EP1582739A2 - Radial piston pump - Google Patents

Abstract

Radial piston pump (1), especially for fuel high pressure generation has a pump housing (2) in which a pump shaft (3) with an eccentric section or at least a cam type projection rotates so that pump piston in pushed to and fro in a pump cylinder. The pump housing and pump cylinder are formed as a single monoblock part.

Description

The invention relates to a radial piston pump, in particular Radial piston pump for high-pressure fuel production, after the preamble of claim 1.

From DE 197 29 789 A1 discloses a radial piston pump for High-pressure fuel supply known, which is a pump housing and a plurality of cylinder heads formed as cylinder inserts having. Each cylinder insert lies with a flat contact surface on a flat contact surface of the pump housing and is fixed via a spigot in the pump housing. In the pump housing is a first fuel supply line and a first Kraftstoffabführleitung formed in the level contact surface of the pump housing opens. The cylinder head has a second fuel supply line and a second Fuel discharge line, which in the flat contact surface of the cylinder head open. The fuel supply lines and the Kraftstoffabführleitungen the pump housing and of the cylinder head are aligned with each other within the plant level. To seal at the transition from a component to To ensure others, the cylinder head with the pump housing screwed by screws. The screws are arranged at the edge of the cylinder head. By the high Compressive forces, especially on the pressure side, can occur in the transition region between the first and second Kraftstoffabführleitung to a column extrusion and thus to a Leakage come. The fuel can thereby enter the environment resulting in an increased environmental impact leads and increases the risk of fire in the engine compartment, because the fuel easily on the hot engine components can ignite.

To avoid the leakage are usually in the transition area from the first Kraftstoffabführöffnung to second Kraftstoffabführöffnung and between the spigot the cylinder insert and the pump housing sealing rings used. Due to the pressure forces that occur however, often to a so-called column extrusion and the associated destruction of the seals.

To avoid the gap extrusion of the sealing rings so-called Support rings used. Such a solution has the disadvantage that the support rings only up to certain pressures safely work and that it is comparatively expensive since special materials must be used.

The assembly of the cylinder head on the pump housing and the Inserting the seal also require a high installation cost.

The object of the invention is therefore to provide a radial piston pump form, in the case of a secure seal between the pump housing and pump cylinder is guaranteed.

The object is achieved by the independent claim 1. Advantageous embodiments of the invention, which individually or in combination with each other are in the Subclaims characterized.

The invention is based on the generic radial piston pump due to the fact that the pump housing and the pump cylinder are integrally formed with each other. By the one-piece Training, also known as monobloc design is, the sealing points between the pump housing and the pump cylinder avoided from the outset, so no Leaks can occur.

According to the invention, a high-pressure accumulator is preferred in the pump housing integrated. By integrating the high-pressure accumulator in the pump housing, the number of high-pressure sealing points further diminished, as no additional Conduit elements between the radial piston pump and the high-pressure accumulator necessary. In addition, through integration the high-pressure accumulator within the radial piston pump a particularly compact design of radial piston pump and High-pressure storage are possible.

A preferred embodiment of the invention provides that the high pressure accumulator has a high pressure seal and that the high-pressure seal inside the pump housing is arranged. The internal arrangement of the high pressure seal ensures even with a leak, that no fuel in the environment, but at most in the Pump housing can get.

A further preferred embodiment of the invention sees before that the high-pressure accumulator via hydraulic lines hydraulic to at least one high-pressure outlet of the high-pressure fuel pump is connected in parallel. Through the parallel connection of high pressure accumulator and high pressure outlet acts the high-pressure accumulator as a hydraulic damper. hereby can the pulsation due to design of radial piston pumps be significantly reduced in the liquid delivery.

According to the invention are preferred in the high pressure outputs Throttle, in particular diaphragms, formed. The throttles work also pulsationsdämpfend and thus provide for a more uniform fluid delivery.

According to the invention, all high-pressure lines are preferred for pressure generation, print forwarding, pressure storage and Pressure distribution to the individual high-pressure outputs in the pump housing educated. By this measure, the number The necessary high-pressure sealing points are reduced to a minimum.

Figur 1:

einen Radialschnitt durch eine erfindungsgemäße Radialkolbenpumpe mit einem radial angeordnetem Hochdruckspeicher.

An embodiment and further advantages of the invention will be explained below with reference to the drawing. It shows schematically:

FIG. 1:

a radial section through a radial piston pump according to the invention with a radially arranged high-pressure accumulator.

FIG. 1 shows a radial section through an inventive device Radial piston pump 1. The cutting plane lies in one Level with the high-pressure lines 13. The radial piston pump 1 comprises a pump housing 2 and two pump cylinders 7, 17, which are formed integrally with the pump housing 2. The one-piece design eliminates a seal between the pump cylinders 7, 17 and the pump housing 2. In the pump housing 2, a high-pressure accumulator 4 is integrated. Pump pumps 20, 21 are in the pump cylinders 7, 17 arranged to move back and forth. The pump piston 20, 21 and the high-pressure accumulator 4 are in one to the cutting plane further past radial plane and are therefore dashed shown.

