KR101237548B1 - Wingless fan - Google Patents

Abstract

The present invention relates to a fan without a fan, and more particularly, to suck the outside air through the inlet through the operation of the motor to cause the air sucked by the impeller, the wind is discharged to the outlet through a number of lakes It relates to a fan without a wing, forming an inlet on the lower side of the main body, forming an impeller to rotate by the drive of the motor inside the inlet, and then suck the air through the inlet, and blows the air sucked into the impeller Since the wind is discharged through the air pipe formed in the inner space of the main body to the discharge port, it is not necessary to form a wing of the fan, which is commonly used, and the structure is simple. Can impulse and suck the surrounding air by the impeller Because after the discharge to the outside it is possible to prevent overheating of the impeller to provide a fan blade without ruggedized for fans.

Description

Fan without wings {An electric fan a wing not having}

The present invention relates to a fan without a fan, and more particularly, to suck the outside air through the inlet through the operation of the motor to cause the air sucked by the impeller, the wind is discharged to the outlet through a number of lakes It's about a fan without wings.

In general, a fan refers to a device in which a plurality of blades are coupled to a shaft of a motor to drive a motor using electricity to generate a wind while the plurality of blades rotate to provide a person, and such a fan is used in summer. It is a typical seasonal article.

However, the conventional fan has a wind-exposed wing is exposed to the head portion, and because the wire mesh has a structure that wraps the head portion, if a child wrongly put a finger on the wing has a problem that the finger hurt.

Typically, a fan is a device that generates wind by using a fan rotated by a motor, and is mainly used to cool the heat or ventilate. These fans are stand type and standing type.

The stand type is composed of a base portion, a vertical support, a driving portion, and a fan, and the fan blows wind in the horizontal direction, and the driving portion can be rotated left and right according to the model to widen the range of the wind supply. .

In case of standing type, it consists of a relatively long blower installed vertically, a case surrounding the blower, and a driving unit for driving the blower and rotating the case left and right.

Looking at the prior art associated with the fan,

Publication No. 10-2004-0073919 relates to an “air intake blower fan that also serves as a fan. The air seal plate is attached to the rotor and rotated by the power of the motor. When the air seal plate approaches the windshield, the front end of the tripod pushes up the bar on the bottom of the windshield, and the windshield goes up. The upper and lower two parts are folded and merged into one to close the windscreen. At this time, the airtight plate passes through the windscreen and the airtight plate rotates continuously. The air at the back is vacuumed and sucks in air from the air inlet. The air from the outlet is blown out through the air inlet by the pressure inside the blower to generate wind. At this time, if the hose is attached to the air inlet, the air is sucked in and the air is blown out indoors. It is also shown that it also shoots wind with cool air and simultaneously purifies air.

Patent No. 10-0927325 relates to a “wingless safety fan”, wherein a support is installed on the upper part of the lower body to enable height adjustment by a support bar, and a wind generating means is installed on the upper part of the support, The wind generating means has a case closed with a safety cap having a wire mesh on the back, and the inside of the case is installed on the inner wall of the case rotatably coupled by a bearing support, the case of the rotating case Permanent magnets are installed on the inner circumferential surface to be inclined obliquely or obliquely in a streamlined shape and protrude in the longitudinal direction a plurality of inclined wings formed with a plurality of grooves on the surface thereof. The coil body is fixedly installed on the inner circumferential surface of the case so as to face the By rotating the rotating case at a high speed by the wind is generated by the inclined vanes coupled to constitute a pair of wind generating members configured to be discharged to the front of the rotating case side by side, forming a coupling piece to protrude inward to the front of the case, A plurality of coupling bolts are formed on the coupling piece to protrude forwards, and a blow case consisting of a rear case and a front case coupled to each other is inserted into the coupling bolt, and coupled to the coupling bolt, and a plurality of discharge holes outside the front center of the front case of the blower case. The inner wall surface of the central portion is formed by combining a conical blowing guide for dispersing the wind discharged from the wind generating member in all directions.

Korean Patent Publication No. 10-2012-0005264 relates to a “fan using compressed air”, wherein an air inlet hole and an air discharge hole are formed in a main body, and the air sucked through the air inlet hole is installed in the main body. Blowing means to be discharged through the air, and installed in the main body so as to communicate with the air discharge hole is shown that comprises an air amplifier to amplify the air discharged through the air discharge hole by a nozzle groove formed on one side.

The above techniques have the advantage of minimizing the installation space of the fan and minimizing the driving force required to vary the wind direction by rotating the wind direction guide in front of the rotor blades.

However, there is a risk that the blower fan can be touched by the fingers of a child, etc. There is a risk of injury if the child touches the finger, and the amount of air discharged to the outside through the blower fan limits the structural characteristics of the wind direction guide. In order to amplify the air to further configure the air amplifier there was a structurally complex problem.

