KR102302048B1 - How to adjust the installation angle of the impeller for the submersible pump - Google Patents

Abstract

The present invention relates to a method for adjusting the installation angle of an impeller for a submersible pump and, more specifically, to a method for adjusting the installation angle of an impeller for a submersible pump, which can minimize trial and error depending on the number of tests performed to satisfy the conditions in the specification through a design method that considers various variables, in adjusting the installation angle of an impeller forming a pump. The method for adjusting the installation angle of a plurality of impellers for a submersible pump, installed with respect to a hub comprises the steps of: (S1) calculating an initial installation angle under various design conditions according to given specifications (lift, flow rate, efficiency); (S2) manufacturing a pump by installing an impeller on a hub based on the calculated initial installation angle; (S3) testing the manufactured pump; (S4) verifying whether the test results satisfy the given specifications; (S5) adjusting the installation angle until the test results satisfy the given specifications if the test results do not satisfy the given specifications; (S6) completing verification through the adjusted installation angle; (S7) storing, in a database, the error between the final installation angle and the initial installation angle for which the verification is completed; (S8) constructing a formula by using regression analysis based on the data in the database; and (S9) using the formula to calculate the initial installation angle.

Description

How to adjust the installation angle of the impeller for the submersible pump

The present invention relates to a method for adjusting the installation angle of an impeller for a submersible pump, and more specifically, in adjusting the installation angle of an impeller constituting the pump, it is implemented to satisfy the conditions in the specification through a design method that considers various variables This is a technique for adjusting the installation angle of an impeller for a submersible pump that minimizes trial and error depending on the number of tests performed.

In general, a pump plays a role in pumping up water from a low position in a pumping plant or a drainage plant to the upper part and supplying it to a necessary area. Structurally, such a pump is largely composed of a suction casing, a discharge casing, and an impeller.

Among them, the impeller is a component that plays the most important role in moving the fluid to a high place or a far place by applying pressure and speed to the suction fluid in the function of the pump, and is a major design factor.

That is, in the design of the pump, as shown in FIG. 1, the impeller cross-sections of 0% span, 50% span, and 100% span of the impeller according to the degree of proximity to the hub are as follows. At this time, if one impeller is manufactured through casting, the cross section of 0% span is in contact with the hub during the assembly process.

In this impeller design, the conditions of the specification are given first, and the installation angle is calculated by first designing the impeller according to the conditions of the specification. Based on the calculated contents, the impeller is manufactured and assembled with the hub. Then, it will be tested whether the manufactured pump satisfies the conditions of the specification.

However, in many cases, the pump design results derived from calculations do not satisfy the specification requirements. For this reason, it is very difficult to match the design results and test results.

In addition, as a result of the performance test, if the lift, efficiency, and discharge flow rate do not satisfy the specifications, the pump may be redesigned and remanufactured. Thus, the specification requirements are satisfied.

In general, when the installation angle of the pump increases, the pressure applied to the fluid by one impeller blade increases, and thus the lift increases. Conversely, however, the efficiency tends to decrease. Conversely, if the installation angle of the pump decreases, the lift decreases but the efficiency increases.

Therefore, if the manufactured pump does not satisfy the specification condition, the pump installation angle is adjusted. As described above, lift and efficiency are in inverse proportion to each other.

Moreover, until now, the adjustment of the impeller installation angle has been simply made based on experience, and since there are so many variables that affect the performance, many trials and errors have to be done, which inevitably causes a lot of time and labor wasted. none. And since the data obtained through trial and error could not be used properly, inefficient designs such as repeated trial and error for each pump design have been made.

Republic of Korea Patent No. 10-1679186 Republic of Korea Patent Registration No. 10-0719103 Republic of Korea Patent Registration No. 10-1808076

The present invention has been devised to solve the above problems, and using the error between the impeller installation angle obtained through the calculation formula and the impeller installation angle that satisfies the specification conditions through testing, the impeller installation angle is finally determined through an optimal calculation By calculating, it aims to provide a method for adjusting the installation angle of an impeller for a submersible pump that can minimize trial and error and reduce loss of time and labor.

