KR100416719B1 - Guide vane structure reducing a noise of Fan - Google Patents

Abstract

The present invention relates to a guide vane structure for reducing fan noise, and more particularly, to a fan vane structure for reducing fan noise, which is installed on a fan wing side to reduce noise without affecting the performance of a fan. It is about.

According to the present invention, a motor is formed in the casing of the fan, and the motor is connected to the fan blade through a connecting shaft connected to one side center, and the guide vane is installed on the inside of the casing side of the fan and the guide vane is located outside the casing. Provided with guide vane structure for fan noise reduction configured to adjust vane angle.

Description

Guide vane structure reducing a noise of Fan}

The present invention relates to a guide vane structure for reducing fan noise, and more particularly, to a fan vane structure for reducing fan noise, which is installed on a fan wing side to reduce noise without affecting the performance of a fan. It is about.

In general, the guide vane is installed to guide the flow of air so as to constantly supply or discharge the amount of air formed in the fan. The internal structure of the fan mainly manufactures and installs the guide vane integrally between the motor and the fan blade.

1 is a view schematically showing a conventional fan internal structure, wherein the fan 10 structure is fastened to a motor 12 installed inside a casing 20 and a connecting shaft 18 of the motor 12. Fan blades 16 and guide vanes 14 fastened to the connecting shaft 18 positioned between the motor 12 and the fan blades 16.

Therefore, the fan blade 16 is coupled to the connecting shaft 18 of the motor 12 in accordance with the rotation operation of the motor 12 is rotated while the fan blade (according to the aerodynamic shape of the fan blade 16) Air located in the periphery of 16 is forced to the direction of the motor 12. Further, the guide vane fastened to the connecting shaft 18 in accordance with the rotational operation of the motor 12 and the connecting shaft 18 ( 14 is rotated, and the air, which is conveyed in the direction of the motor 12 by the rotation of the fan blade 16, is partially transferred at the position of the guide vane 14, and the other is stirred and dispersed while The speed and the amount of air conveyed by the fan blades 16 are accelerated and increased or reduced or reduced. The conventional fan internal structure described above is connected to the shaft of the motor 12 in accordance with the rotation of the single motor 12. The fan blades 16 and the guide vanes 14 fastened to the 18 are driven simultaneously. As the rotational force of the motor 12 is additionally required, the noise due to the further rotation of the motor 12 is increased, as well as the fan blade 16 fastened to the same connecting shaft 18 and The guide vanes 14 come into contact with different air resistances while stirring and pressurizing the surrounding air and the conveyed air, respectively, and thus noise is generated by rotation of each of the fan blades 16 and the guide vanes 14. There was a problem.

The present invention has been invented to solve the above-described problems, and to provide a fan vane structure for reducing fan noise, which can suppress noise generated when the fan is driven to the maximum, and improve the flow of air. For that purpose.

The present invention, in order to achieve the above object, the guide vane structure of the present invention is a motor is formed in the casing of the fan and the motor is connected to the fan blade through a connecting shaft connected to one side center, the casing side of the fan The guide vane is installed on the inside and the guide vane is configured to adjust the vane angle from the outside of the casing. The motor is installed on one side of the casing, and is connected to the connecting shaft of the motor to transfer air in the direction of the motor. A fan composed of a fan blade, comprising: a cylindrical pipe fastened through a metal plate to an inner casing of the outer side of the fan blade opposite to one side of the casing in which the motor is mounted, and from the outer circumference of the pipe to the inner circumference of the casing; In addition, the outer surface of the casing forms a curved surface. Rock formed steel plate and, projecting form the bar-like outwardly from the opposite ends of the steel plate is configured to include a connecting rod coupled to rotatably coupled to the bolt on the inside of the outer periphery of the pipe and the casing.

1 is a view schematically showing a conventional fan internal structure.

Figure 2 schematically shows the internal structure of the fan of the present invention.

3a shows a casing surrounding the outside of a fan;

Figure 3b shows a guide vane installed inside the casing of the fan.

3c shows the guide vanes of the fan in detail.