The present invention has been made in order to solve the problems of the prior art as described above to form an inlet on the lower side of the main body, and to form an impeller to rotate by the drive of a motor inside the intake port to suck air into the inlet, After the air is blown by the impeller, the wind is completed as a technical problem, with the focus on providing a wingless fan that is discharged through the air pipe formed through a plurality of air pipes in the inner space of the main body.

According to the present invention for achieving the above object is provided with a pedestal, the upper portion of the pedestal is composed of a main body is formed on the lower side of the intake air inlet, the inside of the suction port is rotated by the drive of the motor An impeller is configured, an upper part of the impeller is formed with a blower pipe for transferring the wind generated by the impeller, the wind conveyed through the blower tube is bent to one side in the upper portion of the main body to the wind to the outside The problem is solved by discharging.

According to the vaneless fan according to the present invention, it is not necessary to configure the wing of the fan, which is commonly used, the structure is simple, it is possible to discharge the compressed wind by the air pipe configured in the blower pipe to the outside, Since the air is sucked out and the air is discharged to the outside through the impeller, the overheating of the impeller can be prevented and the durability of the fan can be increased.

1 is a side view showing the present invention preferably
2 is a front view of the present invention preferably.
Figure 3 is a side cross-sectional view showing the present invention preferably
Figure 4 is a plan sectional view showing an air pipe in the present invention
Figure 5 is a side cross-sectional view showing the connection of the protective cover and the impeller and the motor connected to the inlet port of the present invention
Figure 6 is a side cross-sectional view showing the connection of the motor and the impeller in the present invention.
Figure 7 is a side cross-sectional view showing the operation of the direction control member of the present invention
Figure 8 is a side view showing the operation of the rotating member of the present invention

The configuration of the present invention having the above object will be described in more detail with reference to FIGS. 1 to 8 as follows.

1 to 5 is provided with a pedestal 100, the upper portion of the pedestal 100 is configured with a main body 200, the lower one side of the main body 200, the inlet for suction of air ( 210 is formed, the inlet 210 is formed inside the impeller 220 to rotate by the driving of the motor 221, the upper portion of the impeller 220 conveys the wind generated by the impeller 220 Blowing pipe 230 is formed, and the wind to be transported through the blowing pipe 230 is to discharge the wind to the outside through the outlet 240 formed by being bent to one side on the upper portion of the main body 200.

Referring to FIGS. 5 and 6, the impeller 220 and the motor 221 are driven on the same principle as a blower that is commonly used, but the shaft shaft 222 of the motor 221 is connected to the impeller 220. The impeller 220 connected to the shaft shaft 222 is rotated due to the operation of the motor 221.

Due to this rotation, the air sucked in the inlet 210 is sucked into the impeller 220, and the sucked air is transferred to the blower tube 230 after the impeller 220 generates wind.

Referring to Figures 1, 2, 5, 8, the inlet 210 may be a protective cover 211 for preventing the inflow of foreign matter when the air is inhaled.

The protective cover 211 is to inhale the air to a specific place and then discharge it due to the characteristics of the fan is commonly used, the inhaled portion is formed with a groove like a wire mesh finger is a curious child There was a problem that often occurs.

On the contrary, in the present invention, the protective cover 211 is a mesh type, and the groove (h) of the mesh type is minimized to prevent human accidents.

Referring to Figures 1, 3, 7, 8, the outlet 240 of the main body 200 may be formed wide in the outward direction from which the wind is discharged from the end of the blower tube (230). This is for discharging as wide as possible when the wind is discharged to the outside, which is to form a wide end in the left, right or up, down or four directions depending on the use to be configured at the end of the blower tube 230.

Referring to FIGS. 3, 5, and 7, one or more air pipes 231 may be configured in the blower pipe 230 to induce and discharge wind generated by the impeller 220.

This is for the wind discharged through the blower tube 230 can be discharged without loss, and also for the acceleration of the wind discharged during discharge. One or more air pipes 231 may be configured, and when a plurality of air pipes 231 are configured, the air may be discharged even in a minute gap formed between the air pipes 231 and the air pipes 231.

In addition, the blower tube 230 may be configured in a plurality of divided forms to induce the direction of the wind and to discharge individually. This may be configured by the blower pipe 230 separately, or by splitting the blower pipe 230 into a plurality to be configured to guide and discharge the wind to each blower pipe 230.

As shown in FIGS. 3 and 7, the ends of the air pipes 231 may be connected to each other by giving an angle to the outlet 240. This is to allow the end portion of the air pipe 231, which is different from the outlet 240 according to the width of the outlet 240 to be modified in a polygonal shape according to the width of the outlet 240.

This is to widen the wind discharged to the outside through the air pipe 231 as shown in Figure 4 the end of the air pipe 231 so that the discharged wind can also be widely discharged.

Referring to Figures 1, 2, 3, 7, 8, the outlet 240 is a direction control member 241 that can adjust the direction of the discharged wind can be configured.

The direction control member 241 is to control the direction of the wind during the discharge of the wind through the outlet 240, which is configured on the outer portion of the outlet 240, which was to be adjusted in all directions according to the use .

