KR20000016973U - For pump impeller - Google Patents

Abstract

The present invention relates to an impeller for a pump, and relates to a pump impeller that maintains performance by forming a saw blade at the side end of the impeller blade to increase the transfer efficiency of the conveying object and cutting foreign substances sucked in to reduce the wear of the impeller.

In the present invention, a plurality of wings are radially formed, and in configuring an impeller for a pump in which an outer ring is integrally formed at an end thereof,

A saw blade for cutting foreign matters is formed to have a predetermined angle at the side end portion of the blade formed radially to increase the transfer efficiency, characterized in that configured to cut the foreign matter contained in the conveying object.

In addition, as another embodiment of the present invention to form a saw blade for cutting the foreign material at both ends of the radially formed wing is characterized in that the smoothly transported by sucking the cutting object.

Description

Pump impeller {For pump impeller}

The present invention relates to an impeller for a pump, and relates to a pump impeller that maintains performance by forming a saw blade at the side end of the impeller blade to increase the transfer efficiency of the conveying object and cutting foreign substances sucked in to reduce the wear of the impeller.

Generally, the impeller mounted on the pump has a motor shaft groove 12 formed at the center as shown in FIGS. 1 and 2, and a plurality of wings 11 are radially formed around the ends of the wings 11. Silver outer ring 13 is formed integrally to increase the durability.

Such an impeller 10 rotates at a high speed by driving the motor 1 and sucks the transfer object to the suction port 2 on one side and transfers it to the discharge port 3 on the other side. In the case of using a conventional impeller in general, high resistance is generated between the impeller and the liquid conveying object.

Therefore, in order to reduce the resistance between the impeller and the conveying object as much as possible, conventionally, the iron plate is bent and the wings of the impeller are constructed in a streamlined form. However, the streamlined wing increases the transfer efficiency, but the interior is hollow, so the durability is poor. This is causing.

Detailed description and structure of such a conventional impeller for pumps can be found in the Korean Utility Model Publication No. 84-7131, 92-26166, 97-337 and the Korean Utility Model Publication No. 90-6693 have.

Conventional pump impellers as described above have a plurality of radial wings formed in a streamline or modified the angle of the wing to reduce the resistance with the conveying object, if the viscosity is high or contains foreign matter in the conveying object to the impeller Excessive force is applied, and wear is severe and there is a problem that does not properly maintain performance.

The present invention is to provide a pump impeller to maintain the performance by preventing the wear of the impeller by sucking while cutting the foreign matter contained in the conveying object while increasing the conveying efficiency of the conveying object.

In the present invention, a plurality of wings are radially formed, and in configuring an impeller for a pump in which an outer ring is integrally formed at an end thereof,

A saw blade for cutting foreign matters is formed to have a predetermined angle at the side end portion of the blade formed radially to increase the transfer efficiency, characterized in that configured to cut the foreign matter contained in the conveying object.

In addition, as another embodiment of the present invention to form a saw blade for cutting the foreign material at both ends of the radially formed wing is characterized in that the smoothly transported by sucking the cutting object.

1 is a perspective view showing an installation state of a pump

Figure 2 is a front view showing a conventional impeller for the pump

Figure 3 is a perspective view showing an embodiment of the present invention impeller

4 is an enlarged view showing the saw blade of the present invention;

5 is a cross-sectional view of the saw blade of the present invention

Figure 6 is a front view showing another embodiment of the present invention

7 is an installation state of the present invention

8 is a cross-sectional view showing another embodiment of the saw blade of the present invention

<Explanation of symbols for the main parts of the drawings>

2.Inlet port 3.Outlet port 4.Inner cover

5. Outer cover 6. Motor shaft 10. Impeller

11.wing 12.shaft groove 13.outer ring

14.saw blade

The present invention improves the transfer efficiency by reducing the resistance between the liquid conveying object and the impeller with viscosity, while cutting the foreign matter contained in the conveying object finely, so as not to apply excessive force to the impeller and to prevent wear and maintain performance. The configuration of the present invention is shown in detail in FIGS. 3 to 8 illustrated in the drawings.

The impeller 10 of the present invention has a plurality of wings 11 are radially formed around the shaft groove 12 to which the motor shaft 6 is coupled, as in the conventional shape, and a circular outer ring at the end of the blade 11. (13) is formed integrally and is configured to increase durability.

On one side end of the radially formed wings 11, saw blades 14 for cutting foreign matter contained in the conveying object are integrally formed so as to suck up the foreign matter to increase the feeding efficiency and have a sharp angle at the end. By reducing the resistance received by the blades 11 by the saw blades 14 so as not to apply excessive force to the impeller 10.

The saw blade 14 is preferably formed on one side end in the rotational direction of the motor 1 in the length of the blade 11, may be formed integrally with the blade 11, or blades separately manufactured by the saw blade 14 It can also be attached to one side end of (11).

In addition, the saw blade 14 is not formed to be limited to only one end of the blade 11, which is the rotation direction of the motor 1, and is formed at both ends of the blade 11 in length so as to be selective without limitation in the rotation direction of the motor 1. It can also be used.

The number of vanes 11 radially formed on the impeller 10 is configured to increase or decrease arbitrarily according to the conveying object for conveying and the viscosity of the conveying object to increase the conveying efficiency.

The impeller 10 of the present invention is built between the outer cover 5 and the inner cover 4 of the pump, and the motor shaft 6 is coupled to the shaft groove 12 to be mounted and driven by the motor 1. It rotates at a high speed between the cover 4 and the outer cover 5 to suck the conveying object to the suction port 2 and to transport it to the discharge port 3 through the transport hole 7.

The saw blade 14 formed in the blade 11 of the impeller 10 in the above installation state is mounted so as to be in close contact with the outer cover 5 provided with the inlet 2 and the outlet 3 is foreign matter contained in the transport object is sucked It is desirable to chop it up and suck it up.

The saw blade 14 is formed on the blade 11 of the impeller 10 because the toothed saw blade 14 has excellent cutting force of foreign matter, and a sharp blade may be used instead of the saw blade 14, but the effect thereof is the saw blade 14. Does not reach)

The present invention forms a sharp saw blade with a certain angle on the blade of the high speed rotating impeller mounted on the pump to reduce the resistance to the conveying object and finely cuts and sucks the foreign matter contained in the conveying object so that it does not apply the wear and excessive force of the impeller. To maintain the performance of the pump.

Claims (2)

In constructing a pump impeller 10 in which a plurality of wings 11 are formed radially and an outer ring 13 is integrally formed at an end thereof, A pump blade, characterized in that configured to form a saw blade 14 for cutting foreign matters at one side end of the radially formed wing 11 to have a predetermined angle to cut and suck the foreign matter contained in the conveying object. Impeller. In claim 1, Impeller for pump, characterized in that to form a saw blade (14) for cutting foreign matter at both ends of the blade (11) formed radially to cut and suck the foreign matter contained in the conveying object.