<Brief description of symbols for the main parts of the drawings>

30: fan 32: casing

34: motor 36: connecting shaft

38: fan blade 40: guide vane

42: pipe 44,50: metal plate

46: slit hole 48: coupling bolt

52: connecting rod

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

2 is a view schematically showing the internal structure of the fan of the present invention, wherein the fan 30 includes a casing 32, a motor 34, a connecting shaft 36, a fan blade 38, and a guide vane ( 40). The casing 32 is formed in a cylindrical shape such that a rotation body such as the fan blade 38 is rotatable and is rotatable. The motor 34 is composed of a conventional motor 34 which is rotated in operation according to the energization. The connecting shaft 36 is preferably formed integrally with the central axis of the motor 34, The fan blade 38 is formed so as to be rotated in accordance with the rotation of the connecting shaft 36 by the center thereof is fastened to the tip of the connecting shaft 36. The wings extend radially from the center connected to the connecting shaft 36 The guide vane 40 has a through hole formed at a center thereof, and a plurality of wings are formed to extend radially from the through hole. It is formed in a circular shape so as to be in close contact with the inner circumference of the casing (32).

FIG. 3A is a view illustrating a casing surrounding the outside of the fan, FIG. 3B is a view illustrating guide vanes installed inside the casing of the fan, and FIG. 3C is a view illustrating the guide vanes of the fan in detail.

As can be seen in Figure 3a, a cylindrical pipe 42 is formed in the inner center of the casing 32, and two or more rectangular plate-shaped metal plates 44 are arranged at equal intervals in the outer circumference of the pipe 42 It is fastened to reach the inner circumference of the casing 32. Here, the guide vane 40, which will be described later, is fastened to the pipe 42, and the pipe 42 is secured so that the guide vane 40 is firmly supported. The metal plate 44 of the present invention is fastened to the 32 by means of the metal plate 44. The metal plate 44 of the present invention firmly supports the pipe 44 and supports the guide vane 40 fastened to the pipe 42. The metal plate 44 is composed of three, so as to form an equal distance from each other at the outer periphery of the pipe 42, the metal plate 44 to form an angle of 120 ° to each other of the casing 32 at the outer periphery of the pipe 42 It is fastened to reach inside. The pipe A plurality of slit holes 46 are formed in the side wall of 42 at regular intervals.

The shape of the slit hole 46 is open in one direction as shown in the enlarged portion A. As can be seen in Figure 3b, the casing 32 is a plurality of casing 32 at regular intervals between the casing and the pipe 42 formed inside. Guide vanes 40 are secured by coupling bolts 48.

Each guide vane 40 has one end fixed to the slit hole 46 of the pipe 42 and the other end is provided with a coupling bolt 48 on the inner wall of the casing 32.

