KR101231662B1 - Pump equipped with impeller for increasing lift efficiency and discharge rate - Google Patents

Abstract

PURPOSE: A pump with an impeller for increasing pumping efficiency and a discharging amount is provided to enlarge a friction area between a rotating blade and fluid, thereby enhancing the discharging pressure of the pump. CONSTITUTION: A pump with an impeller for increasing pumping efficiency and a discharging amount comprises a pump housing unit(10) and the impeller. The pump housing unit includes an inlet(11), an outlet(13), and a receiving unit(15). The impeller includes an axial body, a plurality of rotating blades, and a reinforcing member and is embedded in the receiving unit. The axial body is connected to a driving unit(17), thereby being rotated. One end of the rotating blade is connected to the circumference of the axial body and formed into an arc shape, thereby being arranged in a spiral form. The reinforcing member is connected to the axial body and the rotating blades and reinforces the rigidity of the rotating blades.

Description

PUMP EQUIPPED WITH IMPELLER FOR INCREASING LIFT EFFICIENCY AND DISCHARGE RATE}

The present invention is the spiral blades of the impeller is made of a spiral shape to increase the length of the rotary blade, at the same time increase the height of each rotary blade to increase the discharge area of the pump by increasing the friction area between each rotary blade and the fluid, By improving the pump's lifting efficiency and discharge amount, it improves the pump's performance. In addition, disc-shaped reinforcing members are connected to each rotary blade, which strengthens the strength at the connection part between each rotary blade and the central body. It is characterized by improving the durability by preventing.

The most common impellers for centrifugal pumps are radial type impellers and mixed type impellers with side plates on the suction side, and semi open impellers for slurry transfer. Impellers with only side plates on the boss side) and open impellers (without suction side plates or with minimal side plates on the boss side).

Hermetic impeller is suitable for the transfer of solids-free water (general fluid), semi-open impeller is turbid sewage, water transfer (turbid fluid) for drainage, open impeller is sewage, sludge, slurry ( Suitable for the transfer of fluids (solid fluids) containing slurries).

Impeller is a configuration that functions to pump liquid by generating centrifugal force while rotating inside the casing, which is the most important part of pumping action and also has the greatest influence on the characteristics of the pump,

Therefore, depending on the structure of the impeller, its use is different and the effect will be enormous.

A pump with no guide vane on the outer perimeter of the impeller and a vortex chamber directly adjacent to the outer circumference is called a volute pump, which is generally used for low heads.

However, the impeller 20a (hereinafter, referred to as 'prior art 1') provided in the conventional centrifugal pump, as shown in FIG. Depending on the shape of the vane body in a vane body of 360 부터, two or more externally curved wings or spirally curved liquids, or more than 10% mixed air In addition, the wear and tear of the impeller (20a) blade feather (22a) and the inner wall of the casing (12a) is not only clogged, damaged or entangled, but also fixed cavitation (Fixed cavitation) As a result, the suction action becomes impossible and at the same time wears out and eventually damages the impeller 20a.

There is a problem that the damage to the inner wall of the casing (12a) associated with it adversely affects the suction and discharge of the fluid,

The wing feather (22a) is embossed and easily worn, there is a problem that the pump efficiency is low, the use is limited only in the case of low lift.

In order to solve this problem, Korean Patent No. 732196 (filed in 2005) (hereinafter referred to as 'Prior Technology 2') solves the problems of the existing centrifugal pumps, such as wear, reduced suction force, low efficiency, and durability of parts. To improve,

As shown in FIGS. 2A and 2B, an impeller 20b for a slurry pump has been disclosed, in which a groove 24b is formed in a lengthwise direction on an upper surface of a radially protruding wing feather 22b. .

Figure 2a shows a cross-sectional view of a centrifugal pump with an impeller 20b, Figure 2b is a perspective view showing the impeller according to the prior art 2.

However, in the case of the prior art 2, not only does the head not increase much, but also it takes a long time from the start of the operation of the centrifugal pump to reach the normal rotational speed, between the wing blade (22b) and the inner wall of the casing (12b) It is pointed out that the large contact area requires a large power consumption for initial operation.

In particular, in the case of a centrifugal pump used for transporting a fluid (solid fluid) containing sewage, sludge, slurry, and the like, solids are contained in the vane blades 22b and the wings of the impeller 20b. There are many problems that can be caught between the feather 22b or between the back surface 25b of the wing feather 22b and the casing inner wall 112b, causing a decrease in suction force, and even causing a pump failure.

