RU184384U1 - Centrifugal Pump Auger - Google Patents

Abstract

The invention relates to the field of devices intended for pumping liquids, and can be used in industry, agriculture and for domestic needs. The technical result, which is aimed at achieving a utility model, is to reduce the likelihood of destruction of the screw of the centrifugal pump. The essence of the utility model lies in the fact that the screw of the centrifugal pump contains stiffening ribs located along the flow lines of the pumped medium. 6 hp F-ly, 7 FIG.

Description

The invention relates to the field of devices intended for pumping liquids, and can be used in industry, agriculture and for domestic needs.

Known screw centrifugal pump, consisting of a shaft, equipped with a screw blade [CN202991510, publication date: 12.06.2013, the IPC: F04D 1/06].

Known screw centrifugal pump, consisting of a rod and a spiral blade [US2013320148, publication date: 05.12.2013, the IPC: B64D 37/02].

As a prototype, a screw of a centrifugal pump consisting of a sleeve and curved blades was chosen [US2015044026, publication date: February 12, 2015. IPC: F04D 29/44].

The disadvantage of the prototype is the low rigidity of the screw of the centrifugal pump, which is why during operation of the screw in the advanced cavitation mode under the constant influence of the pressure drop of the pumped medium arising between the pressure and rear sides of the screw, the deformation, accelerated wear, destruction of the auger blades and the screw output can occur failure, which greatly reduces the reliability of the centrifugal pump.

The technical problem addressed by the utility model is to improve the reliability of the centrifugal pump.

The technical result, which is aimed at achieving a utility model, is to reduce the likelihood of destruction of the screw of the centrifugal pump.

The essence of the utility model is as follows.

Centrifugal pump auger, characterized in that it contains stiffening ribs located along the streamline of the pumped medium.

The screw provides the possibility of increasing the pressure at the inlet to the impeller and serves to increase its cavitation characteristics. The screw contains a hub, which can be made in the form of a rod or sleeve containing one or more blades twisted in a spiral. The screw can be made closed, which improves the efficiency of the screw and centrifugal pump.

The ribs can be protrusions on the surface of the screw. The presence of ribs allows you to improve the weight and size characteristics of the screw by reducing its thickness, as well as by making it possible to manufacture it from polymeric materials, while maintaining the structural strength of the screw.

The stiffeners are located along the streamline of the pumped medium, that is, in such a way as to ensure the minimum hydrodynamic resistance to the flow of the pumped medium. At the same time as a forming ribs can have a straight or curved line.

The location, number and geometrical parameters of stiffeners can be determined depending on the required strength, stiffness and cavitation characteristics of the auger, as well as depending on the mechanical properties of the material from which the auger is made. Each stiffener may be continuous or intermittent, and may be located along the entire length of the auger blade, each blade may contain one or several stiffeners.

Stiffeners can be located on either side across the entire width of the screw, including its periphery. The stiffening ribs can be located on the pressure side of the auger, which makes it possible to increase the cavitation characteristics and reduce the likelihood of auger failure. The stiffeners can be located adjacent to the outer edge of the auger, which makes it possible to create a gap seal between the auger and the pump casing, making it possible to increase the efficiency of the auger and reduce the likelihood of contact between the auger and the casing, reducing the likelihood of auger failure.

Stiffeners can have any profile shape in cross section, for example, rectangular, triangular, square, elliptical, etc. Additionally, to reduce hydrodynamic resistance, stiffeners can be streamlined and have rounding lines, and to reduce stress concentrations, stiffeners at the base can contain fillet.

The stiffeners can be located at a distance from each other, constituting from 5 to 50% of the diameter of the screw, which provides the optimum ratio of strength and weight and size characteristics of the screw.

The number of ribs can be determined depending on the diameter of the screw. The stiffening ribs can have a width ranging from 10 to 300% of the thickness of the section of the auger blade at the place where the stiffener is installed on the blade. The stiffening ribs can have a height that is from 10 to 1000% of the thickness of the section of the auger blade at the place where the stiffener is installed on the blade. Stiffeners can have a length (length) from 10 to 100% of the length of their generatrix lines.

The screw and stiffeners can be made of metal, for example, aluminum, steel or cast iron, or of polymeric materials, for example, polyurethane, polyvinyl chloride, polyethylene, etc., or composite materials, for example, carbon-fiber plastic.

The utility model has previously unknown to the prior art a set of essential features, characterized in that the auger contains stiffeners located along the streamline of the pumped medium, allowing to increase the stiffness of the screw for bending and reduce the strain and stress arising in the design of the screw due to the pressure difference arising between its pressure and back sides, which ensures the achievement of the technical result, which consists in reducing the probability of destruction of the auger, thereby increasing tsya reliability of the centrifugal pump.

The presence of new distinctive essential features indicates the compliance of the utility model with the patentability criterion of "novelty."

The utility model can be made of known materials using known means, which indicates the compliance of the utility model with the industrial applicability criterion of patentability.

The invention is illustrated by the following drawings.

Figure 1 - auger centrifugal pump with spiral blades containing two stiffening ribs on the pressure side, axonometric view.

Figure 2 - auger centrifugal pump with curved blades containing two stiffening ribs on the pressure side, axonometric view.

Figure 3 - auger centrifugal pump with curved blades containing one stiffener on the pressure side, top view.

4 is a screw of a centrifugal pump with curved blades containing two stiffening ribs on the pressure side, top view.

5 is a Closed screw centrifugal pump with curved blades, containing two stiffening ribs on the pressure side, axonometric view.

6 is a screw of a centrifugal pump with curved blades containing two stiffening ribs, one of which is located adjacent to the outer edge of the screw, side view, half cut.

Fig.7 - auger centrifugal pump with a spiral blade, containing four ribs, two of which are located on the pressure, and two - on the back side, side view, half of the section.

The utility model works as follows.

The screw 1 of the centrifugal pump begins to rotate, forcing fluid to the impeller inlet (not shown in the drawing). At the same time, due to the stiffening ribs 2, the bending and deformation load acting on the screw 1 is reduced due to the pressure difference between the pumped liquid between its pressure side and the back side. Thus, the achievement of the technical result, which consists in reducing the probability of destruction of the screw of the centrifugal pump, thereby increasing the reliability of the centrifugal pump.

Claims (7)

1. Centrifugal pump auger, characterized in that it contains stiffening ribs located along the streamline of the pumped medium. 2. A screw centrifugal pump according to claim 1, characterized in that the ribs are located on the pressure side. 3. A screw centrifugal pump according to claim 1, characterized in that the stiffening ribs are located adjacent to the outer edge. 4. A screw centrifugal pump according to claim 1, characterized in that the ribs are located at a distance from each other, amounting to from 5% to 50% of the diameter of the screw. 5. A screw centrifugal pump according to claim 1, characterized in that the ribs have a width, comprising from 10% to 300% of the thickness of the cross section of the auger blade. 6. The screw of the centrifugal pump according to claim 1, characterized in that the stiffening ribs have a height ranging from 10% to 1000% of the thickness of the section of the auger blade. 7. A screw centrifugal pump according to claim 1, characterized in that the ribs have a length of from 10% to 100% of the length of their forming line.