FR2961561A1 - PISTON PUMP - Google Patents

Abstract

A piston pump (10a), in particular for a fluidic vehicle module, comprising a pump piston (12a) axially slidable in a pump bore (16a) formed in the pump housing (14a) with a piston ring (18a) and a valve unit (20a). The pump piston (12a) is a bellows.

Description

FIELD OF THE INVENTION The present invention relates to a piston pump in particular for a fluid module of a vehicle comprising a pump piston sliding axially in a pump bore made in a pump housing, comprising a piston ring and a valve unit. State of the art Piston pumps (s) are known according to the state of the art in the most diverse embodiments. Piston pumps are frequently used in motor vehicles to transfer fluids into hydraulic systems. Typically these pump elements consist of a pump piston which is generally manufactured by a machining operation with chip removal or by transformation, being housed in a pump bore made in a pump housing with intake and exhaust valves as well as sealing elements. The pump housing is generally cylinder-shaped. The valves control the fluid as the pump piston moves. The inlet valve prevents that during the compression phase the liquid returns to the suction chamber. The exhaust valve prevents the return of liquid from the pressure side to the inside of the piston pump. Document DE 102 29 201 A1 for example describes such a piston pump. This piston pump comprises a housing provided with a pump bore. A pump piston slides axially in this bore by delimiting therein a pressure chamber of variable volume. For guiding and sealing the pump piston, the pump has a piston ring unit. The pump piston is driven reciprocally in translation by an eccentric.

The flow of pressurized liquid is controlled by a valve unit through the piston pump; this unit consists of an intake valve and an exhaust valve. DESCRIPTION AND ADVANTAGES OF THE INVENTION The subject of the invention is a piston pump of the type defined above, characterized in that

2 the pump piston is in the form of a bellows. The piston pump according to the invention has the advantage of producing the piston in the form of a bellows so that the piston pump can be applied thanks to a simple and economical construction against the eccentric during the operation of the pump. piston and the bellows further provides the function of a conventional return spring. Thus the pump piston combines both the pump function and the return function in a room. This gives a piston pump of small size and a particularly economical construction because it removes the additional return springs. In particular, the pump piston according to the invention damps the pressure pulsations, which gives a good NVH behavior (that is to say a good behavior for the noise-vibration-hardness parameters).

According to an advantageous development of the piston pump according to the invention, the bellows is installed in the pump bore in the prestressed state so that the return or the application under pressure of the pump piston against the eccentric is automatically by the prestressing force of the bellows.

Particularly advantageously the front surface of the bellows on the side of the drive unit is reinforced. Thus the bellows is protected against the action of the eccentric and can withstand without wear the high stresses due to the eccentric. According to another advantageous development of the piston pump according to the invention, the piston ring unit comprises at least one ring clipped or overmolded by injection into the bellows. This allows a particularly simple mounting and a very simple manufacture of the piston pump because the ring is installed in a simple manner by snapping on the bellows or that it is expected from the manufacture of the bellows. According to another advantageous development of the piston pump of the invention, the pump bore and the ring are made of materials such that the two components constitute a sliding pair. Advantageously this guarantees the guiding of the pump piston in the bore and minimizes wear and / or damage.

3 of the ring shaped guide ring. Play remains between the bellows and the pump bore which is advantageously achieved in a simple manner by supporting the bellows against the pump bore in case of overpressure without destroying the fold bellows.

According to another advantageous development of the piston pump according to the invention, the bellows comprises a stroke limiting unit. Advantageously, this results in the protection of the bellows or its protection against damage because the stroke limiting unit only allows a path of the bellows for a defined stroke and then it constitutes a stop for the bellows. The stroke limiting unit is in particular made in one piece with the cover of the valve unit which closes the pump bore from the outside. Advantageously this simplifies the manufacture of the piston pump because it can be performed by a manufacturing process, simultaneously in two parts. In particular, it eliminates an otherwise necessary connection between the two parts. According to an advantageous development of the piston pump of the invention, the bellows is sealingly attached to the pump housing by its end facing the valve so that the locking is done without any additional construction element. According to another development of the piston pump of the invention, the valve unit comprises for example two valves installed in the same radial plane around the bellows and / or in an axial plane of the bellows. Advantageously this allows an optimal adaptation to the space available in the piston pump. Drawings The present invention will be described hereinafter in more detail with the aid of two exemplary embodiments of a piston pump according to the invention shown in the accompanying drawings in which: - Figure 1 is a schematic sectional view of a first exemplary embodiment of a piston pump according to the invention, - Figure 2 is a schematic sectional view of a second embodiment of a piston pump according to the invention.

