DE102008017227A1 - Fluid system i.e. fuel supply system of common rail diesel injection system, has clamping unit displaced to seat region such that sealing force is introduced into clamping body by clamping unit - Google Patents

Abstract

The fluid system has a base unit (2) comprising a cavity (4), and a connection element (12) mechanically and sealingly connected with a hub region in a connection region. A clamping body (16) i.e. clamping shoe, is formed for transferring a sealing force to the connection element, and is mechanically connected with the connection element. A clamping unit (18) is mechanically connected with the base unit and the clamping body, and is displaced to the seat region such that the sealing force is introduced into the clamping body by the clamping unit.

Description

The The invention relates to a connection device for fluid systems.

On The field of fluid systems is often the requirement, a Connection device for To provide fluid lines to a fluid line hydraulically, for example to a basic body to pair. In many cases, a union nut is used, the by means of a suitable connection piece via a thread mechanically is coupled in a stable manner.

Of the Invention is based on the object, a connection device for fluid systems to create a reliable one Coupling of fluid lines allows.

The Task is solved by the characteristics of the independent Claim. Advantageous embodiments of the invention are in the subclaims characterized.

The Invention is characterized by a fluid system with a basic unit, which has a cavity, and at least one terminal recess extending from a terminal region the basic unit to the cavity extends. Furthermore, a connection element is provided which is sealing mechanically coupled to a seating area in the connection area is and that of a wire-shaped Recess is penetrated, which hydraulically with the connection recess is coupled. About that In addition, a clamping body provided for transferring a sealing force is formed on the connecting element and with this is mechanically coupled to it. Furthermore, a clamping unit provided with the basic unit and the clamping body mechanically coupled to the seating area, in such a way that the sealing force is introduced through it into the clamping body.

in the Contrary to an arrangement with a union nut, concentric coupled to the connection element for introducing the force to the base unit is it so easy Torsion stresses in the seating area to keep very low and the Reaching the sealing effect essentially via axial forces but without torsional stresses to achieve. In this way, a long life of the fluid system guaranteed become.

According to one Advantageous embodiment of the clamping body and the connecting element via a spherical against cone-shaped coupling mechanically coupled. this makes possible a compensation of angular tolerances between the clamping body and the connection element.

According to one Another advantageous embodiment of the clamping body and the clamping unit over a spherical against cone-shaped coupling mechanically coupled. This has the advantage that angle tolerances between the clamping body and the clamping unit can be compensated.

In In a further advantageous embodiment, the clamping unit comprises a screw with a screw head, the screw head so is formed and arranged that the clamping unit and the clamping body on the Screw head are mechanically coupled. This allows a easy installation.

In a further advantageous embodiment, the screw by means a thread in a threaded recess mechanically coupled, which is arranged in the basic unit. This allows a simple structure the basic unit, in particular, for example, consuming forging blanks and / or weld deposits of threaded sleeves can be dispensable.

According to one Another advantageous embodiment, the clamping unit comprises a Mother, wherein the mother is so formed and arranged that the Clamping unit and the clamping body on the Mother are mechanically coupled. This allows a cost-effective training the clamping unit.

In In another advantageous embodiment, the nut is a threaded bolt assigned to the mechanical coupling, which is materially connected to the basic unit or mechanically coupled.

According to one Another advantageous embodiment is in the clamping body a formed first bolt recess and in the base unit a second Bolt recess formed such that the two pin recesses arranged opposite are, and a bolt arranged in the two bolt recesses is. The advantage is that this Antitorsionkopplung a twist of the tension body across from the basic unit prevents. This stabilizes the formed over the clamping body frictional Coupling of the connection element with the basic unit.

In a further advantageous embodiment, the connection element in a groove-shaped Recess of the clamping body introduced and at one axial end of the groove-shaped recess, which the connection area facing, with the clamping body mechanically coupled. This allows a particularly simple installation and a reliable mechanical coupling.

According to another advantageous embodiment The cross-section of the groove-shaped recess tapers conically in the direction of the axial end facing the basic unit. This allows an angular offset between the clamping body and the connecting element.

In In a further advantageous embodiment, the cross-section widens a Durchdringungsausnehmung the clamping body for at least partially Recording the clamping unit in the direction of facing the base unit axial end cone-shaped on. This allows an angular offset between the clamping body and the clamping unit.

According to one Another advantageous embodiment is a projection in the clamping body relative to the clamping unit opposite the connection element is arranged and formed so that it mechanically is coupled to the basic unit. This has the advantage of a maximum power transmission of the clamping body on the connection element.

In In another preferred embodiment, at least two in the clamping body introduced connecting elements, the pairwise axisymmetric are arranged to the clamping unit. In this way is a uniform force transmission from the clamping body especially easy on the connection elements.

advantageous Embodiments of the invention are described below with reference to the schematic Drawings closer explained. Show it:

1 a fluid system

2 a sectional view of the fluid system in the plane II-II 'of 1 .

