EP2956667B1 - Assembly comprising a pump element and a fixing flange - Google Patents

Description

State of the art

The invention is based on an assembly comprising a pumping element and a mounting flange for installation in a housing according to the preamble of patent claim 1 and also of a housing for such an assembly.

In pumping elements of high-pressure pumps, which are provided for installation in a housing, for example in an internal combustion engine, a mounting flange is required to permanently connect such a pumping element to the housing. For this purpose, the outer body of the pumping element and the associated mounting flange is made in one piece as a forged part. The disadvantage here is that the subsequently required for the corresponding forging forming rework, for example by machining, is associated with relatively high production costs.

From the US 2,975,776 For example, there is known a cam-driven liquid fuel pump for an internal combustion engine having a shape that allows it to be installed in the engine housing.

From the DE 10 2008 042 626 A1 For example, there is known a high pressure fuel pump for a fuel injection system of an internal combustion engine having a pump housing including a flange for attachment to the internal combustion engine.

From the EP 2 055 934 A2 a high pressure fuel pump is known, wherein a flange is welded to the pump housing.

Advantages of the invention

The assembly with the characterizing features of claim 1 has the advantage that, in contrast to the prior art, in which the outer body of the pumping element and the mounting flange are designed integrated, by the present invention separately from each other making the pumping element and the associated mounting flange of the outer body of Pumping element cost reducing as a rotating part of rod material with low Zerspannvolumen can be manufactured and the fastening of the pumping element by means of the separately formed from the outer body of the pumping element and mounted on the pumping element mounting flange. Advantageously, the mounting flange can be manufactured from a cost-effective and from a suitable for the mechanical stress occurring during operation of the mounting flange material.

In order to receive the pumping element in the mounting flange, the mounting flange has a central passage opening, which encloses a head region of the pumping element in the assembled state of the module.

To attach the assembly to a housing, the mounting flange has at least two mutually symmetrically with respect to the central passage opening opposite retaining tabs for fastening means on the housing.

The invention provides that on the outer body of the pumping element a circumferential shoulder on the outer circumference is formed, which is larger in diameter than the head portion and the head portion bounded axially downwards. As a result, the shoulder of the pumping element provides a bearing surface for the mounting flange mounted in the intended position on the pumping element.

Further advantageous developments and refinements of the invention will become apparent from the measures listed in the dependent claims.

In this case, in the case of a substantially cylindrically shaped head region of the pumping element, the central passage opening of the fastening flange is of circular design.

An embodiment of the invention may consist in that the shoulder of the pumping element when installed in a housing cooperates with a shoulder of the housing. In the intended installation position of the module, the shoulder of the pumping element rests on the shoulder formed in the mouth region of the housing.

A preferred embodiment of the invention is that the pumping element comprises a spring, which acts on the one hand on a formed in the lower region of the pumping element paragraph and on the other hand is provided for support on a stop within the opening of the housing. The axial force generated by the spring acts upwards and presses the pumping element against the mounting flange.

An embodiment of the invention is that the mounting flange rests flat on the shoulder of the pumping element. As a result, the mounting flange acts as a rigid element, which fixes the pumping element in the axial direction.

A preferred and particularly advantageous embodiment of the invention, in which the mounting flange is designed elastically as a spring element or bending element, however, is that the mounting flange is curved away from the shoulder. The curvature between the central axis of the pumping element and the location of attachment of the mounting flange is formed on the housing. By adjusting the securing means penetrating the retaining tabs, bending of the arching is possible with corresponding constriction of an axial distance between retaining tabs and housing at the mounting location which is dependent on the bending, such that the mounting flange exerts an adjustable biasing force on the pumping element. The biasing force can thus be adjusted in this embodiment, depending on the pressure generated by the pumping element during operation, and indeed via the bending of the mounting flange. Due to the bending of the mounting flange, a relatively simple assembly of the assembly is made possible. In addition, the mounting flange exerts as a spring element or bending element from a downward axial force, so that the mounting flange presses against the shoulder of the pumping element. Advantageously, component tolerances in the axial direction can thereby be compensated. According to an expedient development of the mounting flange is formed of strip material, wherein individual lamellae of the strip material are stacked one above the other.