The present invention relates to a method for adjusting the installation angle of an impeller for a submersible pump in which a plurality of impellers are installed around a hub. Calculating the initial installation angle as a design condition (S1), installing the impeller on the hub based on the calculated initial installation angle to manufacture the pump (S2), and testing the manufactured pump (S3) ), verifying whether the test result meets a given specification (S4), and if it does not meet the given specification by the verification, adjusting the installation angle until it is satisfied (S5), and the adjusted Completing the verification through the installation angle (S6), databaseizing the error between the final installation angle and the initial installation angle for which the verification is completed (S7), and a calculation formula using regression analysis based on the databased data It is characterized in that it consists of a step (S8) of configuring the , and a step (S9) of applying the calculation formula to the calculation of the initial installation angle.

In the present invention, by designating the installation angle error as a dependent variable, converting it into a database, and finally calculating the impeller installation angle using a regression analysis equation, the impeller installation angle adjustment, which had to undergo a lot of trial and error, is finally completed with just one test. The installation angle can be calculated, and there is an effect of minimizing trial and error and reducing time and labor loss.

In the present invention, since the calculation is made based on the database, the accuracy of the database is improved as the design of the pump is repeated, so that more accurate result values are calculated.

1 is a view for understanding the impeller installation angle;
Figure 2 is a block diagram showing a method for adjusting the installation angle of the impeller for a submersible pump of the present invention
3 is an exemplary view for finally calculating the impeller installation angle using multiple regression analysis in the method of adjusting the installation angle of the impeller of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The present invention relates to a method for adjusting the installation angle of an impeller for a submersible pump in which a plurality of impellers are installed around a hub, wherein the 'impeller installation angle' is 0 depending on the degree of proximity to the hub around the hub as shown in FIG. It is divided into % span, 50% span, and 100% span, which means the angle formed by the cross section of the impeller corresponding to the 0% span closest to the hub with the hub.

The present invention is to adjust the installation angle of the impeller finally assembled and installed on the hub. Specifically, as shown in FIG. 2, the initial installation angle is adjusted according to various design conditions according to the given specifications (lift, flow rate, efficiency). Calculating (S1), installing the impeller to the hub based on the calculated initial installation angle to manufacture a pump (S2), and testing the manufactured pump (S3), and the test result is Step (S4) of verifying whether it meets the given specification, and if it does not meet the given specification by the verification, the step of adjusting the installation angle until it is satisfied (S5), and verification is completed through the adjusted installation angle step (S6), databaseizing the error between the final installation angle and the initial installation angle for which the verification is completed (S7), and constructing a calculation formula using regression analysis based on the databased data (S8) and, applying the calculation formula to calculating the initial installation angle (S9).

The step of calculating the initial installation angle (S1) is a process of calculating the initial installation angle under various design conditions in order to meet the given specifications (head, flow rate, efficiency). The specifications given above correspond to the specifications of the pump requesting company, and the calculation method is made according to the general design method, and the design conditions include pump discharge diameter, design lift, design flow rate, design pump efficiency, and design power. do.

A feature of the present invention is that the process of calculating the initial installation angle is continuously supplemented. In other words, by making a database based on the results obtained through trial and error, composing it as a calculation formula, and applying the calculated formula in this way to calculating the initial installation angle, the pump design is repeatedly performed to calculate the initial installation angle. In this case, the accuracy can be further increased.

The step (S2) of manufacturing the pump is a process of manufacturing the test pump by installing the impeller to the hub using the calculated initial installation angle.

Then, it goes through a step (S3) of testing the manufactured pump, and it is determined whether the test result satisfies the given specifications in the step (S4) of verifying. At this time, if the given specifications are satisfied at once, the verification can be carried out without going through the step (S5) of adjusting the installation angle (S7), but most of the pumps manufactured through the initial installation angle do not meet the given specifications. Since it is very difficult, a step (S5) of adjusting the installation angle is performed.