4 Description of Embodiments of the Invention Figures 1 and 2 each show a portion of a piston pump 10a, 10b according to the invention at a pump piston 12a, 12b. The piston pump 10a, 10b is particularly suitable for a motor vehicle fluid module. The piston pump 10a, 10b can be applied to a pump system according to the current vehicle technique for example in safety technology such as ABS systems (anti-lock system), ESP systems (electronic stabilization program), EHB systems ( electrohydraulic brake), TCS (traction control systems) or ASR systems (traction control). The piston pump 10a, 10b includes a pump piston 12a, 12b axially slidable in a pump bore 16a, 16b formed in the pump housing 14a, 14b. The driving of the pump piston 12a, 12b is provided by a drive unit 22a, 22b for example an eccentric driven in rotation; the eccentric 22a, 22b is installed eccentrically with respect to the axis of rotation 36a, 36b. The axis of rotation 36a, 36b of the eccentric 22a, 22b intersects the axis of the pump bore 16a, 16b radially. The eccentric 22a, 22b moves in a circular path around the axes of rotation 36a, 36b; the radius of the circular path corresponds to the eccentricity of the eccentric 22a, 22b. The pump piston 12a, 12b is applied by a front surface 24a, 24b against the periphery of the eccentric 22a, 22b and can be displaced along the stroke H axially in the pump bore 16a, 16b. The pump piston 12a, 12b is sealed by a piston ring 18a, 18b in the pump bore 16a, 16b in which it slides axially. In the present exemplary embodiment, the piston ring 18a, 18b comprises a guide or sliding ring 18a and 18b; the piston rings 18a, 18b may, however, comprise other rings such as, for example, other guide rings, sealing rings and / or support rings. In the present embodiments, the ring 18.1a, 18.lb are installed in the eccentric side region of the pump piston 12a, 12b but other positions can also be chosen. The piston pump 10a, 10b further comprises a valve unit 20a, 20b including an intake valve 20a, 20b and an exhaust valve 20.2a and 20.2b; other valves are also possible. Between the inlet valve 20.1a, 20.lb and the exhaust valve 20.2a and 20.2b there is a pressure chamber 38a, 38b which increases during the suction stroke of the pump piston 12a, 12b and decreases during the compression stroke or discharge stroke of the pump piston 12a, 12b. The valves 20.1a, 20.1b, 20.2a, 20.2b serve to control the fluid upon movement of the pump piston 12a, 12b. The intake valve 20.1a, 20.lb prevents the liquid can return by suction in the piston pump 10a, 10b during a compression phase. The exhaust valve 20.2a, 20.2b prevents the return of the fluid from the pressure chamber 38a, 38b into the interior volume of the pump. Usually such valves are made as ball valves loaded by a spring. To apply the pump piston 12a, 12b simply and economically against the eccentric 22a, 22b during operation of the piston pump, according to the invention the pump piston 12a, 12b is designed as a bellows . The bellows 12a, 12b advantageously replaces the return spring unit generally fitted to conventional piston pumps and whose spring force ensures the necessary application pressure. The bellows 12a, 12b is installed in the prestressed state in the pump bore 16a, 16b so that the return or thrust of the pump piston 12a, 12b against the eccentric 22a, 22b is effected by prestressing the bellows 12a. , 12b. In the present embodiment, the bellows 12a, 12b is reinforced at the front surface 24a, 24b on the side of the drive unit or the eccentric 22a, 22b; this is done for example by an additional layer of material reinforced with fibers. As already indicated, the piston ring 18a, 18b of the present embodiment has at least one ring 18.1a, 18b for guiding the pump piston 12a, 12b into the pump bore 16a, 16b; this ring is preferably clipped or overmolded by injection into the bellows 12a, 12b. Advantageously, the bore of

