CN1580577A - Method for designing low-rate revolution centrifugal pump impeller - Google Patents

Abstract

This invention relates to a vane wheel designing method for a low ratio revolution certrifugal pump used in the behavior of low ratio revolution of high ratio revolution namely high delivery lift small flow characterizing in namely low delivery lift big flow linking the geometric parameters of the vane and the designed behavior point performance by several new relation formulas to reach the designing result of coincidence of the used situation of the design and the behavior of the maximum efficiency point and the power maximum point.

Description

A kind of low specific speed centrifugal pump impeller design method

Affiliated technical field

The present invention relates to a kind of design method of non-varactor pump major part, especially mainly being to use under the high-lift low flow rate condition in the low specific speed operating mode, will be the impeller design method of the low specific speed centrifugal pump that uses under the low lift and large flow rate operating mode in high specific speed operating mode also.

Background technique

At present, the impeller design method of known low specific speed centrifugal pump, all reduce impeller diameter as far as possible under the requirement of water pump design conditions lift and improve pump efficiency satisfying, thereby bigger impeller outlet width and blade outlet angle arranged, can only guarantee that centrifugal pump is that high-efficiency reliable is used under the high-lift low flow rate condition in the low specific speed operating mode, if in high specific speed operating mode is to use under the low lift and large flow rate operating mode, will power overload and burn out motor.But a lot of low specific speed centrifugal pumps, especially small-sized submersible pump and household centrifugal pump generally all can mobile places to use, and use today under the low specific speed operating mode, and may use under high specific speed operating mode tomorrow.The low specific speed centrifugal pump that this just requires us to design, can use in high-efficiency reliable under the high-lift low flow rate condition again can the overload free use of safety under the low lift and large flow rate operating mode.

For this reason, No. 89212885.2 patents of the patented technology that has earlier " the involute impeller that is used for rotary type fluid machine " and No. 90214606.8 patents " a kind of nothing overload low specific speed centrifugal pump impeller ", some new design method have been proposed, it mainly is the method that reduces impeller outlet angle and discharge area, but still there are following three problems in these two patented technologies: 1. there is bigger distance the position of peak output operating point and design conditions point position, also might overload at applying working condition; 2. subtended angle of blade is too big or the runner gap is too little, has increased difficulty to casting technique; 3. do not change the design method of blade import, often will add the import angle of attack, the peak efficiency operating mode that makes water pump is partial to big flow and design power efficiency is on the low side.

Summary of the invention

In order to overcome the deficiency of existing low specific speed centrifugal pump impeller design method, the invention provides a kind of new low specific speed centrifugal pump impeller design method, the lift that not only satisfies the water pump design conditions with the impeller geometric parameter of the present invention design requires and raises the efficiency the requirement with suitable for casting, also satisfies the requirement that design conditions point also is the peak output operating point.Thereby the low specific speed centrifugal pump that designs with the present invention not only can high-efficiency reliable use under high-lift low flow rate condition, can also guarantee the overload free use of safety under the low lift and large flow rate operating mode of this pump.

Technological scheme of the present invention is:

1. when design low specific speed centrifugal pump impeller, be the design conditions of pump that the applying working condition and the best efficiency point operating mode of flow lift is designed to overlap with power maximum point operating mode.

Its method is: the relation that is fit to following equation between the design conditions point performance parameter of the geometric parameter of blade exit and pump:

Q _p＝0.086?n?b ₂?D ₂ ²tgβ ₂(1-3.1416sin?β ₂/Z)[1-S ₂Z/(3.1416D ₂sinβ ₂)]

H _p＝0.0037n?D ₂{0.0524nD ₂-Q _p/(2.83D ₂?b ₂tgβ ₂)/[1-S ₂Z/(3.1416D ₂sinβ ₂)]}

P _max＝9806?Q _p?H _p/η _p

In the formula: Q _pThe flow of-design conditions, rice ³/ second;

H _pThe lift of-design conditions, rice;

P _MaxThe pump power of-design conditions also is a power maximum in all operating modes, watt;

η _pThe pump efficiency of-design conditions also is the peak efficiency in all operating modes, %;

N-wheel speed, rev/min;

b ₂-impeller blade exit width, rice;

D ₂The outside diameter of-impeller blade, rice;

β ₂The outlet laying angle of-impeller blade, degree;

The number of blade of Z-impeller, individual;

S ₂The vane thickness in-impeller blade outlet port, rice.