The direction control member 241 may be configured to be connected to the air pipe 231 is extended. It may be configured so that the end of the air pipe 231 is not connected to the direction control member 241, but also, the end of the air pipe 231 is extended so that it can be configured to be connected to the direction control member 241 It is.

In addition, the direction control member 241 can be adjusted in all directions by flowing to the left and right 33 ° C, 25 ° C, which is not limited to the flow angle.

For example, with respect to the direction control member 241 described above,

Typically, the configuration is the same as configured to be positioned in the outlet portion of the vehicle blower (air conditioner, heater), which is to be configured to be used in the outlet 240 to flow in all directions depending on the use.

Referring to FIGS. 1 to 5, FIGS. 7 and 8, a rotating member 300 for rotating the main body 200 may be configured between the pedestal 100 and the main body 200.

The rotating member 300 is to rotate the main body 200 as a whole, which may rotate a predetermined angle according to the rotating member 300 configured between the pedestal 100 and the main body 200, or It can be rotated 360 degrees.

Due to this rotation, the main body 200 is rotatable in a polygonal or 360 degree.

Referring to the operation of the present invention based on the above configuration with reference to Figures 1 to 8,

First, the principle of operating due to the operation of the power supply device 400 attached to a part of the main body 200 after connecting the power supply through the power cord is commonly used and will not be described in detail in the present invention.

The operation of the inventor's wingless fan

First, the ambient air is sucked into the inlet 210 formed at the bottom of the main body 200 at the same time as the operation of the power supply unit 400, and at this time, the motor ( The impeller 220 connected to the shaft shaft 222 of the 221 is to be rotated.

As described above, when the ambient air is inhaled, a protective cover 211 is provided on the outer circumference of the inlet port 210 to prevent foreign matters other than the ambient air and the accident prevention of the user.

When air is sucked into the inlet 210 of the main body 200, the air causes wind due to the rotation of the impeller 220, and the wind is transferred to the upper side of the blower tube 230.

The wind that is sent to the blower tube 230 passes through a plurality of air pipes 231 configured in the blower tube 230. At this time, the wind may pass through the minute gap between the air pipe 231 and the air pipe 231.

The wind introduced through the air pipe 231 helps to discharge quickly when discharged, the discharged wind is cool.

The discharged wind is discharged through the discharge port 240 configured at the end of the blower tube 230, the discharge port 240 is formed in a wide direction outward so that it can be widely discharged during the discharge of the wind. At this time, the end of the air pipe 231 is also adjusted according to the width of the outlet 240.

The outlet 240 has a direction control member 241 is configured to control the direction of the wind discharged to the outside in all directions.

In addition, the rotating member 300 is configured between the pedestal 100 and the main body 200 to rotate the main body 200 to discharge the wind.

According to the bladeless fan of the present invention described above, it is not necessary to configure the wing of the fan, which is commonly used, the structure is simple, by discharging the compressed air due to a plurality of air pipes 231 configured in the blower pipe 230 to the outside The wind can be cool, and by sucking the surrounding air by the impeller 220 to discharge such air to the outside through the impeller 220 to prevent overheating to the impeller 220 to increase the durability for the fan. To make it possible.

100: pedestal
200:
210: inlet 211: protective cover
220 impeller 221 motor 222 shaft axis
230: blower pipe 231: air pipe
240: outlet 241: direction control member
300: rotating member 400: power supply device
h: home

Claims (8)

Pedestal 100 is provided, the main body 200 is formed on the upper portion of the pedestal 100, the lower inlet side of the main body 200 is formed with an intake port 210 is suction, the intake port 210 The inner side of the impeller 220 is rotated by the drive of the motor 221 is configured, the upper part of the impeller 220 is formed with a blower tube 230 for transferring the wind generated by the impeller 220, the blower tube In the fan that is conveyed through the 230 is configured to discharge the wind to the outside through the discharge port 240 formed by being bent to one side on the upper portion of the main body 200,
One or more air pipes 231 are configured in the blower pipe 230 to guide and discharge the wind generated by the impeller 220, and the ends of the air pipes 231 are formed outwardly of the outlet 240. The dog is configured to bend,
The discharge port 240 is composed of a direction control member 241 for adjusting the direction of the wind is discharged, characterized in that the wing is characterized in that the air pipe 231 is extended and connected to the direction control member 241 Fanless
The method of claim 1,
The exhaust port 240 of the main body 200 is a fan without a fan, characterized in that it can be formed in a wide direction in the outer direction from which the wind is discharged from the blower 230
delete delete delete delete The method of claim 1,
The inlet 210 is provided with a protective cover 211 for preventing the inflow of foreign substances when the air is inhaled,
Wingless fan, characterized in that the rotating member 300 for rotating the main body 200 can be configured between the pedestal 100 and the main body 200
The method of claim 1,
The blower tube 230 is configured in a plurality of divided forms fanless fan, characterized in that configured to discharge and induce the direction of the wind individually

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