KR20150143012A - Wingless fan - Google Patents

Abstract

The present invention relates to a wingless fan, and more specifically, to a wingless fan generating an air flow without a wing and comprises a ventilation body with a double structure, thereby achieving uniform distribution of the air flow and increasing the supply range of the air flow. The wingless fan comprises: a main body; a first ventilation body; a second ventilation body; and a control part. The main body has a plurality of air introduction openings formed on one side thereof to allow external air to be introduced and has a fan and a motor mounted on the interior thereof. The first ventilation body is installed on the upper part of the main body, sucks air in from the main body through a first ventilation opening formed inside. The second ventilation body is connected to the upper end of a supply duct installed on one side of the inner circumferential surface of the first ventilation body to be arranged in a concentric circle of the first ventilation body and there is a second ventilation opening formed inside. The control part is installed on the lower part of the interior of the main body to control the operation of the motor.

Description

Wingless fan {Wingless fan}

The present invention relates to a fanless fan, and more particularly, to a fanless fan capable of generating an airflow without blades and having an airflow distribution structure of double structure, .

Generally, a fan is a product that is mainly used in a hot summer season, and a plurality of blades are coupled to a shaft of the motor to drive the motor using electricity.

However, the conventional fan has a structure in which the wind-causing wing is exposed at the head portion and the head portion is surrounded by the wire mesh, so that children are injured by inserting their fingers and injuring their fingers in the wings.

An example of a technique for solving such a problem is disclosed in Document 1 below.

In the following Patent Document 1, there is disclosed a nozzle for a fanless bladed fan assembly for generating an airflow, including an inner passage for introducing an air flow and a mouth portion for discharging the air flow, And a surface on which the mouth portion is disposed to guide the air flow, the surface being tapered from the axis, the surface extending from the axis to form an opening through which air enters from the outside of the fan assembly A diffuser portion and a guide portion angularly positioned downstream of the diffuser portion. Accordingly, the household fan does not have a blade to ensure safety, and the air introduced from the lower portion passes through the annular nozzle portion and provides a nose surface at a position adjacent to the nozzle, thereby amplifying the amount of air to be blown.

However, according to the above-described conventional techniques, there is a problem that air is not uniformly blown over the entire region of the nozzle portion as air is discharged through the mouth portion formed in the annular nozzle portion.

PCT International Publication No. WO 2010-035018 (published Apr. 1, 2010)

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide an air blower which not only generates airflow without blades, And to provide a wingless fan capable of increasing the supply range of the flow.

According to an aspect of the present invention, there is provided a wingless fan according to the present invention, comprising: a main body having a plurality of air inlets for receiving outside air on one side thereof and a fan and a motor mounted therein; A first air blowing body installed at an upper portion of the main body and sucking air from the main body through a first air blowing port formed inside, and discharging air; A second blower body connected to an upper end of a supply duct provided on one side of the inner circumferential surface of the first blower body and disposed concentrically with the first blower body and having a second blowing port formed therein; And a control unit installed at a lower portion of the main body to control operation of the motor.

As described above, according to the wingless fan according to the present invention, airflow is generated without blades, so that there is almost no vibration and malfunction, cleaning is easy, and power consumption is reduced.

Further, the air blowing body is made of a double structure so that the air flow is also double discharged, so that the air flow distribution is made uniform, and the supply range of the air flow is increased to improve the blowing efficiency.

1 is a perspective view showing a wingless fan according to the present invention;
2 is a side cross-sectional view showing a wingless fan according to the present invention.
3 is an enlarged view of part A of Fig.
4 is an enlarged view of a portion B in Fig.
5 is a block diagram illustrating a wingless fan according to the present invention;

A wingless fan according to the present invention includes: a main body having a plurality of air inlets for receiving outside air on one side and a fan and a motor mounted on the inside; A first air blowing body installed at an upper portion of the main body and sucking air from the main body through a first air blowing port formed inside, and discharging air; A second blower body connected to an upper end of a supply duct provided on one side of the inner circumferential surface of the first blower body and disposed concentrically with the first blower body and having a second blowing port formed therein; And a control unit installed at an inner lower portion of the main body to control operation of the motor.