3 a sectional view of the fluid system in the plane III-III 'of 1 .

4 a sectional view of the fluid system in the plane IV-IV 'of 1 .

5 a fluid system

elements same construction or same function are cross-figurative marked with the same reference numerals.

1 shows a fluid system that is a basic unit 2 with a cavity 4 includes. In this context, the fluid system is used, for example, as a fuel supply system in the context of a common rail diesel injection system.

A connection recess 6 ( 2 ) extends from a connection area 8th ( 2 ) of the basic unit 2 to the cavity 4 It is attached to a seating area 10 ( 2 ) with a connection element 12 positively coupled. The connection element 12 becomes from a line-shaped recess 14 penetrated, which is for example a high-pressure line. The line-shaped recess 14 is hydraulic with the basic unit 2 coupled by the action of a sealing force. The connection element 12 may for example be provided for coupling with an injector.

A clamping body 16 is designed to transmit the sealing force to the connection element 12 and mechanically coupled with it. At the clamping body 16 it is for example a clamping claw. The clamping body 16 is with the connection element 12 preferably coupled by positive locking and / or traction over a spherical-shaped against cone-shaped coupling. For example, the clamping body 16 for coupling with the connection element 12 a cone-shaped and the connection element 12 have a spherical area. However, it is also possible that the clamping body 16 a spherical area and the connecting element 12 has a cone-shaped area. With the basic unit 2 is the clamping body 16 coupled via a clamping unit 18 , in such a way that the sealing force through them on the clamping body 16 acts.

The basic unit 2 , the connection element 12 , the clamping body 16 and the clamping unit 18 are preferably formed as separate elements.

2 shows the connection recess 6 , the seating area 10 in the connection area 8th and the connection element 12 , The connection recess 6 may be a hole, for example. The coupling between the seating area 10 and the connection element 12 is preferably spherical in shape against a cone. For example, the seating area 10 cone-shaped and the connecting element 12 at the end of its line-shaped recess 14 be formed spherically. The connection element 12 can be at the end of its line-shaped recess 14 be formed in this case, in particular ellipsoidal. However, for example, it is also possible that the seating area 10 is formed spherically, while the connecting element 12 at the end of its line-shaped recess 14 is formed cone-shaped. Furthermore, it is also possible, for example, that both the seating area 10 as well as the connection element 12 at the end of its line-shaped recess 14 are formed cone-shaped. The line-shaped recess 14 preferably has a cone-shaped recess at its mouth.

3 shows one in the clamping body 16 trained groove-shaped recess 20 , which is arranged so that it at one axial end of the basic unit 2 facing and at this end the connection element 12 to the basic unit 2 coupled. In the groove-shaped recess 20 For example, it is a U-shaped recess. The clamping body 16 is also preferred with a projection 22 formed, which is relative to the clamping unit 18 on the opposite side of the groove-shaped recess 20 is arranged.

The clamping unit 18 includes, for example, a screw 24 and a screw head 26 , The screw 24 becomes a penetrating recess 28 of the clamping body 16 inserted and over the screw head 26 with the clamping body 16 coupled. The coupling between the clamping body 16 and the clamping unit 18 is preferably formed by a positive connection and / or adhesion spherical like a cone. For example, the clamping body 16 a cone-shaped and the screw head 26 have a spherical area. However, it is also possible that the clamping body 16 a spherical and the screw head 26 has a cone-shaped area. The screw 24 is screwed into a threaded recess 30 the basic unit 2 , At the screw 24 it may, for example, be a commercially available screw.

The clamping unit 18 can, for example, a mother 32 include a threaded bolt 34 assigned ( 5 ). The threaded bolt 34 gets into the penetration recess 28 of the clamping body 16 introduced and can with the basic unit 2 be coupled cohesively, for example. However, it is also possible that the threaded bolt 34 with the basic unit 2 is mechanically connected, for example by means of the threaded recess 30 ,

4 shows a possible embodiment of the clamping body 16 in which two groove-shaped recesses 20 are formed, which in this case preferably symmetrical, in particular axisymmetric, to the clamping unit 18 are arranged and each a connection element 12 exhibit. Basically, the formation of more than two groove-shaped recesses 20 possible, which then preferably in pairs symmetrically, in particular axisymmetric, to the clamping unit 18 are arranged.

4 further shows a first in the clamping body 16 trained bolt recess 36 and a second one in the basic unit 2 trained bolt recess 38 , The two bolt recesses are arranged opposite each other and form together with an inserted bolt 40 an antitorsion coupling. In the bolt recesses are preferably cylindrical recesses, which may be, for example, holes, but which may be formed, for example, square shape. The bolt 40 may also be cylindrical, but may for example also be square shaped. Basically, the formation of more than one Antitorsionkopplung is possible.

