Socket-type electrical connector

A female electrical connector includes a housing defining a generally cylindrical bore therewithin. The connector includes a contact cage disposed, and retained, within the housing. The contact cage includes a number of contact blades disposed so as to provide a radial resilience. In some embodiments, an environmental seal is retained within the housing. The connector provides a high current capacity, low insertion force connector which may be readily fit over post-type electrical terminals.

FIELD OF THE INVENTION 
This invention is related generally to electrical connectors. More 
specifically, the invention is related to a socket-type female electrical 
connector configured to removably engage a post-type terminal. 
BACKGROUND OF THE INVENTION 
There are a variety of electrical connectors utilized to establish 
reversible electrical connection between cables, wires and electrical 
devices Reversible electrical connectors are particularly important in a 
vehicular setting since they simplify assembly and service of the 
electrical components of the vehicle. Connectors may be utilized in low 
current applications such as for the installation of sensors and control 
circuits, or for a high current circuits such as those associated with 
starters alternators, heaters and lights. 
The present invention is directed to barrel of socket-type female terminals 
of the type which include a radially resilient socket configured to 
receive post, pin or other such conductor therein. While such terminals 
are often utilized for high current applications, they may also be 
employed in low current circuits. 
A number of socket type connectors known in the prior art. For example, 
U.S. Pat. No. 4,657,335 discloses a socket-type terminal which includes a 
cylindrical housing having a number of radially resilient elements 
disposed in an angular relationship to the axis of the cylinder. U.S. Pat. 
No. 4,550,972 discloses another configuration of socket-type terminal. 
U.S. Pat. No. 4,002,400 and U.S. Pat. No. 4,772,704 both disclose 
socket-type terminals having radially resilient members therein. 
Ease of insertion and maintenance of a positive connection are generally 
important in socket-type electrical terminals, and in a manufacturing 
setting it is desirable that assembly be readily accomplished without the 
use of specialized tools, and preferably one-handedly. It is particularly 
important in a vehicular setting that electrical connectors be 
environmentally sealed and resistant to loosening when jarred, vibrated or 
thermally cycled. Maintenance of connection is particularly important in 
high current applications, since a partial disconnection can result in a 
high resistivity contact which can overheat and cause significant damage. 
It is further desirable that connectors for vehicular applications be 
readily amenable to use with protective covers, connector position 
assurance devices and the like. 
The present invention is directed to a socket-type female terminal which is 
simple in construction and has a high current carrying capacity. The 
terminal of the present invention has a very low insertion force, and may 
be readily coupled onto a post-type connector using only hand. The 
connector of the present invention provides a very tight grip to the post 
and is resistant to loosening. The connector may be configured to include 
locking hardware, sealing gaskets, protective covers and the like. These 
and other advantages of the present invention will be readily apparent 
from the drawings, discussion and description which follow. 
BRIEF DESCRIPTION OF THE INVENTION 
There is disclosed herein a female electrical connector which comprises a 
housing having an open end. The housing defines an interior surface having 
a first portion thereof which encloses a generally cylindrical interior 
volume. A contact cage is disposed within, and in electrical communication 
with, the housing. The contact cage includes a contact portion, a base 
portion and a support portion which is joined to the contact and base 
portions. The contact portion is configured as a cylindrical member and is 
disposed within, and coaxially aligned with, the cylindrical interior 
volume of the housing. The contact portion includes a plurality of 
resilient contact blades each having a first end joined to the support 
portion of the contact cage. The connector further includes a retainer 
which fits into the housing and urges the base portion of the contact cage 
into engagement with the interior surface of the housing so as to thereby 
retain the contact cage within the housing. 
The contact blades of the cage may include contact points defined thereupon 
which are disposed so as to project radially into the cylindrical interior 
volume, and function to increase the gripping force of the connector. In 
some embodiments, the contact points on adjacent blades are longitudinally 
displaced relative to one another. The base portion may comprise a 
frusto-conical member, generally comprised of a plurality of resilient 
elements projecting from the support member, and the housing may be 
configured so that a second portion of the interior surface encloses a 
frusto-conical interior volume. In this embodiment, the retainer urges the 
base portion of the contact cage into contact with the second portion of 
the interior surface. In some embodiments, the connector may include an 
elastomeric O-ring seal supported in the housing, in coaxial alignment 
with the cylindrical interior volume. An electrical terminal which is in 
electrical communication with the contact cage may be included for 
establishing contact to a cable or wire. The connector may be enclosed 
within a protective housing, and in some instances may be an integral 
portion of another component.

