KR200203022Y1 - Pump - Google Patents

Abstract

The present invention relates to a pump for medium pressure of a new structure having a higher discharge pressure than a volute pump and a larger flow rate than a cascade pump.

According to the present invention, a housing 6 having an inlet 2 formed on its front surface and an outlet 4 formed on one side thereof, a drive shaft 8 connected to the drive motor and mounted inside the housing 6; A volute impeller 10 coupled to the drive shaft 8 so as to be adjacent to the inlet 2 of the housing 6 and sucking the fluid through the inlet 2 as it rotates, and an outlet of the housing 6 It is characterized in that it comprises a cascade impeller 12 coupled to the drive shaft 8 so as to be adjacent to 4) and pressurized fluid sucked into the volute impeller 10 and discharged to the discharge port 4 according to rotation A pump for medium pressure is provided.

Description

Medium Pressure Pump {PUMP}

The present invention relates to a pump for medium pressure, and more particularly, to a pump for medium pressure of a new structure having a higher discharge pressure than a volute pump and a higher flow rate than a cascade pump.

In general, a pump used to transfer or discharge a fluid has a volute pump configured by mounting a volute impeller mounted inside the housing, and a cascade constructed by mounting a cascade impeller having a plurality of grooves formed in the periphery of the housing. Divided into pumps. The volute pump rotates the volute impeller at a high speed to transfer water using a centrifugal force generated by the impeller, and mainly has a low discharge pressure and a large flow rate. Therefore, it is used as a general drainage pump. The cascade pump rotates the cascade impeller at a high speed to transfer water by using a friction force between the groove and the fluid, and has a high discharge pressure and a low flow rate. Therefore, it is used in a special field where the pressure of the water to be conveyed, such as a water sprayer of a fire engine, must be very high.

However, such a volute pump or a cascade pump has a large difference in discharge pressure and flow rate depending on the purpose of use, and therefore, there is a problem in that the discharge pressure and flow rate in the middle range are not suitable. Therefore, there is a need for a pump for medium pressure with a new structure having a higher discharge pressure than a volute pump and a larger flow rate than a cascade pump.

The present invention is to solve the problems of the conventional pump as described above, an object of the present invention is to provide a pump for medium pressure of a new structure having a higher discharge pressure than the volute pump, the flow rate more than the cascade pump. .

1 is a side cross-sectional view of a pump for medium pressure according to the present invention

Figure 2 is a cross-sectional view of Figure 1

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

2. Inlet 4. Outlet

6. Housing 8. Drive Shaft

10. Volute impeller 12. Cascade impeller

According to the present invention, a housing 6 having an inlet 2 formed on its front surface and an outlet 4 formed on one side thereof, a drive shaft 8 connected to the drive motor and mounted inside the housing 6; A volute impeller 10 coupled to the drive shaft 8 so as to be adjacent to the inlet 2 of the housing 6 and sucking the fluid through the inlet 2 as it rotates, and an outlet of the housing 6 It is characterized in that it comprises a cascade impeller 12 coupled to the drive shaft 8 so as to be adjacent to 4) and pressurized fluid sucked into the volute impeller 10 and discharged to the discharge port 4 according to rotation A pump for medium pressure is provided.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

1 and 2 illustrate a pump for medium pressure according to the present invention, and a driving shaft 8 is mounted inside the housing 6 in which an inlet port 2 is formed at a front surface thereof and an outlet port 4 is formed at one side thereof. . The drive shaft 8 extends to the outside of the housing 6 and is connected to a separate drive motor, and rotates according to the drive of the drive motor.

The drive shaft 8 is equipped with a volute impeller 10 and a cascade impeller 12. The volute impeller 10 has a plurality of spiral blades 14 formed radially on the front surface thereof, and the blades 14 are mounted to be adjacent to the suction port 2, and the centrifugal force generated when the impeller is rotated. Intake the fluid into the suction port (2) to discharge the rear. The cascade impeller 12 has a plurality of grooves 16 formed at its periphery, and one side thereof is mounted close to the rear surface of the volute impeller so that one side thereof is adjacent to the outlet 4 of the housing 6. The fluid discharged from the volute impeller 10 is pressurized by the friction force generated between the groove 16 and the fluid during rotation to be discharged to the discharge port 4.

Reference numeral 18 shows a suction pipe connected to the suction port 2 of the housing 6.

Therefore, when the driving motor is driven, the volute impeller 10 and the cascade impeller are rotated at the same time by the drive shaft 8, and after suctioning the fluid through the inlet 2, pressurizing it and discharging it to the outlet 4. do.

Since the medium pressure pump configured as described above inhales the fluid using the volute impeller 10 having a large flow rate, and pressurizes and discharges the fluid using the cascade impeller 12, the flow rate is higher than that of the conventional cascade pump. Compared with the volute pump, it has a higher exposure pressure. However, due to the resistance generated when the fluid sucked by the volute impeller 10 passes through the cascade impeller 12, the flow rate is lower than when only the volute impeller 10 is used, and a large amount of fluid Is discharged to the discharge port 4 in a state that is not sufficiently pressurized by the cascade impeller 12, there is a feature that the discharge pressure is lower than when using only the cascade impeller 12, this feature is intended for the purpose of the present application It is most bonded to the pump for medium pressure. In particular, the volute impeller 10 and the cascade impeller 12 has a synergistic effect, there is an advantage that the efficiency is higher than the conventional cascade pump and the volute pump.

As described above, according to the present invention, by simultaneously mounting the volute impeller and the casted impeller inside the housing in which the inlet and outlet are formed, the discharge structure is higher than that of the volute pump and the flow rate is higher than that of the cascade pump. Can provide a pump for medium pressure.

Claims (1)

A housing 6 having a suction port 2 formed at a front surface thereof, and a discharge hole 4 formed at one side thereof, a drive shaft 8 connected to a drive motor mounted inside the housing 6, and the housing 6. It is coupled to the drive shaft (8) to be adjacent to the inlet (2) of the volute impeller (10) for sucking the fluid through the inlet (2) and the rotation so as to be adjacent to the outlet (4) of the housing (6) And a cascade impeller (12) coupled to the drive shaft (8) and configured to pressurize the fluid sucked into the volute impeller (10) and discharge it to the outlet (4).