Subtended angle of blade is not claimed in above relation, can arbitrarily control cornerite when therefore designing does not influence casting.The accurate calculating of pump efficiency also is unable to handle at present, but the pump efficiency η of design conditions _pThe peak efficiency that is designed in all operating modes is accomplished easily, and the measure that blade import laying angle is proposed in the 3rd below especially is highly effective.

2. from above-mentioned design method, can see the outlet laying angle β of impeller blade ₂Important function, but β ₂Be subjected to the outlet laying angle β of front side of vane ₂' and the outlet laying angle β of vacuum side of blade ₂" restriction.When design low specific speed centrifugal pump impeller, the outlet laying angle β of front side of vane ₂' be designed to 0 degree, the outlet laying angle β of vacuum side of blade ₂" be designed to 2 β ₂Degree, the outlet laying angle β of impeller blade ₂=(β ₂'+β ₂")/2 can obtain good design effect.

3. when design low specific speed centrifugal pump impeller, is the design conditions of pump the operating mode that the applying working condition of flow lift is designed to blade entrance loss minimum, its method is: the import laying angle of impeller blade working surface and the import laying angle of vacuum side of blade equate, all equal β ₁And the relation of suitable equation:

β ₁＝arctg{Q _p/(0.164?D ₁ ²n?b ₁)/[1-(S ₁Z)/(3.1416?D ₁sinβ ₁)]}

In the formula: Q _pThe flow of-design conditions, rice ³/ second;

N-wheel speed, rev/min;

b ₁-impeller blade entrance width, rice;

D ₁The interior circular diameter of-impeller blade, rice;

β ₁The import laying angle of-impeller blade, degree;

The number of blade of Z-impeller, individual;

S ₁The vane thickness of-impeller blade inlet, rice.

She Ji essence is exactly that the import laying angle of impeller blade is designed to equate (anomaly adding the angle of attack) with the import flow angle of water pump design conditions like this, reaches water pump at design conditions pump efficiency supreme good.

The invention has the beneficial effects as follows that the lift that not only satisfies the water pump design conditions with the impeller geometric parameter of the present invention design requires and raise the efficiency the requirement with suitable for casting, also satisfies the requirement that design conditions point also is the peak output operating point.Thereby the low specific speed centrifugal pump that designs with the present invention not only can high-efficiency reliable use under high-lift low flow rate condition, can also guarantee the overload free use of safety under the low lift and large flow rate operating mode of this pump.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is the impeller axial plane sectional view of one embodiment of the invention.

Fig. 2 is same embodiment's impeller blade figure (throwing off the paddle wheel plane sectional view of seeing from front shroud of impeller towards back shroud of impeller behind the front shroud of impeller).

Among the figure: 1. front shroud of impeller, 2. back shroud of impeller, 3. impeller blade entrance width b ₁, 4. impeller blade exit width b ₂, the 5. interior circular diameter D of impeller blade ₁, the 6. outside diameter D of impeller blade ₂, 7. blade, 8. front side of vane, 9. vacuum side of blade, the 10. import laying angle of front side of vane, the import laying angle of 11. vacuum side of blades, the vane thickness S of 12. impeller blade inlets ₁, the outlet laying angle β of 13. front side of vanes ₂', the outlet laying angle β of 14. vacuum side of blades ₂", the outlet laying angle β of 15. impeller blades ₂, the vane thickness S in 16. impeller blade outlet ports ₂, 17. subtended angle of blades.

Embodiment

Fig. 1 and Fig. 2 have determined this embodiment's impeller shape jointly.It is the same with most of centrifugal pump impellers, has front shroud of impeller (1) and back shroud of impeller (2), is a kind of double shrouded wheel.If do not have front shroud of impeller and back shroud of impeller very little, promptly make semi-open type or unshrouded impeller, do not influence enforcement of the present invention, because the present invention's control is the parameter of blade (7) yet.In the drawings, the convex surface of blade is front side of vane (8) again, and the concave surface of blade is vacuum side of blade (9) again, and present embodiment is front side of vane outlet laying angle β ₂' (13) are designed to 0 degree, and this can be from β ₂' two arms of angle and the angle on the 3rd limit all be that 90 degree come the outlet laying angle β of vacuum side of blade as can be seen ₂" (14) are designed to 2 β ₂Degree, so the outlet laying angle β of impeller blade ₂=(β ₂'+β ₂")/2.The present invention adjusts impeller blade exit width b by following relation ₂(4), the outside diameter D of impeller blade ₂(6), the outlet laying angle β of impeller blade ₂(15), the vane thickness S in impeller blade outlet port ₂(16) and the number of blade Z of impeller, make this embodiment's pump performance satisfy our flow Q to design conditions _p, design conditions lift H _pPump power P with design conditions _MaxDesigning requirement when wheel speed is n.

