[0001] This invention relates to electrical connectors, particularly but not exclusively
for making electrical connection to devices such as electro-magnetic relays or the
like wherein connection is to be made to a plurality of parallel blade terminals extending
from one face of the device.
[0002] In our co-pending European Patent Application number 8430l3l5.2 (published as 0l2l324)
the disclosure of which is imported herein by this reference, there is disclosed inter-alia
an electrical connector the body of which contains a plurality of parallel terminal
receiving passages and parallel locking bar receiving passages, terminals received
in their respective passages being held against withdrawal from their passages by
respective lances or the like on the terminals which engage shoulders in their respective
passages and by parts of the passage wall defining respective arms which are deflected
to engage behind the correctly positioned terminals by locking bars introduced into
the locking bar passages. The locking bars are carried as integral components projecting
from a common plate and the intention is that in the event that one or more terminal
is not fully inserted into its respective passage then the or each terminal will obstruct
the deflection of the respective arm so preventing full insertion of the respective
locking bar. Since all of the locking bars are carried by a common plate, then should
even one of the locking bars be prevented from reaching its fully inserted position
then the plate will not be correctly engaged to the body of the connector and will
provide a clear visual indication of the fact that one of the terminals at least is
not properly inserted. As described in application 8430l3l5.2 the operative end regions
of the locking bars are wedge-shaped to facilitate deflection of the respective arms.
In normal useage this system works extremely well, but it has been found that occasionally
an unskilled operator, finding resistance to insertion of the locking bars as a result
of failure to fully insert one or more terminals, will not recognise that a terminal
is not properly in place, and will apply excessive force to drive the locking bars
home. It has been found that such applications of excessive force can distort the
arm associated with the terminal which is not fully inserted into its respective passage
and/or the terminal itself, sufficiently to permit the locking bar to be fully inserted,
so that subsequently the connector has the appearance of one in which all of the terminals
have been fully inserted. It is an object of the present invention to provide an electrical
connector wherein this disadvantage is minimised.
[0003] In accordance with the present invention there is provided an electrical connector
comprising a moulded synthetic resin body, a plurality of parallel terminal receiving
passages in the body, said passages being open at one face of the body to permit insertion
of respective terminals, and having abutment surfaces to limit movement of the terminals
in the passages in the insertion direction, each of said passages having a shoulder
intermediate the ends thereof for engagement by a locking latch of the terminal to
resist withdrawal of the terminal, and each passage being open at an opposite face
of the body to provide access to the terminals whereby mating terminals can be introduced
into said terminals of the connector in use, the body further being provided with
a plurality of locking bar passages extending into the body parallel to said terminal
receiving passages, each locking bar passage being positioned adjacent a respective
terminal receiving passage and the connector further including a plurality of locking
bars for insertion into respective locking bar passages, the body defining, between
each terminal receiving passage and its respective locking bar passage, a deflectable
arm which can be deflected from a rest position, by introduction of a locking bar
into the respective locking bar passage, to an operative position in which the arm
projects into the respective terminal receiving passage to lie in the path of withdrawl
of the respective terminal, each arm and the respective locking bar being so arranged
that as the locking bar approaches its fully inserted position the co-action between
the arm and the locking bar takes place at a point along the length of the arm spaced
from the free end of the arm so that in the event that the terminal of the respective
terminal receiving passage is not fully inserted into the passage and is thus engaged
by the arm during its deflection then the arm is caused to flex in a region spaced
from its free end and the free end surface of the arm remains in a position wherein
it can be abutted by a stop surface on the respective locking bar to prevent full
insertion of the locking bar.
[0004] Preferably the locking bars are carried by a common locking plate which, when the
bars are fully inserted in the body, engages said opposite face of the body, said
plate having apertures therein to provide access to said terminal receiving passages.
[0005] Desirably said locking bars are integral with said plate.