In addition, an inside of the main body is provided with an anion generator which is operated by an applied power source to generate negative ions.

In addition, a heater, which generates heat by an applied power source, is installed inside the main body.

In addition, the first blower and the second blower are each formed in an annular ring shape, and the inner and outer side surfaces of the ring are interlocked with each other with the air outlet therebetween, and the cross section thereof is formed in the same streamline shape as the airplane wing .

In addition, air from the main body is supplied to the inside of the supply duct, and the supply duct is detachably installed in the middle of the inner circumference of the first blower body in a vertical direction.

And a wireless remote controller for transmitting a command signal by a user as a wireless signal, wherein the controller includes a wireless transceiver for receiving signals transmitted from the wireless remote controller, converting the received signals into digital signals and transmitting the input signals, And an output unit for outputting a control signal based on information transmitted from the wireless transceiver unit.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a side sectional view showing a wingless fan according to the present invention, FIG. 3 is an enlarged view of a portion A of FIG. 2, and FIG. 4 is a cross- FIG. 5 is a block diagram showing a wingless fan according to the present invention.

1 to 4, a wingless fan according to the present invention includes a main body 1, a first blower 2, a second blower 3, and a control unit 4.

A plurality of air inlets 11 for introducing outside air are formed on one side of the main body 1, and a fan 12 and a motor 13 are mounted on the inside.

Preferably, the main body 1 has a cylindrical structure in which an inner space is provided for mounting the fan 12 and the motor 13. In a lower portion of the main body 1, a plurality of An operation button 14 is provided.

Here, the plurality of operation buttons 14 are provided with buttons for operating illumination and blower rotation, in addition to buttons for controlling the negative ion generator 6 and the heater 7 to be described later. The configuration and function of the buttons for operating the illumination and the blower rotation are well-known technologies, and a detailed description thereof will be omitted.

Inside the main body 1, a fan 12 and a motor 13, which are reminiscent of a jet engine of an airplane, are mounted, thereby sucking in air. That is, when the user presses the operation button 14, the control unit 4 operates the motor 13 so that the fan 12 is driven to suck the outside air introduced through the air inlet 11 downward, The air is pushed upward to be discharged to the first and second air outlets 21 and 31 side.

The main body 1 is provided therein with an anion generator 6 which is operated by an applied power source to generate negative ions. Particularly, the negative ion generator 6 is installed to be connected to the control unit 4 and is disposed at the uppermost position in the main body 1. In other words, the user can feel a refreshing feeling as the clouded air is purified through the negative ion generator 6, and the pharmacological effect of the negative ion can be simultaneously observed, thereby improving health.

A heater 7 is installed inside the main body 1 and generates heat by an applied power source. The heater 7 is detachably installed in the main body 1, And is preferably disposed on the upper portion of the fan 12 and the motor 13.

The heater 7 is provided with a temperature sensor (not shown) for controlling the supply of power according to the operation of the operation button 14 and sensing the ambient temperature at one side of the heater 7. Accordingly, when the temperature sensed by the temperature sensor is equal to or higher than the preset temperature, the power supply to the heater 7 can be cut off. As described above, by providing the heater 7 inside the main body 1, functions of hot air and cold air can be selectively used according to the season.

The first blower body (2) is installed on the upper part of the main body (1) and sucks air from the main body (1) through a first air blowing hole (21) formed therein.

The first blower body (2) has an annular outer ring shape and inner and outer side faces forming a ring, and the first blower body (2) is interlocked with the first blowing hole (21) interposed therebetween.

The second blower body (3) is connected to the upper end of a supply duct (5) provided on one side of the inner circumferential surface of the first blower body (2) and is arranged concentrically with the first blower body (2) A blowing port 31 is formed.

