KR102331909B1 - Blade for ceiling fan - Google Patents

Abstract

The present invention relates to a blade of a ceiling fan capable of increasing cooling efficiency by inducing a wind direction upward and downward of the blade. A wind direction guiding part is provided on the upper portion to protrude upward to guide the wind direction upward, and an air passage is formed in the blade to allow air to pass therethrough during rotation.

Description

The blade of the ceiling fan{BLADE FOR CEILING FAN}

The present invention relates to a blade of a ceiling fan, and more particularly, to a blade of a ceiling fan capable of increasing cooling efficiency by inducing a wind direction upward and downward of the blade.

In general, in warehouses or railway stations, air conditioning devices such as air conditioners and ventilation fans are installed on the ceiling to improve air quality.

However, in the case of circulating air by installing such a conventional ventilation fan, there is a problem that it takes a lot of time to convect the air in the entire space because air convection occurs below the ventilation fan.

In addition, in the case of cooling with an air conditioner, it takes a lot of time to cool the entire space, and there is a problem in that the amount of electricity is increased, which takes a lot of money.

As the above-mentioned conventional air conditioner, "ventilator" is published in Republic of Korea Utility Model Publication No. 20-0363832, the technical configuration of which is embedded in the wall and/or ceiling of a building to suck indoor air to the outside of the building. It relates to a ventilation fan that discharges from a driving motor and a rotating member mounted on the rotating shaft of the driving motor to suck in and discharge indoor air while rotating by a rotational force, wherein the casing scroll is mounted inside the casing scroll, the front and the sides are blocked, and the rear is open Formed to form a shape surrounding the front and side surfaces of the driving motor, the side portion is formed to be spaced a predetermined distance from the inner side surface of the casing scroll, and a predetermined area at the bottom is connected to the inner side surface of the casing scroll to form a front support part integral with the casing scroll And, an outlet formed open to a spaced area between the side surface of the front support and the inner side of the casing scroll, and a plurality of connecting portions connecting the spaced apart side of the front support and the inner side of the casing scroll to fix the front support, and the front surface It is characterized in that it includes a rear support portion mounted on the open rear surface of the support to block the open rear surface of the front support.

However, the prior art merely aims to facilitate the installation of the fan, and there is a problem that convection is still generated only in the lower part of the fan, so that it takes a lot of time for the entire cooling.

In addition, as the prior art, Korean Patent Publication No. 10-1302248 discloses a "multi-directional blower blade structure", wherein the prior art has a motor case, a rotating shaft connected to the motor case, and the same direction as the rotating shaft. A pipe-shaped coupling part, a pair of bearings inserted into the rotary shaft, and a moving member slidable on the rotary shaft by having a connecting pipe connecting the pair of bearings, one side is coupled to the motor case and the other side is the moving member It is characterized in that it comprises a solenoid coupled to the member and a wing portion rotatably coupled to the coupling portion when coupled to the moving member through a lever.

However, the prior art has a configuration for adjusting the direction of the wind by forming the wing portion rotatably, but the configuration is complicated and difficult to manufacture, and there is a problem in that it is difficult to apply to the existing fan.

In addition, in the related art, the temperature of the floor side can be lowered due to the rotation of the wing unit, but the temperature of the ceiling side where the wing unit is installed is rather increased, so there is a problem that the cooling efficiency is lowered.

Republic of Korea Registered Utility Model Publication No. 20-0363832 Republic of Korea Patent Publication No. 10-1302248

Therefore, the present invention has been devised to solve the above problems, and its purpose is to form a wind direction induction part in an oblique line on the upper part of the blade, and an air passage is formed therein to maintain a constant wind direction and prevent unnecessary power loss, thereby providing energy It is possible to provide the blades of the ceiling fan which can improve the efficiency.

In the present invention for achieving the above object, in the blade connected to the hub part and the support rod to the hub part is connected to the driving part installed on the ceiling, the wind direction protrudes upward so as to guide the wind direction upwards on the upper part of the blade. An induction part may be provided.

At least one wind direction guide unit may be provided at regular intervals.

