention,

2 is a view showing an extract of the blowing blade and the slider of FIG.

3 is a view for explaining that the position angle of the blower blade is variable in FIG.

<Description of Signs of Major Parts of Drawings>

10 ... rotating body 11 ... base

12 ... inner border 12a ... inner border groove

13 ... Outer border 20 ... Blowing wings

25 ... wing shaft 25a ... diagonal wing

30 ... Slider 35 ... Slider Ball

35 a ... fitting groove 40 ... spring

The present invention relates to a blower wing structure for the blower to be able to vary the position angle of the blower blade depending on the operation of the motor.

A ventilator is a ventilator that discharges muddy air indoors to the outside or inflows external air to introduce indoor air, a blower blade that is rotated by a motor installed in a vent of a ventilation main body, and a ventilation hole installed at a rear of the ventilation main body by a user. It has a structure having a shutter to shield the. With this structure, when the fan is to be used, the shutter is opened to open the vents, the fan blades are rotated, and when the ventilator is not used, the vents are shut down to block the vents, thereby preventing the insects from entering the room.

However, the fan of this structure, the wind blown by the blower wings hit the shutter to increase the flow resistance of the air and generate noise. In addition, by adopting a structure for opening or closing the vents, the overall configuration of the fan is complicated and frequent failures are generated.

Based on this problem, the fan is opened only when the fan blade is rotated without employing a shutter, and the fan is variable in position of the fan blade itself so that the fan blade itself can close the fan when the fan blade is not rotated. Has been developed and used.

However, the structure for varying the position angle of the blower wing was inevitably complicated, and thus there was a problem that frequent failures occurred.

The present invention has been made to solve the above problems, by having a simple structure can reduce the occurrence of failure, and furthermore provides a blower wing structure for the blower can be made quickly change the position angle of the blower wing. It aims to do it.

Ventilator wing structure for the fan according to the present invention to achieve the above and the object,

The base 11 is axially coupled to the rotation shaft P of the motor (not shown), the inner edge 12 formed inside the base 11, and the outer edge 13 on the outside of the base 11 Rotating body 10; A plurality of blowing blades 20 having a wing shaft 25 fixed to the inner rim after penetrating the outer rim 13; A slider 30 inserted and slid into the wing shaft 25 between the outer rim 13 and the inner rim 12; And a spring 40 inserted into the blade shaft 25 between the outer rim 13 and the slider 30, wherein the blade shaft 25 has an oblique wing pin 25a in an oblique direction. It is formed long, the slider 30 is characterized in that the slider hole 35 is inserted into the blade shaft 25 and the fitting groove 35a is inserted into the diagonal wing pin (25a) is formed.

Hereinafter, a blower wing structure for the fan according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of the blower wing structure for the ventilator according to the present invention, Figure 2 is a view showing an extract of the blower blade and the slider of Figure 1, Figure 3, in Figure 1, the position angle of the blower wing is variable It is a figure for demonstrating the thing.

As shown, the blowing wing structure according to the present invention, the base 11 is axially coupled to the rotation axis (P) of the motor (not shown), and the inner edge 12 formed inside the base 11, Rotating body 10 consisting of an outer border 13 on the outside of the base 11; A plurality of blowing wings 20 having a wing shaft 25 fixed to the inner rim after penetrating the outer rim 13; A slider 30 inserted into the wing shaft 25 between the outer rim 13 and the inner rim 12 and sliding; And a spring 40 inserted into the blade shaft 25 between the outer rim 13 and the slider 30, wherein the blade shaft 25 has a long diagonal blade pin 25a formed in an oblique direction. The slider 30 is characterized in that the slider hole 35 into which the wing shaft 25 is inserted and the fitting groove 35a into which the diagonal wing pin 25a is fitted are formed. In the present embodiment, the spring 40 has a trapezoidal shape as a whole and will be described with an example of six blowing vanes 20.

In the rotary body 10, the inner rim 12 has a plurality of inner rim grooves, in this embodiment six inner rim grooves (12a) are formed, the outer rim 13 has an inner rim groove ( The same number of outer edge grooves 13a are formed as in 12a). At this time, the rotating shaft of the motor, the inner rim groove 12a and the outer rim groove 13a is formed to be located in a straight line.

