EP1144867A2

EP1144867A2 - Pump

Info

Publication number: EP1144867A2
Application number: EP99952361A
Authority: EP
Inventors: Willi Parsch; Dirk Webert
Original assignee: LuK Fahrzeug Hydraulik GmbH and Co KG
Current assignee: LuK Fahrzeug Hydraulik GmbH and Co KG
Priority date: 1998-08-13
Filing date: 1999-08-13
Publication date: 2001-10-17
Anticipated expiration: 2019-08-13
Also published as: WO2000009887A3; DE19981556B4; WO2000009887A2; JP2002542416A; JP4452406B2; DE19981556D2; EP1144867A3; EP1144867B1; US6413063B1

Abstract

The invention relates to a pump for delivering a fluid, especially a vane-cell pump, comprising a delivery device (1) which is accommodated in a casing (2). The casing (2) is closed on one side by a casing cover (3), and the other side is connected to a bearing flange (4). An input shaft (11) passes through the bearing flange (4), the delivery device (1) and optionally through the casing cover (3). In addition, said input shaft is mounted in a passage which is configured in the bearing flange (4) and optionally configured in the casing cover (3). A side plate (16, 17) which is supported against the inner wall, and which centers the delivery device (1) in the casing (3) is respectively arranged between the delivery device (1) and the inner wall of the bearing flange (4) and optionally of the casing cover (3). The aim of the invention is to provide an easy centering of the side plate (16, 17), especially while reducing reference tolerances with regard to the casing (2). To this end, the side plate (16, 17) is centered directly in the passage for the input shaft (11) on the side facing the bearing flange (4).

Description

pump

The invention relates to a pump for conveying a fluid, in particular a vane pump, with a conveying device accommodated in a housing, the housing being closed on one side by a housing cover and a bearing flange connected on the other side, a drive shaft connecting the bearing flange to the Penetrates conveyor and possibly the housing cover and is mounted in a passage formed in the bearing flange and possibly in the housing cover and wherein between the conveyor and the inner wall of the bearing flange and possibly the housing cover each have a drive device supported on the inner wall, the drive device in the housing centering side plate is arranged.

Pumps of the type in question, such as vane pumps, are well known in practice. By way of example only, reference is made to DE 39 28029 A1, DE 41 22433 C2 and DE 41 38516 A1.

Pumps of the generic type are used, for example, in power steering systems and pump a special oil to support the steering force to be applied to the steering wheel of a motor vehicle. These are preferably vane pumps that draw oil from a reservoir provided outside the pump, for example from an external tank. Such pumps are usually equipped with a flow control valve, via which oil from the high pressure area - pressure side - into the suction area - suction side - of the pump can be directed. From a certain pump speed and with a fixed adjustable flow rate, the flow control valve opens an outflow hole through which oil under high pressure can escape. The oil gets into the suction area of the conveyor.

From DE 41 38 516 A1, a generic pump is known per se, in which the drive shaft penetrates the bearing flange and is held there by suitable bearings. On the end of the drive shaft arranged inside the housing, the drive shaft is rotatably mounted in a pressure plate carrier. The pressure plate carrier is supported by a suitable pressure spring, which is located on the one hand in the pressure plate carrier and supported on the other hand on the housing, pressed against a pressure plate, which in turn rests against a rotor accommodating a plurality of vanes. The blades are radially slidably mounted in corresponding slots that are incorporated in the rotor.

The side plate, which is supported on the side of the bearing flange on its side facing away from the rotor, lies on the side of the conveyor device which is connected to the drive shaft in a rotationally fixed manner and faces the bearing flange. To center the side plate and thus the conveyor or the rotor, the side plate is provided - in a conventional manner - with special centering means, which are specifically designed as centering pins on the side of the side plate facing the bearing flange and protrude into corresponding bores in the bearing flange.

The centering of the side plate in the pump known from DE 41 38 516 A1 is not without problems in practice, since this centering and thus the means used for centering must be matched exactly to the passage for the shaft formed in the bearing flange. In terms of design, this is complex and not always reliably realizable, so that reference tolerances to the housing are not insignificant.

The present invention is therefore based on the object of designing and developing a pump of the generic type such that simple centering of the side plate or side plates is possible while reducing reference tolerances to the shaft center or center of the bearing.

