PUSH-IN CONNECTOR

Abstract

A push-in connector for releasably connecting the ends of two media lines consists of a push-in part (2) and a socket part (1) composed of a first socket section (3) and a second socket section (5). In the installed condition, the push-in part (2) is axially latched in the second socket section (5) and accommodated in a manner that is rotatable about its axis, whereas the second socket section (5) can be accommodated in the first socket section (3) at different rotational angles about the common axis (18) in an axially latched manner. The second socket section (5) carries an actuation element (7) that is movable between a latched position shown by an axial pull-out safety device of the push-in part (2) and an unlatched position in which this pull-out safety device is lifted. This embodiment means that the rotational angular position of the second socket section (5) carrying the actuation element (7) with respect to the push-in part (2) as well as to the first socket section (3), and thus the actuation position of the push-in connector, can be adapted to the respective installation conditions, such that unencumbered access to the actuation element (7) is obtained.

Claims

1. A push-in connector for releasably connecting two line ends, consisting of a push-in part (2) having a circumferential locking rib (13) and a socket part (1) having a locking member (12), wherein the locking member (12) is movable by means of an actuation element (7) between a latched position engaging behind the locking rib (13), forming an axial pull-out safety device, and a retracted unlatched position that releases the locking rib (13) and lifts the pull-out safety device, wherein in the latched position, the push-in part (2) is accommodated in the socket part (1) in a rotatable manner about its axis, and wherein the free ends of the push-in part (2) and the socket part (1) are provided with connectors (4, 6) for connection to the ends of the lines to be connected, wherein the socket part (1) consists of a first socket section (3) carrying the connector (4) and a second socket section (5) carrying the actuation element (7) as well as accommodating the facing end of the push-in part (2), wherein the second socket section (5) can be inserted axially into the socket section (3) and can be interlocked at various rotational angles about a common axis (18), characterized in that an anti-rotation lock is provided between the socket sections (3, 5), which is embodied by an arrangement of ribs (17) on the exterior of the socket section (5) that can be interlocked with an arrangement of grooves in the interior of the socket section (3).

2. The push-in connector as claimed in claim 1, characterized in that the socket section (5) can be rotated about the common axis (18) inside the socket section (3).

3. The push-in connector as claimed in claim 1, characterized in that the locking member (12) can be moved radially between the latched position and the unlatched position by means of the actuation element (7).

4. The push-in connector as claimed in claim 1, characterized in that the locking member (12) is configured in the manner of an annular section, which enables the latched position to be established at any rotational angular positions between the push-in part (2) and the socket section (5).

5. The push-in connector as claimed in claim 1, characterized in that in the inserted condition, the push-in part (2) protrudes into the socket part (1) up to the socket section (3), and in that a sealing element (16) is disposed between the socket section (3) and the push-in part (2).

6. The push-in connector as claimed in claim 1, characterized in that the actuation element (7) as well as the locking member (12) are formed on a radially elastically deflectable tab (11) that is connected to the socket section (5), and in that the actuation element (7) can be moved in the circumferential direction of the socket section (5) between the latched position and the unlatched position.

7. The push-in connector as claimed in claim 1, characterized by a window (15) formed in the socket section (5) allowing a visual check of correct latching to be carried out.

8. The push-in connector as claimed in claim 2, characterized in that the locking member (12) can be moved radially between the latched position and the unlatched position by means of the actuation element (7).

9. The push-in connector as claimed in claim 2, characterized in that the locking member (12) is configured in the manner of an annular section, which enables the latched position to be established at any rotational angular positions between the push-in part (2) and the socket section (5).

10. The push-in connector as claimed in claim 3, characterized in that the locking member (12) is configured in the manner of an annular section, which enables the latched position to be established at any rotational angular positions between the push-in part (2) and the socket section (5).

11. The push-in connector as claimed in claim 2, characterized in that in the inserted condition, the push-in part (2) protrudes into the socket part (1) up to the socket section (3), and in that a sealing element (16) is disposed between the socket section (3) and the push-in part (2). claim 5 (currently amended):

12. The push-in connector as claimed in claim 3, characterized in that in the inserted condition, the push-in part (2) protrudes into the socket part (1) up to the socket section (3), and in that a sealing element (16) is disposed between the socket section (3) and the push-in part (2). claim 5 (currently amended):

13. The push-in connector as claimed in claim 4, characterized in that in the inserted condition, the push-in part (2) protrudes into the socket part (1) up to the socket section (3), and in that a sealing element (16) is disposed between the socket section (3) and the push-in part (2).

14. The push-in connector as claimed in claim 2, characterized in that the actuation element (7) as well as the locking member (12) are formed on a radially elastically deflectable tab (11) that is connected to the socket section (5), and in that the actuation element (7) can be moved in the circumferential direction of the socket section (5) between the latched position and the unlatched position.

15. The push-in connector as claimed in claim 3, characterized in that the actuation element (7) as well as the locking member (12) are formed on a radially elastically deflectable tab (11) that is connected to the socket section (5), and in that the actuation element (7) can be moved in the circumferential direction of the socket section (5) between the latched position and the unlatched position.

16. The push-in connector as claimed in claim 4, characterized in that the actuation element (7) as well as the locking member (12) are formed on a radially elastically deflectable tab (11) that is connected to the socket section (5), and in that the actuation element (7) can be moved in the circumferential direction of the socket section (5) between the latched position and the unlatched position.