DETAILED DESCRIPTION OF THE INVENTION 
Referring now to FIG. 1, there is shown one configuration of connector 10 
structured in accord with the principles of the present invention. 
Connector 10 of FIG. 1 is particularly configured to couple to a post type 
terminal of an alternator of a motor vehicle, although it is to be 
understood that the illustrated connector, as well as other connectors of 
the present invention may be configured to engage battery terminals, push 
pins and like members. The connector 10 of FIG. 1, as will be described in 
greater detail hereinbelow, includes housing 12 which is generally 
electrically conductive, and which is, in the illustrated embodiment, 
fabricated from a non-ferrous based alloy such as aluminum, brass or the 
like, although ferrous alloys may also be employed in some cases. The 
connector 10 includes a terminal body 14 joined in electrical 
communication with the housing 12. The terminal body 14 illustrated in 
FIG. 1 is a crimp on terminal of the type which may be readily engaged in 
electrical communication with a conductive wire, cable or the like. 
Clearly, other configurations of terminal and/or housing may be employed, 
depending upon particular application for which the connector is adapted. 
In some instances, the connector of the present invention may be directly 
incorporated into a component or system; in which case, the housing and 
terminal may comprise portions of the component or system itself. 
Referring now to FIG. 2, there is shown an exploded, perspective view of 
the connector 10 of FIG. 1 better illustrating the components thereof. As 
noted above, the connector includes a housing 12 having a terminal 14 
joined thereto. Disposed within the housing is contact cage 16 fabricated 
from a relatively resilient, electrically conductive material such as a 
copper alloy material, steel, plated steel, brass, bronze or the like. The 
contact cage 16 is shown in enlarged detail in FIG. 3, and is preferably a 
unitary member which includes a contact portion 18, a base portion 20, and 
a support portion 22 therebetween. In the illustrated embodiment, the 
contact portion 18 is configured as a right cylindrical member comprised 
of a plurality of contact blades, for example blades 19a or 19l each 
having a first end which is joined to the support portion 22 of the 
contact cage 16. It will be noted that in this embodiment, each contact 
blade 19 includes a contact point 24 defined thereon by portion of the 
blade 19 which is bent so as to project radially inward with regard to the 
right cylindrical contact portion 18. In the illustrated embodiment, 
contact portions 24 on adjacent blades 19 are longitudinally displaced 
relative to one another, and in this manner decrease the maximum force 
required to insert a post-type terminal into the connector of the present 
invention. 
In the illustrated embodiment, the contact cage 16 includes a base portion 
20 which is of generally frusto-conical configuration and which is defined 
by a plurality of blades 21a-21l, projecting from the support portion 22. 
Referring now to FIG. 4, the contact cage 16 of illustrated embodiment is 
shown in a flattened out form. Clearly visible in FIG. 4 are the blades 
19a-19l which form the contact portion 18; the resilient members 21a-21l 
which form the base portion 20, and the support portion 22 therebetween. 
Each of the blades 19 includes a contact point 24 thereupon, and in the 
illustrated embodiment, the contact points are formed by embossed portions 
of the blade 19. It will be noted from the figure that the location of the 
contact points 24 is staggered; that is to say, contact point 24a of blade 
19a is farther from the support member than is contact point 24b of blade 
19b. Contact point 24c of blade 19c is closer to the support member 22 
than is contact point 24b, and contact point 24d is the closest to the 
support member 22. Contact point 24e, associated with blade 19e is 
displaced away from the support member 22, and is at an approximately 
equal level with contact point 24a. Contact point 24i is also aligned with 
contact points 24a and 24e. In this manner, the contact points are varied 
so that they will be equally spaced throughout the interior surface of the 
cylinder defined by the contact portion of the contact cage. In the 
illustrated embodiment, the contact cage 16 includes twelve blades with 
four different positions for the contact points; thus, at any given level 
three contact points will be projecting into the cage at equally spaced 
intervals. Because of the smoothly varying location of the contact points, 
this particular connector is referred to as a wave finger terminal. It has 
been found that a configuration of this type provides a terminal which has 
a low insertion force, but which provides a positive retention of a 
connector disposed therein. It is to be understood that in accord with the 
present invention, the blades may be varied in shape and number from that 
shown in these figures. Furthermore, the number and location of the 
contact points may be varied. In some instances, a given blade may have 
more than one contact point, while in other instances a blade may not 
include any contact points. Such modifications will depend upon particular 
applications, and may be implemented by one of skill in the art. 