The wind direction guide part may be provided in an oblique line based on the front and rear width directions.

The wind direction guiding part may be formed in a "∩" shape so that the wind direction according to the rotation of the blade can be smoothly induced.

An air passage may be formed in the blade to allow air to pass therethrough during rotation.

The air passage may be formed through the front and rear of the lower portion of the blade.

The air passage may be formed in a streamlined shape so that convection according to the rotation of the blade can be efficiently made.

The air passage may be formed in a plurality of left and right to increase the convection efficiency in the lower portion of the blade.

As described above, according to the blade of the ceiling fan according to the present invention, a plurality of wind direction guiding parts are provided on the upper part of the blade to protrude upward based on the front and rear width directions, and the air container passes through the front and the rear at the lower part of the blade. As the furnace is formed, the wind direction efficiency can be increased by the wind direction guide part and the air passage when the blade is rotated, thereby maximizing energy efficiency by preventing unnecessary power loss, and maximizing the efficiency of the product by maximizing the cooling efficiency.

1 is a perspective view showing a ceiling fan according to the present invention.
2 is a perspective view illustrating a blade of a ceiling fan according to the present invention.
3 is a front view showing the blade of the ceiling fan according to the present invention.
4 is a plan view illustrating a blade of a ceiling fan according to the present invention.
5 is a side view illustrating a blade of a ceiling fan according to the present invention.
6 is a side cross-sectional view showing the internal configuration of the blade of the ceiling fan according to the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In the drawings, embodiments of the present invention are not limited to the specific form shown and are exaggerated for clarity. Although specific terms have been used in this specification, they are used for the purpose of describing the present invention, and are not used to limit the meaning or scope of the present invention described in the claims.

In the present specification, the expression 'and/or' is used to mean including at least one of the elements listed before and after. In addition, the expression 'connected/coupled' is used in a sense including being directly connected to another element or indirectly connected through another element. As used herein, the singular also includes the plural, unless the phrase specifically states otherwise. Also, as used herein, a component, step, operation, and element referred to as 'comprises' or 'comprising' refers to the presence or addition of one or more other components, steps, operations, and elements.

In the description of embodiments, each layer (film), region, pattern or structure is placed “on” or “under” the substrate, each side (film), region, pad or patterns. The description of "formed on" includes all those formed directly or through another layer. The standards for the upper/above or lower/lower layers of each layer will be described with reference to the drawings.

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

1 is a perspective view showing a ceiling fan according to the present invention, FIG. 2 is a perspective view showing a blade of the ceiling fan according to the present invention, FIG. 3 is a front view showing the blade of the ceiling fan according to the present invention, FIG. 4 is a plan view showing the blade of the ceiling fan according to the present invention, FIG. 5 is a side view showing the blade of the ceiling fan according to the present invention, and FIG. 6 is an internal configuration of the blade of the ceiling fan according to the present invention. It is a side cross-sectional view.

1 to 6 , in the blade 100 of the ceiling fan according to the present invention, a driving unit 10 is installed on the ceiling, a hub unit 20 is installed in the driving unit 10, and the hub unit ( It is connected to a plurality of support rods 30 connected to 20).

At this time, the driving unit 10 is a conventional technique for rotating the blade 100 by rotating the hub unit 20, detailed configuration and operation description thereof will be omitted.

In addition, the blade 100 is connected to each of the support rods 30 .

A wind direction guiding unit 110 is provided on the upper portion of the blade 100 to increase the cooling efficiency by guiding the wind direction upward.

The wind direction guide unit 110 is formed to protrude upward, and at least one or more is provided at regular intervals.

That is, the convection of air generated by the rotation of the blade 100 according to the operation of the driving unit 10 convections the air flow in the lateral direction by the wind direction guide unit 110 as well as in the lower direction of the blade, so that the surrounding area is also rapidly can be cooled down.

In addition, the wind direction guide unit 110 is provided with an oblique line based on the front and rear width directions of the blade 100 .

In addition, the installation angle θ of the wind direction induction unit 110 is installed so that the front of the wind direction induction unit 110 is inclined at 30 degrees to 45 degrees to the left with respect to the width direction of the blade 100 .