Anti-torsion couplings are preferably arranged to be numerically balanced on both sides of the chuck body 16 are arranged.

The penetration recess 28 of the clamping body 16 experiences at the axial end that the connection area 8th facing, preferably a cone-shaped expansion. The groove-shaped recess 20 is preferably formed so that they are in the direction of the connection area 8th directed axial end tapered conically, so that an angular offset between the clamping body 16 and the clamping unit 18 is possible.

Due to the mechanical coupling of the clamping unit 18 with the basic unit 2 the sealing force is in the clamping body 16 initiated, from where they turn in the field of coupling of the clamping body 16 with the connection element 12 is initiated in this. The arrangement thus ensures that between the connection element 12 and the basic unit 2 decisively an axial force acts and torsional forces are not initiated or at least only to a small, in particular negligible extent.

2

basic unit

4

cavity

6

connection recess

8th

terminal area

10

sitting area

12

connecting element

14

line-shaped recess

16

tensioning body

18

clamping unit

20

groove-shaped recess

22

head Start

24

screw

26

screw head

28

Durchdringungsausnehmung

30

threaded recess

32

mother

34

threaded bolt

36

first stud recess

38

second stud recess

40

bolt Antitorsionskopplung

Claims (13)

Fluid system with - a basic unit ( 2 ), which is a cavity ( 4 ) having, and at least one connection recess ( 6 ) extending from a connection area ( 8th ) of the basic unit ( 2 ) to the cavity ( 4 ), - a connection element ( 12 ), which is sealed with a seating area ( 10 ) in the connection area ( 8th ) is mechanically coupled, and that of a line-shaped recess ( 14 ), which is hydraulically connected to the connection recess ( 6 ), - a clamping body ( 16 ), which transmits a sealing force to the connecting element ( 12 ) is formed and is mechanically coupled thereto, - a clamping unit ( 18 ) connected to the basic unit ( 2 ) and the clamping body ( 16 ) is mechanically coupled, offset from the seating area ( 10 ), in such a way that the sealing force through them in the clamping body ( 16 ) is initiated. Fluid system according to claim 1, wherein the clamping body ( 16 ) and the connecting element ( 12 ) are mechanically coupled via a spherical to cone-shaped coupling. Fluid system according to one of the preceding claims, in which the clamping body ( 16 ) and the clamping unit ( 18 ) are mechanically coupled via a spherical to cone-shaped coupling. Fluid system according to one of the preceding claims, in which the tensioning unit ( 18 ) a screw ( 24 ) with a screw head ( 26 ), wherein the screw head ( 26 ) is designed and arranged so that the clamping unit ( 18 ) and the clamping body ( 16 ) over the screw head ( 26 ) are mechanically coupled. Fluid system according to claim 4, in which the screw ( 24 ) by means of a thread in a threaded recess ( 30 ) in the basic unit ( 2 ) is mechanically coupled with this. Fluid system according to one of Claims 1 to 3, in which the tensioning unit ( 18 ) A mother ( 32 ), whereby the mother ( 32 ) is designed and arranged so that the clamping unit ( 18 ) and the clamping body ( 16 ) about the mother ( 32 ) are mechanically coupled. Fluid system according to claim 6, in which the nut ( 32 ) a threaded bolt ( 34 ) is assigned to the mechanical coupling with the basic unit ( 2 ) is materially connected or mechanically coupled. Fluid system according to one of the preceding claims, in which - a first bolt recess ( 36 ) in the clamping body ( 16 ), - a second bolt recess ( 38 ) in the basic unit ( 2 ) is formed in such a way that - the two bolt recesses are arranged opposite, and - a bolt ( 40 ) is arranged in the two bolt recesses. Fluid system according to one of the preceding claims, in which the connection element ( 12 ) in a groove-shaped recess ( 20 ) of the clamping body ( 16 ) is introduced and at one axial end of the groove-shaped recess ( 20 ), which is the connection area ( 8th ), the connecting element ( 12 ) with the clamping body ( 16 ) is mechanically coupled. Fluid system according to claim 9, wherein the cross section of the groove-shaped recess ( 20 ) in the direction of the basic unit ( 2 ) facing the axial end tapers conically. Fluid system according to one of the preceding claims with a Durchdringungsausnehmung ( 28 ) of the clamping body ( 16 ) for at least partially receiving the clamping unit ( 18 ), in which the cross section in the direction of its basic unit ( 2 ) facing the axial end widens conically. Fluid system according to one of the preceding claims, in which a projection ( 22 ) in the clamping body ( 16 ) relative to the clamping unit ( 18 ) in relation to the connection element ( 12 ) is arranged and designed so that it mechanically with the basic unit ( 2 ) is coupled. Fluid system according to one of the preceding claims, with at least two in the clamping body ( 16 ) ( 12 ), each symmetrical to the clamping unit ( 18 ) are arranged.