The wing shaft 25 of the blower blade 20 has a diagonal wing pin 25a formed in an oblique direction, and the diagonal wing pin 25a is formed by one molding when the blower wing 20 is manufactured.

The wing shaft 25 of the blown wing 20 is not separated from the rotating body 10 by passing through the outer rim groove 13a and then straddling the inner rim groove 12a. To this end, the outer circumferential surface of the side of the end of the rotary shaft 25 is formed with a groove 25b so as to span the inner rim groove 12a.

In the inner circumferential surface of the slider hole 35 formed in the slider 30, fitting grooves 35a are formed so that the diagonal blades 25a can be fitted.

Slider 30 should be moved to the outer border 13 side while overcoming the elastic force of the spring 40 by the centrifugal force during the rotation of the rotary body (10). To this end, a metal weight of an appropriate weight is built in the slider 30 so as to generate sufficient centrifugal force.

The slider 30 has a quadrangular pillar shape as a whole, and one of the side surfaces is in close contact with the base 11. Therefore, when the slider 30 is moved by the centrifugal force between the inner rim 12 and the outer rim 13, only the linear movement is performed. At this time, since the diagonal wing pin 25a of the blade shaft 25 is inserted into the fitting groove 35a of the slider, the blade shaft 25 is rotated at a predetermined angle as the slider 30 moves, which is the blade of the blower blade. Change the position angle.

The spring 40 has a trapezoidal shape, the narrow end surface of which is in contact with the slider 30, and the wide end surface of which is in contact with the inner surface of the outer rim 13. At this time, it is preferable that a flow preventing groove 13a is formed on the inner surface of the outer rim 13 to prevent the spring 40 from flowing.

Next, the operation of the blower wing structure for the ventilator as described above will be described.

When the motor is operated, the rotary body 10 is rotated. At this time, the slider 30 moves to the rim edge 13 while overcoming the elastic force of the spring 40 by the centrifugal force. Then, as the slider 30 moves and rotates the diagonal wing pin 25a of the blade shaft 25 inserted in the fitting groove 35a, the blower blade 20 is obliquely changed in the position angle, and thus the blowing air is rotated. The wing 20 is to perform a wind action.

When the operation of the motor is stopped, the centrifugal force of the slider 30 disappears, and the slider 30 is elastically biased by the spring 40 to come to the inner edge 12 side, that is, the initial position. At this time, the slider 30 is rotated in the opposite direction by the diagonal wing pin 25a of the blade shaft 25 is fitted in the fitting groove (35a) blower blades 20 to change the position angle in parallel to each other, accordingly Blowing wing 20 is to block the blower of the fan.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

As described above, according to the blower wing structure for the fan according to the present invention, the position angle of the blower blade is varied while the slider moves to the outer edge side or the inner edge side in accordance with the rotation of the motor, thereby opening or opening the vents of the fan Can be closed. At this time, the position angle of the blower blade is made by the interaction between the diagonal wing formed on the blade shaft and the fitting groove formed in the slider hole of the slider, it is possible to implement a variable structure of the position angle of the blower blade with a simple structure.

Claims (1)

The base 11 is axially coupled to the rotation shaft P of the motor (not shown), the inner edge 12 formed inside the base 11, and the outer edge 13 on the outside of the base 11 Rotating body 10; A plurality of blowing blades 20 having a wing shaft 25 fixed to the inner rim after penetrating the outer rim 13; A slider 30 inserted and slid into the wing shaft 25 between the outer rim 13 and the inner rim 12; And And a spring (40) inserted into the wing shaft (25) between the outer rim (13) and the slider (30). An oblique wing pin 25a is formed at an edge of the wing shaft 25 in an oblique direction, and a slider hole 35 and an oblique wing pin 25a into which the wing shaft 25 is inserted are provided at the slider 30. Ventilating wing structure for the fan, characterized in that the fitting groove (35a) is fitted.

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