SU1188370A1 - Piston pump - Google Patents

Description

The invention relates to the field of pump engineering and can be used, in particular, as a piston mud pump.

The purpose of the invention is to reduce the hydraulic resistance of intermediate cylindrical cavities, reducing the size and metal consumption of the pump design.

FIGS. 1 and 2 show a general ”0 view and a diagram of a piston pump (using a double-cylinder double-acting pump as an example); FIG. 3 - pump cylinder block, cross section,

The piston pump contains a drive-15 crank mechanism 1 (FIG. 1), kinematically connected through pistons 2 and 3 with pistons 4 and 5, a cylinder block 6 with cylindrical bores 7 and 8 located under 20 cylindrical cavities 9 and 10 cylindrical bushings 11 and 12, the latter are located in cylindrical cavities 9 and 10 with parallel arrangement of the axes of bores 7 and 25 8, cylindrical bushings 11 and 12 and the longitudinal axis of symmetry of the pump.

The suction line 13 through the suction valves 14 and 15, the cylindrical cavities 9 and 10, and the pressure valves 16 and 17 are connected to the discharge, line 18.

The bores 7 and 8 (Fig. 2) under the cylindrical sleeves 11 and 12 are made eccentric with respect to the cylindrical cavities 9 and 10 with the displacement of the axes of the bores 7 and 8 in the direction of the longitudinal axis of symmetry of the pump, and forming the surfaces of the cylindrical bores 7 and 8 and cylindrical cavities 9 and 10 are aligned in a horizontal plane passing through the centers of the bores.

7 and 8 for cylindrical sleeves

11 and 12.

The pump works as follows.

During pump operation with alternating suction and injection cycles, the fluid, following the corresponding movements of pistons 4 and 5, first comes in during the suction stroke from the suction line 13 through the suction valves 14 and 15 and the cylindrical cavities 9 and 10 between the cylindrical bushings 11 and 12 and boring bars 7 and 8 into cylindrical bushings 1 1 and 1 2.

During the subsequent injection stroke and the corresponding movements of the pistons 4 and 5, the liquid through cylindrical cavities 9 and 10 between cylindrical bushings 11 and 12 and the bores 7 and 8 and the discharge valves I 6 and 1 7 is displaced into the discharge line 18.

The movement of fluid from the suction valves 14 and 15 through the cylindrical cavities 9 and 10 to the discharge valves 16 and 17 is carried out with reduced hydraulic resistance of the cylindrical cavities 9 and 10.

The approximation of the distance between the axes of the bores 7 and 8 under the cylindrical bushings 11 and 12 in the cylinder block 6 causes a decrease in the dimensions of the drive crank mechanism 1, in which the distance between the crankshaft cranks and its supporting bearings is reduced. As a result, the strength and rigidity of the shaft increases, the amplitude of its torsional vibrations is reduced, the dynamic characteristic of the pump as a whole is improved

1188370

FIG. 2

I 188370

78

13 74 9 7 7 7 4 8 3 12 10 К

(re.Z

Claims (1)

PISTON PUMP containing a crank drive mechanism, kinematically connected through two rods with pistons, a cylinder block with two cylindrical cavities, suction channels located in the same plane with the axes of both cylindrical cavities, injection channels, the axis of each of which is in the same plane with the axis of the cylindrical cavity and perpendicular to this axis, and two cylindrical bushings installed in cylindrical cavities, the axes of which are placed in the same plane with the axes of cylindrical n bridges and symmetrically with respect to separating the cylindrical cavities, the suction and injection channels are communicated to each other through the cylindrical cavities, characterized in that, in order to reduce the hydraulic resistance of the cylindrical cavities, to reduce overall dimensions and metal consumption, the axes of the cylindrical bushings are shifted relative to the axes of the cylindrical cavities to the side lintel cylinder block .. 51) „„ 1188370 1 P88370