KR200472965Y1 - electric fan - Google Patents

Abstract

The fan of the present invention comprises a case having a first opening hole at the center in the form of a frame and forming an inlet hole and an exhaust hole around the inner and outer surfaces of the rim of the frame and having a space formed therein, A rotary part for sucking the outside air into the space by the inflow hole and discharging it to the discharge hole, and a second opening for communicating with the first opening hole provided in the front of the case, And a cover for discharging air to the outside.

Description

Fan {electric fan}

The present invention relates to an electric fan, and more particularly, to an electric fan for increasing the strength of wind by arranging a plurality of rotary blades in a polygonal case rim having line segments to accelerate the flow rate of the discharge amount with respect to the air flow rate.

Conventional household fans typically include a set of vanes or vanes mounted to rotate about an axis, and a drive device that rotates the set of vanes to create an air flow. A "wind chill" or breeze is generated by the movement and circulation of the air flow, which results in the user experiencing a cooling effect as heat is dissipated through convection and evaporation.

These fans are available in various sizes and shapes. For example, in the case of a ceiling fan, it may have a diameter of at least 1 m and is typically mounted in a suspended manner in the ceiling to provide a downward air flow to cool the room. On the other hand, desk-top fans are often about 30 cm in diameter and are generally free-standing and portable. A floor standing tower fan typically includes a long vertical extension case of approximately 1 meter height and is typically used to create more than one set of airflows in the range of 300 to 500 l / Accommodates a rotary wing. An oscillating mechanism may be employed to rotate the outlet from the tower-type fan so that the airflow flows over a large area of the room.

The conventional fan or tower fan has a disadvantage in that a relatively high output motor is adopted because the discharge amount of wind is determined in relation to the number of revolutions of the rotary vane.

That is, the factor determining the wind strength is determined by the size and the number of revolutions of the fan, but it is impossible to prevent the decrease in the output of the energy used by the motor. In order to overcome this, It is urgent to propose a technology that doubles the century.

In order to overcome the above-mentioned problem, the fan of the present invention is designed to increase the flow rate of the wind by discharging the air to the outside by forming the airflow due to the air pressure difference in the fan due to the air pressure.

In addition, the object of the present invention is to increase the air pressure by increasing the air pressure inside the fan.

In order to achieve the above-mentioned object, the fan of the present invention comprises a case having a first opening hole at the center thereof, a case having an inlet hole and an exhaust hole formed around the inner and outer edges of the frame, And a second opening communicating with the first opening is provided in the front of the case, and the second opening is provided to communicate with the first opening, And a cover for discharging air from the inside of the second opening hole to the outside through the opening.

According to the present invention, the second opening hole is formed so that its inner surface is inclined forwardly.

According to the present invention, the spaces are formed in two rows spaced apart from each other, and the rotary vanes are vertically arranged in the respective spaces.

According to the present invention, the spaces in the second row and the second row are connected to each other and the rotary wings are installed in the respective horizontal and vertical directions.

According to the present invention, the rotary vane is coupled to a space through a bracket, the bracket including: a joint having a length; a fixing part having a joint hole formed at an upper portion of the joint and engaged with the shaft; And a connection bracket which is integrally fixed to the fixing bracket formed in the space by forming a connecting portion on the fixing portion and the receiving portion.

In order to solve the above-mentioned problem, the fan of the present invention has a case and a cover having a frame shape, and then a rotating means is installed in the inner space to suck the outside air through the inflow hole to increase the internal pressure of the space, The outer peripheral air of the cover passes through the cover to generate airflow while the air is escaping, thereby increasing the flow velocity of the air by the difference in air pressure and discharging the air to the outside.

In addition, the fan of the present invention has the effect of providing a rotating means inside the case and doubling the air pressure in the case internal space by the rotating means, thereby improving the discharge amount and speed of the air.

In addition, the fan of the present invention has the effect of improving the manufacturing efficiency by allowing the rotary blades to be installed through the bracket in order to easily install the rotary blades in the space inside each of the line segments formed in the ring-shaped case.

1 is a perspective view showing a fan of the present invention;
2 is an exploded perspective view showing a fan of the present invention;
3 is a sectional view showing a fan of the present invention;
4 is a perspective view showing a fan of another embodiment of the present invention;
5 is a sectional view showing a fan of another embodiment of the present invention;

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, in the drawings, it is noted that the same components or parts are denoted by the same reference numerals as possible. In describing the present invention, a detailed description of related known functions or configurations will be omitted so as not to obscure the gist of the present invention.

FIG. 1 is a perspective view showing a fan of the present invention, FIG. 2 is an exploded perspective view showing a fan of the present invention, FIG. 3 is a sectional view showing a fan of the present invention, and FIG. 4 is a perspective view showing a fan of another embodiment of the present invention And Fig. 5 is a sectional view showing a fan of another embodiment of the present invention.

First, as shown in FIGS. 1 to 5, an electric fan 100 of the present invention includes a case 110, a cover 120, and a rotation unit 130.

The case 110 is formed in a polygonal frame shape, and the case 110 has at least one polygonal line segment.

Here, the present invention is described as a case 110 having a rectangular shape with two line segments or four line segments, and the shape is not limited.

Specifically, as shown in FIG. 4, the streamlined case 110 is formed by two rows of spaced apart spaces 111, and the rotating blades 132 are vertically arranged in the respective spaces 111.

