RU154444U1 - INCLINED PUMP PUMP - Google Patents

Abstract

A pump with an inclined disk, consisting of a cylindrical body, inside of which a inclined disk is mounted on the shaft, a discharge pipe installed on the lateral outer surface of the cylindrical body and two suction pipes connected to the end surface of the cylindrical body, characterized in that the inclined disk is made curved with a radius bending corresponding to the inner radius of the cylindrical body, while ensuring rotation of the latter, with the curved edges of the inclined disk facing the pump shaft a and are located in the plane of the axis of rotation of the inclined disk.

Description

The proposed utility model relates to the field of pump engineering and can be used for pumping highly concentrated suspensions (hydraulic mixtures, for example, in the pulp and paper industry when transporting suspensions of fibrous materials (pulp, wood pulp, rags, etc.)

The known pump consists of a cylindrical body with a suction pipe located on the axis, and a pressure pipe located at an angle of 90 ° to the axis and tangent to the inner cylindrical surface. Inside the housing, a flat inclined disk rotates, rigidly fixed to the pump shaft at a certain angle. The transported medium enters through the suction pipe into the working chamber, from where it is discharged by a rotating inclined disk into the pressure pipe and then into the hydraulic system (see Klimov V.I. Hydrotransport of fibrous materials in the pulp and paper industry. Publishing House Forest Industry, M., 1971 g., pp. 176-177).

A centrifugal pump is known, consisting of a cylindrical housing, inside of which an inclined disk (rotor) is installed on the shaft with a diameter equal to the diameter of the inner pump housing, a discharge pipe mounted on the side surface of the cylindrical housing and two suction pipes (see Germany application No. 1528767 for 1969 ., CL 59 c, 2). This technical solution is selected as a prototype.

The disadvantage of pumps with an inclined disk is the low efficiency, which reduces their scope to highly specialized purposes - the transportation of heterogeneous coarse hydraulic mixtures. The noted drawback is due to the shape of the inclined disk, made in the form of a flat ellipsoid, the edges of which are equidistant from the axis of rotation. For this reason, there are large gaps in the end angles of the cylindrical body, which determine the overflow of the pumped medium from the suction zone to the discharge zone and vice versa, thereby significantly reducing the pump performance. The purpose of the proposed utility model is to increase the performance of an inclined disk pump.

This goal is achieved by the fact that the inclined disk is made curved with a bending radius equal to the inner radius of the cylindrical body, corresponding to the inner radius of the cylindrical body, while ensuring rotation of the latter, with the curved edges of the inclined disk facing the pump shaft and located in the plane of the rotation shaft of the inclined disk.

In FIG. 1 presents a diagram of the proposed device, in FIG. 2 is a section AA, in FIG. 3 - section BB.

The centrifugal pump consists of a cylindrical housing 1, inside of which an inclined disk 3 is mounted on the shaft 2, the discharge pipe 4 is installed on the side surface of the housing 1. The suction nozzles 5 are attached to the end part of the housing 1. The inclined disk 3 is mounted on the shaft 2, rotating in the bearing assembly 6, from a drive (not shown). The inclined disk 3 is made curved with a bending radius equal to the inner radius of the cylindrical body 1, corresponding to the inner radius of the cylindrical body, while ensuring rotation of the latter (i.e., the bending radius is almost equal to the inner radius of the cylindrical body).

The pump operates as follows. When the inclined disk 3 is rotated on the shaft 2, due to the fact that the inclined disk 3 is made curved with a radius almost equal to the radius of the cylindrical chamber 1, and the curved edges of the disk 3 face the pump shaft 2, the contact surface of the disk 3 with the pumped hydraulic mixture increases. Therefore, the end gaps in comparison with the gaps in the known pump will be much smaller and the flow of the pumped medium is minimized. By reducing the flow of the pumped medium, the so-called volumetric losses in the proposed pump are minimized, resulting in increased pump performance.

The proposed device was developed at the University of Plant Polymers and is recommended for use in various industries that use hydraulic transport of highly concentrated suspensions (hydraulic mixtures, for example, in the pulp and paper industry when transporting suspensions of fibrous materials (pulp, wood pulp, rags, etc.)

Claims (1)

A pump with an inclined disk, consisting of a cylindrical body, inside of which a inclined disk is mounted on the shaft, a discharge pipe installed on the lateral outer surface of the cylindrical body and two suction pipes connected to the end surface of the cylindrical body, characterized in that the inclined disk is made curved with a radius bending corresponding to the inner radius of the cylindrical body, while ensuring rotation of the latter, with the curved edges of the inclined disk facing the pump shaft a and are located in the plane of the axis of rotation of the inclined disk.

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