Referring back to FIG. 2, it will be noted that the contact cage 16 is 
disposed so that the blades will project into a cylindrical portion of the 
housing 12 with the frusto-conical base portion closest to the open end of 
the housing. The connector 10 of FIG. 2 further includes a retainer 26 
which, in this embodiment, includes a frusto-conical surface corresponding 
generally to the frusto-conical base portion 20 of the contact cage 16. 
The retainer 26 functions to bias the base portion 20 of the contact cage 
16 into engagement, and electrical communication with the housing 12. The 
retainer 26 is typically fabricated from a polymeric or ceramic material; 
although it may, with equal advantage, be fabricated from a metal. 
The connectors of the present invention will typically include a sealing 
member for excluding moisture, oil and dirt from the interior thereof, and 
in the illustrated embodiment, the connector 10 includes an o-ring seal 28 
fabricated from an elastomeric material. The o-ring seal 28 is disposed so 
as to be axially aligned with the housing 12 and contact cage 16. The 
illustrated embodiment, the o-ring seal 28 fits into a recess formed in 
the retainer 26 and is held there against by a washer 30, which in turn is 
retained by crimped-in portions 32 of the housing 12, so as to hold the 
seal 28 within the housing 12. Other retention arrangements, such as a 
press-fit or a threaded engagement are contemplated by, and within the 
scope of, the invention. 
Referring now to FIG. 5, there is shown a cross-sectional view of the 
connector 10 of FIGS. 1 and 2. As will be seen from FIG. 5, the connector 
includes a housing 12 which is configured as a generally cylindrical 
canister. The housing is open at one end and closed at a second end, and a 
first portion of the housing is configured as a right cylinder, and a 
second portion thereof is generally frusto-conical. The contact cage 16 is 
disposed in the housing 12 with the contact portion thereof 18 and support 
portion thereof 22 within the cylindrical portion of the housing 12. As 
will be seen from the Figure, the retainer 26 includes a frusto-conical 
surface which acts to urge the base portion 20 of the contact cage 16 into 
engagement with the frusto-conical portion of the housing 12. The retainer 
26 further functions to support the o-ring seal 28, the seal 28 is 
retained by the washer 30. 
In this manner, the connector 10 provides an open bore at one end thereof 
for receipt of a contact post (not shown). The post in turn establishes 
electrical communication with the housing 12 through the cage 16. The 
resiliency of the contact cage 16 assures positive retention of the 
connector 10 on the post, and the high surface area provided by the 
contact cage 16 permits the flow of relatively large amounts of current, 
while the configuration of the wave fingers minimizes insertion force. The 
o-ring seal 28 engages the post thereby preserving the integrity of the 
electrical connection. As illustrated, a terminal member 14 is affixed in 
electrical communication with the housing 12, and may be coupled to a wire 
or cable. 
Variations of the illustrated connector are possible within the scope of 
the present invention. For example, the housing 12 may be non-conductive, 
and the terminal 14 may establish electrical communication directly with 
the cage 16 by means of a wire, tab, strip or the like. In other 
instances, the housing 12 may include an opening at the second end 
thereof. This opening may be a relatively large configured so as to permit 
the connector to be slid along a relatively long connector member, and 
preferably include a second o-ring seal. In embodiments, the opening may 
be a relatively opening configured to permit a portion of a terminal to 
project therefrom. For example, the terminal may include a portion which 
projects through the connector of the present invention and is affixed 
thereto by means of a nut, clip or other fastener so as to provide for 
positive connection lock. In other embodiments, the illustrated terminal 
member, such as member 14 engaged with the housing 12, may be modified or 
eliminated. In yet other embodiments, the housing 12 may be covered with a 
layer of electrically insulating material, or disposed within an 
insulating housing. Further connector structures such as connector 
position assurance (CPA) devices may be included therewith. In some 
instances, the connector of the present invention may be configured to be 
an integral part of a component, device or the like. For example, a 
component may include a bore defined therein which receives the contact 
cage, and may further include a retainer for retaining the cage. In yet 
other embodiments, the housing, contact cage and/or retainer may be 
otherwise configured so as to provide for alternative structures wherein 
the contact cage is contained within the housing. All of such 
modifications and alternative embodiments are within the scope of the 
present invention. 
In view of the foregoing it is to be understood that numerous modifications 
and variations of the present invention may be implemented. The foregoing 
drawings, discussion and description which follow are merely meant to 
illustrate particular embodiments of the invention and are not meant to be 
limitations upon the practice thereof. It is the following claims, 
including all equivalents, which define the scope of the invention.