Alternatively, as shown in FIG. 1, the rectangular case 110 has a space 111 in which the end portions of the second row and second row are connected to each other, and the space 111 is divided into upper, .

The case 110 having such a polygonal shape is annular in its entirety and is formed so as to penetrate the first opening 114 at the center.

Here, the body of the polygonal case 110 is referred to as a frame.

An inflow hole 112 is formed in the outer surface of the case 110 and a discharge hole 113 is formed in the inner surface of the case 110. The inflow hole 112 and the discharge hole 113 are formed in a space 111, respectively.

When the rotary part 130 is installed in the space 111 and rotated by the power means 133, the external air is sucked into the space 111 by the inflow hole 112 and is discharged to the discharge hole 113.

In particular, the rotary vane 132 has a plurality of vanes 132b radially formed on the outer periphery of a shaft 132a having a length.

The power unit 133 is installed in each of the rotating blades 132 so that the rotating shaft 132a of the motor and the shaft 132a of the rotating blades 132 are connected to each other by a direct power method so that the rotating blades 132 can be rotated by the rotating force generated by the power unit 133.

Further, the rotary vane 132 is coupled to the space 111 through the bracket 140.

The bracket 140 includes a joint portion 141 and a fixing portion 142, a receiving portion 144, and a connection bracket 145.

That is, the joint portion 141 has a length and is equal to the length of the rotary blade 132.

The fixing portion 142 has a joint hole 143 formed to be bent at an upper portion of the joint portion 141 and engaged with the shaft 132a.

The receiving portion 144 is bent at a lower portion of the joint portion 141 and is engaged with the lower portion of the power means 133.

In addition, the connection bracket 145 is integrally fixed to the fixing bracket 115 formed in the space 111 by forming connection portions to the fixing portion 142 and the receiving portion 144, respectively.

The connection bracket 145 of the bracket 140 is coupled to the fixing bracket 115 of the space 111 so that the bracket 140 is installed inside the space 111. Between the joint portion 141 of the bracket 140 and the fixing portion 142, there is provided a rotary blade 132 on which the power means 133 is mounted.

As a result, the rotary blades 132 can be installed through the brackets 140 in order to easily install the rotary blades 132 in the spaces 111 formed in the respective line segments formed in the ring-shaped case 110, thereby improving the manufacturing efficiency.

When the rotary fan 132 is rotated through the power means 133, the fan 100 having the above-described structure flows outside air into the space 111 through the inlet hole 112, and air is discharged through the outlet hole 113.

The cover 120 has a second opening 121 communicating with the first opening 114 so as to be opposed to the front of the case 110 so that air is discharged from the inside of the second opening 121 through the exhausting hole 113.

At this time, the second opening hole 121 is formed so that the inner surface thereof is inclined forwardly.

As a result, the air discharged through the at least one discharge hole 113 moves to the second aperture 121 side through the first opening hole 114 and partially merges to advance the flow speed of the air.

That is, the air pressure is lower on the first opening hole 114 side of the case 110 having a higher air velocity, and the air pressure on the side of the second opening hole 121 is relatively higher. As a result, since the force of the air acts as a low pressure in the high pressure, the air having a high speed passing through the case 110 passes the outside air together to form a constant and strong airflow, thereby generating wind.

As a result, the fan 100 of the present invention has a case 110 having a frame shape coupled with the cover 120, and then the rotating part 130 is installed in the inner space 111 to suck outside air through the inflow hole 112 to increase the inner pressure of the space 111, So that the air around the cover 120 passes through the cover 120 to generate an airflow, thereby increasing the flow velocity of the air by the difference in air pressure and discharging the air to the outside, There is an effect.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

100: Fan 110: Case
111: space 112: inflow hole
113: exhaust hole 114: first opening hole
115: Fixing bracket 120: Cover
121: second aperture hole 130:
131: second opening hole 132: rotary blade
132a: shaft 132b: wing
133: Power means 140: Bracket
141: joint part 142:
143: joint ball 144:
145: Connection bracket

Claims (6)

A case having a first opening hole at the center in the form of a frame and forming an inlet hole and an exhaust hole around the inner and outer surfaces of the rim of the frame and forming a space therein, Wow,
A rotating unit installed in each of the spaces having the two rows and two columns of lines to rotate in a horizontal and vertical direction by a power means to suck outside air into the space by an inlet hole and discharge the outside air to a discharge hole;
And a cover which is provided at a front side of the case and is provided with a second opening communicating with the first opening to discharge air from the inside of the second opening through the exhaust hole.
The method according to claim 1,
Wherein the second opening is formed so that an inner surface of the second opening hole is inclined forwardly.
The method according to claim 1,
Wherein the rotary part coupled to the space comprises a plurality of rotary blades radially formed on the outer periphery of the shaft, and the shaft and the power unit are electrically coupled to each other. delete delete The method of claim 3,
Wherein the rotary vane is coupled to the space through a bracket,
The bracket
A joint having a length,
A fixing part formed on the upper part of the joint part so as to be bent and having a joint hole to be engaged with the shaft,
A support portion formed to be bent at a lower portion of the joint portion and coupled to a lower portion of the power means,
And a connection bracket formed integrally with the fixing bracket formed in the space by forming a connecting portion on each of the fixing portion and the receiving portion.

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