KR200406815Y1 - Impeller for Air Foil Type Blower - Google Patents

Abstract

The present invention discloses an impeller for an air foil type blower to prevent deformation of the impeller fixed to the fan.

The present invention is intended to be an impeller in a rigid state without a separate reinforcing structure. To this end, the present invention forms one or more reinforcing ribs on the surface of the impeller fixed between the disc and the cover, but when the blower capacity is small, one reinforcement rib is formed on the impeller surface, and when the blower capacity is large, the impeller An impeller for an air foil type blower having a plurality of reinforcing ribs formed on a surface thereof is proposed.

In this way, the present invention prevents deformation during rotation of the impeller by forming a reinforcing rib on the impeller surface, and efficiently assembles the impeller without high-impact welding work, and is used due to partial unbalanced stress caused by welding at many places. There is a useful effect that can be used over a wide temperature range to prevent cracking or deformation that may occur during the process.

Blower, air foil fan, impeller, reinforcement rib

Description

Impeller for Air Foil Type Blower {Impeller for Air Foil Type Fan}

Figure 1a is a schematic perspective view showing a conventional air foil type blower.

Figure 1b is a partially cut away perspective view showing a conventional air foil type fan.

1C is an explanatory view showing a reinforcing rib welding state of a conventional air foil type fan.

Figure 2 is a partially cutaway perspective view showing a fan coupled to the impeller for the air foil type blower of the present invention.

Figure 3 is a perspective view showing an impeller for a blower of the present invention.

Figure 4 is a cross-sectional view of the shaft coupled to the air foil fan of the present invention.

Figure 5 is a schematic perspective view showing an air foil type blower to which the present invention is applied.

Figure 6 is a cross-sectional view showing a fan according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10 impeller 11: reinforcement rib

12: fan

The present invention relates to an impeller for an air foil type blower, and more particularly, to an impeller for an air foil type blower to integrally form a reinforcing rib in the impeller so that the impeller is not deformed.

As is well known, a blower is installed in a dust collector, an air conditioner, a furnace, a boiler, and the like so that the air is sucked out and discharged in a direction to be sent.

Fans coupled to such a blower include a turbo fan, an air foil fan, a silocco fan, and the like, and are appropriately selected and used according to the purpose of the blower. This blower is schematically shown in FIG.

As shown therein, the blower fixes the pedestal 51 so as to be stably installed, and installs a motor 53 having a pulley 52 coupled thereto, and a casing having a suction port 54 and a discharge port 55 formed therein. 56 rotatably couples the air foil fan 57 therein, couples the shaft 58 to which the rotational force is transmitted to the center of the fan 57, and the pulley 59 and the motor 53 coupled to the front end thereof. To the pulley 52 of the belt 60.

The air foil type fan 57 fixes a plurality of impellers 63 between the disc 61 and the cover 62 as shown in FIGS. 1B and C, while maintaining the cross section in a streamlined airfoil. Both ends of the reinforcing ribs 64 are welded and fixed between two curved impellers 63 so as not to form a deformation during rotation, and both sides of the impeller 63 are welded between the disc 61 and the cover 62. It was.

Since the impeller has to weld the reinforcing ribs on the narrow inner side, the welding work is very demanding and requires highly skilled skills, and the work is slow, resulting in a decrease in productivity.

An object of the present invention devised to solve the problems as described above is to provide an impeller for an air foil type blower to be an impeller in a solid state without a separate reinforcing structure.

In order to achieve the above object, the present invention installs a motor with a pulley coupled to a pedestal, installs a casing formed with an inlet and an outlet on one side thereof, and rotates an air foil fan having a plurality of impellers fixed between the disc and the cover. In a known one that can be coupled and rotates the air foil fan by the rotational force of the motor, an impeller for an air foil type blower having a reinforcing rib projecting on the surface of the impeller is proposed.

