EP0592102A2

EP0592102A2 - Sealed electrical connector

Info

Publication number: EP0592102A2
Application number: EP93306963A
Authority: EP
Inventors: Mario Casagrande; Paolo Castello
Original assignee: Whitaker LLC
Current assignee: Whitaker LLC
Priority date: 1992-10-06
Filing date: 1993-09-02
Publication date: 1994-04-13
Anticipated expiration: 2013-09-02
Also published as: EP0592102B1; IT1255846B; ITMI922304A0; DE69319822T2; EP0592102A3; DE69319822D1; ITMI922304A1

Abstract

A sealed multi-contact electrical connector (1a) for interconnecting wires (17) to an electronic module (1b) includes a plug (4) and a receptacle (3a) with an internal seal (21), an external gasket (15) and screw seals (13a) engaging the plug (4) and receptacle surfaces to seal mating contacts (10, 18); a front cover (16) includes locking teeth (34) and a central housing has a mating pawl (33) and lances that function to preclude engagement of plug (4) and receptacle (3a) unless the contacts (10,18) are properly seated and the cover (16) and housing closed.

Description

This invention relates to an electrical connector construction that features a sealing of plug and receptacle contacts relative to an electronic module and further a contact retention feature that requires proper contact seating before final assembly of connector parts.
An increasing use of sophisticated electronics in vehicles, appliances, and the like has created a necessity of waterproofing and sealing against moisture that might adversely affect contact interfaces and sensitive components within electronic modules interconnected by such connector. In order to assure a proper sealing, tests have been devised where a stream of water is directed against a connector and/or an electronic module package creating pressure differentials tending to drive moisture within the connector and module. Multi-way electrical connectors are particularly vulnerable to leaking due to the numbers of cavities through which contacts and wires must be fitted and potting materials and/or individual wire seals have been attempted to provide not only moisture sealing, but which are also adequate for submersion for periods of time.
Related to the sealing of multiple cavities and to connectors in general is a constant problem of improper seating of contacts, back out during use of contacts that can cause electrical discontinuities and/or create access for moisture creeping into a connector and from there into an electronic module associated with such connector.
Accordingly, it is an object of the present invention to provide a sealed multi-way electrical connector having improved sealing features. It is a further object to provide a sealed electrical connector for use with electronic modules that precludes a closure of plug and receptacle parts unless proper contact seating and sealing is first achieved. It is a still further object to provide a multi-part connector assembly, including seals and retention features that facilities assembly and precludes improper use.
These objects have been accomplished by providing a multiple contact connector of a type adapted to receive and position contacts terminated to wires including a central housing, a rear cover, and a front cover having aligned contact receiving cavities. This connector is characterized in that means are provided to facilitate a telescopic closure along a given axis of the housing and covers, resilient means on said housing adapted to be driven transversely relative to said given axis by a partially inserted contact and allowed to move inwardly upon proper seating of the contact to facilitate a closure of the central housing and the forward cover responsive to a proper contact seating.
In the preferred embodiment of the present invention, the assembly features an electrical connector of a type accommodating multiple interconnections from wires terminated to contacts to further contacts mounted in a receptacle joined to an electronic module. The connector of the invention features a plug half that includes forward and rear covers and a central housing that fit together in conjunction with a one-piece seal that has apertures receiving guide pins extended from the central housing and contacts and wires inserted through the assembly of covers and seal. The rear cover of the plug assembly includes a cavity to allow potting if submersibility is required of the connector. The plug central housing has retention arms carrying at the ends a pawl and a series of retention steps. The retention arms project from the forward surface of the central housing along with contact retention lances that extend forwardly. The front cover includes apertures to receive contacts inserted through the central housing and into the front cover. Side walls of the front cover are relieved to define a two-step slot containing locking teeth and defining a preassembled and an assembly position through an engagement with the pawl of the central housing. The front cover includes a rear surface through which cavities extend that is engaged by the contact lances if a contact is not fully seated within the central housing, holding such lances outwardly to stub against the cover rear face proximate the cavities of the front cover. The retention arms and pawls and retention steps operate in the two-step slots on the sides of the front cover to allow a prepositioning of the front cover to hold the front cover and central housing together prior to insertion of contacts and wires through the rear cover, seal, central housing and front cover.
It is a further object of the invention to provide an improved sealed connector. In particular, a sealed connector should have the possibility of sealed integrity, even when all terminal positions are not used. Further, this connector should provide the possibility of assembling the terminals into the housing, through the seal, and also provide proper alignment of the terminal therewith.
These further objects of the invention have been accomplished by providing an electrical connector comprising a housing of insulative material having at least one cavity therethrough for the receipt of an electrical terminal, the connector further comprising a seal for sealing in the interior of the housing. The connector is characterized in that said seal is interfacially disposed against a rear face of said housing and held there, the seal having a peripheral outer edge larger than an outer periphery of the housing, whereby said peripheral outer edge forms a peripheral seal for a mating connector.
Preferably, the seal contained in the plug is of one piece with centrally disposed apertures of diameters to tightly grip and seal the wires terminated to contacts inserted through the seal. The central housing further includes pins that assist in alignment and assembly that fit through apertures in the seal and are sealed thereby. The rear cover of the plug includes, on one side, a retention lance that can be pressed in by the thumb of an operator upon the plug being joined with a receptacle, the lance containing a latching surface that engages a surface positioned on the side of the receptacle extending from a surface of the electronic module interconnected by the connector of the invention. The receptacle includes a hood that is essentially box-like that extends over the outside of the front cover of the plug and the central housing to be engaged by ribs on the plug seal, multiple ribs being used for a redundancy of sealing. The plug latch serves to assure a proper polarization of the plug and receptacle during assembly and further polarizing ribs are employed in the plug to facilitate an initial proper insertion prior to engagement of the retention latch of the plug. A gasket is made to surround the receptacle and engage surfaces on the module to seal the receptacle to the module and additionally, lugs on the receptacle housing are made hollow to receive individual seals through which fastening screws are extended to join the receptacle to the module.
Typically, the receptacle half and gasket with fasteners would be applied to the module with the terminals thereof interconnected to circuit boards within the module and such module installed as for example, in a vehicle, with the plug portion of the connector connected to cable and to the harness of the vehicle added thereafter in final assembly. A hood may be employed, covering over the wires of the plug half of the connector for protection of such wires.
An embodiment of the present invention will now be described by way of example with reference to the accompanying drawings, in which:

