This application claims priority to: PCT Application No. PCT/GB00/00312 filed on Feb. 4, 2000; and Great Britain Application No. 9902467.1 filed on Feb. 5, 1999.
The present invention relates to an isolating connector for interconnecting or mutually isolating two or more circuits.
Electrical connectors are required which can be used safely in applications where the connectors may be exposed to explosive atmospheres. Such applications are found in industrial plants, for example in the oil, gas, petrochemical and mining industries.
Industrial plants are zoned according to the likelihood of explosive gases being present. Various protection measures are used to prevent explosions. The International Electromechanical Commission (OEC) has established standards which should be applied in particular circumstances, for example the Exd standard. Connectors in accordance with the Exd standard should be capable of being used in an explosive atmosphere such that if two interengageable connector elements of the connector are separated and a spark is generated any resultant explosion occurs within the connector structure and is prevented from being transmitted to the surrounding environment. To meet these standards, the connector must be capable of withstanding pressure developed within the connector as a result of an internal explosion and preventing the transmission of the explosion along any flame path defined between components of the connector. Exd standard connectors are available at present but generally meet the standard requirements only if prior to disconnection of the connector elements no power is supplied to the connector elements. To prevent accidental disconnection when power is still being supplied to the connector, such connectors must be marked clearly with for example “do not separate when energised” and the connector elements must be secured together by means of special fasteners which prevent accidental release.
It is an object of the present invention to provide a connector which can meet stringent safety requirements even if elements of the connector are separated when still connected to a source of electrical energy.
According to the present invention, there is provided a connector for interconnecting or mutually isolating two or more circuits, comprising first and second interengageable connector elements each of which is connected in use to a respective circuit and at least one of which supports a first contact connected to the respective circuit and a displaceable contact holder carrying interconnected second and third contacts, the contact holder being displaceable between a first position in which the first and second contacts are separated and a second position in which the first and second contacts are interconnected, wherein the connector elements are formed such that on interengagement the contact holder is displaced from the first to the second position after the third contact is interconnected with a contact of the other connector element, and such that on disengagement the contact holder is displaced from the second to the first position, the contacts being imaged such that on disengagement the first and second contacts separate before the third contact is separated from the said contact of the other connector element and such that when separated the first and second contacts are located within a closed chamber defined within the said at least one connector element, means being provided for locking the or each contact holder 10 the said contact of the other connector element unless the first and second contacts are separated.
Each connector element may support a respective first contact and a respective displaceable contact holder carrying interconnected second and third contacts such that on interengagement of the connector elements the third contacts are interconnected. Means may be provided to prevent the or each contact holder being blown out of the associated connector element. The preventing means may comprise a pin received in a slot formed in the contact holder.
The or each contact holder is preferably slidable in a bore such that the closed chamber is defined between the contact holder and the walls of that bore. Preferably, the locking means provided for locking the or each contact holder to the said contact of the other connector element comprise one or more locking balls which are retained in locking engagement between the connector elements and the contact holder unless the contact holder is in the first position.
Means may be provided for locking the or each contact holder in the first position when the connector elements are separated. Preferably the locking means maintains the or each contact holder in the first position unless the contact elements are interengaged, and may comprise a spring-biased slider displaceable as a result of interengagement of the connector elements from one position in which it reins one or more locking balls in locking engagement between the connector element and the contact holder with the contact holder in the first position and a further position in which each locking ball is released and the contact holder is displaceable to the second position.
An embodiment of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which;
Referring to
Referring to
The pins 12 face first female contacts 14 supported in the sliding contact holder 4. The sliding contact holder 4 also supports second female contacts 15 which are electrically connected to the first female contacts 14. The holder 4 is slidable within the socket 13 but is retained in the position shown in
The female connector outer body 2 fixedly supports a female connector inner body 19. An annular slot is defined between the outer body 2 and the inner body 19 and receives a female connector slider 20 which is biased by a compression spring 21 against a frusto conical surface 22 defined by the inner body 19. A compression spring 23 biases the collar 3 against a retaining circlip 24. A lock ball 25 is supported in a tapering opening in the female connector outer body 2. An O-ring seal 26 is also provided in an annular groove inside the open end of the female connector outer body 2.
The female connector inner body 19 defines a socket 27 which receives a female connector fixed contact holder 28. The inner body 19 also defines a socket 29 which slidably receives a female connector sliding contact holder 30. In the separated condition of the connector assembly the sliding contact holder 30 is locked in position by a lock ball 31. The sliding contact holder 30 defines a socket 32 the wall of which carries lock balls 33 and into which second male contact pins 34 project. The pins 34 are connected to third female contacts 35 also carried by the sliding contact holder 30. The third female contacts 35 face third male contact pins 36 ex-ending from the fixed contact holder 28. The third male contact pins 36 are connected to cable solder pots 37 which project into the socket 27.
The maximum spacing between the third female contacts 35 and the third male contact pins 36 is determined by retention pin 38 carried by the inner body 19. The retention pin 38 is received in an elongate slot 39 formed in the outer surface of the female connector sliding contact holder 30. The pin 38 provides radial orientation and prevents total withdrawal of the contact holder 30 from the inner body 19.
Referring now to
Referring to
As shown in
Referring now to
The male and female connector sliding contact holders remain locked together and thus as the male and female connectors are pulled farther apart the assembly components assume the condition shown in
Assuming that when making or breaking a connection with the illustrated connector power is applied between the cable solder ports 11 and 37, connection or disconnection of the connector assembly will nevertheless be achieved in a safe manner. For example, if as shown in
Once the connector has been disconnected the two halves of the connector are in the condition as illustrated in
It will be appreciated that alternative arrangements to those described in
Further modifications to the illustrated connector arrangement are possible. For example, the springs of the illustrated embodiment could be replaced by foam rubber, compressable gas arrangements or a single large spring. The annular collars could be replaced by sliding rods or the like. Locking balls could be replaced by shaped pin or other locking elements. The retention posts could be replaced by anchor bolts, circlips, machine leas or lips or the like. Collars could be split into a series of independent elements to improve security against tampering. In the illustrated arrangement, the retention posts slide in axial slots which limit the maximum axial displacement of the contact holders. Other arrangements are possible however. For example a spring-loaded retention post could be slidable in a slot incorporating a first axially extending slot section and a second slot section which is inclined at an acute angle to the axial section. With such an arrangement if when the contact elements were disconnected an attempt was made to push back the contact holder, the springloaded retention post could cause the pin holder to rotate into a locked position, thereby preventing reconnection of the pins. With such an arrangement, the springloading, would cause rotation of the contact holder unless the contact holder was prevented from turning as a result of inierengagement with components of the other connector elements. For example, pins mounted on one contact element would engage in sockets of the contact holder of the other contact elements so as to prevent rotation of the contact holder. Such an arrangement would not positively lock the contact holders against axial displacement before connector element interengagement as is the case for the illustrated embodiment.
It will be appreciated that connectors in accordance with the invention may be provided with air or inert gas purging, to prevent the build-up of explosive gas mixtures in the closed chambers in which sparks may be generated, or the closed chambers may be filled with a non-flammable electrically insulating liquid.
Number | Date | Country | Kind |
---|---|---|---|
9902467 | Feb 1999 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCTGB00/00312 | 2/4/2000 | WO | 00 | 1/3/2002 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO0046884 | 8/10/2000 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3360764 | Bac | Dec 1967 | A |