17. The push-in connector as claimed in claim 5, characterized in that the actuation element (7) as well as the locking member (12) are formed on a radially elastically deflectable tab (11) that is connected to the socket section (5), and in that the actuation element (7) can be moved in the circumferential direction of the socket section (5) between the latched position and the unlatched position.

18. The push-in connector as claimed in claim 2, characterized by a window (15) formed in the socket section (5) allowing a visual check of correct latching to be carried out.

19. The push-in connector as claimed in claim 3, characterized by a window (15) formed in the socket section (5) allowing a visual check of correct latching to be carried out.

20. The push-in connector as claimed in claim 4, characterized by a window (15) formed in the socket section (5) allowing a visual check of correct latching to be carried out.

Description

[0019] The invention will be described in more detail below with reference to the accompanying drawings, in which:

[0020] FIG. 1 is a side view of a push-in connector in accordance with the invention;

[0021] FIG. 2 is a perspective view of a push-in connector in accordance with the invention;

[0022] FIG. 3 is a perspective view of the socket part in accordance with the invention;

[0023] FIG. 4 is a planar view of the socket viewed in the direction IV of FIG. 3;

[0024] FIG. 5 is a front planar view of the socket part viewed from the direction V of FIG. 3;

[0025] FIG. 6 is a partial sectional representation of the push-in connector in the plane VI-VI of FIG. 1;

[0026] FIG. 7 is a planar view of the push-in connector viewed from the direction VII in FIG. 2;

[0027] FIG. 8 is a planar view of the push-in connector viewed from the direction VIII of FIG. 7;

[0028] FIG. 9 is a sectional view of the push-in connector in a plane IX-IX of FIG. 7.

[0029] FIGS. 1, 2 and 6 show a socket part 1 and a push-in part 2 with their free ends respectively equipped for subsequent connection with sections of lines, not shown in the drawings. The push-in connector that is generally defined in this manner is primarily but not exclusively for connecting the ends of media lines of any type in automotive vehicles.

[0030] The socket part 1 consists of a first socket section 3 with a connector 4 for a proximate line section attached directly thereto in which a second socket section 5 is inserted via the end opposite to the connector 4 and which has been axially interlocked in its installation position. This interlock may be constructed in any routine manner known to the person skilled in the art, and so there is no need for further details to be provided in this regard. The essential point is that the rotational angle with respect to the common axis 18 of the socket section 5 with respect to the socket section 3 in the installed position can be selected.

[0031] The numeral 6 denotes the connector formed on the push-in part 2, the connector being positioned at the free end opposite to the connector 4 and intended for a proximate line section. The connection technology used with the connectors 4, 6 may in principle be of any type.

[0032] FIGS. 3 to 5 and 7 to 9 denote functional elements with the same numerals as those in FIGS. 1, 2 and 6, and so it is not necessary at this juncture to repeat the description pertaining thereto.

[0033] The numeral 7 denotes an actuation element, which protrudes radially from a recess 10 in the socket section 5 delimited by axially separated ribs 8, 9 formed thereon. The basic body of the actuation element 7 is formed by a tab 11 that extends in the circumferential direction of the socket part 5; the end of the tab is connected to the socket part 5.

[0034] Said basic body also carries a locking member 12 formed as an annular section that extends perpendicular to the axis 18, which, in the assembled state of the push-in connector, engages behind an annular locking rib 13 formed on the outside of the push-in part 2, forming an axial pull-out safety device in this manner.

[0035] The actuation element 7 can be elastically deflected manually in the direction of the arrow 14, whereupon the locking member 12, starting from a latched position engaging behind the locking rib 13, can be radially deflected into an unlatched position that releases the locking rib 13. A resilience that returns the locking member 12 to its starting position, namely the latched position, is provided by the elastic deflection of the tab 11.

[0036] The numeral 17 denotes an arrangement consisting of ribs that extend parallel to the axis and are disposed in a regular manner around the circumference and that are formed on the socket section 5, the ribs protruding into grooves on the interior of the socket section 3 and thus locking the relative rotational angle of these two sections.

[0037] The numeral 19 denotes latch windows of the socket section 3 through which, depending on their number, a division of the push-in part of the socket sections 3, 5 in a circumferential direction can be discerned, wherein any rotational play in the push-in part is removed by interlocking of the ribs 17.

[0038] In this manner, the socket section 5 can be inserted into the push-in part at different angles with respect to the socket section 3, wherein, however, a latched condition of the push-in part 2 in the inserted position can be obtained at any rotational angular position of these two parts. In this manner, it is therefore possible to adjust the rotational angle of the socket section 5 with respect to the push-in part 2 as well as the socket section 3 such that, as a function of the respective installation situation, unencumbered access to the actuation element 7 is obtained for the purposes of assembly and dismantling.

[0039] The numeral 15 denotes a window in the socket section 5 that enables a visible check of correct latching of the socket section 5 and the push-in part 2 to be carried out.

[0040] The numeral 16 denotes a sealing element acting between the socket section 3 and the push-in part 2.

LIST OF REFERENCE NUMERALS

[0041] 1. socket part [0042] 2. push-in part [0043] 3. socket section [0044] 4. connector [0045] 5. socket section [0046] 6. connector [0047] 7. actuation element [0048] 8. web [0049] 9. web [0050] 10. recess [0051] 11. tab [0052] 12. locking member [0053] 13. locking rib [0054] 14. arrow [0055] 15. window [0056] 16. sealing element [0057] 17. ribs [0058] 18. axis [0059] 19. latch window