[0006] In the accompanying drawings
Figures l and 2 are taken from our co-pending European Patent Application 8430l3l5.2
and show respectively an end view of connector body and a sectional view of the connector
body and its associated locking plate and locking bars,
Figure 3 is an enlarged diagrammatic representation of one of the terminal receiving
passages of the body of a connector in accordance with one example of the present
invention, showing the associated terminal and locking bar,
Figure 4 is a view similar to Figure 3 but illustrating the terminal and locking bar
in their normally operative positions,
Figure 5 is a view similar to Figure 4 showing the parts in the positions which they
occupy if a terminal has not been fully inserted into the respective passage, and
Figures 6 and 7 are views similar to Figures 4 and 5 respectively of a modification.
[0007] Referring to the drawings, the electrical connector is basically very similar to
the connector disclosed in our European Patent Application 8430l3l5.2 and in view
of the full description given in the specification of application 8430l3l5.2 only
a general description of the basic construction will be given herein.
[0008] The connector body ll is a generally cubic synthetic resin moulding and has associated
therewith a moulded synthetic resin locking member l2. Extending through the body
ll between upper and lower faces l3, l4 thereof, is a plurality of terminal receiving
passages l5. The passages l5 are of two different sizes, adapted to receive different
sizes of terminal l6, each of the terminals l6 being a flat socket terminal of the
kind known as a LUCAR (Registered Trade Mark). The terminals l6 are inserted into
their respective passages l5 from the ends of the passages l5 open at the lower face
l4 of the body. Each terminal l6 includes an integral resilient lance l7 which is
deflected by ramp l8 on the wall of the respective passage l5 as the terminal is inserted.
When the terminal l6 reaches its fully inserted position within its respective passage
l5 the lance l7 can restore towards its original position to engage behind a shoulder
l9 on the wall of the passage thus resisting withdrawal of the terminal l6 from the
passage.
[0009] Associated with each terminal receiving passage l5 is a respective locking bar receiving
passage 2l. The locking bar passages 2l extend into the body ll from the face l3,
and extend parallel to the terminal receiving passages l5. A region of the wall of
the body ll which separates each terminal receiving passage l5 from its respective
locking bar receiving passage 2l is shaped, at a point part way along the length of
the passage l5, to define a resilient arm 22 extending in the direction of the length
of the passages l5, 2l, and having its free end surface 23 presented towards the upper
face l3 of the body ll.
[0010] In the absence of a locking bar in a passage 2l the arm 22 occupies a rest position
as shown in Figure 2 wherein the arm does not extend into the passage l5, and thus
does not impede introduction of a terminal l6 into the passage. Insertion of a locking
bar 24 into a respective passage 2l results in the locking bar 24 deflecting the arm
22 so that it projects into the associated passage l5. The arrangement is such that
if the terminal l6 is fully inserted within its respective passage l5 then the free
end surface 23 of the arm 22 will, in the deflected position of the arm 22, lie behind
the socket portion of the terminal l6 and thus will obstruct withdrawal of the terminal
l6 from the passage l5. Assuming therefore that the lance l7 of the terminal has for
some reason failed to latch behind the shoulder l9 of the passage then after introduction
of the locking bar the arm 22 will prevent withdrawal of the terminal. Figure 2 illustrates
the locking bar arrangement described in our co-pending European Patent Application
8430l3l5.2, from which it can be seen that the locking bars 24 have inclined ramp
surfaces 25 at their free ends for deflecting the respective arms 22.
[0011] In the event that a terminal l6 is not fully inserted into its passage l5 when an
attempt is made to insert the locking bar 24, then initial deflection of the arm 22
will cause the arm 22 to abut the side of the terminal, and further insertion movement
of the locking bar will thus be resisted. It is intended that this resistance to further
insertion of the locking bar shall provide an indication to an operator that a terminal
is not fully inserted into its respective passage l5. However, it has been found that
some unskilled operators, not recognizing that the resistance to further insertion
of a locking bar 24 is an indication of misalignment of an associated terminal, may
apply additional, and excessive insertion force to the locking bar 24. As is apparent
from Figure 2 the ramp surfaces 25 provide the locking bars with a wedge-shaped configuration
and thus after an arm 22 has been deflected sufficiently far to engage the misaligned
terminal l6 then any additional insertion force applied to the locking bar is transmitted
by the wedge-shaped end region primarily to the free end region of the arm 22, and
through the arm 22 to the associated terminal l6. Excessive application of insertion
force has been found in some cases to result in sufficient distortion of the free
end region of an arm 22 and/or the associated terminal l6, to permit the locking bar
24 to be inserted "fully home" in its respective passage. Thereafter of corse there
is no visual indication (as would otherwise arise from the locking bar not being "fully
home") that a terminal is not fully inserted into its respective passage l5, and thus
the visual appearance of the connector is that of a correctly assembled connector.