The pump according to the invention solves the above object by the features of claim 1. Thereafter, a pump of the generic type is characterized in that the side plate is centered on the side facing the bearing flange directly in the passage for the drive shaft.

According to the invention, it has accordingly been recognized that conventional centering of the side plate has to be abandoned by means of centering pins, in order to effectively reduce reference tolerances to the center of the shaft or to the center of the bearing can. If one were to center the side plate in a conventional manner by means of centering pins on the face, the passage in the bearing flange would have to be exactly aligned with the passage in the side plate. This is complex from a manufacturing and assembly point of view, since the side plate is manufactured and assembled independently of the bearing flange and the position of the conventional centering pins is responsible for their arrangement relative to the bearing flange. In a further inventive manner, it has been recognized that the reference tolerances to the housing can be avoided by centering the side plate with respect to the passage for the drive shaft, namely in that the side plate on the side facing the bearing flange immediately before or at or is centered in the passage for the drive shaft. Such a direct centering of the side plate in the passage for the drive shaft has the advantage that the centering is no longer carried out by means of separate centering pins, but rather directly in the passage, so that the required escape is realized virtually automatically.

At this point it should be noted that in the generic pump according to DE 41 38 516 A1 the drive shaft extends through the bearing flange into the conveyor device or through the conveyor device and is mounted at the opposite end. However, it is also conceivable that the drive shaft not only extends through the conveyor device, but also through the housing cover on the side of the conveyor device opposite the bearing flange. Correspondingly, a passage or a bore is formed in the housing cover, similar to the bearing flange, through which the drive shaft protrudes. Accordingly, the drive shaft is supported not only in the passage of the bearing flange, but also in the passage of the housing cover in the context of such a configuration, a side plate being supported on the inner wall being arranged between the conveyor device and the inner wall of the bearing flange and also the housing cover, so that the drive device is delimited on both sides by a side plate - often called a pressure plate in the prior art, and thus centered.

On the basis of the foregoing, it is also conceivable that the side plate not only on the side facing the bearing flange, but also on the side facing the housing cover directly in the Passage for the drive shaft is centered, namely when the drive shaft extends completely through the housing and thus also through the housing cover. Regardless of the specific embodiment as to whether the drive shaft extends through the bearing flange and the housing cover on both sides, it is of particular advantage for centering the side plate if it has an at least largely circumferential centering collar on the side facing the passage and with the centering collar in the passage is plugged in. The centering collar limits the passage in the side plate, so that the centering or positioning of the side plate is automatically achieved when the centering collar is inserted into the passage of the bearing flange and possibly the housing cover. The centering collar could be partially or zonally or circumferentially.

In a further advantageous manner, the side plate comprises an anti-rotation device. This could be the centering collar itself, namely if it is designed to prevent rotation. In the context of a partial configuration of the centering collar, this could itself serve as a rotation lock, namely if the passage - for inserting the centering collar - is equipped with appropriate measures to stop the partially formed centering collar.

It is also conceivable that the anti-rotation device on the side of the side plate facing the passage comprises special engagement means, wherein said engagement means can also be formed directly in the region of the centering collar. This can be, for example, engagement lugs which engage in corresponding recesses in the inner wall of the bearing flange or the housing cover and / or the passage. With the constructive measures discussed above, a simple centering of the side plate is achieved in any case, with a rotation lock being provided at the same time, so that the side plate is centered in an ideal manner - with simple constructional means - and at the same time is arranged so that it cannot rotate.

There are now various possibilities for designing and developing the teaching of the present invention in an advantageous manner. For this purpose, on the one hand to the claims subordinate to claim 1, on the other hand to the following explanation of an embodiment of the invention with reference to the drawing to refer. In connection with the explanation of the preferred exemplary embodiment of the invention with reference to the drawing, generally preferred configurations and developments of the teaching are also explained. In the drawing shows

Fig. 1 in a schematic side view, sectioned, an embodiment of a pump according to the invention and

Fig. 2 shows the object of Fig. 1 in an enlarged view, the

Centering of the bearing side plate in the passage of the shaft can be seen.

Fig. 1 shows a simplified representation of a generic pump in a sectional side view, which is specifically a vane pump with a rotation group 1 or conveyor not described here. With regard to the special design of such a rotation group 1, reference is made to DE 41 38516 A1 only by way of example.

