DE102012211236A1 - Connectors for media-carrying lines - Google Patents

Abstract

A connector (10) for media-carrying lines with a connector body (11) has at least one latching element (20), in particular for connection to a mating connector (50), in particular an injector body of a fuel injector. According to the invention, the latching element (20) is designed to be elastic, the plug body (11) having a contour (38) and the latching element (20) having a corresponding counter contour (28), the contour (38) and the counter contour (28) interacting in this way that the locking element (20) can be brought from an initial position by rotation about the longitudinal axis (14) of the plug body (11) into an end position in which the counter-contour of the locking element is locked on the contour (38). The contour (38) of the plug body (11) and the counter-contour (28) of the latching element (20) are preferably each elliptical, a large axis (40) of the counter-contour being larger than a large axis (30) of the contour, while one Small axis (41) of the counter contour is smaller than the large axis (30) of the contour.

Description

State of the art

The invention relates to a connector for media-carrying lines according to the preamble of the main claim.

Such connectors are used for example in fuel injection systems such as in high-pressure accumulator injection systems or in fuel return lines and in hydraulic lines. For this purpose, such a connector on line connections for connecting a media-carrying line. Further, for use in a fuel injection system on the plug body of such a connector, a terminal for connecting a mating connector, which may be, for example, an injector body of a fuel injector formed. For connecting the plug body with the mating connector, for example an injector body of the fuel injector, such a connector usually on the plug body molded latching elements which are resiliently locked in the coupled state of the connector in an inner bead of a bore or opening of the mating connector. Typically, the plug body is molded with molded locking elements as injection molded plastic, while the mating connector or injector body is made of metal.

From the DE 10 2006 061 952 A1 For example, a connector for media-carrying lines, such as hydraulic lines or fuel lines of internal combustion engines is provided, which is provided for attachment in an opening of an injector body of a fuel injector. In this case, the plug connector comprises a plug body on which at least one latching element is formed and which has at least one connecting piece. The at least one latching element is locked in a locking position by means of a slidably received on the plug body securing bracket in the opening of the injector body. In an unlocked position of the securing bracket releases the at least one locking element.

The connector with the characterizing features of claim 1 has the advantage that due to the formation of the plug body and the latching element, which are manufactured as separate parts, the locking element in the simplest way by simple - axially successful - plugging the locking element and subsequent rotation of the locking element to the longitudinal axis of the plug body can be reliably fixed or anchored on the contoured target section of the plug body. As a result, the latching element together with the plug body after the correct assembly forms a fully functional and functional unit. In contrast to the prior art, in which the plug body is formed with the at least one locking element as a one-piece made of plastic component, the locking element and the plug body are separately manufactured components, can be at a higher degree of freedom in the selection of materials both components For example, made of steel, which can achieve a higher robustness and stability of the mounted unit against external forces, such as may arise in a mishandling of the connector due to accidentally improperly performed assembly, or against internal forces generated by the fuel injector Internal pressure fluctuations may occur in the running in the interior of the plug body flow channel.

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

drawings

An embodiment of the invention is explained in more detail in the following description and in the accompanying drawings. The latter show in strongly schematic

Views:

1 a side view of a plug body with a latching element received on the plug body,

2 a cross section according to the section line II in 1 through the plug body with the latching element received thereon,

3 a cross section through the plug body and the latching element detected thereon, and

4 a plug connector according to the invention with the plug body and the latching element and an injector body in longitudinal section, wherein the plug body is locked by means of the locking element detected on the plug body in an opening of the injector body and a slidably received on the plug body fuse body secures the plug body in this locking position.

1 Illustrates in a side view of a plug connector body belonging to a connector according to the invention 11 during a mounting operation, in which of a lower end portion of the plug body 11 a locking element 20 is deferred. The plug body 11 is made for reasons of stability of a metal, preferably made of steel, and has on its outer circumference a circumferential collar 12 which is annular over the original cross-section of the plug body 11 protrudes. The plug body 11 indicates at its lower end 13 axially spaced with respect to the longitudinal central axis 14 a radial circumferential groove 15 auf, which is to receive a - in 1 not shown - sealing ring (see. 4 ) serves. Between the bunch 12 and the lower end portion 13 is a section 17 arranged, which has a cross-sectionally elliptical outer contour. This section 17 is a tapered transition section in the axial direction 16 downstream, which in the lower end 13 passes. The outer diameter of the lower end region 13 corresponds substantially to the outer diameter of an upper portion 17 of the plug body 11 , which extends in the axial direction below the annular projecting collar 12 extends. The section 17 has one opposite the lower end region 13 and the top section 18 enlarged outer diameter.

