RU55898U1 - BEET PUMP - Google Patents

Abstract

The utility model relates to pump engineering, namely to the design of centrifugal pumps, which are used in the sugar industry of the agro-industrial complex as beet lifters. The utility model is based on the task of creating a beet pump, in which, by changing the design of the discharge pipe, beet grinding is eliminated or reduced, which prevents sugar loss at the beginning of the sugar production process during the operation of the beet pump. The beet pump has a housing in which the impeller is installed with the possibility of circulation, an annular outlet, an inlet and tangentially placed discharge pipe, the inner surface of which is connected to the inner surface of the housing tangentially on one side, and on the other hand, the inner surface of the discharge pipe smoothly connects to the inner surface housing radius, the value of which is in the range from 0.8 to 3.14 radius of the discharge pipe. This design of the beet pump prevents injury and crushing of the roots when moving the beet-water mixture from the annular outlet to the discharge pipe, and thereby reduce sugar loss.

Description

The utility model relates to pump engineering, namely, to the design of centrifugal pumps for special purposes, which are used in the sugar industry of the agro-industrial complex for pumping beet and water mixture.

A well-known centrifugal pump, which includes a housing in which the impeller is rotatably mounted, an annular outlet, an inlet pipe and a tangentially placed discharge pipe, the inner surface of which is tangentially connected to the inner surface of the housing and, on the other hand, forms a protruding element with radius of a curve is 20 mm. (M.Ya. Azrilevich "Equipment of sugar factories", M .. "Light and food industry", 1982, p. 82)

By the combination of the main essential features and functional purpose, this pump is the closest to the claimed utility model and can be taken as a prototype.

Despite the fact that the prototype provides high performance characteristics of a pump designed for pumping liquid, its use for pumping beet-water mixture has a significant drawback - grinding beets with a protruding element, which in turn leads to sugar losses.

The utility model is based on the task of creating a beet pump, in which, by changing the design of the discharge pipe, beet grinding is eliminated or reduced.

The problem is solved in that in a beet pump having a housing in which the impeller is mounted for rotation, an annular outlet, an inlet pipe and a tangentially placed discharge pipe, the inner surface of which is connected to the inner surface of the housing tangentially on one side, according to a utility model with on the other hand, the inner surface of the discharge pipe smoothly connects to the inner surface of the housing along a radius, the value of which is in the range from 0.8 to 3.14 iusa discharge nozzle.

The totality of all the features of the claimed beet pump, namely: smooth connection of the inner surface of the discharge pipe with the inner

the surface of the housing along a radius that is not less than 0.8 of the radius of the discharge nozzle ensures a reduction in beet grinding during pumping of the beet and water mixture, which prevents sugar loss at the beginning of the sugar production process, and making this connection along the radius is not more than 3.14 radius of the discharge nozzle ensures that the pump efficiency is kept constant. The connection of the inner surface of the discharge pipe with the inner surface of the housing at such radius values has an optimal shape in terms of performance.

The utility model is illustrated by a drawing that explains, but does not limit its scope. Figure 1 shows a General view of a beet pump, where R ₁ is the radius of the discharge pipe, and R ₂ is the radius of the connection of the discharge pipe with the pump casing.

Beet pump works as follows. When the pump is operating, the beet-water mixture through the inlet pipe (not indicated in the drawing) enters the pump casing 1, is picked up by the flow formed by the impeller and the blades 2, and is sent from the inner annular outlet 3 to the tangentially placed discharge pipe 4.

Claims (1)

A beet pump having a housing in which the impeller is rotatably mounted, an annular outlet, an inlet pipe and a tangentially placed discharge pipe, the inner surface of which is connected to the inner surface of the housing tangentially on one side, which differs in that on the other side the inner surface of the discharge the nozzle smoothly connects to the inner surface of the housing along a radius, the value of which is in the range from 0.8 to 3.14 radius of the discharge nozzle.