Patent Application
20180109029
This invention relates generally to electrical connectors having mating male and female connector bodies, and more particularly to the manner of sealing unoccupied terminal cavities of the connectors.
Electrical connector assemblies typically include male and female connector bodies, each mounted to the ends of a plurality of electrical cables having mating terminals supported within passages of the respective connector bodies that, when the male and female connectors are joined, provide an electrical connection between the cooperating cables. The passages typically are formed with resilient lock arms that engage cooperating catches on the associated terminals to secure the terminals within the passages.
In some connector applications, it is desirable to seal the connector assembly to protect the terminals from exposure to the external environment. The connector bodies are each formed with a plurality of passages that extend into the connector bodies from the cable end in which the cables and their terminals are received. In a sealed connector application, a seal is provided about the cable that, when installed in the corresponding passage, serves to seal such passage from the outside environment. In some applications, not every passage is occupied by a corresponding cable. There may be, for example, an unequal number of cables occupying the passages of the respective male and female connector bodies. The male connector body may have four cables occupying four of its passages whereas the female cavity may only have two or three of its four passages occupied. In a sealed connector environment, it is necessary to seal the unoccupied cavity or cavities in order to protect the interior of the connector from exposure to the external atmosphere. The present known practice for sealing the unoccupied passages is to install a resiliently compressible elastomeric plug into the unoccupied passage or passages which relies for sealing and retention on a friction fit with the walls of the passages in which they are installed. It is an object of the present invention to provide a more secure means of sealing such unoccupied passages.
The subject matter discussed in the background section should not be assumed to be prior art merely as a result of its mention in the background section. Similarly, a problem mentioned in the background section or associated with the subject matter of the background section should not be assumed to have been previously recognized in the prior art. The subject matter in the background section merely represents different approaches, which in and of themselves may also be inventions.
In accordance with an embodiment of this invention, an electrical connector assembly is provided. The electrical connector assembly includes a connector body having a plurality of terminal cavities extending along an insertion axis into the connector body from opposite cable ends thereof. Each terminal cavity of the plurality of terminal cavities defines a wall substantially perpendicular to the insertion axis. The electrical connector assembly also includes an electrical cable terminated by an electrical terminal formed of a conductive material and disposed within a first terminal cavity of the plurality of terminal cavities. The electrical cable includes a first seal that is formed of a resiliently compressible material and is configured to seal the cable to the first terminal cavity. The electrical terminal defines a resilient first locking lance that engages the wall of the first terminal cavity, thereby inhibiting removal of the terminal from the first terminal cavity. The electrical connector assembly further includes a locking cavity plug formed of a dielectric material that is disposed in a second terminal cavity of the plurality of terminal cavities. The cavity plug has an elongated plug tail and a plug body that defines a resilient second locking lance that engages the wall of the second terminal cavity, thereby inhibiting removal of the cavity plug from the second terminal cavity. The cavity plug includes a second seal formed of a resiliently compressible material that surrounds the plug tail and is configured to seal the plug tail to the second terminal cavity.
The electrical connector assembly may further include a corresponding mating connector body. The connector body and the mating connector body are axially aligned such that a terminal cavity in the mating connector body is aligned with the second terminal cavity and a mating electrical terminal disposed within the terminal cavity in the mating connector body is in a non-interfering relationship with the cavity plug when the connector body and the mating connector body are fully assembled. The plug body may define an opening that is configured to receive the mating electrical terminal.
The plug body may be characterized as having a generally rectangular cross section.
The electrical connector assembly may further include a moveable locking feature that is configured to allow insertion of the electrical terminal within the first terminal cavity and the cavity plug within the second terminal cavity when in an open position and configured to retain of the electrical terminal within the first terminal cavity and the cavity plug within the second terminal cavity when in a closed position. The plug body may define a shoulder that is substantially perpendicular to the insertion axis. This shoulder is in contact with the moveable locking feature when the moveable locking feature is in the closed position.
The second seal may be disposed about a cylindrical portion of the plug tail between longitudinally spaced radial enlargements of the plug tail. The first seal and the second seal of the cable may be identical in construction. The plug tail may extend through the second seal to provide an exposed end portion.
Further features and advantages of the invention will appear more clearly on a reading of the following detailed description of the preferred embodiment of the invention, which is given by way of non-limiting example only and with reference to the accompanying drawings.
The present invention will now be described, by way of example with reference to the accompanying drawings, in which:
A non-limiting example of an electrical connector assembly 10 is generally shown in
The male connector 12 is formed with a plurality of terminal cavities 20 extending longitudinally along an insertion axis I into the male connector 12 from an opposite cable end 22 of the male connector. Each of the terminal cavities 20 include a generally cylindrical sealing wall portion 24 adjacent the cable end 22 and a lateral wall 26 that is substantially perpendicular to the insertion axis. The terminal cavities 20 are preferably identical in construction.