The second blower body 3 is formed in the same shape as the first blower body 2 and has a diameter smaller than the diameter of the first blower body 2. Like the first blower body 2, The inner and outer side surfaces of the annular ring shape are formed to engage with each other with the second air outlet 31 interposed therebetween, and the cross section is formed in the same stream shape as the airplane wing.

Thus, through the above-described structure, the airflow (wind) flowing from the air inlet 11 is circulated along the internal passages of the first blower 2 and the second blower 3, Air is discharged through the first tuyere 21 and the second tuyere 31 and passes uniformly along the inner circumferential surface of each blower. Particularly, since the first and second blowing units 2 and 3 have no blades unlike conventional fan units, they are free from vibration and malfunction due to the operation of the blades and can be easily cleaned, minimized energy loss, Can be saved.

In particular, the wingless fan of the present invention is constituted by an air blowing body having a double structure, and the discharged air stream is uniformly discharged in a linear direction, and at the same time, the supply range of the air flow is increased, thereby improving the blowing efficiency.

On the other hand, air from the main body 1 is supplied to the inside of the supply duct 5, and the supply duct 5 is detachably installed in the middle of the inner circumferential surface of the first blower 2 But may be integrally formed.

The supply duct 5 is preferably formed in the form of a venturi tube whose diameter is gradually narrowed to increase the flow rate of air.

The control unit 4 is installed inside the main body 1 to control the operation of the motor 13. The control unit 4 controls the motor 13 according to a command input through the input of the operation button 14. The motor 13 is connected to a separate power supply unit And a 220V AC commercial power source is preferably used.

5, the control unit 4 includes a wireless remote controller 8 for transmitting a command signal by a user as a wireless signal, and the controller 4 controls the signal transmitted from the wireless remote controller 8 (41) for receiving the received information and converting it into a digital signal and transmitting the input information, and an output unit (42) for outputting a control signal based on the information transmitted from the wireless transceiver (41) do.

That is, the user can directly control the desired function by directly operating the operation button 14 provided on the main body 1, and also can remotely control the desired function by operating the wireless remote control 8 at a distance from the fan And convenience.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many obvious changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

1: Body
11: Air inlet
12: Fans
13: Motor
14: Operation button
2: First blower
21: First tuyer
3: Second blower
31: Second tuyer
4:
41: Wireless transmission /
42:
5: Supply duct
6: Negative ion generator
7: Heater
8: Wireless remote control

Claims (6)

A main body 1 in which a plurality of air inlets 11 for introducing outside air are formed on one side and a fan 12 and a motor 13 are mounted on the inside;
A first blower body 2 installed at an upper portion of the main body 1 and sucking and discharging air from the main body 1 through a first blowing hole 21 formed at the inside thereof;
And a second blowing hole (31) formed on the inner side of the first blowing body (2) and connected to an upper end of a supply duct (5) provided on one side of the inner circumferential surface of the first blowing body (2) An air blowing body 3;
And a control unit (4) installed at an inner lower portion of the main body (1) to control the operation of the motor (13).
The fan according to claim 1, wherein an anode generator (6) is installed in the main body (1) to generate negative ions by being operated by an applied power source.
The fan according to claim 1, wherein a heater (7) is installed inside the main body (1) to generate heat by an applied power source.
[2] The air conditioner according to claim 1, wherein the first blower body (2) and the second blower body (3) each have an annular ring-shaped outer and outer side surfaces, Wherein the cross section is formed in the same streamline shape as the airplane wing.
The air conditioner according to claim 1, wherein air from the main body (1) is supplied to the inside of the supply duct (5), and the supply duct (5) Wherein the fan-shaped fan is installed in the fan-shaped fan.
The wireless communication device according to claim 1, further comprising a wireless remote controller (8) for transmitting a command signal by a user as a wireless signal,
The control unit 4 includes a wireless transceiver 41 for receiving a signal transmitted from the wireless remote controller 8 and for converting the received signal into a digital signal and transmitting the input information to the wireless transceiver 41, And an output unit (42) for outputting a control signal based on the control signal.

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