As can be seen in Figure 3c, the guide vane 40 is formed of an arc-shaped steel plate 50 and the connecting rod 52 is formed at both ends of the metal plate 50. Here, the connecting rod 52 is the steel plate The rod 50 is formed at both ends and protrudes to the outside, and the inside thereof is hollowed so that the coupling bolt 48 is inserted and screwed. In addition, the connecting rod protruding from one side of the steel plate 50 52 is coupled to the outer circumference of the pipe 42 by a coupling bolt 48 inserted into the opening of the slit hole 46 formed in the pipe 42 and fitted into the inside of the pipe 42. The connecting rod 52 protruding from the other side of the steel plate 50 is inserted into the coupling hole formed in the casing 32, and the inner circumference of the casing 32 as the coupling bolt 48 inserted into the outside of the casing 32. In addition, the steel plate 50 is shown in Figure 3c As shown, the cross-sectional shape of one side is formed in an arc shape forming a curved surface, the portion forming the curved surface is coupled to face the outside of the casing 34, the air flowing in from the outside of the casing 34 Is accelerated to disperse in the left curved portion of the steel plate 50 to flow into the casing 34. Further, as shown in FIGS. 3C and 3B, the pipe ( 42 is larger than the width of the portion coupled to the casing 34, so that the air flowing into the casing 34 is less at the center of the casing 34, and the casing ( 34. The steel plate 50 may be installed to be horizontal with respect to the pipe 42 and the casing 34, as shown in FIG. 3B. , The wave It is a matter of course that the connecting rod 52 of the steel plate 50 can be rotated in one direction with respect to the shaft in accordance with the manipulation of the coupling bolt 48 fastened to the frame 42 and the casing 34. The direction in which the steel plate 50 is rotated with respect to the pipe 42 and the casing 34 is the same as the direction in which the fan blade 38 rotates and pressurizes the air, so that the blade of the fan blade 38 has a central axis. It is preferable to be installed so as to rotate in the same direction as that rotated with respect to. The operation of the fan according to the present invention configured as described above will now be described. Power is applied to rotate the motor 34, and as the motor 34 rotates, the connecting shaft 36 integrally connected to the motor 34 is rotated. The fan blade 38 is fastened to the tip of the connecting shaft 36 is rotated accordingly As the fan blade 38 rotates, the air located around the blades of the fan blades 38 is pressurized by the blades of the fan blades 38 and the air flows in the direction of the motor 34. At this time, the internal air pressure of the casing 32 is reduced by the air pressurizing action of the fan blade 34, the casing in the direction in which the guide vanes 40 opposite to the direction of the motor 34 in which the air flows are installed. (34) Air is introduced through the opening. Here, the air flowing through the opening of the casing 34 in which the guide vanes 40 are installed is dispersed in contact with each steel plate 50 of the guide vanes 40. The flow direction is guided and flows to the position of the fan blade 34. According to the embodiment of the present invention, the casing 34 by the steel plate 50 rotated in the same direction as the blade rotation direction of the fan blade 38. Yu from outside Intake air is introduced while making the same rotation as the rotation direction of the fan blade 34. In addition, according to an embodiment of the present invention, the width of the central portion of each of the steel plates 50 is wide, so that the casing 34 is formed. As air flowing in from the outside of the fan blade 38 of the fan blade 38 of the fan blade 38 of the fan blade 38 which operates faster than the central portion of the casing 34 flows more quickly and faster, It is conveyed in the direction of the motor 34. As can be seen from the configuration described above, the fan 30 is composed of a type that is fixed to the guide vane 40 on its side, the fan blade coupled to the motor 34 ( When the 38 is rotated, the guide vanes 40 formed on the side surfaces of the guide vanes 40 are spaced apart from each other at a predetermined distance, thereby reducing the occurrence of noise.

That is, the guide vane 40 is fixed to be able to adjust the rotation angle of the steel plate 50 by the coupling bolt 48 in relation to the flow of air generated by the rotation of the fan blade 38, According to the rotational force of the motor 34 and the blowing ability of the fan blade 38, the angle of rotation of the steel plate 50 is properly adjusted, and noise is reduced by about 3 dB compared to the conventional fan structure. The present invention is not limited to the above-described specific preferred embodiment, and any person skilled in the art to which the present invention pertains can make various modifications without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effect according to the above-described configuration and operating state will be described.

The guide vane structure for fan noise reduction of the present invention is not a structure in which the guide vane is coupled to the fan blade in the structure thereof, so that the guide vane is formed separately, so that abnormal noise is not generated by the connecting shaft. The angle adjustable structure is installed in the casing, so it provides the best conditions for all fans.

Claims (1)

In the fan composed of a motor provided on one side of the casing and a fan blade fastened to the connecting shaft of the motor to transfer air in the direction of the motor, A cylindrical pipe fastened through a metal plate on an inner circumference of the casing on the other side of the fan blade opposite to one side of the casing on which the motor is mounted; A steel plate which extends from the outer circumference of the pipe to the inner circumference of the casing and is formed such that an outer surface of the casing forms a curved surface; A guide vane structure for reducing fan noise comprising a connecting rod which is formed to protrude rods from both ends of the steel plate to the outside and is rotatably coupled to the outer circumference of the pipe and the inside of the casing by a coupling bolt.