In order to solve the problems as described above, the applicant of the present invention proposes a Patent No. 10-0954345 (hereinafter referred to as 'prior art 3') "centrifugal pump with improved impeller" have.

However, as shown in FIG. 3, in the related art 3, only the inner end of each impeller 122 of the impeller is connected to each other so that a strong torque acts on each of the vane blades at high speed of the pump, and at this time, the friction with the fluid Not only can the load on each wing feathers, but if such a state persists for a long time, each wing feathers may be broken or damaged, thereby reducing the durability of the impeller,

This problem has a problem in that there is a limit in increasing the pumping efficiency of the pump or the discharge amount of the fluid by limiting the length and height of each vane.

The present invention has been made to solve the above problems,

Rotating blades of the impeller are spiral shaped to increase the length of the rotor blades, and at the same time increase the height of each rotor blade to increase the friction area between the rotor blades and the fluid to increase the discharge pressure of the pump, thereby Improve pump performance by improving lift efficiency and discharge rate,

In addition, a disk-shaped reinforcing member is connected to each rotary blade to enhance the durability by preventing the fracture or damage of the rotary blade by reinforcing the strength at the connection portion between each rotary blade and the central body as one object.

In addition, the present invention is a crushing portion is formed on each rotary blade, the crushing portion is formed on the blade surface in the direction of rotation in each rotary blade can effectively crush the solids contained in the fluid, sewage (sewage), sludge (汚泥), It is another object of the present invention to provide an impeller suitable for a pump for transporting a fluid (solid fluid) containing slurry or the like.

According to the present invention, there is provided a pump equipped with an impeller for increasing lift efficiency and discharge amount, including: a pump housing including an inlet and an outlet and a receiving part; And a central body connected to the driving unit and rotating, one end connected to a circumferential surface of the central body, a plurality of rotating blades formed in an arc shape and arranged in a spiral shape, connected to the central body and the rotating blade, and the rotating blade It includes a reinforcing member for reinforcing strength, the impeller embedded in the receiving portion of the pump housing.

In the impeller according to the present invention, each of the rotary blades is formed on the wing surface in the rotational direction, characterized in that it is further provided with a crushing portion consisting of a plurality of crushing projections of the front narrow back (front) shape.

The reinforcing member according to the invention is made of a disk shape,

The radius of the reinforcing member is characterized in that it is formed equal to or shorter than the straight line distance of the crushing projection located at a short distance from the central axis.

In the impeller according to the present invention, the height of each of the rotary blades is formed higher than the height of the central body, characterized in that a space portion is formed between the connecting end of each of the rotary blades.

Pump equipped with an impeller to increase the lifting efficiency and the discharge amount according to the present invention is the rotor blades of the impeller is made of a spiral shape to increase the length of the rotary blades, at the same time increase the height of each rotary blades with each rotary blades and fluid By increasing the friction area, the discharge pressure of the pump can be increased, thereby improving the pump's lifting efficiency and discharge amount, and improving the pump's performance.

In addition, each of the rotary blades is connected to the reinforcing member of the disk-like reinforcement of the strength at the connection portion between each rotary blade and the central body to prevent the breakage or damage of the rotary blades to improve the durability.

In addition, the present invention is a crushed portion is formed on each rotary blade, the crushed portion is formed on the blade surface in the direction of rotation in each rotary blade to effectively crush the solids contained in the fluid sewage (sewage), sludge (汚泥) It is possible to provide an impeller suitable for a pump for transporting a fluid (solid fluid) containing a slurry or the like.

1 to 3 is a conceptual diagram showing a conventional pump and impeller structure,
4 to 6 are a perspective view and a plan view showing an impeller in a pump according to the invention.

Hereinafter, with reference to the accompanying drawings, a pump having an impeller for increasing the lift efficiency and the discharge amount according to the present invention will be described.

First, specifying the direction criteria used in the present specification,

When the impeller of FIG. 4 is rotated 90 degrees counterclockwise, the right direction in which the reinforcing members are arranged is called 'one side', and the opposite side is designated as 'other side'.

As shown in FIG. 1, FIG. 2 and FIGS. 4 to 6, the pump having an impeller for increasing the lifting efficiency and the discharge amount according to the present invention is

A pump housing (10) comprising an inlet (11) and an outlet (13) and a receiving portion (15); And a central body 131 connected to the driving unit 17 to rotate, one end portion connected to the circumferential surface of the central body 131, and a plurality of rotating blades 133 formed in an arc shape and arranged in a spiral shape, and the central body. It is connected to the 131 and the rotary blade 133, including a reinforcing member 135 for reinforcing the strength of the rotary blade 133, which is embedded in the receiving portion 15 of the pump housing 10 Impeller 130; comprises.