To permanently anchor the assembly to the housing, each retaining tab has at least one through hole for receiving a respective associated fastener. Conveniently, the fastening means are designed as screws and anchored in corresponding holes in an outer side of the housing.

According to an expedient embodiment of the invention, it is provided for supporting the pumping element in the housing opening, that the shoulder and the heel each carry a radially encircling sealing ring. Structural tolerances can be compensated thereby, so that the pumping element is received tightly in the housing opening.

drawings

• Fig. 1 einen Längsschnitt durch eine Baugruppe, welche ein Pumpelement und einen das Pumpelement aufnehmenden Befestigungsflansch umfasst, wobei der linksseitige Teil von Fig. 1 eine erste Ausführungsform des Befestigungsflansches zeigt, während der rechtsseitige Teil eine zweite Ausführungsform des Befestigungsflansches zeigt,
• Fig. 2 einen Querschnitt durch einen Kopfbereich des Pumpelements von Fig. 1 gemäß der ersten Ausführungsform, wobei eine angeschnittene Seite am Kopfbereich als Schlüsselfläche zum Festlegen einer Winkelposition des Pumpelements dient, und
• Fig. 3 eine Draufsicht auf die in einem Gehäuse eingebaute Baugruppe gemäß der zweiten Ausführungsform.

Embodiments of the invention are explained in more detail in the following description and in the accompanying drawings. The latter show in schematic views.

• Fig. 1 a longitudinal section through an assembly comprising a pumping element and the pumping element receiving mounting flange, wherein the left-side part of Fig. 1 shows a first embodiment of the mounting flange, while the right-hand part shows a second embodiment of the mounting flange,
• Fig. 2 a cross section through a head portion of the pumping element of Fig. 1 according to the first embodiment, wherein a truncated side at the head portion serves as a key surface for fixing an angular position of the pumping element, and
• Fig. 3 a plan view of the built-in a housing assembly according to the second embodiment.

Description of the embodiments

Fig. 1 shows in a longitudinal sectional view of an assembly according to the invention designated in its entirety by 10, which comprises a pumping element 11 and a pumping element receiving mounting flange 12. This shows the left half of Fig. 1 a first embodiment of the mounting flange 12 which is flat in profile and thus rests flat on the outside of a housing 22, while the right-side half of Fig. 1 shows a second embodiment of the mounting flange 12, which is curved or arched in profile. The assembly 10 is suitable for installation in a housing. In the intended assembled state of the assembly 10 surrounds in both embodiments of the mounting flange 12 with a centrally formed through hole 50, the head portion 21 of the pumping element 11, which is shown in the figures essentially on the basis of its outer body. For this purpose, the passage opening 50 of the mounting flange 12 is circular, wherein the diameter thereof corresponds approximately to the diameter of the cylindrical head portion 21 of the pumping element 11. For attachment of the mounting flange 12 on an abutment side 27 of the housing 22, the mounting flange 12 has two symmetrically with respect to the longitudinal central axis 24 oppositely arranged retaining tabs 37 with two through holes 23 which are arranged symmetrically to the longitudinal center axis 24 opposite each other and each receive a screw 25 therein with which the mounting flange 12 can be anchored in two blind holes 26 which are formed corresponding to the arrangement of the through holes 23 on the abutment side 27 of the housing 22. The Pumping element 11 is accommodated in a housing opening 28 of the housing 22. By means of a sealing ring 31 received on the outer circumference of a shoulder 30 of the pumping element 11, the pumping element 11 is supported in the mouth region of the housing opening 28 and by means of a second sealing ring 32 axially spaced therefrom, the pumping element 11 is supported with its lower region in the housing opening 28.

