KR101203379B1 - Ring nozzle of no bladeless fan - Google Patents

Abstract

PURPOSE: A ring shaped nozzle of a bladeless electronic fan is provided to jet wind from a jet hole and simultaneously jet the wind from a jetting nozzle unit, thereby increasing a wind jetting quantity per predetermined hours. CONSTITUTION: A ring type nozzle of a bladeless electronic fan comprises a ring-type nozzle body(1), a plurality of jetting holes(2), a plurality of partitioning plates(3). A coanda plate is installed in the inner circumference of the ring-type nozzle body. A front circumference plate is installed in an outer side of the front circumference of the coanda plate. An outer circumference plate is formed in a rear side of an outer end of the front circumference plate. The outer circumference plate forms an inner passage in inside by surrounding the outer circumference of the coanda plate. A rear circumference plate is formed in a rear inner side of the outer circumference plate. The rear circumference plate forms a jetting nozzle unit jetting air to an internal surface of the coanda plate. A vertical connection pipe is installed in a central portion of the lower part of the nozzle body. The vertical connection pipe is connected to the inside of a base unit. The jetting holes are formed in the circumference of the front circumference plate and connected to the inner passage. The partitioning plates partition the inner passage into a front passage and rear passage. The wind flowing through the rear passage is jet to a front side through the jet nozzle unit and the wind flowing through the front passage is jet to the front side through the jet holes.

Description

Ring nozzle for bladeless fan {Ring nozzle of no bladeless fan}

The present invention relates to an annular nozzle for a bladeless fan, and more particularly, to inject wind from the spray nozzle portion constituting the annular nozzle and to simultaneously spray wind in a plurality of spray holes formed around the front of the annular nozzle. In addition, the present invention relates to an annular nozzle for a bladeless fan, in which the wind injected from the injection holes in the injection nozzle portion and the front circumference is injected almost uniformly from the lower circumference to the upper circumference.

A general fan is characterized by a structure that blows cold wind forward by rotating the blades through the driving force of the motor. The vane rotary fan, the lower body which is placed on the floor and provided with a pillar in the center, the motor is provided horizontally on the upper portion of the lower body to project the rotating shaft forward, the wing mounted on the rotating shaft to generate wind, The cover wraps around and covers the perimeter of the wing.

However, the wing-rotary type fan having the above-described configuration has a problem that safety hazards are caused by children frequently putting fingers or chopsticks into the cover net.

Thus, in order to solve the above problems, conventionally, a fan without wings is known. As an example, a "fan" (hereinafter, referred to as "a conventional bladeless fan") of Korean Patent Registration No. 1038000 is as follows. same.

A conventional bladeless fan includes an annular nozzle forming a central opening. And the nozzle includes an inner passageway, an inlet and a coanda surface adjacent to the inlet. The coanda surface is arranged such that the primary air flow exiting the inlet and directed to the coanda surface is expanded by the coanda effect.

The nozzle is connected to and supported by a base portion including an outer casing.

The base portion includes a plurality of selection buttons accessible through an outer casing through which the fan assembly can be operated. The base portion further includes an air inlet formed in the outer casing. The motor housing is located inside the base part. The motor is supported by the motor housing and held in a fixed state by a rubber mount or a seal member.

The rotating shaft of the motor is provided with an impeller, the diffuser being located downstream of the impeller. The diffuser includes a stationary fixed disk with a spiral blade. The inlet of the impeller is through an air inlet formed in the outer casing of the base part. The outlet of the diffuser and the outlet of the impeller are through hollow passages or ducts located inside the base to form air flow from the impeller to the internal passages of the nozzle.

Therefore, the conventional bladeless fan is configured as described above, there is an advantage that can generate a cooling effect by generating air flow without a conventional blade.

However, in the process of using the conventional bladeless fan configured as described above, as the wind is injected only at the inlet portion as the wind blowing amount of the electric fan for a predetermined time, there was a problem that can not provide a large capacity fan.