1 and 2, in the pump equipped with an impeller 130 for increasing the lift efficiency and the discharge amount, the pump housing 10 is

The impeller 130 is built to serve to suck and discharge the fluid by the discharge pressure due to the rotational force of the impeller 130.

The pump housing 10 is composed of an inlet 11, discharge port 13 and the receiving portion 15,

The inlet 11 is formed in the lower portion of the pump housing 10 and connected to the receiving portion 15,

The accommodating part 15 is a pumping space in which the impeller 130 is built, and is connected to the discharge port 13 to communicate the inlet 11 and the discharge port 13.

The discharge port 13 is arranged on one side of the pump housing 10 to discharge the fluid introduced into the receiving portion 15.

In addition, one side of the pump housing 10 is provided with a driving unit 17 for rotating the impeller 130,

The drive unit 17 includes a drive motor and a drive shaft provided in the drive motor,

The driving shaft of the driving unit 17 is connected to the central body 131 formed in the impeller 130 to enable the driving of the impeller 130 in rotation.

And the pump housing 10 according to the present invention is to adopt the conventional pump housing 10 of Figs. 1 to 3 as it is, or to introduce the impeller 130 to be described through a simple design change in the present invention 4 to 6, the illustration of the pump housing 10 will be omitted.

4 to 6, in the pump having an impeller 130 for increasing the lift efficiency and the discharge amount, the impeller 130 is

The receiving portion 15 of the pump housing 10 is built to rotate at a constant speed to form a discharge pressure inside the receiving portion serves to discharge the fluid to the outside.

The impeller 130 is connected to the east and the center body 131 is rotated,

A plurality of rotary blades 133 connected to the circumferential surface of the central body 131 and formed in an arc shape and arranged in a spiral shape;

And a reinforcing member 135 connected to the central body 131 and the rotary blade 133 and for reinforcing the strength of the rotary blade 133.

First, the impeller 130 is built in the receiving portion 15 of the pump housing 10,

The center body 131 is formed in a disk shape, the coupling hole 131a is formed in the center of the center body 131 is connected to the drive shaft of the drive unit 17, the driving force of the drive unit 17 to the impeller 130 Delivered to enable rotational drive,

In addition, the central body 131 serves to support the rotary blades 133 connected to the circumferential surface.

And the rotary blades 133, one end, that is, the connecting end is connected to the circumferential surface of the center body 131, is formed in an arc shape to form a spiral shape,

Convex portions P of the rotary blades 133 are arranged to face the direction of rotation of the impeller.

When the rotary blades 133 are driven to rotate, each of the rotary blades 133 and the fluid causes friction,

At this time, since the rotary blades 133 are formed in a spiral shape, the length of the rotary blades 133 is longer than that of the linear shape, which means that the fluid and the friction surface are enlarged.

Therefore, the friction between the rotary blades 133 and the fluid is increased as it acts as a factor to increase the pressure inside the receiving portion 15 by that it has the effect of increasing the discharge pressure of the pump.

As a result, in the present invention, by increasing the discharge pressure of the pump by increasing the length and height of the rotary blade 133 to increase the friction between the rotary blades 133 and the fluid, it is possible to improve the lifting efficiency and the discharge amount.

Furthermore, the height Ha of each rotary blade 133 is formed higher than the height Hb of the central body 131 to increase the friction area between each rotary blade 133 and the fluid.

At this time, the space (S) is formed between the connecting end of each of the rotary blades 133 connected to the central body (131).

The space (S) in the direction of the center of the impeller 130 by providing a space for discharging the fluid introduced into the central body 131 through the inlet 11 between the rotary blades 133 by centrifugal force The introduced fluid is guided to be discharged outward along each of the rotary vanes, thereby maintaining the flow of the fluid more effectively.

However, the rotary blades 133 are impeller 130 because only the connecting end of each rotary blade 133 is connected to the circumferential surface of the central body 131 so as to minimize the coupling area with the central body 131 in order to secure a sufficient length. ) Rotates at a high speed may cause a problem that the load is vulnerable to the connection end of each of the rotary blades (133).

Therefore, in the present invention, it is intended to solve the above problems by introducing a reinforcing member 135 to be reinforced to reinforce the rotary blade 133 connected to the central body 131.

