DE2616437A1 - Pump with radial cylinders and pistons - has several radially placed cylinders with spring loaded closing plugs acting as discharge valves - Google Patents

Abstract

The pump has several radially placed cylinder/piston assemblies and simplified discharge valve arrangements. The housing (1) of the pump contains shaft (3) carrying eccentric cam (24) which, during its rotation causes reciprocating movement of piston (6) in cylinder (21). The piston has a return spring (7) which has one end resting against the bottom of the piston, with the other end against the underside of plug (8). The plug is fitted slidingly in an enlarged part of the cylinder and rests with its bottom end against edge (17) of the shoulder formed by the difference in diameters. The top end of the plug is loaded by disc spring (10) which is resting against plate (11) held in place by spring clip (12). On its delivery stroke the piston with its fluid content lifts by pressure of the fluid the plug (8) from edge (7) and the fluid is delivered via channel (19) to annular chamber (23) and from there to the discharge connection.

Description

Radial piston pump

The invention relates to a radial piston pump with preferably several, roughly star-shaped cylinders and pistons arranged in a housing which each cylinder is sealed to the outside by a sealing plug and each cylinder has its own pressure valve for the pressure medium.

Such a radial piston pump is for example from the German Offenlegungsschrift 2 242 435 known. In this known radial piston pump each cylinder bore expanded radially outside the piston movement executed, through a sealing plug and a valve plate in a shoulder of the cylinder bore arranged, which is pressed by spring preload on this paragraph. The between The pressure chamber formed by the plug and valve plate is in each case via a pressure line connected to a collecting room.

It is the object of the present invention to reduce the construction costs for radial piston pumps to simplify the above design in the area of pressure valves.

According to the invention this object is achieved in that each closure stopper is arranged displaceably in its sealing plug bore by spring preload loaded in the direction of the corresponding piston and designed as a pressure valve is. As a result, the sealing plug is made with a minimum of individual parts used for a double function, namely it seals the pressure chamber once to the outside and on the other hand, it functions as a due to its axial displaceability Pressure valve.

According to a further feature of the invention, it is advantageous> that the sealing plug bore coaxial with the cylinder bore and Jer is designed in diameter as this. This results in a simple processing option the sealing plug bore, which is arranged radially outside the cylinder bore is.

The invention also proposes that the stopper open the end facing the piston is designed as a cone and on the edge between the sealing plug bore and the cylinder bore seals. Through training the stopper as a cone and its seal at the edge between the The cylinder bore and the plug bore result in a perfect seal even at the highest pressures.

however, according to the invention, it is also possible on the paragraph between Cylinder bore and plug bore a ring as a water, arates sealing element to raise. This would, for example, result in a recovery process of such a radial piston pump much simplified after prolonged use.

It is also proposed that the sealing plug be on the side opposite the piston via a spring on a support ring in the Sealing plug bore supported. This support ring, for example in the form of a Snap ring, enables the perfect assembly of all with very little effort items arranged in the cylinder and in the sealing plug bore.

The invention is illustrated below with reference to that shown in the figure Embodiment explained in more detail.

The figure shows a longitudinal section through a radial piston pump.

In the housing 1 is an eccentric shaft 3 with an eccentric 24 via bearing shells 2 rotatably mounted. The eccentric 24 is also with a bearing ring 4 and a Eccentric ring 5 provided. The housing 1 is designed in the manner of a tunnel housing and is closed by a housing lock 13 after mounting the eccentric shaft 3. This housing closure 13 seals via two sealing rings 14 with respect to a corresponding one Hole in the housing 1 from and over a shaft sealing ring 15 opposite the eccentric shaft 3.

The axial fixation takes place via a support ring 16. Approximately star-fringed A plurality of cylinder bores 21 pointing radially outward are arranged in the housing 1. In these cylinder bores 21 pistons 6 are arranged. Radial outside of the Kolbenta {bShHn4dnd coaxial to this is in each case a sealing plug bore 20 arranged, with a compared to the cylinder bore 21 larger diameter. At the transition from the cylinder bore 21 to the plug bore 20 is an edge 17 trained. In the sealing plug hole 20, a sealing plug 8 is arranged, which is sealed against the plug bore 20 by a seal 9, axially displaceable in the plug hole and by one or more disc springs 10 is biased towards the edge 17. The plug 8 has in Area of the edge 17 has a cone 18 and lies with this cone 18 on the edge 17 at. The plate spring 10 is supported on the outside with the interposition of a cover 11 on a support ring 12 in the plug bore 20. This support ring 12 is designed, for example, as a snap ring. Between the sealing plug 8 and a return spring 7 is arranged in the bottom of the hollow piston 6. Furthermore, each piston 6 has a plurality of suction openings distributed around its circumference 22 on. On the outer circumference of the housing closure 13 is between the two sealing rings 14 a collecting channel 23 is arranged. Pressure channels 19 open into this collecting channel 23, which in the housing 1 to the released by the cone 18 of the plug 8 Enough space in the plug hole 20.

The function of the radial piston pump shown is as follows: For Operation of the radial piston pump is the eccentric shaft 3 in a manner not shown driven. So that the eccentric 24 moves each of the pistons 6 against the force of the Rllckholfeder 7 as well as against the force of the pump medium radially outwards and causes thus the pressure stroke. That between piston 6, cylinder bore 21, sealing plug bore 20 and sealing plug 8 enclosed pump medium forces by increasing the Pressure by the piston movement, the plug 8 against the force of the plate spring 10, to move radially outwards, and thus enables the crossing over the edge 17 into the pressure channel 19. From there, the pressure medium passes into the collecting channel 23 in the housing lock 13 and can be discharged to the outside. When moving down of the piston 6 through the return spring 7 sets the plug 8 with its cone 18 again on the edge 17 and thus prevents that Backflow of the pressure medium from the pressure channel 19. By the further downward movement of the piston 6 a negative pressure is created in the interior of the piston, which causes the suction openings to be extended 22 new pressure medium can flow into the eccentric space. It is assumed that the eccentric space is in communication with the inflow for the pressure medium.

The sealing plug 8 thus fulfills both the function of sealing the pressure chamber to the outside as well as the pressure valve itself. A separate pressure valve can therefore be omitted. To limit the way for the sealing plug is its distance relative to the cover 11 selected accordingly. Likewise, by appropriate choice the recess for the seal 9 reduces its sliding movement to a minimum will.

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Claims (5)

PATENT CLAIMS 1. Radial piston pump with preferably several, for example Cylinders and pistons arranged in a star shape in a housing, each of which Cylinder is sealed to the outside by a sealing plug and each cylinder has its own pressure valve for the pressure medium, characterized in that each sealing plug (8) arranged displaceably in its sealing plug bore (20), loaded by spring preload in the direction of the corresponding piston (6) and is designed as a pressure valve. 2. Radial piston pump according to claim 1, characterized in that ciaß the sealing plug bore (20) coaxial with the cylinder bore (21) and larger in the Diameter is designed as this. 3. Radial piston pump according to claims 1 and 2, characterized in that that the sealing plug (8) on the side facing the piston (6) as a cone (18) and on the edge (17) between the plug hole (20) and the cylinder bore (21) seals. 4. Radial piston pump according to claims 1 to 3, characterized in that that the edge (17) for sealing a sealing element on the shoulder between Cylinder bore (21) and sealing plug bore (20) applied ring formed is. 5. Radial piston pump according to claims 1 to 4, characterized in that that the sealing plug (8) is on the side opposite the piston (6) Via a spring (10) on a support ring (12) in the plug hole (20) supports.