Plug Connector with Secondary Locking
[0001] The present invention concerns a plug connector with a secondary locking device according
to the characterising portion of patent claim 1. Such a plug connector is familiar
from
EP 1 006 621 A2.
[0002] Plug connectors of this type find particular application as airbag restraint systems
in automotive vehicles and are used for the connection of these airbag restraint systems
to an ignition base. The ignition bases are located on, for example, the collapsible
ring of the steering wheel or elsewhere, where the flat construction of the plug connector
is important for reasons of space. It is a further essential requirement placed on
such plug connectors that the insertion connection between the plug connector and
the socket should not in any circumstances become loosened. It is the task of the
secondary locking device to ensure that a plug and a socket shall not become loosened
unintentionally.
[0003] Both
EP-A-0 632 534 and
WO 97/41623 describe a plug connector of a flat construction for connection to the ignition base
of an airbag, where a secondary locking device prevents the loosening of the plug
connector from the ignition base. The secondary locking devices can be unintentionally
placed into the final locked position before the connector "halves" are joined to
one another, which prevents assembly.
[0004] A plug connector with a secondary locking device is also familiar from
DE-C-197 28 448, where the secondary locking device is secured on the plug connector with locking
legs, in order to prevent possible detachment. By means of introducing the secondary
locking device into the appropriate socket, the locking legs prevent the locking arms
of the plug connector from becoming loosened from the final locked position. If the
secondary locking device of such a plug connector is placed in the pre-locked position,
it can nevertheless happen that during transport or handling of the first connector
parts, the secondary locking device becomes loosened from its pre-locked position
and pressed into its final locked position, before the introduction of the plug connector
into the socket has taken place. Through the locking legs which have been inserted,
it is no longer possible to introduce the plug connector into the socket, that is
to say, into the ignition device, since the locking legs with their locking projections
are wider than the slots into which they are to be inserted and consequently, an effort
is needed to loosen the secondary locking device manually.
[0005] EP 1 006 621 A2 describes a plug connector with a secondary locking device, where the secondary locking
device can only be pressed into its final position through a part of the socket and
the opening of a tong-shaped spring arm arrangement. Owing to the fact that the secondary
locking device and the spring arms lie on different levels with respect to the longitudinal
axis of the plug connector, the locking clamp can tilt both during the assembly of
the locking clamp on a connector part and during the introduction of the plug connector
into the socket, which can adversely affect the assembly of the plug connector parts.
[0006] It is the task of the present invention to develop a plug connector of the type described
earlier in such a way that the unintentional pressing of the secondary locking device
into its final locked position is impossible before the two plug connector "halves"
have been joined together, without adversely affecting the joining process itself.
[0007] This task is solved according to the patent claims. The features of preferred embodiments
of the invention are characterised in the dependant claims.
[0008] In a preferred embodiment, the spring arm has on its insertion end a projection,
through which during the insertion of the plug connector into the socket, the spring
arm is deflected in such a way that the step of the spring arm is lifted from the
locking projection and the secondary locking device is released. By means of this
form of the spring arm, the latter is bent during the process of insertion of the
plug connector into its socket when the projection reaches the socket, whereby the
step is loosened from the locking projection. Preferably, the locking projection is
wedge-shaped where, during the introduction of the plug connector into its socket,
the wedge-shaped section reaches a face of the socket opposite the plug connector.
As the introduction of the plug connector into its socket proceeds, the spring arm
is introduced into an opening of the socket, which may, for example, be the opening
into which the insertion face of the plug connector is inserted.
[0009] In a preferred embodiment of the present invention, the free ends of the legs are
supported on the free end of the locking arms during the introduction of the secondary
locking device into the plug connector, whereby the introduction of the secondary
locking device into the final locked position is prevented, until the locking arms
snap into the recesses provided for the locking of the plug connector into its socket,
whereby the locking arms vacate the insertion path of the legs and the secondary locking
device becomes lockable into the final locked position. This invention-related geometry
also prevents the secondary locking device from being able to be placed in its final
locked position. Only when the locking shoulders of the locking arms are locked into
the recesses provided for that purpose in the socket, are the pre-tensioned locking
arms pressed outwards and only then an insertion of the secondary locking device becomes
possible. This leads to two conditions for the insertion of the secondary locking
device into its final locked position. Firstly, the shoulder of the spring arm must
be lifted from the locking projection formed on the housing of the plug connector
and secondly, the plug connector must have become finally locked into the socket,
until an insertion of the secondary locking device becomes possible. This makes it
easy for the operative to ascertain from the outside, whether the plug connector and
the socket are correctly joined. If the secondary locking device can be brought into
its final locked position, then the joining of the plug connector and its socket has
been successful.