Figure 1 is a perspective showing an electronic module, connector receptacle, and plug removed therefrom aligned for installation to interconnect a cable of wires to the module,
Figure 2 is a perspective of the receptacle of the connector of the invention,
Figure 3 is a perspective of the plug of the invention fully assembled,
Figure 4 is a perspective of the connector shown in Figure 3 with the contact and wire and parts of the plug in a preassembled condition,
Figure 5 is a perspective showing the parts of the connector of the plug fully disassembled,
Figure 6 is a side, sectioned view of the connector of the invention mated to the circuit board of a module,
Figure 7 is a side, partially assembled view of a portion of the connector and module of the invention,
Figure 8 is a view of the portions of the connector shown in Figure 7 in a closed condition, and
Figure 9 is a side, sectioned view of the seal of the connector of the invention.

Referring now to Figure 1, an embodiment of the invention is shown in the form of a connector 1a comprised of a plug 4 and a receptacle 2 for plug 4. Additionally shown is a receptacle 3 which would be utilized with a plug connector of a larger size, essentially like plug 4. The invention contemplates a variety of sizes of multi-way connectors, plug 4 being for a six-way or six-wire connector, receptacle 3 being for an 18-position plug connector, not shown. As can be seen, the receptacle portion of connector 1a includes lugs 13 extending from the sides of the receptacles and retention devices 6 associated with each of the receptacles that function in a manner to be described. As also can be seen in Figure 1, the plug and receptacle connector 1a is associated with an electronic module 1b that may be taken to include sensitive electronic circuits and devices that must be protected from moisture and in certain cases, from total submersion of the module. The connector, including plug and receptacle, has as its purpose the interconnection of a harness, including wires such as 17, carrying signal and power to and from the module. The plug and receptacle are, as will be described, made moisture and waterproof.
Figure 2 shows the receptacle apart from the electronic package to include a plastic hood 3a, and within each of the hoods, a number of contacts 10 arranged in rows extending from the interior 8 of the hoods to a pin contact header 7 with the ends of the contacts formed into posts 11 bent at right angles to extend through a printed circuit board carrying electronic devices and circuits and residing within the module 1b. The connector includes a mounting ear 12 on each side that attaches to the printed circuit board and holds the receptacles relative thereto. Additionally included is a relatively thick elastic gasket 15 extending around the receptacles and utilized in conjunction with the package of the module to seal the receptacle relative to the module. Figure 2 shows the mounting ears 13 in more detail relative to a screw for mechanically mounting on the outside of the module as shown in Figure 1. Also shown in Figure 2 are polarizing ribs 28a extending on the inside of hoods 3a and intended to provide for a polarization of the plug that is made to include recesses or projections positioned to preclude an insertion of the wrong connector. Also shown in Figure 2 are mounting ears 13 positioned to receive screws such as 14 inserted therein to hold the receptacle to the module.
Figure 6 shows the above mentioned relationship of the gasket 15 to portions of the module, and portions of the receptacle to effect a peripheral sealing. Also shown in Figure 6 is the printed circuit board 35 of the module in relation to the posts 11.
Figure 3 shows the plug 4 of the connector including wires 17 and a retention latch 5 that cooperates with the retention devices 6 mounted on top of the module. The view in Figure 3 is of an assembled plug, Figure 4 showing the plug partially assembled with a contact 18 terminated to wire 17 prior to insertion of the contact within the plug. To be noted in Figure 4 are the polarized cavities 23 that cause an orientation of the contact when inserted in the plug. Figure 5 shows the plug fully disassembled and including a rear cover 19, a seal 21 containing a series of cavities or apertures 30 and ribs 29 on its outer periphery. Adjacent seal 21 is a central housing 20 that includes