US3491326A

US3491326A - Disengageable electrical connector with contact protecting means

Info

Publication number: US3491326A
Application number: US729216A
Authority: US
Inventors: Franz Pfister; Alain Legrelle
Original assignee: Bolkow GmbH; Souriau Electric GmbH
Current assignee: Bolkow GmbH; Souriau Electric GmbH
Priority date: 1967-05-19
Filing date: 1968-05-15
Publication date: 1970-01-20
Anticipated expiration: 1987-01-20
Also published as: SE351328B; GB1203852A; CH471475A; FR1573283A

Description

F. PFISTER E'TAL DISENGAGEABLE ELECTRICAL CONNECTOR Jan. 20 1970 WITH CONTACT PROTECTING MEANS Filed May '15, 1968 Inl United States Patent O 3,491,326 DISENGAGEABLE ELECTRICAL CONNECTOR WITH CONTACT PROTECTING MEANS Franz Pfister, Hochstadt, Germany, and Alain Legrelle,

Rueil-Malmaison, France, assignors to Bolkow Gesellschaft mit beschrankter Haftung, Ottobrunn, near Munich, Germany, and Souriau Electric GmbH Bauelemente fur Luftfahrt und Elektronik, Dusseldorf,

Germany Filed May 15, 1968, Ser. No. 729,216 Claims priority, appliclltilGotsermany, May 19, 1967,

Int. c1. Hoir 31/08 U.S. Cl. 339-19 10 Claims ABSTRACT OF THE DISCLOSURE Background of the invention Disengageable electric connectors for simultaneously interconnecting or disconnecting a plurality of conductors or a plurality of electric circuits are known. In such connectors, it is further known to so design either the plug or the receptacle, conjointly constituting the connector, that contact of the electric contacts, when the connector is disengaged or disconneced, is made impossible.

Thus, for example, German Patent No. 409,427 discloses a disengageable electric connector in which electric contacts are distributed around the circumference of the plug and also around the socket or receptacle. The plug, when not inserted into the receptacle, is protected both from contact and fouling by a protective cap which is screwed to the plug pin. The thread provided for that purpose on the plug shaft or pin is, at the same time, and on insertion of the plug into the receptacle, utilized in a known manner for securing the electrical connector by engagement with a corresponding thread provided on the receptacle.

German Auslegeschrift 1,071,800 discloses another disengageable electric connector wherein a plug, with individual plug pins, is covered by a so-called Contact safety plate when the plug is not inserted into receptacle. This covering is effected in such a way that an unauthorized or accidental touching of electric contacts is not possible. Furthermore, the contact safety plate is so designed that it automatically releases or uncovers the plug pins upon insertion of the plug into the receptacle.

German Gebrauchsmuster 1,812,283 discloses an electrical connector wherein the receptacle, when the plug is not inserted therein, is secured or closed by a plate automatically closing the opening of the receptacle, and so designed that it automatically releases or uncovers the electric contacts of the receptacle upon insertion of a plug into the receptacle.

Such covering or protecting means provided on the known electrical connectors, for the electric contacts either of the plug or of the receptacle, serves primarily 3,491,326 Patented Jan. 20, 1970 ICC for the purpose of preventing, for safety reasons, an unintentional or unauthorized touching of the electric contacts. At the same time, these devices attain a certain protection of the electric contacts against fouling. However, for special uses and especially for military purposes, electrical connectors are needed which will withstand extreme conditions `when interengaged as well as when disengaged.

Thus, for example, for remote control missiles (which occupy a small space), light plug-in connectors, are Vrequired which must be absolutely dependable and watertight in any state, insensitive to extreme temperature fluctuations, and dirtproof, dustproof and resistant to contact with certain organic or inorganic liquids. Furthermore, the moving mechanical parts must also still be fully functional after very long periods of storage with widely varying temperatures and the most diversified weather conditions. In addition, and for reasons of safety, the electric contacts in at least one element of the electrical connector must be short circuited until such time as the parts of the electrical connector are interengaged.

Summary of the invention This invention relates to disengageable electrical connectors for interconnecting a plurality of electrical circuits and, more particularly, to an improved disengageable electrical connector characterized by smooth working under extremely difficult conditions, extreme simplicity of the mechanical and electrical structure, and protection of the contacts against moisture and atmosphere both in the engaged condition and in the disengaged condition.