That is, as the wind direction guide unit 110 is installed to be inclined in the left direction with respect to the width direction of the blade 100 , the lateral air flow generated by the wind direction guide unit 110 does not weaken and convection can be efficiently performed. be able to

In addition, the wind direction guiding unit 110 is formed in a "∩" shape so that the wind direction according to the rotation of the blade 100 is smoothly induced to increase the convection efficiency.

As shown in FIG. 6 , an air passage 120 is formed inside the blade 100 so that air passes through and induces a wind direction when the blade 100 rotates according to the driving of the driving unit 10 .

The air passage 120 is formed in the lower portion of the blade 100 through the front and rear.

In addition, the air passage 120 is formed in plurality on the left and right to increase the convection efficiency.

That is, by forming a plurality of air passages 120 through the front and rear of the blade 100 , the wind generated while the blade 100 is rotated passes through the air passage 120 and convections the air. be able to do

In addition, the air passage 120 is formed in a streamlined form so that convection according to the rotation of the blade 100 can be made efficiently.

The blade 100 is made of polypropylene (EPP) to reduce manufacturing cost and increase durability while being light.

The operating state according to the blades of the ceiling fan of the present invention made as described above is as follows.

As the hub part 20 rotates according to the operation of the driving part 10 installed on the ceiling, the blade 100 connected to the support rod 30 connected to the hub part 30 rotates the hub part 30 . direction is rotated.

And, the wind direction guiding part 110 is provided on the upper part of the blade 100 to protrude upward, so that the direction of the wind generated by the rotation of the blade 100 collides with the wind direction guiding part 110 to induce the wind direction. .

In addition, by providing the wind direction guiding part 110 obliquely from the front of the blade 100 to the left, transverse convection can be efficiently made, so that the entire room can be cooled and heated quickly and evenly.

At the same time, the air passage 120 is formed in a streamlined form through the front and rear of the blade 100, so that the wind according to the blade 100 passes through the air passage 120 and exits the blade ( 100) to reduce the pressure applied to it, so that power loss can be minimized.

Therefore, the wind direction guide part 110 is provided on the upper part of the blade 100 to be inclined diagonally and protrude upward, and the air passage 120 in the form of a streamline is formed inside the blade 100 by penetrating the front and rear. Convection is generated in the upper and lower portions of the wind generated according to the rotation of the blade 100, so that the cold air flow is evenly convected, so that the wind can be evenly transmitted to the floor and ceiling of the room, so that the cooling efficiency of the room can be maximized. do.

As described above, the present invention is not limited to the specific preferred embodiments described above, and anyone with ordinary skill in the art to which the invention pertains can use various methods without departing from the gist of the present invention as claimed in the claims. Of course, modifications are possible, and such modifications are intended to be within the scope of the claims.

10: drive unit
20: hub part
30: support bar
100: blade
110: wind direction guidance unit
120: air passage

Claims (8)

In the blade connected to the hub part to the driving part installed on the ceiling and connected to the hub part by a support rod,
A wind direction guiding part is provided on the upper part of the blade to protrude upward so that the air flow can be convected in the lateral direction to rapidly cool the surrounding area by guiding the wind direction upward,
The wind direction guide part is provided with an oblique line based on the front and rear width directions,
The wind direction induction part is made in the shape of "∩" so that the wind direction according to the rotation of the blade is smoothly induced to increase the convection efficiency,
An air passage is formed inside the blade so that air passes through and induces a wind direction when the blade rotates according to the driving of the driving unit,
The air passage is formed through the front and rear of the lower part of the blade,
The blade of the ceiling fan, characterized in that the air passage is formed in a streamlined form so that convection according to the rotation of the blade can be efficiently achieved. The method of claim 1,
The blades of the ceiling fan, characterized in that at least one or more of the wind direction guiding units are spaced apart from each other. delete delete delete delete delete The method of claim 1,
The blade of the ceiling fan, characterized in that the air passage is formed in a plurality of left and right to increase the convection efficiency in the lower portion of the blade.

Images