The locking element 20 is made of spring steel and has a central area 21 , which has an opening, and two locking bracket 22 , which are on the outside edge of the central area 21 extend upwards and face each other. At the in 1 shown axial position of the locking element with respect to the plug body 11 is the locking element 20 on the plug body 11 deferred and covered with its central area 21 the section provided with the outer contour 17 , This is the locking element 20 still in an assembly state in which it has not yet reached its intended end position, in which the central area 21 at the bottom of the annular radially projecting collar 12 strikes or rests.

2 shows the plug body 11 and the locking element 20 , wherein the locking element is not yet on the outer circumference of the plug body 11 is determined. 2 illustrates the plug body 11 , the one in its interior coaxial with the longitudinal central axis 14 extending flow channel 19 has, and that on the plug body 11 in the area of the section 17 recorded latching element 20 in a cross-sectional view. The section indicates 17 of the plug body 11 an outer contour 38 on, which is elliptical in cross section. The elliptical outer contour 38 of the section 17 is by a big axis 30 and a small axis 31 which are orthogonal to each other.

The central area 21 of the locking element 20 includes the opening, its inner contour 28 is elliptical in cross-section. At the outer edge of the central area 21 of the locking element 20 are two diametrically opposed locking clip 22 provided, extending from the central area 21 forterstrecken. The elliptical inner contour 28 the opening in the central area 21 of the locking element 20 is by a big axis 40 and a small axis 41 established. Here are the elliptical outer contour 38 of the section 17 and the elliptical inner contour 28 showing the opening in the central area 21 of the locking element 21 has, so that the big axis 40 the inner contour 28 the opening larger than the big axis 30 the outer contour 38 of the section 17 is and the small axis 41 the inner contour 28 bigger than the small axis 31 the outer contour 38 of the section 17 is. When the locking element 20 as shown by 2 so on the section 17 of the plug body 11 concentric to the longitudinal central axis 14 of the plug body 11 plugged or postponed, that in each case the respective large axes 30 . 40 on the one hand the inner contour 28 the opening and on the other hand the outer contour 38 of the section 17 and the respective small axes 31 . 41 are aligned with each other so that both contours 28 . 38 are aligned with each other, remains between the outer contour 38 of the section 17 and the inner contour 28 The central area 21 in the opening, a substantially annular circumferential gap 24 so that the two contours 28 . 38 taking into account the gap between them in the initial position approximately annular 24 are formed quasi complementary to each other.

3 shows the plug body 11 and the locking element 20 which is on the outer circumference of the section 17 of the plug body 11 is fixed. Unlike the in 2 shown assembly phase is the locking element 20 - compared to the starting position according to 2 in which the big axes 30 . 40 the outer contour 38 and the inner contour 28 and their little axes 31 . 41 are aligned with each other - relative to the outer contour 38 of the section 17 rotated by 90 °. However, because the small axis 41 the inner contour 28 of the locking element 20 with respect to the big axis 30 the outer contour 38 of the section 17 so chosen is that the small axis 41 the inner contour 28 smaller than the big axis 30 the outer contour 38 is carried out by turning with a rotation angle of about 90 ° about the longitudinal central axis from the initial position to the end position a strain of the central region 21 of the locking element 20 , At the same time the small axis is aligned due to this tension 41 the inner contour 28 of the central area 21 with the big axis 30 the outer contour 38 of the section 17 and the corresponding inner contour areas of the minor axis 41 get in contact with the outer contour areas of the big axis 30 , During the rotation, a gradually increasing tension or deformation of the central area takes place 21 and thus the inner contour 28 , The maximum possible Distortion or deformation is - compared to the starting position - achieved in a rotation about an angle of rotation of about 90 °, when the minor axis of the inner contour 28 with the big axis of the outer contour 38 coincides or is aligned. The central area digs as the angle of rotation increases 21 advantageously by means of the inner contour 28 a groove in the outer contour enclosed by it 38 of the plug body 11 ; with this groove is the locking element 20 additionally axially fixed in its final angle position. Because the inner contour 28 in their defined by the minor axis transverse extension side of an undersize with respect to the defined by the large axis longitudinal extension plant side of the outer contour 38 has, with increasing rotation angle, a correspondingly increasing tension of the central region 21 and therefore the inner contour 28 with a maximum of the strain at about 90 ° with respect to the starting position. As a result, in this end position, a non-positive connection between the radial zones brought into contact with each other, so that the latching element 20 axially and radially on the plug body 11 fixed or fixed or arrested.