[0010] In a preferred embodiment of the present invention, the locking arms are formed on
an insertion face on the underside of the housing, whereby the free ends of the locking
arms are bent against the direction of insertion. In this way, it is possible for
the rear face of the locking arms is able to reach the lower end of the leg, whereby
the insertion of the secondary locking device is prevented until the locking arms
have vacated the insertion path by swinging outwards, when a complete joining of the
two plug connector portions has taken place.
[0011] Below, the invention is explained more fully by means of the description of an embodiment
example, where
- Fig. 1
- is a diagonal view of the plug connector with a secondary locking device in its pre-locked
position, in a preferred embodiment;
- Fig. 2
- is a perspective view of the secondary locking device;
- Fig. 3
- shows the plug connector during the process of its introduction into the socket;
- Fig. 4
- is a lateral view after the joining of the plug connector and the socket with the
secondary locking device almost fully inserted;
- Fig. 5
- is a detailed cross-sectional view of the plug connector in the socket after joining
and
- Fig. 6
- is a detailed cross-sectional view of a second embodiment.
[0012] Fig. 1 is a perspective view of the plug connector 1 with a housing 2, which has
on the housing side 3 an insertion face 4, on whose opposite ends are formed locking
arms 5. The locking arms 5 have locking shoulders 6, which snap into recesses, which
are provided for that purpose, during the introduction of the plug connector 1 into
a socket (not shown). A secondary locking device 8 can be inserted into the upper
face 7
[0013] As can be seen in Fig. 2, the said secondary locking device has a horizontal plate
9 on whose underside extend a leg 10 (locking leg) and a second leg 11 and a spring
arm 12. The spring arm 12 has a step 13 and a projection 14, where the projection
is wedge-shaped and is located on the insertion side of the spring arm. The secondary
locking device is inserted through openings, provided for that purpose, from the upper
face 7 of the plug connector 1 into the latter. The secondary locking device 8 also
has locking shoulders 20, 21, by means of which the secondary locking device 8 can
be locked into the pre-locked or final locked position in the housing 2 of the plug
connector. In the embodiment shown, the leg 10 and the spring arm 12 are separate,
but can nevertheless still be combined in a single leg, which then assumes the functions
of both a plug and a spring.
[0014] As shown in Fig. 3, the step 13 formed at right angles to the direction of insertion
reaches, during the insertion of the secondary locking device 8, the locking projection
15 formed on the plug connector housing 2. Preferably, a further locking projection
15 which supports a further step 13 of the second spring arm 12 of the secondary locking
device is located in an axially symmetrical manner to the symmetry axis A of the plug
connector 1, on the opposite face which is not shown. During the insertion of the
plug connector 1 into the socket 16, the spring arm 12 is deflected so that the said
spring arm 12 bends, whereby the step 13 is lifted from the locking projection 15.
Through the insertion of the plug connector 1 into the socket 16 the locking arms
are pressed together. The legs 10 of the secondary locking device 8 rest with their
lower end on a face 17, which is located vertically to the direction of insertion
at the free ends of the locking arms. This supported position of the legs 10 on the
locking arms 5 also prevents the insertion of the secondary locking device 8 into
its final locked position. Through a wedge-shaped crest 22 the step 13 also rests
on the locking arm 5, until the latter swigs outwards.