In addition, in the process of using a conventional bladeless fan, there is a problem that the wind injected from the inlet of the annular nozzle is not constant. That is, in the annular nozzle constituting the conventional bladeless fan, the wind supplied from the inside of the base portion located in the lower portion passes through the inner passage and is injected from the inlet portion, the wind around the lower portion of the inlet portion is stronger and winds toward the upper portion Its injection strength is weakened.

Therefore, as the wind around the lower portion of the inlet is strong and the wind around the upper portion is weak, the wind is not uniformly sprayed, there was a problem that the cooling effect of the upper air in the indoor air is lowered.

Accordingly, the present invention has been made to solve the above problems,

SUMMARY OF THE INVENTION An object of the present invention is to provide an annular nozzle for a bladeless fan capable of injecting wind from a spray nozzle unit constituting an annular nozzle and simultaneously blowing wind in a plurality of spray holes formed around the front of the annular nozzle. Is in.

In addition, another object of the present invention, in the process of the wind is injected in the injection holes in the injection nozzle portion and the front circumference, so that the wind injected from the annular nozzle can be sprayed almost uniformly from the lower circumference to the upper circumference To provide an annular nozzle for a bladeless fan.

The present invention for achieving the above object, in the bladeless annular nozzle forming a central opening in the upper portion of the base that causes the wind from the inside, the annular nozzle, the nose around the inner circumference to give a nose and nose effect Anda plate is provided, the outer periphery of the front circumference of the coanda plate is provided with a front circumference plate, the outer periphery of the outer periphery of the outer periphery of the coanda plate is formed to surround the outer circumference plate to form an inner passage therein is formed A rear circumferential plate having an arcuate cross section is formed in the rear inner side of the outer circumferential plate so as to form an injection nozzle portion for injecting air to the inner surface of the coanda plate. An annular nozzle body provided; A plurality of injection holes formed around the front circumference plate to communicate with the inner passage; A partition plate for dividing the inner passage into a front and rear passage so that the wind flowing backward is sprayed forward through the spray nozzle unit and the wind flowing forward is sprayed forward through the spray holes; .

In addition, the partition plate is composed of a circular ring plate inclined such that the rear passage is gradually narrowed from the bottom to the top and the front passage is gradually expanded from the bottom to the top; The injection holes are characterized in that the injection cross-sectional area is gradually reduced from the bottom to the top.

According to the present invention as described above, by injecting the wind in the injection nozzle portion constituting the annular nozzle and at the same time by injecting the wind together in a plurality of injection holes formed around the front of the annular nozzle, to increase the amount of wind blowing per predetermined time As a result, there is an effect of providing a large capacity bladeless fan.

In addition, in the process of the wind is injected from the injection holes in the injection nozzle unit and the front circumference, by spraying the wind injected from the lower circumference to the upper circumference almost uniformly, it is possible to improve the cooling efficiency of the upper air of the room There is also the effect of providing a bladeless fan.

1 shows a fan equipped with an annular nozzle of the present invention,
1A is a front view,
1B is a side view.
2 is a cross-sectional view taken along the line AA of FIG.
3 is a sectional view taken along the line BB of Fig.
4 is a cross-sectional view showing the operation of the annular nozzle of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Figure 1 shows a fan equipped with an annular nozzle of the present invention, Figure 1a is a front view, Figure 1b is a side view. 2 is a cross-sectional view taken along the line A-A of FIG. 1A, and FIG. 3 is a cross-sectional view taken along the line B-B of FIG.

As shown in the figure, the fan-shaped annular nozzle of the present invention is provided on the upper portion of the base portion 10 configured in the shape of a cylindrical tube for generating wind therein. And the configuration for generating the wind inside the base portion 10 is already known, in the description of the present invention will be omitted a detailed description.

