KR100841958B1 - Pump that have cavitation prevention function - Google Patents

Abstract

A pump having a cavitation prevention function is provided to smoothly supply liquid and increase a suction head by preventing cavitation generated inside a main body of the pump. A pump(100) having a cavitation prevention function includes a main body(10), a driving motor(M), and an impeller(P). The main body has a suction pipe(12) at a suction passage(11) and a discharge pipe(14) at a discharge passage(13). The driving motor is installed on one side of the main body. The impeller for water pumping is rotatably installed inside the main body. The pump further includes a circulation passage(13a) to feed back some liquid discharged from the discharge passage inside the main body and an elbow type circulation pipe(15) connected to the circulation passage.

Description

Pump that has cavitation prevention function

The present invention relates to a pump, and more particularly, in an underwater or onshore pump, to prevent cavitation caused by the operation of the pump to prevent efficient cavitation and to extend the service life of the pump. It relates to a pump having a function.

Commonly used pumps are equipment for extracting groundwater from areas where water facilities are vulnerable, and are largely divided into submersible pumps and land pumps.

Although the design of internal components is slightly different depending on the installation location and the fluid to be delivered, the structure for pumping fluid is basically the same.

For example, a machine that sucks or moves a liquid or gas through pressure, is divided into a reciprocating pump, a rotary pump, an axial pump, a jet pump, and the like, and installed and used according to a use range.

Representative submersible pumps and land pumps in the operation, the bubbles are generated in the fluid to be pumped, the cavitation (cavitation) action occurs according to these bubbles generated.

The cavitation is boiled when the nutrient solution is water at 100 ℃ but this is a phenomenon under a pressure of 1 atm, when the pressure is lowered the boiling point is 100 ℃ or less and if the pressure is further lowered, the phenomenon of boiling occurs at room temperature later. This is the principle that there is a corresponding saturated vapor pressure according to the liquid temperature and bubbles are generated by the pressure of the liquid evaporating inside. For example, even in a pump for pumping liquid, the pressure is locally lowered below the saturated steam pressure due to a sudden change in flow velocity, generation of vortices, or an obstacle in a flow path, thereby generating bubbles.

This phenomenon occurs mainly at the inlet of the impeller (hereinafter referred to as the impeller) in the pump. The rotary car has an angled groove in the inner side to have a pumping effect, but such a structure causes cavitation to occur even at the moment of pumping, affecting the impeller, and the noise is severely generated.

When the cavitation occurs, the bubbles generated move along with the flow of the liquid, and suddenly collapse at high pressure, causing the performance of the pump to deteriorate, which causes pulsation (vibration, noise) and later pumping becomes impossible. There was a problem.

As described above, if the cavitation operation is continued, damage to the table occurs due to repeated shocks generated when the bubble bursts, resulting in a huge physical loss by shortening the life of the pump.

The present invention has been made to solve the above problems, the object of the present invention is to suppress the cavitation (Cavitation) generated during the operation of the pump to improve the pump performance and to extend the service life of the pump.

According to the present invention for achieving the above object, the suction pipe is installed on the suction passage side for pumping, the drive motor is installed from one side of the main body provided with the discharge tube on the discharge passage side, the pumping impeller in the main body from the drive motor In the rotatable underwater or land pump, a circulation passage for feeding back some of the liquid discharged from the discharge passage in the main body is provided, and an elbow type circulation pipe is connected and installed from the circulation passage. The other end of the pipe is connected to the suction passage side and is connected to the connecting tube for dissipating bubbles contained in the liquid by increasing the liquid flow rate sucked, the connecting tube is a portion of the suction pipe connected to the suction passage side of the main body Characterized in that it is installed to be received.

In another aspect, the present invention, the suction pipe is provided on the suction passage side for pumping, the drive motor is installed from one side of the main body provided with the discharge tube on the discharge passage side, the pumping impeller is rotatably installed in the main body from the drive motor or In the land pump, a circulation passage for feeding back some of the liquid discharged from the discharge passage on the main body is provided in the main body, and an elbow type circulation pipe is connected and installed from the circulation passage on the other end of the circulation tube. The nozzle is provided at one side and connected to the nozzle tube for extinguishing the bubbles contained in the liquid phase by increasing the flow velocity of the liquid circulated, and one side is connected to the suction passage side of the main body while accommodating the nozzle of the nozzle tube. And, the other side is characterized in that it is configured to be connected to the connection pipe is connected to the suction pipe is installed.