As 4 shows, lies in this end position, in which the locking element 20 on the plug body 11 due to the tension is fixed non-positively, the central area 21 of the locking element 20 at the bottom of the radially protruding and the section 17 at the top limiting federal 12 flush. In the presentation according to 4 , which the connector according to the invention 10 in its entirety shows is the plug body 11 with the non-positively fixed to him locking element 20 in an opening 51 or bore 54 an injector body 50 inserted and locked. The lower end area is supported 13 of the plug body 11 over one in the circumferential groove 15 of the lower end region 13 absorbed sealing ring 25 on the inner wall of the opening 51 of the injector body 50 in the area of the bore 54 so that the substantially cylindrically shaped lower end region 13 the flow channel 19 , which starting from an externally arranged connection piece 26 of the plug body 11 inside the plug body 11 runs and in the lower end area 13 opens out, in the locked position of the connector 10 with that through the opening 51 in the area of the bore 54 defined injector-side flow channel fluid-tight coupled.

A fuse body 60 has a substantially U-shaped profile with a central web 61 and two legs extending orthogonally away from the latter and arranged parallel to each other 62 , The fuse body 60 is displaceable on the plug body 11 taken, with the thighs 62 on opposite sides of the plug body 11 issue. In locked position of the connector 10 is the fuse body 60 in his a lower position defining locking position, in which his two legs 62 far into the opening 51 of the injector body 50 are inserted or immersed in that the free ends 63 the thigh 62 at the top of the radially projecting collar 12 seated.

The spring-formed locking bracket 22 of the locking element 20 extending from the central area 21 wegkrümmen upward and in fixed end position of the locking element 20 from the adjacent plant side of the plug body 11 are spread to the outside, are formed profiled and form due to the spread each have a space between a respective end 23 a latch 22 and the adjacent portion of the plug body 11 , In the locked position of the connector 10 These are snap locks 22 due to their profiling and their resilient design as spring tongues in one in the opening 51 of the injector body 50 extending latching contour 52 locked, with a correspondingly profiled tongue portion of the respective latching clip 22 at the latching contour 52 positive fit.

The in locked position of the connector 10 in the opening 51 of the injector body 50 retracted leg 62 of the fuse body 60 have - in the radial direction - on such a width that they in the retracted position, the gap between the respective end of a latching clip 21 and the respective adjacent plant side of the plug body 11 lock. As a result, the locking bracket 22 into the locking contour 52 crowded or forced and a retreat of the locking bracket 22 from their splayed Verrastungsstellung is avoided as long as the fuse body 60 is in its lower stop position. Will the fuse body 60 for example, by train on the center bar 61 or at profiled handling zones 64 the thigh 62 pulled vertically or axially upwards into its an unlocking position defining upper stop position, wherein the legs 62 out of the opening 51 are led out and thereby release the respective gap, so the locking bracket 22 from the locking contour 52 Fall back and the plug body 11 can be from the injector body 50 be pulled out. The plug body 11 and the injector body 50 are decoupled from each other.

To the plug body 11 and the injector body 50 From the decoupled position to bring back into the coupled state, the plug body 11 over the lower end area 13 in the opening 51 or bore 54 of the injector body 50 introduced, with the fuse body 60 in unlocked position on the plug body 11 is. During the vertically or axially downwards movement of the plug body 11 relative to the injector body 50 slide the locking tab designed as a spring tongues 22 of the locking element 20 over at the top 53 of the injector body 50 trained mouth of the opening 51 and are suppressed thereby overcoming their inherent spring force from their originally splayed position in the respective space. Upon reaching the axially below the mouth of the opening 51 arranged - and opposite the mouth of the opening 51 larger diameter - locking contour 52 snap the locking tabs designed as spring tongues 22 due to their spring force back from their radially inwardly forced position and reach with the respective profiled region of the spring tongues in abutment against the inner wall of the Verrastungskontur 52 , As the profiled area of the spring tongues of the locking element 20 is formed substantially complementary to the cross-sectional profile of Verrastungskontur, the spring tongues are positively in the Verrastungskontur 52 clipped or locked. The fuse of the coupled or locked position of the connector 10 is done by moving the fuse body 60 relative to the plug body 11 in the locking position of the fuse body 60 , whereby the leg immersed in the respective intermediate space 62 of the fuse body 60 a radial retraction of the locking tabs designed as spring tongues 22 and thus block unwanted release of the latter.

The locking element 20 of the connector according to the invention 10 is advantageous as a stamped and bent part made of steel. The plug body 11 is for example produced as a casting of steel. The locking element 20 and the plug body 11 are not connected in one piece.