The step of adjusting the installation angle ( S5 ) is a process of repeatedly re-adjusting the installation angle until it is satisfied when the specification given by verification is not satisfied. Then, the final installation angle is obtained through the step S6 of completing the verification through the adjusted installation angle.

As described above, the present invention can be iteratively readjusted to meet the given specifications, but by using the data obtained through this process, the future readjustment process is minimized or omitted, thereby solving the problem of the installation angle readjustment.

And the step of converting the error into a database (S7) is to store the error of the final installation angle and the initial installation angle for which the verification is completed as data. That is, by storing the difference value between the correct final installation angle and the less accurate initial installation angle as data, the accuracy of the initial installation angle is increased in a way that the error is gradually reduced.

Constructing a calculation formula using the regression analysis (S8); is to configure the calculation formula based on the databased data. The independent variable applied to the above formula consists of the discharge diameter of the pump, the design lift, the design flow rate, the design pump efficiency, and the design power.

In addition, in the step (S8) of constructing a calculation formula using the regression analysis of the present invention; it is characterized in that the installation angle error value is calculated through a multiple regression analysis in which the independent variable composed of several items is substituted into one calculation formula. . Rather than simply determining the installation angle error based on the difference between the final installation angle and the initial installation angle, a more accurate type of installation angle error value is calculated using multiple regression analysis.

The multiple regression equation for calculating the installation angle error value (Y) is Y = a*X1+b*X2+c*X3+d*X4+e*X5+f as shown in FIG. 3 . In this case, Y=Installation angle error value (°), X1=Pump discharge diameter (mm), X2=Design lift (m), X3=Design flow rate (m ³ /min), X4=Design pump efficiency, X5=Design Power (kW), a, b, c, de: coefficient, f = intercept [截片].

In this way, by calculating by putting all the independent variables in one multiple regression analysis, a calculation formula with high accuracy is completed without calculating and synthesizing each item of each independent variable individually.

Then, in the step (S9) of applying to the calculation of the initial installation angle; to change the calculation of the initial installation angle through the thus obtained calculation formula. Accurate installation angle calculation is made by adding the installation angle error value obtained through the multiple regression equation to the initial installation angle.

In the present invention, the error between the initial installation angle and the final installation angle is gradually reduced every time the multiple regression equation is repeated, and finally, only by calculating the initial installation angle, the impeller installation angle can be accurately designed without going through an intermediate process. There is an effect of minimizing trial and error and consequently reducing time and labor loss.

Although the present invention has been described above with reference to the above embodiments, it goes without saying that various modifications are possible within the scope of the technical spirit of the present invention.

S1 ~ S7 : How to adjust the installation angle of the impeller for submersible pumps

Claims (3)

In the method of adjusting the installation angle of an impeller for a submersible pump in which a plurality of impellers are installed around a hub,
The installation angle of the impeller finally assembled and installed on the hub is,
Calculating the initial installation angle under various design conditions according to the given specifications (lift, flow rate, efficiency) (S1);
A step of manufacturing the pump by installing the impeller to the hub based on the calculated initial installation angle (S2);
Testing the manufactured pump (S3) and;
verifying whether the test result satisfies a given specification (S4);
If it does not meet the specifications given by the verification, adjusting the installation angle until it is satisfied (S5);
Completing verification through the adjusted installation angle (S6);
A step of databaseizing the error between the final installation angle and the initial installation angle for which the verification is completed (S7);
A step (S8) consisting of a calculation formula using regression analysis based on the databased data, wherein the independent variables are the discharge diameter of the pump, the design lift, the design flow rate, the design pump efficiency, and the design power;
Impeller installation angle adjustment method for a submersible pump, characterized in that it consists of; applying the calculation formula to the calculation of the initial installation angle (S9)






delete delete

Images