That is, in the annular nozzle for the fan of the present invention, an annular nozzle body 1 having a circular central opening 11 formed at the center thereof, an inner passage 17 formed therein, and an injection nozzle part 16 formed at an inner periphery of the rear thereof. ), A plurality of injection holes 2 formed in communication with the inner passage 17 around the front circumferential plate 13, and the inner passage 17 to the front and rear passages 31 and 32. The partition flows into the rear and the rear portion is sprayed forward through the injection nozzle unit 16 and the wind introduced into the front includes a partition plate (3) to be sprayed forward through the injection holes (2) .

In addition, the annular nozzle body 1 according to the present invention, as shown in Figures 1 to 3, is provided in the inner circumference coanda plate 12 having a coanda effect on the inner surface and the coanda plate ( The front circumference plate 13 which blocks the front circumference formed on the outer side of the front circumference of 12) and protrudes to the rear of the outer end of the front circumference plate 13 to surround the outer circumference of the coanda plate 12 An outer circumferential plate 14 forming an inner passage 17 therein and an injection nozzle portion 16 for injecting air to the inner surface of the coanda plate 12 are formed inside the rear circumferential plate 14. And a rear circumferential plate 15, which is provided and has an arcuate cross section.

The coanda plate 12 serves to spread the wind sprayed from the injection nozzle unit 16 in all directions by obtaining a coanda effect on the inner surface. That is, the coanda plate 12 has an inner circumference shortened to the front of the injection nozzle unit 16 located at the rear of the inner circumference of the annular nozzle body 1, and then the inner circumference is forward of the reduced portion. By gradually expanding, it is configured to obtain a Coanda effect that can diffuse the injection of the wind injected from the injection nozzle unit 16.

The outer circumferential plate 14 is formed to surround an outer circumference of the coanda plate 12 so that an inner passage 17 through which wind generated from the base portion 10 passes is formed, and surrounds the circumference. It is composed of a plate.

The rear circumferential plate 15 serves to cover the rear circumference of the annular nozzle body 1 and is provided to form an injection nozzle unit 16 for injecting wind to the rear of the coanda plate 12. will be. That is, the rear circumferential plate 15 has an arc-shaped cross section in which the middle of the circumference protrudes rearward to smoothly eject and discharge the wind moving the inner passage 17 to the injection nozzle unit 16. In addition, the injection nozzle unit 16 is formed between the rear of the coanda plate 12 and the inner front end of the rear peripheral plate 15 to inject wind.

The vertical connecting pipe 18 is assembled to the upper portion of the base portion 10 serves to communicate the interior of the base portion 10 and the inner passage 17 of the annular nozzle body (1). That is, the vertical connecting pipe 18 is fixed to the base portion 10 through the fixing means. In addition, the fixing means may be coupled to a fastening element such as a bolt or a fixing means such as a fitting groove and a fitting protrusion, and the fixing means is already known, and a detailed description thereof will be omitted in describing the present invention.

In addition, the plurality of injection holes 2 according to the present invention are formed in communication with the inner passage 17 constituting the annular nozzle body 1 is introduced into the front passage 31 of the inner passage 17. It is to inject wind forward.

That is, the injection holes 2 are formed in plural in the front middle of the front circumferential plate 13.

In addition, the partition plate 3 according to the present invention, as shown in Figs. 2 and 3, the front and rear passages (31, 32) of the inner passage (17) formed in the annular nozzle body (1) By dividing into, the wind flowing into the rear passage 32 is sprayed forward through the spray nozzle unit 16 to be diffused by the Coanda effect, and the wind flowing into the front passage 31 passes through the spray hole ( 2) is to play a role to be sprayed through.

The partition plate 3 is composed of a circular ring plate so as to partition the front and rear of the inner passage 17 provided around the inside of the annular nozzle body 1 as a whole. And the partition plate 3 is to be produced integrally formed during the injection manufacturing of the annular nozzle.