The first embodiment according to the left-side representation of Fig.1 is characterized in that the mounting flange 12 has a planar profile and thus the mounting flange rests flat on the shoulder 30 of the pumping element 11, wherein the through-hole encloses the smaller-diameter head portion 21 axially extending away from the shoulder 30. In this case, in the intended installation position of the assembly 10, the pump element 11 sunk so far into the opening of the housing 22, that in this embodiment, the head portion 21 facing top of the shoulder 30 is aligned with the contact side 27 of the housing 22. In order to give the pumping element 11 axial hold relative to the mounting flange 12, a spring 34 is provided in the lower region of the pumping element 11, which on the one hand on - not shown in the figure - bottom or a shoulder of the housing opening and on the other hand on a second sealing ring supporting shoulder 35 and thereby generates an axially upward vertical force acting, with which the shoulder 30 of the pumping element 11 is placed in abutment against the underside of the mounting flange 12. In this position, the mounting flange 12 is anchored by means of engaging in the blind holes 26 of the housing 22 screws 25 on the contact side 27 of the housing, that the bottom of the mounting flange is flush with the contact side 27. The vertical force generated by the spring 34 prevents axial displacement of the pumping element downwardly within the housing opening.

The second embodiment according to the right side representation of Fig. 1 is characterized in that the mounting flange 12 has a curvature or a curved profile which extends symmetrically to the longitudinal central axis 24 of the assembly 10. In this case, the profile is substantially curved like a trough, wherein the central region rests centrally on the shoulder 30 of the pumping element 11, while the off-center region is upwardly arched and thereby protrudes axially away from the shoulder 30 and the abutment side 27 and is spaced. The inside of the mounting flange 12 formed through opening 50, with which the mounting flange 12, the head portion 21 of the pumping element 11th encloses, therefore follows the curved profile, ie the passage opening of the mounting flange 12 does not extend within a definable plane. The holding tabs 37 disposed opposite one another symmetrically with respect to the longitudinal central axis 24 and the central area form the off-center and high-arched edge region of the fastening flange 12, each retaining tab being respectively provided with a through-bore 23 for receiving a respective screw 25, whereby the fastening flange 12 is inserted into the corresponding one Blind holes 26 in the housing 22 can be anchored. Due to the curved profile and this inherent spring force, it is possible by adjusting the screws 25 overcoming the spring force to produce a correspondingly variable deflection of the curved flange profile, whereby an adjustable and axially downward biasing force between the mounting flange 12, the shoulder 30 of the Pumping element 11 and the housing 22 is generated. In that the shoulder 30 of the pumping element 11 according to the second embodiment has a larger diameter than that of the first embodiment and the mouth area of the housing opening is larger than the axially lower area, the underside of the shoulder 30, which according to the second embodiment is formed as a diameter broadening 33 is on the thus formed in the vicinity of the mouth paragraph 38 in the housing opening. In this case, the first sealing ring 31 is in the shoulder 30 sealingly on the inner circumference of the housing opening in the region of the mouth above the shoulder 38 at. In addition, of the in the lower part of the pumping element 11 at the formed there paragraph 35 with its one end acting spring 34, which at its other end in the opening of the housing to a wall portion such as a floor or a paragraph or at a deeper in the housing opening mounted and coupled to the pumping element component such as a shaft supports, generates an axial vertical force upwards, which presses the shoulder 30 of the pumping element 11 against the underside of the mounting flange 12 in the center of the shoulder 30 adjacent central portion. By the mounting flange is designed in this embodiment as a bending element or bending beam, axial component tolerances are compensated.

The mounting flange 12 is preferably formed from strip material and may be formed of lamellar superimposed individual elements, which are each formed from the strip material, wherein the individual elements can be inexpensively designed as stampings.

Fig. 2 shows a cross section through the pumping element 11 according to the first embodiment, wherein a key surface 40 is provided on the head portion of the pumping element 11, which serves to define an angular position of the pumping element 11.