The pump shown here comprises - as essential components - a housing 2 and a conveying device accommodated in the housing 2, which is the rotation group 1 already mentioned. A housing cover 3 that closes the housing 2 and on the other side - on the side opposite the housing cover 3 - a bearing flange 4 adjoining the housing 2 is provided on the front side.

Between the housing 2 and the housing cover 3 on the one hand and between the housing 2 and the bearing flange 4 on the other hand, an outwardly acting seal 5, 6 is arranged, the seal 5 acting against the housing cover 3 in a groove formed in the end face 7 of the housing 2 8 is inserted. On the other side of the housing 2, the seal 6 is assigned to the bearing flange 4 or inserted into a groove 9 machined into the bearing flange 4. The groove 9 could also be worked into the end face 10 of the housing 2. For the pump claimed here, it is also essential that a drive shaft 11 penetrates the bearing flange 4, the conveying device 1 and the housing cover 3. To support the drive shaft 11, special bearings are provided on the one hand in the bearing flange 4 and on the other hand in the housing cover 3. In the housing cover 3, the bore or the passage 15 itself represents the bearing. Radial roller sealing rings 13 are provided adjacent to the inside. On the opposite side, the bearing is formed in the passage 14 of the bearing flange 4. Here too, radial roller sealing rings 12 adjoin the inside.

Between the conveyor 1 and the inner wall of the bearing flange 4 and the housing cover 3, a side plate 16, 17, which is supported on the inner wall and centers the conveyor 1 in the housing 2, is arranged. The side plates 16, 17 serve, among other things. to center the conveyor 1, but above all to separate the suction and pressure sides.

According to the invention, at least on the side facing the bearing flange 4, the side plate 16 is centered directly in the area adjoining the passage 14. This can be seen particularly clearly in FIG. 2.

Specifically, the side plate 16 is provided on the side facing the passage 14 with a circumferential centering collar 18, the side plate 16 with the centering collar 18 being inserted into the bearing flange 4 or into the passage 14 there near the radial roller sealing ring 12.

The side plate 16 further includes a torque support, which is not shown in the figures - for the sake of a clear and simple illustration. Specifically, these are torque support lugs that are firmly assigned to the side plate 16. These torque support lugs engage in corresponding recesses in the inner wall of the bearing flange, so that undesired rotation of the side plate 16 is effectively avoided.

At this point it should be particularly emphasized that the passage 14 and the area for the subsequent storage together with the receptacle for the center Trierbund 18 of the side plate 16 by means of a single tool, namely by means of a step tool, can be produced, with no tolerance shift up to the centering collar occurring due to the use of a step tool. This considerably simplifies the assembly of the components while avoiding a tolerance shift.

In conclusion, it should be emphasized that the above-mentioned exemplary embodiment merely explains the teaching according to the invention, but does not restrict it to the exemplary embodiment.

Claims

Patent claims

1. Pump for conveying a fluid, in particular a vane pump, with a conveying device (1) accommodated in a housing (2), the housing (2) being closed on one side by a housing cover (3) and engaging on the other side Bearing flange (4) connects, a drive shaft (11) penetrating the bearing flange (4), the conveyor (1) and possibly the housing cover (3) and in one in the bearing flange (4) and possibly in the housing cover (3) trained passage is supported and between the conveyor (1) and the inner wall of the bearing flange (4) and possibly the housing cover (3) each have a side plate (16, 17) which is supported on the inner wall and centers the drive device in the housing (1) is arranged, characterized in that the side plate (16) on the side facing the bearing flange (4) is centered directly in the passage for the drive shaft (11).

2. Pump according to claim 1, characterized in that the side plate (17) on the housing cover (3) side facing directly in the passage (15) for the drive shaft (11) or in the housing (2) is centered.

3. Pump according to claim 1 or 2, characterized in that the side plate (16) on the passage (14) facing side has an at least largely circumferential centering collar (18) and inserted with the centering collar (18) in the passage (14) is.

4. Pump according to one of claims 1 to 3, characterized in that the side plate (16, 17) comprises a rotation lock.

5. Pump according to claim 4, characterized in that the rotation lock on the passage (14) facing side of the side plate (16) comprises engagement means.

6. Pump according to claim 4, characterized in that the rotation lock in the region of the centering collar (18) comprises engaging means.

7. Pump according to claim 5 or 6, characterized in that the engagement means are designed as engagement lugs which engage in corresponding recesses in the inner wall of the bearing flange (4) or the housing cover (3) and / or the passage (14).