The disengageable electrical connector of the invention is of the type including a plug and a receptacle and in which the contacts to be engaged and disengaged are distributed circumferentially, with the contacts of the plug and the contacts of the receptacle being covered when the electrical connector is disengaged. In accordance with the invention, the contacts of the two parts of the disengageable electrical connector are enclosed, in both the engaged position of the electrical connector and the disengaged position thereof, in watertight manner. At least one of the contact covering means extends beyond the electric contacts to an extent such that, when the two parts of the electrical connector are engaged, the covering and sealing functions are performed by the other part of the electrical connector before the individual contacts of the two parts of the electrical connector are uncovered for interengagement.

In a preferred embodiment of the invention, a cylinder is axially displaceable within the receptacle and against the bias of a Spring, and this cylinder cooperates with a sealing ring disposed in the inner peripheral surface of the receptacle adjacent the plug-receiving opening of the receptacle. A cylindrical sleeve surrounds the exterior surface of the plug and is movable axially of the plug against a spring bias. At its outer end facing the receptacle, this sleeve carries an annular lip seal, and the exterior circumferential surface of the cylindrical sleeve cooperates with a sealing ring mounted in the inner peripheral surface of a cylindrical case iixedly connected with the plug.

This design assures that both the receptacle and the plug, when disconnected, are sealed off so as to be 1iquidtight and dustproof, by means of the covering means biased by springs into their effective position and which cooperate with sealing rings of the two parts of the connector. The sealing ring positioned in a groove in the inner surface of the receptacle cooperates, upon engagement of the plug in the receptacle, with the plug so that the latter, in the connected or engaged condition of the connector, is also sealed olf in a liquid-tight and dustproof manner. Upon Withdrawal of the plug from the receptacle, the sealing cylinder of the receptacle and the cylindrical sleeve of the plug areibiased immediately into their respective protecting positions by the associated springs, and hermetically seal the respective electrical contacts from the atmosphere. An particles of dirt or drop of liquid are simultaneously wiped off the parts during this movement of the covers to the sealing position.

With the mentioned preferred design of the electrical connector, it is further assured that no water is able to penetrate into the electrical contacts even with extremely moist weather, such as characteristic of heavy rain or snowstorms. This is important, in order to avoid any manifestations of corrosion at the contacts under all circumstances and which, with the very low electric power available for controlling and guiding of the missile, would lead to failures or breakdowns due to increase of the contact resistances.

The springs biasing the covering means, after disengagement of the two parts of the electrical connector, into their effective positions, have large magnitude elongations in order to bias the covering means quickly and safely into positions in which they cover and protect the respective electric contacts. The distances through which the respective covering means must be moved are correspondingly long, since the actual sealing off of the electrical connector parts is effected at the greatest possible distance from the circumferentially arranged electric contacts. In order to accommodate springs having large elongations and without disadvantageously increasing the size of the electrical connector, in accordance with a further advantageous feature of the invention the covering means are provided with recesses accommodating a considerable portion of the length of each associated spring.

As a further feature of the invention, the part carrying the electric contacts ofthe plug is designed as an exchangeable member having a threaded interconnection with the plug. Such a design is advantageous where the plug ofthe electrical connector is more subject to stresses than is the receptacle of the electrical connector. This is the case, for example, with an electrical connector used for remote controlled missiles and where the plug is iixedly positioned in operative association with the electronic means of a control and position-finding device, with respective receptacles fixedly positioned on launching tubes which are individual for each missile to be fired. With each new missile to be red, there is thus a new receptacle which is joined with the same plug of the control device, so that the electric contacts of the plug, after a large number of missiles have been red, show a certain degree of wear.

In accordance with a further feature of the invention, the receptacle, which is telescoped over the plug when the two parts of the electrical connector are interengaged, is so designed that, in addition to forming an electrical connection it also forms a mechanical connection absorbing considerable forces. Such a utilization of the connector as a mechanical supporting arrangement is also especially advantageous in connection with the control and positionfinding device. This is due to the fact that the connector then joining the launching tube containing the missile with the control device can be utilized simultaneously as the sole or as an additional mechanical interconnection between the launching tube and the control device.