The pump cylinders 7, 17 are at an angular distance of α = 90 ° to each other. The high-pressure accumulator 4 is disposed between the two pump cylinders 7, 17 and forms an angular distance of 45 ° to each pump unit 7, 17. By the arrangement of the high-pressure accumulator 4 between the Both pump cylinders 7, 17 results in a particularly compact Design of the radial piston pump 1.

The radial piston pump 1 is of a camshaft 3, the rotatably disposed in the pump housing 2, driven. The Camshaft 3 has two mutually opposite cams 15, 16 on. The individual pump pistons 20, 21 are directly driven by the camshaft 3. It is, too possible that the stroke transmission takes place via roller tappets. The roller tappets offer the advantage that the camshaft with very steep ramps can be formed. In addition minimized the wear caused by the use of roller tappets. Instead of A camshaft is also the use of an eccentric shaft possible.

The high-pressure accumulator 4 is through a radial bore 8 in Pump housing 2 is formed. The radial bore 8 is doing from the high-pressure accumulator 4 opposite side in the pump housing 2 introduced. The radial bore 8 is thus designed as a blind hole. She is at a right angle to the axis of the bearing bore 9 for the camshaft 3 in the Pump housing 2 introduced. The high-pressure accumulator 4 is on closed at its lower end with a high-pressure seal 5. As a high-pressure seal 5 is preferably suitable a threaded plug which is screwed into the radial bore 8 becomes. For this purpose, the radial bore 8 a corresponding Thread on. The radial bore 8 is at its open end 10 closed with another stopper 11, so that the pump housing 2 is sealed to the environment. This seal is only one Low pressure seal towards the inside of the pump. At this low pressure seal much lower requirements are made as to the high pressure seal 5. In case the High-pressure seal 5 has a leak passes the liquid does not enter the environment as in the prior art, but only in the radial bore 8 and thus in the pump interior. The low pressure seal prevents that the leakage flow from the pump interior to the Environment can reach. This results in a secure seal the high-pressure accumulator 4

The high-pressure outlets 12 of the individual pump cylinders 7, 17 are on high pressure lines 13 on the one hand with the high pressure connections 6 and the other with the high-pressure accumulator. 4 connected. By the parallel connection of the high pressure outputs 6 with the high-pressure accumulator 4, this acts as a hydraulic Damper. The high-pressure accumulator thus ensures pulsation damping and thus allows a more even promotion the radial piston pump. 1

By the arrangement of the high-pressure outputs 6 on the pump housing 2, the injector lines, which are not shown in Figure 1 are, directly. without additional adapter parts like For example, double nipple connected to the high-pressure pump 1 become. This results in an advantageous manner a particularly secure seal between the pump housing 2 and the injector lines.

For further pulsation damping can in the high pressure outputs 6 an additional throttle 14 may be formed. As a throttle 14 is particularly suitable for a simple aperture, the in the high-pressure outlet is introduced. The aperture 14 can open simple way, for example by a stepped bore in Pump housing 2 may be formed.

Of course, the invention is not limited to the embodiments limited. This is also possible, for example in place of the radially arranged high-pressure fuel storage an axially arranged high-pressure fuel storage form in the pump housing. It is also possible the high-pressure accumulator as a spherical high-pressure accumulator train. This results in a particularly advantageous Pressure distribution within the accumulator.

It is also possible that the high pressure outputs 6 and the high-pressure accumulator 4 is not hydraulically parallel, but are connected in series. In this case are high pressure outlets to provide the high-pressure accumulator 4. The supply lines and the High-pressure outlets can preferably in, on the high-pressure accumulator trained, stiffening ribs be formed.

In summary, it can thus be stated that through the one-piece design of pump housing and pump cylinder a secure seal between the pump housing and the Pump cylinder is guaranteed. A leak and so leakage of liquid can be safely avoided. The proposed radial piston pump is particularly suitable to high-pressure fuel production in modern commons Rail injection systems.

Claims (7)

Radial piston pump (1), in particular radial piston pump for high-pressure fuel production, with a pump housing (2) in which a pump shaft (3) with an eccentric portion or at least a cam-shaped elevation is rotatably mounted and with at least one pump piston in a pump cylinder (7) out and is arranged to be movable,
characterized in that
the pump housing (2) and the pump cylinder are integrally formed with each other. Radial piston pump (1) according to claim 1,
characterized in that
in the pump housing (2) a high-pressure accumulator (4) is integrated. Radial piston pump according to claim 2,
characterized in that
the high-pressure accumulator (4) has a high-pressure seal (5) and that the high-pressure seal (5) is arranged in the pump housing (2) on the inside. Radial piston pump (1) according to claim 2 or 3,
characterized in that
High-pressure accumulator (4) via high pressure lines (13) hydraulically connected in parallel to at least one high-pressure outlet (6) of the high-pressure fuel pump (1). Radial piston pump (1) according to claim 3 or 4,
characterized in that
in the high-pressure exits (6) throttles (14), in particular diaphragms, are formed. Radial piston pump (1) according to one of the preceding claims,
characterized in that
all high-pressure lines (13) for pressure generation, pressure transfer, pressure storage and pressure distribution to the individual high-pressure outputs (6) are formed in the pump housing. Radial piston pump (1) according to one of the preceding claims,
characterized in that
the high-pressure outputs (6) are integrally formed with the pump housing, the Gestallt that an injector directly without additional adapter parts and the high-pressure pump (1) can be connected.

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