SU1707221A1 - Piston pump - Google Patents

Abstract

The invention relates to pumping engineering, in particular, to pumps with cam-driven piston movements. The aim of the invention is to increase the mechanical efficiency and durability of a piston-cylinder pair by reducing the radial load acting on the piston from the side of the cam profile. The pump includes a housing 1, a piston 5 loaded with a spring 4 with a support roller 7 installed with the ability to interact with a driven cam 9. The piston 5 from the side of the working chamber 6 is equipped with an end bevel 12, the direction of which is coordinated with the direction of rotation of the cam 9. 3 Il.

Description

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The invention relates to pumping engineering, in particular to piston pumps with a cam-driven piston.

The aim of the invention is to increase the mechanical efficiency and durability of a piston-cylinder pair.

Figure 1 shows the structural diagram of the pump; figure 2 - section aa in figure 1; on fig.Z - the rated scheme of the pump with indication of the acting forces.

The piston pump contains a valve-piston unit that includes a housing 1 with a suction 2 and an injection 3 valves, a piston 5 loaded with a spring 4, installed to form a working chamber 6 and can be cooperated by means of a roller 7 fixed on an axis 8 with a driving cam 9 drive shaft 10.

The drive cam 9 along the axis of symmetry is provided with an installed shoulder 11, which ensures the orientation of the piston 5 in the cylinder bore of the housing 1 in a plane passing through the axis 5 perpendicular to the axis of rotation of the cam 9. The piston 5 has an end bevel 12 interconnected with the direction of rotation of the cam 9 so that the perpendicular p to the axis of the piston 5 from its point of intersection with the plane of the bevel 12 into the body of the piston coincides with the direction of the vector of the peripheral velocity of the latter.

The lateral component of the resistive force of the pressure of the fluid is rooted to balance the greatest external moment of the lateral component, FT, of the reaction force F from the cam surface.

The pump works as follows.

When the cam 9 rotates, as a result of the interaction of the support rollers 7 of the piston 5 with the working surface of the cam 9, the piston 5 is brought into reciprocating motion, which leads to a periodical increase (suction stroke) and decrease (pressure stroke) of the working chamber 6 volume. suction worker

fluid from the intake manifold through the suction valve 2 enters the working chamber 6, filling it. During the pumping stroke, the working fluid from the working chamber 6 is displaced by the piston 5 through the discharge valve 3 into the discharge manifold. The cycles are repeated periodically.

At the point of contact of the rollers 7 and the profiled surface of the cam 9, a reaction F occurs, which creates an axial component Fp, balancing the axial component Fp of the pressure force P of the fluid at the bevel 12 of the piston 5, and the side component FT. The lateral component FT of the fluid pressure force p on the beveled end 12 creates a balancing moment in the mobile embedding of the piston 5 in the cylinder, counteracting the moment from the lateral component FT. The contact patch is distributed over the entire interface between the piston 5 and the cylinder of the housing 1, which increases the contact patch area and, as a result, reduces the contact pressure Pc.

Claims (1)

The invention The piston pump comprising a piston loaded with a spring mounted in a cylinder with the formation of a working chamber and interacting with a supporting roller fixed to it With a driving cam, characterized in that, in order to increase the mechanical efficiency and durability of the piston-cylinder pair, reduction of the radial load acting on the piston from the side of the cam profile, the piston from the side of the working chamber is provided with an end bevel, while the perpendicular p of the piston axis from the point its intersection with the bevel plane into the piston body lying in the plane passing through the axis of the piston perpendicular to the axis of rotation of the cam coincides with the direction of the vector of the peripheral velocity of the latter. Aa 12 Contact points R FIG. 2 Fig.Z