In the present invention, a submersible pump or a land pump is commonly used, in which a liquid is pumped from the suction pipe side by suction through the impeller rotation by a driving motor, and a part of the pump is discharged to the discharge pipe through a circulation passage provided on the discharge passage. Cavitation generated in the pump body by dissipating air bubbles contained in the liquid by joining the liquid side flowing from the suction pipe through the nozzle pipe provided with the circulation pipe, the connecting pipe or the nozzle pipe provided with the nozzle to have a faster flow rate. It can prevent the action to smooth the liquid supply, improve the performance of the pump and extend the life.

As a result, cavitation does not occur, so the suction head is high, and vibration and noise are not generated, so the life of the pump can be extended and various installation conditions can be satisfied. It can be operated in the water supply and sewage treatment device that supplies it, which is advantageous in various field installations.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 is a longitudinal sectional view showing a submerged cavitation prevention function is applied to the present invention, Figures 3 and 4 is a longitudinal sectional view showing a land pump to which the cavitation prevention function is applied according to the present invention, Figure 5 Is a longitudinal sectional view showing an embodiment of the discharge passage formed in the main body of the pump according to the present invention.

In the present invention, as shown in Figure 1 and Figure 3 attached, the suction pipe 12 is provided on the suction passage 11 side for pumping, the main body provided with the discharge tube 14 on the discharge passage 13 side (10) In the submersible or on-shore pump 100 is installed from one side of the drive motor (M), the pumping impeller (P) rotatably installed in the main body 10 from the drive motor (M), the main body ( A circulation passage 13a for feeding back a part of the liquid discharged from the discharge passage 13 in the 10) is provided, and an elbow type circulation tube 15 is connected to and installed from the circulation passage 13a.

The other end of the circulation pipe 15 is connected to the suction pipe 11 to be connected to the connection pipe 16 for dissipating bubbles contained in the liquid by increasing the flow rate of the suction liquid.

In addition, the connecting pipe 16 is installed to accommodate a portion of the suction pipe 12 connected to the suction passage 11 side of the main body 10.

The diameter of the connecting tube 16 for receiving a portion of the suction pipe 12 is formed with a ramp 16a having a predetermined distance from the outer periphery of the suction pipe 12 to circulate the flow rate of the liquid sucked from the suction pipe side It is configured to increase speed as discharge rate.

On the other hand, the submersible pump and the land pump according to the present invention, as shown in Figure 2 and 4 attached, the suction pipe 12 is installed on the suction passage 11 side for pumping, the discharge passage 13 side A driving motor M is installed from one side of the main body 10 provided with the discharge pipe 14, and an underwater pump or land pump in which the pumping impeller P is rotatably installed in the main body 10 from the driving motor M. 100, a circulation passage 13a is provided in the main body 10 to feed back some of the liquid pumped from the discharge passage 13, and an elbow type circulation is provided on the circulation passage 13a. The pipe 15 is connected and installed.

In addition, the other end of the circulation pipe 15 is provided with a nozzle (N) on one side is connected to the nozzle pipe body 17 for increasing the flow rate of the liquid circulated to dissipate bubbles contained in the liquid.

And, while accommodating the nozzle (N) of the nozzle pipe 17, one side is connected to the suction passage 11 side of the main body 10, the other side is connected to the suction pipe 12, the connection pipe 16 is installed Interconnected with and configured.

On the other hand, the circulation passage 13a provided on the discharge passage 13 on the main body 10 side is formed to be inclined in the reverse direction exiting the discharge passage. This is formed so that the flow of residual bubbles that already escape to the discharge passage 13 is not easily introduced to the circulation passage (13a) side.

The nozzle N provided in the nozzle tube 17 is preferably formed in the cross-sectional area of the venturi tube shape as shown.

Referring to the operation of the pump having a cavitation prevention function of the present invention configured as described above are as follows.

First, the liquid from the suction pipe 12 through the suction passage 11 of the main body 10 according to the operation of the submersible pump or land pump 100 for pumping the impeller (P) is connected to the drive motor (M) is rotated The pumping action is made to the), and is discharged to the discharge pipe 14 through the discharge passage (13).

In the pumping action as described above, the discharged liquid is partially introduced into the circulation passage 13a provided in the discharge passage 13 and is connected to the suction passage 11 side of the main body 10 from the circulation passage ( 15), through the connecting body 16 to circulate a part of the liquid to be reversed.

The liquid circulated backward through the connecting pipe 16 is an average of the liquid supplied from the suction pipe while passing through the ramp 16a narrowly formed at a predetermined interval with respect to the suction pipe 12 so that the flow velocity can proceed rapidly. Pumping is done by applying a flow rate faster than the flow rate.

Normally, bubbles contained in the liquid are included in the liquid phase as a change in flow rate that is joined along the slope 16a of the connecting pipe 16 as described above at the point of reaching the impeller P at the time of passing through the suction pipe 12. The relatively large bubbles are blown, and the size of the bubbles is subdivided to such an extent that it does not affect.