[0012] The foregoing description is of the known arrangement disclosed in our co-pending
European Patent Application 8430l3l5.2. Turning now to Figures 3, 4 and 5 it will
be recognized that the locking bars l24 differ from the locking bars 24 of Figure
2. Each locking bar l24 is provided on its face presented to the respective passage
l5 in use, with an integral longitudinal extending rib l25 terminating short of the
free end of the locking bar l24 in a stop surface l26 extending transverse to the
length of the locking bar l24. Moreover, the operative end region l27 of each locking
bar l24, that is to say the region which coacts with the arm 22 in use, has a maximum
thickness restricted to a value such that it will deflect the free end region of its
respective arm 22 only sufficiently far to lightly engage a terminal l6 which has
not been fully inserted into its respective passage l5. Notwithstanding this maximum
thickness of the operative end region l27 of each bar l24 it will be understood that
in the event that a terminal is fully inserted into a respective passage l5 then as
the respective locking bar l24 reaches its fully inserted position sufficient deflection
of the arm 22 will have occurred to cause the end surface 23 to lie behind the socket
region of the respective terminal l6.
[0013] In order to understand the operation more fully consideration should be given to
Figures 4 and 5. Looking firstly at Figure 4 it can be seen that a terminal l6 has
been fully inserted into its respective passage l5 and the locking bar l24 has been
fully inserted into its respective passage 2l. Notwithstanding the restricted thickness
of the operative end region l27 of the locking bar l24 full deflection of the arm
22 has occurred since the operative region l27 of the locking bar coacts with the
arm 22 adjacent its root, rather than adjacent its free end surface 23. Obviously,
the closer the region l27 approaches the root of the arm 22 then the greater will
be the deflection at the free end of the arm. In particular it will be noted that
the arm 22 is deflected sufficiently far for the stop surface l26 of the bar l24 to
slide past the end surface 23 of the arm 22.
[0014] Consider now the condition illustrated in Figure 5 where the terminal l6 was not
fully inserted into its passage l5. During initial insertion of the locking bar l24
its operative region l27 coacted with the free end region of the arm 22 and deflected
the free end region to engage lightly against the side of the terminal l6. Further
insertion movement of the bar l24 did not apply additional force to the arm 22 at
its free end region but instead applied force progressively further down the arm 22
towards its root. This additional insertion movement of the bar l24 is accommodated
by flexure of the arm 22 between its root and its free end without applying any significant
additional force laterally at the free end of the arm. Thus there is no tendency to
distortion of the free end region of the arm 22 and/or the terminal l6, and the free
end surface 23 of the arm remains in a position where it can be abutted by the stop
surface l26 of the bar l24. Immediately such abutment occurs then further insertion
movement of the bar l24 is prevented. Clearly the abutment of the surface l26 with
the surface 23 is a face to face abutment in a plane at right angles to the insertion
direction of the bar l24. The positioning of the stop surface l26 and the free end
23 of the arm 22 is such that when abutment occurs the bar l24 is someway short of
its fully inserted position and thus a visual indication is given that the terminal
l6 is not fully inserted in the passage l5. The abutment of the surface l26 with the
surface 23 can of course accept considerable insertion force loading on the bar l23,
and thus, short of total destruction of the connector, the bar l24 will not reach
its fully inserted position and even an unskilled operator will recognise that there
has been some failure to assemble the connector correctly.
[0015] The operative end region l27 of each bar l24 is tapered so as to present an inclined
face to the respective arm 22 in order both to facilitate insertion of the bar into
its passage 2l and to facilitate initial deflection of the respective arm 22 during
insertion.