A modified embodiment of the plug body 11 may be that in the outer contour bearing section 17 a circumferential groove is provided for receiving the central part 21 locking element 20 serves and the locking element 20 in its fixed end position additionally secures against axial displacement.

In summary, it is therefore characteristic of the connector according to the invention that the at least one latching element 20 is formed as a separately manufactured from the plug body component elastic, and the plug body 11 an outer contour 38 and the locking element 20 a corresponding counter contour 28 have, wherein the outer contour 38 and the counter contour 28 cooperate such that the locking element 20 from a starting position by a rotation of the locking element 20 around the longitudinal axis 14 of the plug body 11 in an elastically tensioned end position can be brought, in which the mating contour 28 of the locking element 20 on the outer contour 38 of the plug body 11 is determined. The outer contour 38 of the plug body 11 and the counter contour 28 of the locking element 20 are - deviating from the circular cross-section, for example, the lower section 13 of the plug body 11 has - in cross section in each case oval, in the preferred embodiment in each case elliptical, that is designed non-rotationally symmetrical, wherein the outer contour 38 of the plug body 11 and the counter contour 28 of the locking element 20 are sized such that a large axis 40 the inner contour 28 bigger than a big axis 30 the outer contour 38 is while a little axis 41 the counter contour 28 smaller than the big axis 30 the outer contour 38 is. By correctly attaching the locking element 20 on the plug body 11 , which takes place in the - unlocked - starting position, which by aligned alignment of the respective major axes - and the respective small axes - the two contours 28 . 38 is defined, and then turning the locking element 20 relative to the plug body 11 in a - locked - end position is the locking element 20 in the simplest way reliably on the plug body 11 mounted or anchored and forms in this fixed end position together with the plug body 11 a fully functional unit.

A modified embodiment of the invention may consist in that the contour curve in the outer contour 38 of the plug body 11 and the counter contour 28 of the locking element 20 is not smooth, but stepped at both contours is formed, that is substantially stepwise the oval or elliptical contour follows. As a result, the rotation of the locking element takes place about the plug body in discrete steps or steps.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006061952 A1 [0003]

Claims (9)

Connector ( 10 ) for media-carrying lines with a plug body ( 11 ) and at least one latching element ( 20 ) in particular for connection to a mating connector ( 50 ), in particular an injector body of a fuel injector, characterized in that the at least one latching element ( 20 ) is elastic, and that the plug body ( 11 ) a contour ( 38 ) and the locking element ( 20 ) a corresponding counter contour ( 28 ), wherein the contour ( 38 ) and the counter contour ( 28 ) cooperate so that the locking element ( 20 ) from a starting position by a rotation of the latching element ( 20 ) about the longitudinal axis ( 14 ) of the plug body ( 11 ) can be brought into an end position in which the mating contour ( 28 ) of the locking element ( 20 ) on the contour ( 38 ) of the plug body ( 11 ) is locked. Connector according to claim 1, characterized in that the contour ( 38 ) of the plug body ( 11 ) and the counter contour ( 28 ) of the locking element ( 20 ) are each not rotationally symmetrical, in particular each oval or elliptical. Connector according to claim 2, characterized in that the contour of the plug body ( 11 ) and the mating contour of the locking element ( 20 ) are dimensioned such that a large axis ( 40 ) of the counter contour ( 28 ) larger than a large axis ( 30 ) of the contour ( 38 ). Connector according to claim 3, characterized in that a small axis ( 41 ) of the counter contour ( 28 ) of the locking element ( 20 ) smaller than the big axis ( 30 ) of the contour ( 38 ) of the plug body ( 11 ). Connector according to one of claims 2 to 4, characterized in that the latching element ( 20 ) a central area ( 21 ) with the formed as an inner contour counter contour ( 28 ), outside of the central area ( 21 ) Locking clip ( 22 ). Connector according to claim 5, characterized in that the latching element ( 20 ) two diametrically opposed, resiliently formed latching clip ( 22 ) having. Connector according to one of claims 1 to 6, characterized in that the initial position of the locking element ( 20 ) with respect to the plug body ( 11 ) is defined by the respective major axes ( 30 . 40 ) of the two contours ( 28 . 38 ) are aligned substantially in alignment with each other. Connector according to one of claims 1 to 7, characterized in that the plug body ( 11 ) a radially projecting collar ( 12 ), which one the contour ( 38 ) carrying section ( 17 ) of the plug body ( 11 ) axially limited on one side and an axial stop position for the locking element ( 20 ). Connector according to one of claims 1 to 8, characterized in that the latching element ( 20 ) made of steel, preferably made of spring steel.

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