 As described above, pumping is continuously performed through the impeller P in a state where bubbles are destroyed, thereby smoothly flowing a liquid having a flow rate, and aka water hammering phenomenon (water hammer) to significantly reduce noise and vibration. I can give it.

That is, by preventing the cavitation action as described above, it improves the performance of the pump 100, as well as helps to extend the life of the pumping.

The cavitation prevention action as described above can satisfy the above conditions according to the installation of the nozzle body 17 and the nozzle N, which are equally applied to the submersible pump of FIG. 2 and the land pump of FIG. 3. .

This increases the flow rate through the nozzle on the nozzle pipe side while passing through the connecting pipe 16 and the nozzle pipe 17 through the circulation passage 13a on the discharge passage 13 on the main body 10 side of the pump 100. The same effect as described above can be obtained by detonating bubbles of the liquid phase flowing from the suction pipe 12 side to prevent the cavitation action.

On the other hand, Figure 5 is attached to improve the circulation passage (13a) provided on the discharge passage 13 of the main body 10 side of the pump 100, finally through the discharge passage, a part is introduced into the circulation passage, In part, the water is discharged through the discharge pipe, and the flow of fine residual bubbles contained in the liquid does not go through the circulation passage, and only pure liquid is circulated through the connecting pipe to create a smoother flow of the liquid. It is possible to suppress the cavitation action such as

By preventing the cavitation effect as described above, the pumping efficiency of the pump and the water hammer is reduced to help extend the life of the pump.

1 and 2 is a longitudinal sectional view showing an underwater pump to which the present invention is applied cavitation prevention function,

3 and 4 are longitudinal sectional view showing a land pump to which the cavitation prevention function is applied according to the present invention;

Figure 5 is a longitudinal sectional view showing one embodiment of the discharge passage formed in the main body of the pump according to the present invention.

◎ Explanation of code for main part of drawing ◎

10: main body 11: suction passage

12: suction line 13: discharge passage

13a: circulation passage 14: discharge tube

15: circulation tube 16: connector

16a: ramp 17: nozzle pipe

N: nozzle M: drive motor

P: impeller

Claims (5)

The suction tube 12 is installed on the suction passage 11 side for pumping, and the driving motor M is installed from one side of the main body 10 provided with the discharge tube 14 on the discharge passage 13 side. In the submersible or land pump (100) rotatably installed pumping impeller (P) in the main body (10) from (M), A circulation passage 13a for feeding back some of the liquid discharged from the discharge passage 13 in the main body 10 is provided, and an elbow type circulation tube 15 is connected and installed from the circulation passage 13a. The other end of the circulation pipe 15 is connected to the suction pipe 11 and installed to be connected to the connecting pipe 16 for dissipating bubbles contained in the liquid by increasing the flow rate of the sucked liquid. 16 is a pump having a cavitation prevention function, characterized in that a portion of the suction pipe 12 connected to the suction passage 11 side of the main body 10 is installed to be accommodated. According to claim 1, wherein the diameter of the connecting pipe 16 for receiving a portion of the suction pipe 12 is formed with an inclined path 16a having a predetermined distance from the outer periphery of the suction pipe 12 of the liquid sucked from the suction pipe side The pump having a cavitation prevention function, characterized in that configured to increase the flow rate as the discharge rate of the circulating liquid. The suction tube 12 is installed on the suction passage 11 side for pumping, and the driving motor M is installed from one side of the main body 10 provided with the discharge tube 14 on the discharge passage 13 side. In the submersible or land pump (100) rotatably installed pumping impeller (P) in the main body (10) from (M), A circulation passage 13a is provided in the main body 10 to feed back a part of the liquid discharged from the discharge passage 13, and an elbow type circulation tube 15 is provided on the circulation passage 13a. It is connected and installed, the other end of the circulation pipe 15 is provided with a nozzle (N) on one side to increase the flow rate of the circulating liquid to be connected to the nozzle pipe body 17 for extinguishing the bubbles contained in the liquid, One side is connected to the suction passage 11 side of the main body 10 while accommodating the nozzle N of the nozzle tube 17, and the other side is connected to the connecting tube 16 connected to the suction tube 12. A pump having a cavitation prevention function, characterized in that the connection is installed. The pump having a cavitation prevention function according to claim 3, wherein the circulation passage (13a) provided on the discharge passage (13) on the main body (10) side is inclined in a reverse direction exiting the discharge passage. 4. The pump having a cavitation prevention function according to claim 3, wherein the nozzle (N) is formed in a cross-sectional area of a venturi tube shape.

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