[0015] Fig. 4 shows the plug connector 1 and the socket 16 in a joined position. Through
the complete insertion of the plug connector 1 into the socket 16, the locking shoulders
6 of the locking arms 5 are pressed into recesses 18 (see Fig. 3). The pre-tensioned
locking arms move outwards, the legs 10 are no longer supported on the face 17, so
that the secondary locking device 8 can be locked into its final locked position by
means of the application of a force to the horizontal plate 9. After the insertion
of the legs 10 the locking shoulders 6 are firmly ensconced in the recesses 18 and
the loosening of the plug connector is no longer possible. As can be seen, the spring
arm 12 is bent, since the projection 14 through being supported on the socket 16 bends
the spring arm 12.
[0016] Fig. 5 is an enlargement showing how the locking shoulders 6 of the locking arms
5 snap into the recesses 18 through the complete insertion of the plug connector 1
into the socket 16, so that the path of the legs 10 is vacated. The secondary locking
device can now be pressed into the final locked position in the plug connector 1.
During this process, a guiding leg 19 (see Fig. 2) guides the movement of the secondary
locking device. During the complete insertion of the secondary locking device, the
further leg 11 shown in Fig. 2 releases a short circuit bar (not shown), which short-circuits
two contact pins (not shown) of the socket.
[0017] Fig. 6 shows a detailed cross-section of a second embodiment of the plug connector
according to the invention. In this embodiment, the locking arm is substantially parallel
with the free end extending from the plug connector housing on which a locking projection
6 is arranged for locking into a corresponding slot 18 provided in the socket 16.
Into the slot between the plug connector housing 2 and the side of the locking arm
5 directed to the central longitudinal axis can be inserted a leg 10 of a secondary
locking device 8. The second embodiment is characterised by the particular forms of
the said leg 10 and the slot. The leg 10 has at its free end 100 on the side opposite
the central longitudinal axis of the secondary locking device, in its radial thickness,
an offset Δx. The radial slot thickness between the plug connector housing 2 and the
locking arm 5 is seen unreduced in the direction of insertion of the secondary locking
device 8 as far as the height of the top 110 of the leg 10 in pre-locked position.
In its continuing course, the radial slot thickness is reduced in size by approximately
the amount of the size of the offset as far as the final locking depth of the secondary
locking device on the side of the offset. The leg 10 is held in the pre-locked position
by the pressure of the step 13 on the locking projection 15 (see Fig. 3). During the
process of insertion of the plug connector into the corresponding socket 16, the step
is lifted from the locking projection. During a short travel of the insertion process,
this creates the possibility of an error, whereby, by pressure on the clamp 9 of the
secondary locking device 8, a premature insertion of the secondary locking device
becomes possible, without the locking projection 6 already having been locked into
the corresponding slot 18 in the socket 16. This makes impossible a normal insertion
of the plug connector 1 into the socket 16. In order to prevent this from happening,
the thickness reduction of the front end of the leg 10 and the shoulder 130 on the
level of the free end 110 causes the locking arm 5 to bend the front end of the leg
10 during the process of insertion, during the sliding of the tip of the locking projection
6 on the upper inner edge of the socket 16, so far in the direction of the central
longitudinal axis of the plug connector 1, that the free end 110 of the leg 10 comes
to lie opposite the shoulder 130. In this way, it is impossible to displace the secondary
locking device 8 into its final locked position during this phase of the process of
insertion of the plug connector 1 into the socket 16. Only after the locking projection
6 has become locked into the slot 18 of the socket 16, does the locking arm 5 vacate
the slot to the extent of enabling the secondary locking device 8 to be pushed out
of the pre-locked position into the final locked position.
[0018] In order to facilitate the insertion of the plug connector 1 into the socket 16,
the plug connector housing 2 is conical tapered at one insertion end in the direction
of insertion and forms in front of the free end of the locking arms, circular segment-shaped
aprons 120 opposite the outer edge 121 of which only its locking projections radially
extend.
[0019] The plug connector according to the invention ensures that with the secondary locking
device in the final locked position, the connection between the plug connector and
the socket is secure. An insertion of the secondary locking device into the final
locked position is prevented by means of two supporting points, firstly through the
support of the step 13 on the locking projection 15 and secondly by the support of
the leg 10 on the face 17 at the rear end of the locking arms 5. Only when both these
points of support have been vacated, which only happens when the plug connector 1
has been completely inserted into the socket 16, is the insertion of the secondary
locking device 8 possible. An insertion of the plug connector 1 into the socket is
possible, either through pressure on the upper face 7 of the housing 2, or through
pushing the plug connector 1 into the socket and subsequent pressure on the secondary
locking device or only through pressure on the secondary locking device.