6 pump 16a, 16b and the ring 18.1a, 18.lb are made of a material such that the two components 16a, 16b, 18.1a, 18.lb each constitute a pair adapted to slip. For example the pump bore 16a, 16b will be aluminum and the bellows 12a, 12b will be Teflon. To allow to press the bellows 12a, 12b against the pump bore 16a, 16b in the event of overpressure without destroying the bellows 12a, 12b, there is a slight clearance between the bellows 12a, 12b and the pump bore 16a. , 16b. To protect the pump bellows 12a, 12b and as a means of protection against destruction, the bellows 12a, 12b has a stroke limiting unit 26a, 26b. In the present exemplary embodiments, the stroke limiting unit 26a, 26b is installed inside the bellows 12a, 12b and preferably made in the form of a cylindrical element which allows only one stroke of the bellows. 12a, 12b following the stroke H and then forms a stop for the bellows 12a, 12b. The stroke limiting unit 26a, 26b is preferably made in one piece with the cover 28a, 28b of the outwardly closing valve unit 20a, 20b, with the pump bore 16a, 16b. The bellows 12a, 12b is sealingly attached to the pump housing 14a, 14b at the end 30a, 30b facing the valve unit 20a, 20b; the fixing is done for example by a waterproof matting. The valve unit 20a, 20b has at least two valves 20.1a, 20.1b, 20.2a, 20.2b; in the present examples of embodiment it is the intake valve 20.1a, 20.lb and the exhaust valve 20.2a, 20.2b. The valves 20.1a, 20.1b, 20.2a, 20.2b may be distributed in any radial plane 32a, 32b around the bellows 12a, 12b and / or in the axial plane 34a of the bellows 12a, 12b. In the first embodiment of the piston pump 10a according to Figure 1, the inlet valve 20.1a is in the radial plane 32a and the exhaust valve 20.2a is in the axial plane 34a of the bellows 12a. In the second embodiment of the piston pump 10b according to Figure 2 there is the intake valve 20.lb and the valve 20.2b installed in the same radial plane 32b around the bellows 12b.

NOMENCLATURE NOMENCLATURE OF THE MAIN ELEMENTS 10a, 10b 12a, 12b 14a, 14b 16a, 16b 18a, 18b 18.1a, 18.bb 20a, 20b 22a, 22b 26a, 26b 28a, 28b 36a, 36b 38a, 38b piston pump piston pump pump housing pump bore piston ring slip ring valve unit drive unit stroke limiting unit cover rotation shaft pressure chamber

Claims (1)

1) A piston pump, in particular for a fluid module of a vehicle comprising a pump piston (12a, 12b) sliding axially in a pump bore (16a, 16b) made in a pump casing (14a, 14b), having a piston ring (18a, 18b) and a valve unit (20a, 20b), a piston pump characterized in that the pump piston (12a, 12b) is in the form of a bellows. 2) piston pump according to claim 1, characterized in that the bellows (12a, 12b) is mounted in the pump bore (16a, 16b) in the prestressed state. 3) piston pump according to claim 1, characterized in that the bellows (12a, 12b) is reinforced at the front surface (24a, 24b) facing the drive unit (22a, 22b). 4) piston pump according to claim 1, characterized in that the piston ring (18a, 18b) comprises at least one ring (18.1a, 18.1b) which is clipped or overmolded by injection into the bellows (12a, 12b). ). Piston pump according to Claim 1, characterized in that the pump bore (16a, 16b) and the ring (18.1a, 18.1b) are made of a material such that the two elements (16a, 16b, 18.1a, 18.1b) constitute a slip pair. 6 °) piston pump according to claim 1, characterized by clearance between the bellows (12a, 12b) and the pump bore (16a, 16b). Piston pump according to claim 1, characterized in that the bellows (12a, 12b) has a stroke limiting unit (26a, 26b). 8 °) piston pump according to claim 7, characterized in that the stroke limiting unit (26a, 26b) is in one piece with a cover (28a, 28b) of the valve unit (20a, 20b ) closing the pump bore (16a, 16b) from the outside. 9 °) piston pump according to claim 1, characterized in that the end (30a, 30b) of the bellows (12a, 12b) facing the valve unit (20a, 20b) is sealingly attached to the housing pump (14a, 14b). 10 °) piston pump according to claim 1, characterized in that the valve unit (20a, 20b) has at least two valves (20.1a, 20.1b, 20.2a, 20.2b) which are located around the bellows (12a, 12b) in the same radial plane (32a, 32b) and / or lie in an axial plane (34a, 34b) of the bellows (12a, 12b). 25