FR2680550A1 - RADIAL PISTON PUMP. - Google Patents

Abstract

The invention relates to a pump having one or more radial pistons (4) driven by the rotation of an eccentric (3). Each piston (4) is applied against the eccentric by a spring (6) housed in a cavity (5) of the piston. The bottom (9) of the piston is crossed by an intake orifice (12) provided with a valve (16) arranged so as to leave as much space as possible for the spring (6). For this purpose, the valve (16) is located entirely within the thickness of the bottom (9) of the piston. The stroke of the shutter element (17) of the valve is limited by a curved part (18) of the spring.

Description

RADIAL PISTON PUMP

  The present invention relates to a radial piston pump in which at least one piston is mounted in a pump body where it can slide under the effect of an eccentric The piston is pressed against the eccentric by a spring The piston has a traversed bottom by an inlet port To close the inlet port during the compression stroke of the piston, there is provided a movable valve element between a valve seat and a stop For filling an internal cavity of the piston, the bottom of piston enters

in an eccentric chamber.

  By publication DE-A-3 028 999, a radial piston pump is already known, comprising an inlet orifice in the bottom of the piston. At its end opening into an internal cavity of the piston, the inlet orifice comprises a seat valve for a valve element (ball) In said cavity, above the intake valve formed by the intake port, the seat and the valve element, there is a double-walled throttle member having a stop shaft which limits the stroke of the ball This throttle must be mounted as a separate element inside the piston As it takes up a lot of space inside the cavity of the piston, the compression spring recalling the piston must be shortened accordingly. However, this spring should be as long as possible and go to the bottom of the piston, because a short spring can break prematurely under the effect of the relatively high force that he supp toe. The object of the present invention is to arrange the intake valve in a space-saving manner in the piston and to minimize the axial distance available for the compression spring. For this purpose, the invention relates to a pump of the kind indicated above, characterized in that the bottom of the piston has a sufficient thickness so that the valve seat and the valve element are located inside the intake orifice, and in that said stop limiting the displacement of the valve member is formed by a curved part

  of said spring, which partially covers the intake orifice.

  Thus, the fact that the valve element is entirely housed in the inlet orifice within the thickness of the bottom of the piston and that the stop limiting the stroke is formed by a part of the spring directly covering the intake port, very favorable overall conditions are obtained. A compression spring can be accommodated in the piston having numerous turns and guaranteeing

  high operational safety, even at high engine speeds.

  According to an improvement of this invention, it is provided that a sliding ring surrounding the eccentric has an annular groove opposite the inlet port of the piston. This annular groove allows the admission of oil without restriction from the

eccentric chamber.

  An embodiment of the invention will be described below in more detail, with reference to the drawing, in which FIG. 1 is a view in partial longitudinal section of a radial piston pump, and

  Fig 2 is an enlarged sectional view along the line Il-

II of fig 1.

  With reference to FIG. 1, a drive shaft 2 provided with a

  eccentric 3 is mounted on bearings in a pump body 1.

  The eccentric 3 successively displaces for example six pistons 4 arranged in a star around the shaft 2, but only one of these pistons is shown in the drawing A spring 6 housed in an internal cavity of the piston 4 keeps the latter in contact with a peripheral surface of a sliding ring 7 fitted onto the eccentric 3 The piston 4 slides in a cylindrical bore 8 which is closed by a screw plug 10 The plug 10 serves at the same time as a support for the spring 6 that it guide by a tenon 11 A bottom 9 of the piston 4 has a stepped inlet orifice 12 forming an inlet valve 13 through which oil coming from an eccentric chamber 14 can enter the cavity 5 A reservoir for oil (not shown) is connected to the eccentric chamber 14, so that the latter is permanently filled with oil. As there is a linear contact between the piston 4 and the ring 7, the inlet section of the inlet 12 is not fully closed The upper part of the cavity 5 is connected to a delivery duct 15 which is closed by an outlet valve (not shown) during the suction stroke.

  delivery 15 communicates with an organ using oil.

  According to the invention, the thickness of the bottom 9 of the piston is dimensioned so that a valve seat 16 and the valve element 17 formed by a ball find a place inside the intake orifice 12 On the other hand, the spring 6 urging the piston 4 comprises, to limit the stroke of the valve element 17, an end part 18 bent in the central zone of the spring. The part 18 of the spring thus plays the role of a stop So that the spring 6 bears properly against the bottom 9 of the piston, its part 18 must not be bent at a sharp angle, but with a certain radius (fig 2) The construction described above makes it possible to arrange the intake valve 13 in a space-saving manner inside the bottom 9 of the piston and to do without an additional constructive element to limit the

valve stroke.

  The sliding ring 7 mounted on the eccentric 3 further comprises an annular groove 20 which promotes the passage of the oil on admission. The filling of the cavity 5 begins as soon as the piston 4 descends

  (in the orientation of fig 1) towards the eccentric.

  The valve element 17 is then pushed outwards and the oil coming from the eccentric chamber 14 can arrive laterally at the inlet orifice 12 passing through the groove 20 During this time, the element 17 is pressed against part 18 of the spring Once the piston has reached its bottom dead center and begins to rise, the valve element 17 is pressed on the seat 16 and closes the intake port The oil trapped in the cavity 5 is compressed and sent to the user through the conduit

  outlet 15 and the outlet valve open (not shown).

  The present invention is not limited to the embodiment described above, but it extends to any obvious modification or variant

for a person skilled in the art.

Claims (2)

  1 Radial piston pump in which at least one piston (4) is mounted in a pump body (1) where it can slide under the effect of an eccentric (3); the piston (4) is pressed against the eccentric (3) by a spring (6); the piston (4) has a bottom (9) through which an inlet orifice (12) passes; to close the intake port (12) during the compression stroke of the piston, there is provided a valve element (17) movable between a valve seat (16) and a stop; for filling an internal cavity (5) of the piston (4), the bottom (9) of the piston penetrates into an eccentric chamber (14); characterized in that: the bottom (9) of the piston has a sufficient thickness so that the valve seat (16) and the valve element (17) are located inside the orifice intake (12), and said stop limiting the movement of the valve element (17) is formed by a curved part (18) of said spring (6), which   partially covers the intake port (12).   2 Pump according to claim 1, characterized in that a sliding ring (7) surrounding the eccentric (3) has an annular groove (20) opposite the intake orifice (12) piston.