Fig. 3 illustrates in a plan view of the built-in housing 22 assembly 10 according to the second embodiment. In this case, the head portion 21 of the pumping element 11 protrudes from the central through hole 50 of the mounting flange 12 and the retaining tabs 37 by cross-screws 25 fix the mounting flange 12 to the housing 22. To save weight, has the mounting flange 12 with the symmetrically opposed retaining tabs 37th an oval or elliptical shape.

In summary, in the case of an assembly 10 which comprises a pumping element 11 and a fastening flange 12 for installation in a housing, the invention provides for the pumping element 11 and the fastening flange 12 of the assembly 10 to be designed separately from one another. The mounting flange 12 has a central passage opening 50, which encloses a head portion 21 of the pumping element 11 in the assembled state of the assembly 10 and further at least two mutually symmetrically with respect to the central passage opening retaining tabs 37 for fastening means on the housing 22. The pumping element 11 has a spring 34, which engages on the one hand at a lower portion of the pumping element 11 formed shoulder 35 and on the other hand is provided for support to a stop within the opening of the housing 22. The pumping element 11 is received and anchored either in an opening of the housing 22 by means of a planar and thus rigid or by means of a curved and thus elastically formed profile of the mounting flange 12.

Claims (9)

1. Assembly (10) comprising a pump element (11) and a fastening flange (12) for installation in a housing (22), wherein the fastening flange (12) has a central through-opening which, in the mounted state of the assembly (10), encloses a head region (21) of the pump element (11), characterized in that the pump element (11) and the fastening flange (12) of the assembly (10) are configured separately from one another, in that the fastening flange (12) has at least two retaining tabs (37) for fastening means (25) on the housing (22), said retaining tabs being symmetrically opposite to one another with respect to the central through-opening, in that a shoulder (30) which extends around on the outer circumference is formed on the outer body of the pump element (11), is of larger diameter than the head region (21) and axially downwardly delimits the head region (21), in that the fastening flange (12) is curved away from the shoulder (30), in that the curvature is formed between the centre axis (24) of the pump element (11) and the location where the fastening flange (12) is fastened to the housing (22), and in that, by adjusting the fastening means (25) passing through the retaining tabs (37), bending of the curvature with corresponding narrowing of an axial distance, which is dependent on the bending, between retaining tabs (37) and housing (22) at the fastening location can be effected in such a way that the fastening flange (12) exerts an adjustable preloading force on the pump element (11) .
2. Assembly according to Claim 1, characterized in that the central through-opening is circular, whereas the head region (21) of the pump element (11) is substantially cylindrical.
3. Assembly according to Claim 1 or 2, characterized in that, upon installation in a housing (22), the shoulder (30) of the pump element (11) as a diameter widening (33) interacts with a ledge (38) of the housing (22).
4. Assembly according to one of the preceding claims, characterized in that the pump element (11) has a spring (34) which acts, on the one hand, on a ledge (35) which is formed in the lower region of the pump element (11) and is provided, on the other hand, for supporting on a stop within the opening of the housing (22).
5. Assembly according to one of the preceding claims, characterized in that the fastening flange (12) lies flat on the shoulder (30).
6. Assembly according to one of the preceding claims, characterized in that the fastening flange (12) is formed from strip material, wherein individual elements formed in the manner of lamellae from the strip material are layered above one another.
7. Assembly according to one of the preceding claims, characterized in that each retaining tab (37) has at least one through-hole (23) for accommodating a respectively assigned fastening means (25).
8. Assembly according to one of the preceding claims, characterized in that the fastening means (25) take the form of screws and can be anchored in corresponding holes (26) in an outer side of the housing (22).
9. Assembly according to one of Claims 4 to 8, characterized in that the shoulder (30) and the ledge (35) each bear a sealing ring (31, 32) which extends around radially thereon.

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