cavities 22a that align with the cavities 23 of the rear cover to receive contacts inserted therein. Seen projecting from central housing 20 are retaining and guide pins 24 that fit through seal 21 and into the rear housing in the manner shown in Figure 7. The central housing further includes arms extending forwardly, arms 25 that serve to retain a front cover 16. Carried on the arms 25 is a front pawl 33 and a series of retention steps 26. Note that the ends of retention lances 36 extend away from the forward face of the central housing as do the front pawl and retention steps. The front cover 16 includes cavities 22b aligned for receiving the contacts 18, and in the side, a two-step slot 27 that contains locking teeth 34 and a bridge 33a that holds the outside of the cover mechanically.
Figure 9 shows the seal 21 including cavities 30 with interior ribs 38 that seal the wire and ribs 40 that seal the retention pins 24. To be noted are the exterior ribs 29 that fit inside a hood 8 of the rear housing and are deflected to provide a rear seal, note Figures 6 and 7 to see the position of the seal relative to retaining pins 24 and contacts 18 as terminated to wires 17. The cavity 30 includes a sealing diaphragm 39 at one end that is ruptured to fit tightly around the wire 17 once the contact is pushed through the seal. The retention pins 24 hold the two housing parts 19, 20 together, and are sealed by the ribs 40 (Figure 9).
Referring back to Figure 4, the plug 4 may be seen in a preassembled condition such that the various covers and housings are held together with the cavities in alignment to receive a contact 18 inserted therethrough. Note that the pawl 33 resides half way within the two-step slot 27 and that the retention steps 26 are engaged with a rear edge surface of the slot portion 27a. In this position, contacts may be inserted as shown in Figure 4, through the aperture 23, by using the polarized feature 23a, and into the position shown in Figure 7. If the contacts are not fully seated within the front housing, the ends of the retention lances 36 will be held outwardly, resting against the forward portions of contact 18 to stub against the rear face of the front cover and preclude a final assembly of the plug. If the contacts are properly seated, the contact retention lances 36 will be in the position shown in Figure 6 with the forward surfaces extending radially into the contact against a rear surface thereof to preclude back out and in such position, allow the forward cover to be axially displaced relative to the central housing from the position shown in Figure 7 to the position shown in Figure 8, at which time the retention step 26 will engage an interior locking tooth 34 proximate the two-step slot 27. With the plug assembled in the condition of engagement shown in Figure 8, the plug can now be inserted into a receptacle to reside as indicated in Figure 6.
Figure 6 also shows the use of a boot 34 that serves to protect the wires 17 and the rear part of the plug. Note that the boot 34 includes a forward lip that engages a slot 32a extending around the rear of the rear cover. Note also that the rear cover includes a recess 32b that allows an optional addition of potting material to pot the wires 17 and the rear of the connector to provide for applications wherein the entire module and connector assembly must be immersed under water for some period of time. The invention contemplates uses wherein the seals discussed are adequate for all intended uses and applications wherein the seals need to be assisted by potting, and as shown in Figure 7, the addition of an additional seal 13a that seals the self-tapping screw 13b located in the mounting ear 12 of the receptacle.
In practice, the various cover and housings of plug and receptacle can be molded of engineering plastic having suitable mechanical strength and dielectric qualities with the seals and gaskets made of suitable resilient materials. It should be apparent from the foregoing description that the invention includes several aspects relating to sealing and to assuring a proper contact seating. Proper contact seating is particularly important in sealed connectors but has uses apart from such connectors and sealing has uses apart from proper contact seating structures. The disclosed several features in combination are supportive of providing an improved connector concept.