The female connector 14 is similarly formed with a plurality of terminal cavities 28, all of identical construction, extending into the female connector 14 from an opposite cable end 30 thereof, and coaxially aligned with the terminal cavities 20 of the male connector 12. The female terminal cavities 28 likewise include cylindrical sealing walls 32 adjacent the cable end 30 and a lateral wall 34 that is substantially perpendicular to the insertion axis.
A plurality of electrical cables 36 occupy at least some of the terminal cavities 20 of the male connector 12, and another plurality of cables 38 occupy at least some of the terminal cavities 28 of the female connector 14. The cables 36, 38 extend into their respective cavities 20, 28 through the open cable end 22, 30 thereof, and have terminals 40, 42 disposed within the connectors 12, 14, at least some of which mate when the connectors 12, 14 are joined to establish an electrical connection between the mating cables 36, 38. The terminals 40 of the male cables 36 have elongated blades 46 that project beyond the cavities 20 of the male connector 12 into the cavities 28 of the female connector 14 in overlapping relation to the terminals 42 of the female cables 38. The terminals 42 of the female cables 38 are formed with receptacle portions 44 which wrap around and frictionally engage the blades 46 to establish metal-to-metal electrical contact therebetween. It will be seen that the terminals 42 of the female cables 38 are contained within the terminal cavities 28 of the female connector 14 and as such do not project into the terminal cavities 20 of the male connector 12.
The terminals 40, 42 include integrally formed resilient cantilevered locking lances 48, 50 respectively, that, when the terminals 40, 42 are fully inserted into the terminal cavities 20, 28, engage the lateral walls 26, 34 to secure the cables 36, 38 against removal from the terminal cavities 20, 28. As the terminals 40, 42 are extended into the terminal cavities 20, 28, a leading end of the locking lances 48, 50 engage longitudinal walls 52, 54 of the terminal cavities 20, 28, deflecting the locking lances 48, 50 laterally inwardly, until such time as the locking lances clear the longitudinal walls 52, 54 and spring outwardly. A trailing free end of the locking lances 48, 50 then engage the lateral walls 26, 34 to secure the terminals 40, 42 of the cables 36, 38 from withdrawal from the terminal cavities 20, 28.
Each of the cables 36, 38 is provided with a seal 56 in the preferred form of an annular sleeve having at least one and preferably a plurality of annular ribs or lips 58 engaging the cylindrical walls 24, 32 of the terminal cavities 20, 28 to seal the cavities 20, 28 from exposure to the external atmosphere in order to prevent moisture, dirt, and other contaminants from damaging the connector assembly 10.
The connector assembly thus far described is conventional, and is representative of the typical sealed electrical connector wherein the terminals 40, 42 of the cables 36, 38 lock within the cavities and seal the cavities from the outside atmosphere. In many applications, less than all of the terminal cavities 20, 28 are occupied by such cables 36, 38. In sealed connector applications, the unoccupied cavity or cavities must nonetheless be sealed to maintain a sealed environment within the connector assembly 10. In the illustrated embodiment, the female connector 14 has one of its cavities unoccupied by a cable, designated at 28u in
A locking cavity plug 60 is provided and installed in the unoccupied terminal cavity 28u of the female connectors 14. As shown in
The connector assembly further includes a moveable locking feature 72, typically referred to as a terminal position assurance (TPA) device 72. When the TPA device 72 is in an open position 74 (see
It can be seen in
Thus, an electrical connector assembly 10 is provided. The assembly 10 provides a means of sealing the unoccupied cavities of male and female connector bodies 12, 14 by means of a locking cavity plug 60 formed with a locking lance 68 that engage a lateral wall 26 within the cavity 28u to lock the plug 60 against removal from the cavity 28u ensuring that the connector assembly 10 remains weather-tight during the full service life of the electrical connector assembly. The cavity plug 60 includes shoulders that are compatible with a TPA device to further ensure against inadvertent removal of the cavity plug 60 from the terminal cavity 28u.
While the illustrated example shows a cavity plug inserted within an unoccupied terminal cavity 28u in a female connector body 14, other embodiments may be envisioned in which a cavity plug is similarly configured to be inserted within an unoccupied terminal cavity of a male connector body 12.
While this invention has been described in terms of the preferred embodiments thereof, it is not intended to be so limited, but rather only to the extent set forth in the claims that follow. Moreover, the use of the terms first, second, upper, lower, etc. does not denote any order of importance or orientation, but rather the terms first, second, upper, lower, etc. are used to distinguish one element from another. Furthermore, the use of the terms a, an, etc. do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced items.