In a further development of the invention, the parts covering the electrical contacts when the electrical connection is disengaged are so constructed that they short circuit the respective electrical contacts of each part of the electrical connector. A provision of this type in an electrical connector used with remote control missiles is necessary since, for example, the electric ignition wires of the electrical connector, when not energized for ring, as with an open electrical connector, must be short circuited in order to prevent activation of the ignitors as by static chargesfor example.

An object of the invention is to provide an improved disengageable electrical connector in which the electrical contacts of the two parts are sealed from the atmosphere in both the engaged and disengaged conditions of the electrical connector.

Another object of the invention is to provide such a disengageable electrical connector in which Contact sealing means are provided on the two parts thereof, with the sealing functions of one part being assumed by the sealing means of the other part when the two parts are interengaged and before their respective contacts are uncovered for interconnection.

A further object of the invention is to provide such a disengageable electrical connector including respective covering means associated with a plug and with a receptacle, forming the two parts of the electrical connector, cooperate with sealing rings to provide an hermetic seal.

Another object of the invention is to provide such a disengageable electrical connector in which, responsive to disengagement of the two parts thereof, dirt and moisture are wiped olf the parts automatically.

A further object of the invention is to provide such a disengageable electrical connector which is maintained watertight under extremely wet conditions and in both the engaged and disengaged conditions.

Still another object of the invention is to provide such an electrical connector in which the respective sealing means are under the bias of springs having large elongations, with the large elongations being accommodated by recesses in the sealing means in such a manner that the overall size of the electrical connector is not increased.

A further object of the invention is to provide such a disengageable electrical connector in which the contact carrying parts of the plug are interchangeable for replacement after a certain degree of wear.

Another object of the invention is to provide such a disengageable electrical connector which, in the engaged condition, serves as a mechanical support or connection for the parts.

A further object of the invention is to yprovide such a disengageable electrical connector in which, when the two parts thereof are disengaged, the respective contacts of the two parts are short circuited.

Brief description of the drawings For an understanding of the principles of the invention, reference is made to the following description of a typical embodiment thereof as illustrated in the accompanying drawings.

In the drawings:

FIG. 1 is an axial sectional view of an electrical connector embodying the invention, with the parts being shown disengaged; and

FIG. 2 is a view similar to FIG. l, but showing the two parts of the electrical connector interengaged.

Description of the preferred embodiment The disengageable electrical connector embodying the invention, illustrated in the disengaged position in FIG. 1, includes a plug or plug element 1 having a shank or stem 101 rigidly or xedly connected with a larger member 3, which has not been further illustrated in the drawings. A cylindrical casing 102 is fixedly connected with shank 101 and, adjacent the open end of casing 102, the inner surface thereof is formed to receive a sealing ring or gasket 103. The core of plug 1 also comprises a cylindrical casing 104 into which extend insulated electrical conductors 105, each of which is soldered with a respective plug socket 107 seated in an insulating or dielectric block 106 having its inner end engaging an internal shoulder on core part 104. Block 106 is secured by a set screw 108 threaded through cylindrical casing 104.

A structural part 110 of plug 1, formed of insulating or dielectric material, carries the actual electrical contacts 109, and is bored to receive plug pins 111 extending through part 110 and electrically connected at their outer ends to respective contacts 109'and at their inner ends to respective sockets 107, each receiving the reduced inner end of a pin 111. Part 110 is held in position by means of a screw 112 threaded into a threaded recess 121 of plug 1. Threaded recess 121 is formed in a further structural part 122 embedded in a sealing compound 123 in cylindrical case 104. Thereby, the connecting and changing of the electric leads 105 within cylindrical case 104 is facilitated. Of course, recess 121 could be formed directly in the inner end of cylindrical case 1. Screw 112 has its head engaged with a metallic cover plate 113 which is electrically isolated from member 110 carrying electric contacts 109 through the medium of a dielectric disk 114.

A cylindrical sleeve 115 is telescoped over cylindrical case 104 of plug 1, and its inner end, facing shank 101, is formed with an annular recess of a substantial axial length. One end of a coil spring 117 is seated in recess 116, and the opposite end of coil spring 117 engages a flange 118 on cylindrical case 104. The forward or outer end of sleeve 115 is also formed with an annular recess receiving an annular lip seal 120 whose front edge firmly engages the exterior surface of plug part 110 carrying electric contacts 109.