In this way, the present invention prevents deformation during rotation of the impeller by forming a reinforcing rib on the impeller surface, and efficiently assembles the impeller without high-impact welding work, and due to partial unbalanced stress caused by the welding work of many places. There is a useful effect that can be used over a wide temperature range to prevent cracking or deformation that may occur during use.

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

As shown, the present invention forms a reinforcing rib 11 protruding to the surface of the impeller 10 curved to a predetermined width. A plurality of such impellers 10 are fixed at appropriate angles and equal intervals for discharging air sucked between the disc 61 and the cover 62 of the fan 12.

Particularly, in the present invention, the reinforcing ribs 11 are integrally formed to protrude to the surface of the air impeller 10, and when the blowing capacity of the fan 12 is small, one reinforcing rib 11 is formed, When the blowing capacity is large, one or more reinforcing ribs 11 are molded.

The present invention puts the material steel plate into the press mold in the state in which the impeller 10 is expanded to manufacture the impeller 10, and molded to form one or more reinforcing ribs 11 to the impeller 10.

The impeller 10 formed in such an unfolded state is bent into a streamlined airfoil as shown in FIGS. 3 and 4, and then the part abutting on one side is fixed by welding, and then the disc 61 and the cover 62. By fixing the impeller 10 therebetween, an air foil fan 12 as shown in FIG. 2 is manufactured.

The shaft 58 is fixed to the center of the air foil fan 12 and rotatably coupled to the casing 56 so as to manufacture a blower to a place to be installed such as a boiler, a furnace, and an air conditioner. Install it stably.

After this installation, when power is applied to the motor 53 of the blower as shown in FIG. 5, the motor 53 is driven, and the belt 60 is rotated by the rotation of the pulley 52 coupled to the motor 53. The pulley 59 is connected to rotate, the shaft 58 coupled thereto is rotated. Along with this, the air foil fan 12 coupled to the shaft 58 is rotated, so that the blowing force is generated while the disc 61 and the cover 62 are rotated together with the impeller 10, and the suction port is caused by the blowing force. (54) It sucks the air around it and sends it to the discharge port (55).

In this process, the present invention applies a significant pressure to the surface of the impeller 10 while the suction discharged air, but the reinforcing rib 11 protruding to the surface of the impeller 10 to support the shape of the impeller 10 is not deformed do. Accordingly, it is possible to solve the problem of lowering efficiency or operating noise due to deformation of the impeller 10.

In addition, as another embodiment of the present invention is shown in Figure 6 the air foil fan sucked on both sides, it will be described using the same name and reference.

As described above, the fan 12 that sucks air from both sides fixes the impeller 10 on both sides of the disc 61, fixes the cover 62 to the outside of the impeller 10, and the shaft in the center of the disc 61. Combine (58). If the fan 12 is installed and driven as described above, the rotational force of the motor 53 is transmitted to the shaft 58 and the fan 12 is rotated so that the air introduced into the inlet 54 is discharged to the outlet 55. Will be exported).

Since the double-sided suction blower is large in capacity, a strong pressure is applied to the impeller 10, and two or more reinforcing ribs 11 may be provided at an appropriate distance in order to prevent deformation of the impeller 10. It is preferable to form spaced apart.

In this way, the present invention prevents deformation during rotation of the impeller by forming a reinforcing rib on the impeller surface, and in particular, it is possible to efficiently assemble the impeller without welding at a high level of difficulty, and due to partial unbalanced stress caused by welding at many places. Due to this, there is a useful effect that can be used over a wide temperature range to prevent cracking or deformation that may occur during use.

Claims (2)

A plurality of impellers 10 are rotatably coupled between the disc 61 and the cover 62 to rotate the air foil fan 12 which is rotated by the rotational force of the motor 53. In the well-known thing, Impeller for air foil type blower, characterized in that the reinforcing ribs 11 protruding from the surface of the impeller (10) is formed. The method of claim 1, The reinforcing rib 11 is an impeller for an air foil type blower, characterized in that at least one formed on the surface of the impeller 10 according to the blower capacity of the blower.

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