Claims

A multiple contact connector (1a) of a type adapted to receive and position contacts (18) terminated to wires (17) including a central housing (20), a rear cover (19), and a front cover (16) having aligned contact-receiving cavities (22a, 22b, 23), characterized in that means (24) are provided to facilitate a telescopic closure along a given axis of the housing and covers, resilient means (36) on said housing adapted to be driven transversely relative to said given axis by a partially inserted contact (18) and allowed to move inwardly upon proper seating of the contact to facilitate a closure of the central housing (20) and the forward cover (16) responsive to a proper contact seating.
The connector of claim 1, characterized in that a one-piece resilient seal (21) is included having contact-receiving cavities (30) adapted to seal the wires (17) of said contacts (18) inserted in said connector and having external ribs (29) disposed between the rear cover (19) and a central housing (20) and means (24) to hold said seal in position to receive contacts (18) inserted therethrough to seal said wires with the said ribs (29) positioned to be engaged by surfaces (8) of a mating connector (3a) to seal the interior of said connector and the interconnection of said contacts.
The connector of claim 1, characterized in that means (27, 33) are included for holding the central housing (20) and front cover (10) in a first position relatively displaced apart prior to seating of said contacts (18) and in a second position relatively axially displaced together upon proper seating of said contacts.
The connector of claim 3, characterized in that wherein the means (27,33) further includes resilient retention arms (36) extending from a forward face of said central housing (20) having surfaces positioned to engage said front cover (16) and preclude a movement of said housing and cover relatively together prior to a proper seating of said contacts.
The connector of claim 1, characterized in that the front cover (16) has a two-slot relief (27) in the side walls thereof and the central housing (20) includes resilient means (25,33) extending from the forward face thereof to engage the slot to provide a preassembly of central housing (20) to front cover (16) and to facilitate contact (18) insertion and seating with axial closure of the central housing relative to the cover upon proper seating of the contact.
An electrical connector (1a) for use with an electronic module (1b) including a receptacle (3a) having a hood (8) extending around a set of contacts (17) including portions interconnected with circuits within the said module, characterized by a plug (4) having a rear cover (19) and a seal (21), a central housing (20) and a front cover (16), each including cavities (23, 22a, 22b) aligned to receive contacts (18) terminated to wires (17) inserted therethrough with means (24, 25) to effect a telescopic sliding together of said central housing, seal, and covers with the said seal (21) positioned between the rear cover (19) and central housing (20) including cavities (38) sealing the wires (17) internally of said seal and external ribs (29) positioned to engage the hood (8) upon said plug being inserted in said receptacle to provide a sealed interconnection of said contacts.
The connector of claim 6, further characterized in that means (36) operable to preclude mating said plug and receptacle unless the said contacts are properly seated in the said plug and the forward cover (16) properly seated on said central housing.
The connector of claim 6, characterized in that the seal (21) has a series of ribs (38) within the said cavities to seal the said wires (17).
The connector of claim 6, characterized in that the central housing (20) includes retaining arms (25) projecting from a forward face thereof having pawls (33) and the front cover (16) includes a two-step slot (27) engaged by the said pawls to hold the front cover in first and second positions to provide a preassembly allowing contact insertion and a final assembly of housing and cover responsive to proper contact seating.
The connector of claim 6, characterized in that the central housing (20) includes alignment pins (24) and the said rear cover (19) includes cavities to receive said pins to facilitate a telescopic engagement of the said housing and rear cover.
The connector of any of claims 6-10, characterized in that the seal includes a thin rupturable diaphragm penetrated by a contact to seal the contacts.
The connector of any of claims 6-10, characterized in that the central housing (20) includes contact retention lances (36) projecting from a front face thereof and deformable transversely to contact insertion to engage the forward cover (16) to block engagement of the cover with said central housing unless contacts are properly seated.
An electrical connector (4) comprising a housing (20) of insulative material having at least one cavity (22a) therethrough for the receipt of an electrical terminal (18), the connector (4) further comprising a seal member (21) for sealing an interior of said housing (20), the connector being characterized in that said seal (21) is interfacially disposed against a rear face of said housing (20) and held there, said seal (21) having a peripheral outer edge larger than an outer periphery of said housing, said peripheral outer edge forming a peripheral seal for a mating connector.
The connector of claim 13, characterized in that said seal (21) has a plurality of ribs (29) along said outer peripheral edge for sealing contact against an inner surface of a mating connector.
The connector of claim 13 or 14, further characterized by a rear cover member (19) which is placed against said seal (21).
The connector of any of claims 13-15, characterized in that the rear cover (19) includes a hood portion which is spaced from and surrounds said peripheral edge of said seal.
The connector of any of claims 13-16, characterized in that said housing (20) has retention pins (24) which project through said seal 21, and into said cover portion (19), retaining said rear cover (19) and front housing portion (20) together.
The connector of any of claims 15-17, characterized in that said rear cover (19) has a rear plate portion which is pressed against said seal.
The connector of any of claims 15-18, characterized in that said rear cover (19) has apertures (23) therethrough, which are polarized (23a) for the receipt of terminals (18).
The connector of any of claims 16-19, further characterized by a receptacle (2) having a hood portion (3a) received over said housing (20), and having an inner surface (10) in sealing engagement with said peripheral ribs of said seal (21).