Therefore, by allowing the wind to be injected from the injection nozzle unit 16 constituting the annular nozzle body (1) and at the same time by blowing the wind together in a plurality of injection holes (2) formed around the front of the annular nozzle, As it can increase the injection amount of the has the advantage of providing a large-capacity bladeless fan.

In addition, the partition plate 3 according to the present invention is composed of a circular ring plate inclined such that the rear passage 32 is gradually narrowed from the bottom to the top and the front passage 31 is gradually expanded from the bottom to the top. do. In addition, the injection holes 2 formed in the center of the front circumferential plate 13 are formed such that the injection cross-sectional area gradually decreases from the lower side to the upper side.

In other words, the rear passage 32 has a wide front and rear width and a narrow front and rear width toward the top. The front passage 31 is formed such that the front and rear widths of the lower portion are narrow and the front and rear widths thereof become wider toward the upper portion.

In addition, the injection holes 2 are formed as long holes or holes so that the injection cross-sectional area becomes smaller from the bottom to the top.

Therefore, in the process of blowing wind from the injection nozzle unit 16 and the injection holes 2 constituting the annular nozzle body 1, the wind injected from the annular nozzle body 1 from the bottom to the upper circumference It can be sprayed almost uniformly.

In detail, in the process of passing the wind generated from the base part 10 through the rear passage 32 formed at the rear of the inner passage 17, the rear passage 32 passes air from the lower portion to the upper portion. The area of space gradually becomes smaller. Therefore, in the process of passing the wind generated in the base portion 10 through the lower circumference of the rear passage 32, since the air passage space is wide, the pressure of the wind is lowered, the flow velocity is lowered, and the air passage space as it goes up As the cross-sectional area of the field becomes narrower, the wind pressure gradually increases and the flow velocity becomes faster. Accordingly, the injection flow velocity of the wind injected through the injection nozzle unit 16 while passing around the lower portion of the front passageway 31 is substantially balanced from the lower portion to the upper portion. Therefore, there is an advantage that the flow velocity of the wind injected from the lower portion of the spray nozzle portion 16 to the upper circumference can be uniform.

In addition, in the process where the wind generated from the base portion 10 passes through the front passage 31 formed in front of the inner passage 17, the area of the air passage space gradually increases as the front passage 31 moves from the lower portion to the upper portion. Will be expanded to. Therefore, when the wind generated in the base portion 10 passes through the lower circumference of the front passageway 31, the pressure of the lower portion is high because the air passage space becomes narrower, and the air passage space expands as it goes upward. While the pressure gradually decreases, a plurality of injection holes 2 formed around the front circumferential plate 13 gradually decrease in the cross-sectional area of the injection holes 2 from the lower portion to the upper portion thereof, so that the lower portion of the injection holes 2 The flow rate of the wind injected around the upper portion is almost uniform, a detailed description thereof will be described later.

Reference numeral 20 denotes an "operation part" provided in the base part 10 to operate the base part 10.

Hereinafter, the working relationship of the present invention configured as described above is as follows.

4 is a cross-sectional view showing an operation relationship of the annular nozzle of the present invention.

As shown in Figures 1 to 4, the process of operating the fan equipped with an annular nozzle according to the present invention will be described.

First, wind is generated by rotating an impeller (not shown) by driving a motor (not shown) of the base unit 10 through manipulation of the manipulation unit 20.

Next, the generated wind is discharged to the upper portion of the base portion 10 and flows into the center of the front and rear passages 31 and 32 of the inner passage 17 constituting the annular nozzle body 1. Then, the wind flowing into the rear passage 32 is moved while spreading from the lower portion of the rear passage 32 to both upper portions and at the same time through the injection nozzle portion 16 formed at the rear of the inner circumference of the annular nozzle body 1. The wind is sprayed. In addition, the wind flowing into the front passageway 31 is spread from both the lower portion of the front passageway 31 to the upper portion and is simultaneously sprayed forward through the injection hole 2 formed around the front of the annular nozzle body 1. .