The disengageable electrical connector includes a receptacle 2 having a shank or stem 201 which is fixed to a relatively larger part or member 4 which has not been further illustrated in the drawings. Receptacle 2 includes a cylindrical casing 202 whose outer end is open to receive plug 1. The edge of the outer opening in casing 202 is bevelled, as indicated, to form a conically enlarged surface. Inwardly of this beveled or conical surface, the inner surface of casing 202 is formed with a groove receiving a sealing ring 203. A hollow cylinder 204 is telescoped within casing 202 and has an open inner end and a closed outer end. A spiral spring 205 has one end engaged within the inner space 210 of cylinder 204, and the other end of spring 205 is engaged in an annular groove 206 in the inner end of cylindrical case 202 adjoining shank 201.

The inner surface of cylindrical casing 202 is formed with a plurality of circumferentially spaced axially extending grooves 207 each receiving a respective contact spring 208. Between springs 208 and Shank 201, the inner diameter of casing 202 is increased to form a shoulder limiting outward movement of hollow cylinder 204. Each contact spring 208 is electrically yisolated from casing 202 by means of a respective jacket 209 of dielectric material.

When the electrical connector is disengaged, hollow cylinder 204 of receptacle 2 is biased by spring 205 to a position in which its outer surface, in cooperation with sealing ring 203, seals the interior of receptacle 2, containing contact spring 208, against atmosphere. Contact springs 208 snugly engage the outer cylindrical surface of hollow cylinder 204 and are thereby short circuited relative to each other.

'When the electrical connector is disengaged, the cylindrical sleeve 115 of plug 1 is also biased by spring 117 to extend substantially completely beyond cylindrical casing 102, so that lip seal 120 snugly engages the outer surface of metallic cover plate 113 and thereby seals member 110, carrying electric contacts 109, from the atmosphere. A part of the inner surface of sleeve 115, adjacent annular recess 119, snugly engages contacts 109 and short circuits these contacts. The inner space of cylindrical case 102 is sealed by sealing ring 103 engaging the outer surface of sleeve 115.

In the asesmbled state of the electrical connector, as shown in FIG. 2, sleeve 115 has been pushed back, against the bias of spring 117, into cylinder case 102 so that cylindrical case 202 of receptacle 2 is closely telescoped over the outer surface of cylindrical casing 104 of plug 1. Contact springs 208 of receptacle 2 then snugly engage the respective associated electric contacts 109 of plug 1. Also, hollow cylinder 204 of receptacle 2 is pushed back into cylindrical case 202 against the bias of its associated coil spring 205. Sealing ring 203 in the inner surface of casing 202 snugly engages case 104 of plug 1, and thus seals off from atmosphere the interior of the electrical connector, and the electric contacts.

By virtue of the relatively large contact surface between cylindrical casing 202 of receptacle 2 and cylindrical case 104 and the s-

tructural members

110, 114 and 113 of plug 1, considerable mechanical forces can be absorbed by the electrical connector. By a suitable mechanical locking means, which has not been shown, the electrical connector, when assembled as shown in FIG. 2, is held assembled against the bias exerted by

springs

117 and 205. After release of such a mechanical locking device, the electrical connector is automatically disengaged by the bias of springs 117 and 20S, these springs then acting as accumulators.

Lip seal 120 of plug 1 provides, during each movement of cylindrical sleeve 115, both during engagement of the electrical connector and during engagement thereof, a cleaning of electric contacts 109. This results in a relatively long service life of plug 1, which is subjected to a greater wear than are the individual receptacles 2 selectively cooperable therewith.

The correct coordination and association of contacts 109 of plug 1 with contacts springs 208 of receptacle 2 is obtained by known means for assuring a proper angular interrelation of the plug and receptacle during interengagement thereof. Such means are well known and thus have not been shown in the drawings.

While a specific embodiment of the invention has been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.