In the impeller 130 according to the present invention for this purpose the reinforcing member 135 is made of a disk shape is connected to the central body 131 and the rotary blade 133,

Therefore, the rotary blade 133 connected to the central body 131 and only the connecting end is reinforced and supported to prevent the rotary blade 133 from being broken or damaged by a load applied to the connection portion with the central body 131.

Furthermore, a crushing portion 137 is formed on the wing surface in the rotational direction in each of the rotary blades 133 to crush or cut solids introduced with the fluid.

In this case, it is preferable that the crushing part 137 is formed in a totally narrow halo shape so that the crushing or cutting work of the crushing part 137 can be more surely performed.

That is, the crushing portion 137 is composed of a plurality of crushing protrusions (137a), each crushing protrusion (137a) is formed in a shape that the cross-sectional area is reduced from the rear portion to the front portion so that the end forms a tip portion of the solid Not only can grinding or cutting work more effectively,

The solids pulverized by the respective crushing protrusions 137a may be dispersed to prevent the solids from being attached to the respective rotary blades 133.

4 and 6, but the crushing protrusions are formed in the form of a square pyramid, the crushing protrusions can be produced in various forms, such as a triangular pyramid, trapezoid sawtooth, the end of the blade.

Furthermore, the crushing portion 137 is preferably formed on the outer side where the centrifugal force is large in each of the rotary blades 133,

This is because when the centrifugal force is greater, a more powerful cutting force can be obtained, thereby increasing the crushing effect.

In addition, due to the rotation of each of the rotary blades 133, the fluid and solids will flow outward by centrifugal force,

Therefore, it is preferable that the crushing part 137 is formed on the outer side of each of the rotary blades 133 so as to correspond to the flow of solids, so that a more efficient work can be performed.

In addition, each of the crushing projections (137a) of the crushing portion 137 is formed on one side of the rotary blade 133,

This is because the solids introduced with the fluid is deeply introduced in one direction by the centrifugal force so that the crushing protrusions (137a) are formed to be biased to one side, it is possible to more effectively perform the grinding or cutting of the solids.

Furthermore, the radius of the reinforcing member 135 is preferably formed equal to or shorter than the straight line distance of the crushing protrusion 137a located at a short distance from the central axis with respect to the central axis.

It is formed that the radius of the reinforcing member 135 is longer than the straight distance of the crushing projection (137a) located at a close distance from the central axis,

Or when the same as the straight length of each of the rotary blades 133 is formed by the reinforcing member 135, one side direction of each of the shredding projections (137a) is blocked because the space is narrowed the shredding portion 137 This is because the grinding or cutting of the solids may not be performed smoothly.

Therefore, the reinforcing member 135 reinforces the strength of the rotary blade 133,

It is preferable to form a more efficient work by forming a space to smoothly crush or cut the solids by the crushing unit 137.

In the above description of the pump provided with an impeller for increasing the lift efficiency and discharge amount of the present invention with reference to the accompanying drawings, the present invention has been described with a particular shape and direction, the present invention can be variously modified and changed by those skilled in the art, Such modifications and variations should be construed as being included in the scope of the present invention.

S: space Ha: height of rotor blade
Hb: Height of the center body P: Convex part of the rotor blade
10: pump housing 11: inlet
13 discharge port 15 receiving portion
17 drive unit
130: impeller 131a: coupling hole
133: rotary blade 135: reinforcing member
137: crushing unit 137a: crushing projection

Claims (4)

delete delete A pump housing including an inlet and an outlet and a receiving portion; And
A central body connected to the driving unit and rotating;
One end portion is connected to the circumferential surface of the central body, a plurality of rotary blades formed in an arc shape and arranged in a spiral shape,
A reinforcing member connected to the central body and the rotary blade, and for reinforcing the strength of the rotary blade;
An impeller embedded in the receiving portion of the pump housing;
As a pump provided with an impeller to increase the lifting efficiency and the discharge amount made, including,

Each of the rotary blades of the impeller is further provided with a crushing portion formed of a plurality of crushing projections formed on the wing surface in the rotational direction and having a front narrow halo shape;

The reinforcing member is made of a disc shape,
And a radius of the reinforcing member is equal to or shorter than a straight line distance of the crushing protrusion located at a short distance from a central axis.
The method of claim 3, wherein
The height of each rotor blade of the impeller is formed higher than the height of the central body,
The pump is provided with an impeller for increasing the lift efficiency and the discharge amount, characterized in that the space is formed between the connecting end of each rotary blade.

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