In the process of moving wind to the rear passage 32 as described above, the air passage space gradually decreases from the lower portion of the rear passage 32 to the upper portion thereof. Therefore, the wind injected through the upper circumference from the lower circumference of the rear passage 32 formed inside the annular nozzle body 1 has a lower air pressure because the air passage space of the rear passage is wider at the lower portion so that the flow velocity is As it slows down and rises upward, the cross-sectional area of the air passage spaces becomes narrower, so that the pressure of the wind gradually increases, and the flow velocity becomes faster. Therefore, the flow rate of the wind injected from the lower part of the spray nozzle unit 16 to the upper circumference becomes almost uniform.

In addition, in the process of moving the wind to the front passage 31 as described above, the air passage space gradually expands from the lower portion of the front passage 31 toward the upper portion, and the injection hole 2 formed in the front circumferential plate 13 The jet cross-sectional area of the blades gradually decreases from bottom to top. Therefore, the wind injected from the lower circumference of the front passageway 31 formed in the annular nozzle body 1 to the upper circumference becomes narrow in the air passage space in the process of passing through the lower circumference of the front passageway 31. The lower the pressure, the higher the upper air passage space is expanded, the wind pressure is gradually lowered. However, as the plurality of injection holes 2 formed around the front circumferential plate 13 gradually decrease from the lower portion to the upper portion, the injection cross section is gradually reduced, so that the injection holes 2 pass through the injection holes 2 having the large injection cross section at the lower portion. The flow velocity of the wind is slowed down even if the internal pressure applied to the lower portion of the front passage is high, the wind velocity of the jet is passed through the upper circumference discharged from the injection holes (2) has a cross-sectional area of the injection holes (2) As the pressure gradually decreases, the flow velocity becomes faster even if the internal pressure of the front passage 31 gradually decreases. Therefore, the flow rate of the wind injected from the lower portion of the injection holes 2 to the upper circumference can be almost uniform.

Therefore, by allowing the air injected from the lower part of the injection nozzle part 16 and the injection holes 2 to be circulated around the upper part almost uniformly, there is also an advantage of improving the cooling efficiency of the upper air in the room. .

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 exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: annular nozzle body
11: center opening
12: Coanda Fan
13: front circumference plate
14: outer perimeter plate
15: rear perimeter plate
16: injection nozzle unit
17: internal passage
18: vertical connector
2: injection hole
3: partition plate
31: front passage
32: rear passage
10: base part
20: control panel

Claims (2)

In the bladeless annular nozzle for forming a central opening in the upper portion of the base that causes the wind in the interior,
The annular nozzle,
The inner periphery is provided with a coanda plate having a coanda effect on the inner surface, a front perimeter plate is provided on the outside of the front circumference of the coanda plate, and is wrapped around the outer periphery of the coanda plate at the rear of the outer end of the front perimeter plate. An outer circumferential plate is formed in the inner circumference, and a rear circumferential plate having an arcuate cross section is formed at the rear inner side of the outer circumferential plate so that an injection nozzle portion for injecting air to the inner surface of the coanda plate is formed. An annular nozzle body provided with a vertical connection tube in communication with the inside of the base part;
A plurality of injection holes formed around the front circumference plate to communicate with the inner passage;
A partition plate for dividing the inner passage into a front and rear passage so that the wind flowing backward is sprayed forward through the spray nozzle unit and the wind flowing forward is sprayed forward through the spray holes;
Annular nozzle for bladeless fan, characterized in that it comprises.
The method of claim 1,
The partition plate comprises a circular ring plate inclined such that the rear passageway gradually narrows from the bottom to the top and the front passageway gradually extends from the bottom to the top;
The injection holes are annular nozzle for a bladeless fan, characterized in that the injection cross-sectional area is gradually reduced from the bottom to the top.

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