What is claimed is:

1. A disengageable electrical connector for interconnecting a plurality of electrical conductors, and of the type including a receptacle element, a plug element disengageably insertable into the receptacle element, with the -two elements carrying respective circumferentially spaced contacts interengaged upon such insertion, and covering means on at least one of the elements resiliently biased to a contact covering position upon disengagement of the elements: said connector comprising, in combination, plug element including a part carrying circumferentially spaced first contacts; a receptacle element carrying circumferentially spaced second contacts each engageable with a respective first contact; a lirst contact covering means on said plug element; a second contact covering on said receptacle element; and respective resilient means biasing said covering means to respective covering positions covering the respective contacts; the covering means on at least one elcement, in the disengaged position of said elements, projecting outwardly beyond its associated contacts a distance such that, upon insertion of said plug element into said receptacle element, its associated contacts are covered by the other element before said iirst and second contacts are interengaged.

2. A disengageable electrical connector, as claimed in claim 1, in which said receptacle element includes a receptacle casing having an open outer end and a cylindrical inner surface mounting said second contacts; said second contact covering means comprising a hollow cylinder telescoped in said cylindrical inner surface; said resilient means comprising a first spring biasing said hollow cylinder to a contact covering position; and a sealing ring -mounted in said inner cylindrical surface adjacent the open outer end of said receptacle casing and engageable with the external surface of said hollow cylinder to form a seal therewith.

3. A disengageable electrical connector, as claimed in claim 1, in which said plug part has an outer cylindrical surface mounting said iirst contacts; said first contact covering means comprising a cylindrical sleeve telescoped over said outer cylindrical surface and displaceable axially relative to said plug part; an annular lip seal mounted at the open outer end of said cylindrical sleeve and engaging said outer cylindrical surface of said plug part to form a seal therewith; a cylindrical plug casing fixed axially with respect to said plug part; and a second sealing ring mounted in the inner surface of said plug casing and engaging the outer surface of said cylindrical sleeve to form a seal therewith; said resilient means comprising a second spring biasing said sleeve to contact covering position.

4. A disengageable electrical connector, as claimed in claim 2, in which said plug part has an outer cylindrical surface mounting said rst contacts; said rst contact covering means comprising a cylindrical sleeve telescoped over said outer cylindrical surface and displaceable axially relative to said plug part; an annular lip seal mounted at the open outer end of said cylindrical sleeve and engaging said outer cylindrical surface of said plug part to form a seal therewith; a cylindrical plug casing iixed axially with respect to said plug part; and a second sealing ring mounted in the inner surface of said plug casing and engaging the outer surface of said cylindrical sleeve to form a seal therewith; said resilient means comprising a second spring biasing said sleeve to a contact covering position.

5. A disengageable electrical connector, as claimed in claim 4, in which each of said hollow cylinder and said cylindrical sleeve has an axially deep annular recess in its inner end seating one end o'f the associated spring; said springs being characterized by substantial magnitudes of elongation.

6. A disengageable electrical connector, as claimed in claim 1, invwhich said plug part carrying said rst contacts is designed as an exchangeable part; and threaded connector means securing said plug part to the remainder of said plug element.

7. A disengageable electrical connector, as claimed in claim 1, in which said plug element further includes a plug body in the form of a cylindrical member; said plug part carrying said rst contacts being inserted into said cylindrical case; said plug part being formed with a plurality of pins extending longitudinally thereof and each electrically connected with an associated first contact, said pins projecting beyond the inner end of said plug part; means secured in said cylindrical case inwardly of said plug part and supporting respective sock-ets each engageable with the projecting end of a respective pin, said means being formed with a threaded axial recess; a screw extending through said plug part and having an end threaded into said recess to secure said plug part to said means and to said cylindrical case; and a sealing compound within said cylindrical case, said means being embedded in said sealing compound.

8. A disengageable electrical connector, as claimed in claim 1, in which said plug element and said receptacle element, when said plug element is telescoped Within said leceptacle element, having a degree of axial overlap sufcient to form a mechanical joint capable of absorbing substantial forces.

9. A disengageable electrical connector, as claimed in claim 1, in which each of said contact covering means is formed of electrically conductive metal; each contact covering means, when said plug element is disengaged from said receptacle element, electrically interconnecting its associated contacts to short circuit the latter.

10. A disengageable electrical connector, as claimed in claim 1, in which said respective resilient means comprises respective' springs each associated with a respective contact covering means; said respective springs, when said plug element is engaged in said receptacle element, being compressed to serve as accumulators effective to automatically separate said plug element and receptacle element.

References Cited FOREIGN PATENTS 866,308 4/1961 Great Britain. 894,284 4/1962 Great Britain.