1. A plug connector (1) with a secondary locking device (8) which has a leg (10), where
at least one leg fixes a locking arm (5) of the plug connector (1) in the final locked
position in a socket (16), where at least one of the legs (10) has a locking arm (12)
with a step (13) which is supported on a locking projection (15) formed on the housing
(2) of the plug connector (1) and which holds the secondary locking device (8) in
a pre-locked position and where the secondary locking device (8) can be locked into
the final locked position, characterised by the fact that the secondary locking device (8) has two spring arms (12), each with
a step (13) and a projection (14) which is arranged symmetrically to the longitudinal
axis of the plug connector (1), where during the process of insertion of the plug
connector (1) into the socket (16), the spring arms (12) are deflected by the locking
projections (14) in such a way that the step (13) of the spring arms (12) is lifted
from the locking projections (15) and the secondary locking device (8) is released.
2. A plug connector (1) according to claim 1, characterised by the fact that the projection (14) is wedge-shaped and reaches a face of the socket
(16) during the insertion of the plug connector (1) into the socket (16).
3. A plug connector (1) according to one of the claims 1 and 2, characterised by the fact that during the insertion of the locking device (8) into the plug connector
(1), the free ends of the leg (10) are supported on the free ends of the locking arms
(5) and prevent an insertion of the secondary locking device (8) into the final locked
position, until the locking arms (5) snap into the recesses (18) which are provided
for that purpose, in order to lock the plug connector (1) into the socket (16), whereby
the locking arms (5) clear the way for the legs (10) and the secondary locking device
(8) can be locked into its final locked position.
4. A plug connector (1) according to one of the claims 1 to 3, characterised by the fact that the locking arms (5) are formed on insertion face (4) formed on the
underside of the housing (2), where the free ends of the locking arms (5) are bent
towards the direction of insertion.
5. A plug connector (1) according to one of the claims from 1 to 4, characterised by the fact that the secondary locking device (8) has a further leg (11), where, on
the secondary locking device (8) being locked into the final locked position, releases
a short-circuit bar and a short-circuit forms between two end contacts of the socket
(16).
6. A plug connector (1) according to one of the preceding claims, characterised by the fact that at least one of the legs (10) has an offset Δx of its radial thickness
at its free end (100) on the side facing the central longitudinal axis of the secondary
locking device, where the radial slot width between the plug connector (1) and the
locking arm (5) seen in the direction of insertion of the secondary locking device
(8) up to the height of the tip (110) of the leg (10) is not reduced in the pre-locked
position and is subsequently reduced by the amount of the offset up to the final locked
position on the side of offset.
7. A plug connector (1) according to claim 6, characterised by the fact that the free ends of the locking arms (5) are arranged in the direction
of insertion.
8. A plug connector (1) according to claim 7, characterised by the fact that the plug connector housing (2) tapers conical at its insertion end
and has circular segment-shaped aprons (120) arranged in front of the free ends of
the locking arms, opposite the outer edge (121) of which only the locking projections
of the locking arms radially project.
9. A plug connector (1) according to one the claims from 6 to 8, characterised by the fact that the front edges of the locking projections (6) lie so far in the direction
of insertion from the front edge of the locking projection of the spring arm (5),
that during the process of insertion of the locking projection (6) of the locking
arm (5) into a corresponding slot (18) in the socket (16), the locking projection
(14) on the spring arm (12) is pushed away by the step (13) on the plug connector
housing (2), in order to release the secondary locking device for locking into the
final locked position.
10. A plug connector according to one of the claims from 6 to 8, characterised by the fact that the radially and internally lying side of the free end of the locking
arms elastically presses the top end of the legs (10) against the inner wall of the
slot between the housing (2) and the locking arm during the process of insertion,
so that the front faces (110) lie opposite a step (130) which is formed by the taper
of the slot, so that until the locking of the locking arm (5), a pressing in of the
secondary locking device (8) is prevented.