[0016] Extending part way along the rib l25 of each bar l24 is a further rib l28 of increased
height. Each rib l28 terminates short of the surface l26 and is provided in order
to prevent insertion of the bar l24 in the event that the respective terminal l6 has
been inserted back to front. Each terminal has a flat face from which the lance l7
projects and an opposite face defined by a pair of parallel rolled over portions.
The rolled over portions should be presented towards the side of the passage l5 containing
the arm 22 in which case the rib l28 can pass between the rolled over portions of
the terminal during insertion of the bar l24. However if the terminal l6 has been
inserted into its passage l5 with the flat face presented to the arm 22 then subsequently,
during insertion of the bar, the end of the rib l28 will abut the terminal l6 so preventing
further insertion of the bar and giving an indication to the operator that the terminal
is incorrectly positioned.
[0017] As with the connector illustrated and described in our co-pending European Patent
Application 8430l3l5.2 the locking bars l24 extend parallel to one another and are
integral with a common locking plate to form the locking member l2 the plate having
apertures therein to provide access, for mating terminals, to the terminals l6 in
the passages l5. When all of the locking bars l24 are "fully home" in their respective
passages 2l then the undersurface of the plate of the locking member l2 engages the
upper face l3 of the body ll. If any one of the associated terminals has not been
fully introduced into its respective passage l5 then the plate of the locking member
l2 cannot be brought into facial contact with the end face l3 of the body.
[0018] In the modification illustrated in Figures 6 and 7 the shape of the locking bars
l24 has been simplified although the operation thereof in relation to the respective
arms 22 is unchanged. The further rib l28 of Figures 3 to 5 has been dispensed with,
its function in ensuring correct orientation of the respective terminal being performed
by appropriate shaping of the wall of the terminal receiving passage.
1. An electrical connector comprising a moulded sythetic resin body (ll), a plurality
of parallel terminal receiving passages (l5) in the body, said passages (l5) being
open at one face of the body (ll) to permit insertion of respective terminals (l6),
and having abutment surfaces to limit movement of the terminals (l6) in the passages
(l5) in the insertion direction, each of said passages (l5) having a shoulder (l9)
intermediate the ends thereof for engagement by a locking latch (l7) of the terminal
(l6) to resist withdrawal of the terminal (l6), and each passage (l5) being open at
an opposite face of the body (ll) to provide access to the terminals (l6) whereby
mating terminals can be introduced into said terminals (l6) of the connector in use,
the body (ll) further being provided with a plurality of locking bar passages (2l)
extending into the body (ll) parallel to said terminal receiving passages (l5), each
locking bar passage (2l) being positioned adjacent a respective terminal receiving
passage (l5) and the connector further including a plurality of locking bars (l24)
for insertion into respective locking bar passages (2l), the body (ll) defining, between
each terminal receiving passage (l5) and its respective locking bar passage (2l),
a deflectable arm (22) which can be deflected from a rest position, by introduction
of a locking bar (l24) into the respective locking bar passage (2l), to an operative
position in which the arm (22) projects into the respective terminal receiving passage
(l5) to lie in the path of withdrawl of the respective terminal (l6), the connector
being characterized in that each arm (22) and the respective locking bar (l24) are
so arranged that as the locking bar (l24) approaches its fully inserted position the
co-action between the arm (22) and the locking bar (l24) takes place at a point along
the length of the arm (22) spaced from the free end of the arm so that in the event
that the terminal (l6) of the respective terminal receiving passage (l5) is not fully
inserted into the passage (l5) and is thus engaged by the arm (22) during its deflection
then the arm (22) is caused to flex in a region spaced from its free end and the free
end surface (23) of the arm (22) remains in a position wherein it can be abutted by
a stop surface (l26) on the respective locking bar (l24) to prevent full insertion
of the locking bar (l24).
2. An electrical connector as claimed in claim l characterized in that the locking
bars (l24) are carried by a common locking plate which, when the bars (l24) are fully
inserted in the body, engages said opposite face of the body (ll), said plate having
apertures therein to provide access to said terminal receiving passages (l5).
3. An electrical connector as claimed in claim 2, characterized in that said locking
bars (l24) are integral with said locking plate.