Q _p＝0.086?n?b ₂?D ₂ ²tgβ ₂(1-3.1416sinβ ₂/Z)[1-S ₂Z/(3.1416D ₂sinβ ₂)]

H _p＝0.0037n?D ₂{0.0524nD ₂-Q _p/(2.83D ₂?b ₂tgβ ₂)/[1-S ₂Z/(3.1416D ₂sinβ ₂)]}

P _max＝9806?Q _pH _p/η _p

This embodiment's water pump will be less than the power P of design conditions at the power of other applying working conditions _Max

In the drawings, the import laying angle (10) of front side of vane and the import laying angle (11) of vacuum side of blade equate, all equal β ₁And with impeller blade entrance width b ₁(3), the interior circular diameter D of impeller blade ₁(5) and the vane thickness S of impeller blade inlet ₁(12) be fit to the relation of equation jointly:

β ₁＝arctg{Q _p/(0.164?D ₁ ²n?b ₁)/[1-(S ₁Z)/(3.1416?D ₁sinβ ₁)]}

Like this design just can guarantee this embodiment water pump in the import liquid stream of design conditions and the impact loss minimum of inlet side, be the applying working condition of flow lift and the purpose of best efficiency point operating mode coincidence thereby reach the design conditions of pump.

In this embodiment, subtended angle of blade (17) is designed to about 90 degree, and casting and sand removal are all than being easier to.

Claims (3)

1. low specific speed centrifugal pump impeller design method, it is according to the flow Q of pump to design conditions _p, design conditions lift H _pPump power P with design conditions _MaxDesigning requirement when wheel speed is n, come the geometric parameter of designing and calculating impeller blade, it is characterized in that: is design conditions that the applying working condition and the best efficiency point operating mode of flow lift is designed to overlap with power maximum point operating mode, promptly is fit to the relation of following equation between the design conditions point performance parameter of the geometric parameter of impeller outlet and pump:

Q _p＝0.086nb ₂D ₂ ²tgβ ₂(1-3.1416sinβ ₂/Z)[1-S ₂Z/(3.1416D ₂sinβ ₂)]

H _p＝0.0037nD ₂{0.0524nD ₂-Q _p/(2.83D ₂b ₂tgβ ₂)/[1-S ₂Z/(3.1416D ₂sinβ ₂)]}

P _max＝9806Q _pH _p/η _p

In the formula: Q _pThe flow of-design conditions, rice ³/ second;

H _pThe lift of-design conditions, rice;

P _MaxThe pump power of-design conditions also is a power maximum in all operating modes, watt;

η _pThe pump efficiency of-design conditions also is the peak efficiency in all operating modes, %;

N-wheel speed, rev/min;

b ₂-impeller blade exit width, rice;

D ₂The outside diameter of-impeller blade, rice;

β ₂The outlet laying angle of-impeller blade, degree;

The number of blade of Z-impeller, individual;

S ₂The vane thickness in-impeller blade outlet port, rice.

2. a kind of low specific speed centrifugal pump impeller design method as claimed in claim 1 is characterized in that: the outlet laying angle β of the impeller vane of centrifugal pumps working surface of design ₂' be 0 degree, the outlet laying angle β of vacuum side of blade ₂" be 2 β ₂Degree;

3. a kind of low specific speed centrifugal pump impeller design method as claimed in claim 1 is characterized in that: the import laying angle of the impeller vane of centrifugal pumps working surface of design and the import laying angle of vacuum side of blade equate, all equal β ₁And the relation of suitable equation:

β ₁＝arctg{Q _p/(0.164D ₁ ²nb ₁)/[1-(S ₁Z)/(3.1416D ₁sinβ ₁)]}

In the formula: Q _pThe flow of-design conditions, rice ³/ second;

N-wheel speed, rev/min;

b ₁-impeller blade entrance width, rice;

D ₁The interior circular diameter of-impeller blade, rice;

β ₁The import laying angle of-impeller blade, degree;

The number of blade of Z-impeller, individual;

S ₁The vane thickness of-impeller blade inlet, rice.