GB2330018A - Floatingly mounted connectors - Google Patents

Abstract

A coupling comprises a connector 10 floatingly mounted in a panel so as to be movable relative to the panel upon mating with a counted 12, so as to allow for misalignment of the connector and counterpart during mating. The connector may have a protrusion 48 limiting rotation of the connector in the panel during mating, and a spring 36 to allow some movement in the mating direction. Plural connectors, each floating independently, may be mounted in a panel (figures 2 to 4, not shown). The connector may have an annular EMI shield 62. The coupling may have a keying arrangement 26, 28 to ensure correct relative alignment of the connector and counterpart.

Description

2330018 1 CONNECTOR ASSEMBLIES The present invention relates to connector

arrangements and to methods of connecting. The present 5 invention is particularly, although not exclusively, applicable.to rack panel connector assemblies.

In a prior rack panel connector assembly, one panel with one rectangular and one square array of connections has been fixed in position. The two arrays are located such that a centre line along the major direction of the rectangular array passes through the adjacent centre'of the square array. Another panel 'with a corresponding array of connectors has then been slid along a rack to is bring the connectors of the two panels into contact with each other. Adjacent panels having the features discussed above can be mounted side by side with each cooperating panel being movable relative to each other.

Each panel is restricted in the number of contacts, or different arrays of contents, that it can have as if there are too many arrays then misalignment can occur and the connector assembly simply will not make up.

Each cooperating panel must be surrounded by an electro magnetic compatibility protection device which take the form of a f lange. The protection device stops the signals from adjacent panels from corrupting each other. However those'flanges take up a considerable space and that, coupled with the separate racks and connections required for adjacent panels means that the overall connector density is low.

It is an object of the present invention to attempt to overcome some of the above described disadvantages.

According to a first aspect of the present invention a connector arrangement includes a first part and a second part, each part comprising at least one connector portion with the connector portion on one part being arranged to cooperate with the connector portion on another part upon relative movement of one part relative to the other in a first direction in which the first part has its connector portion mounted thereon whereby the connector por tion of the first part is able to move relative to the first part.

is The connector portion of the f irst part may extend through an opening in the f irst part such the connector portion is able to move in the opening relative to the first part in a direction transverse to the extent of the first direction.

The relative movement of the connector portion of the first part to the first part may be translational movement which may be generally in line with the first direction and which may be against a resilient bias. The translational movement may be generally transverse to the first direction and may be in two different directions both transverse to the first direction. Alternatively or additionally the relative movement of the connector portion of the first part to the first part may be arranged to be arcuate movement generally about the extent of the first direction. The connector portion of the first part and the first part may be arranged to cooperate to restrict relative rotational movement of those parts generally about the extent of the first direction.

The connector portion of the first part may be arranged to cooperate with the first par t to permit restricted relative movement by a lug on one of the connector portion or the first part cooperating with an opening of the other of the connector portion or the f irst part.

The movement of the connector portion of the first part relative to the f irst part may be arranged to be caused by abutment of the connector portion of the first part with a connector portion of the second part.

The first part may include a plurality of connector 10 portions each of which are mounted such that they can move separately relative to each other.

The present invention also includes a method of connecting a first part and a second part in which each is part includes at least one connector portion, the method comprising moving one of the parts towards the other part such that the connector portions on each part become connected with the connector portion of the first part moving relative to the first part during the relative movement of the first and second parts.

The movement of the connector portion on the first part may be as previously referred to.

The method may comprise a plurality of connector portions on the first part each moving relative to the first part when the first part and the second part move towards each other to connect the connector portions of the respective parts. The method may comprise the connector portions on the first part each moving in a different manner relative to the first part during relative movement of the first and second parts to connect their respective connector portions.

4 - The connector arrangement may include a guide for one of the f irst or second parts whereby movement of that part along the guide moves that part accurately towards the other part.

According to a further aspect of the present invention a connector arrangement includes a f irst part and a second part, each part including at least three separate connector portions with the connector portions of one part being arranged to cooperate with the connector portions on the other part upon relative movement of those parts.

A line through the centre of each connector portion is on each part may include at least one angle.

The connector portions may be arranged in a plurality of rows.

At least two of the connector portions on the first part may be arranged to be of different sizes. Alternatively or additionally at least two of the connector portions on the f irst part may be arranged to be of the same size. The connector portions on the f irst part may be arranged to be generally circular in a plane perpendicular to the direction of relative movement of the parts.

The arrangement may include a guide f or one of the parts whereby that part can be moved relative to the other part to move the parts accurately towards each other.

According to a further aspect of ' the present invention a connector arrangement includes a first part and a second part, each part including at least two separate connector portions with the connector portions on one part being arranged to cooperate with the connector portions on the other part upon relative movement of one part relative to the other, the connector portions of one part being protected from electromagnetic interference with other connector portion or portions an that part.

The protection from electro magnetic interference may comprise a protector surrounding at least one connector. 10 The protector may comprise a sprung protector.

is According to another aspect of the present invention a connector arrangement includes a first part and a second part with each part including a plurality of separate connector portions with the connector portions of one part being arranged to cooperate with the connector portions of the other part upon relative movement of one part in a first direction relative to the other part, the connector portions being generally circular when viewed in the first direction.

The connector portions as described anywhere above may comprise connectors. Each connector may be detachable or, alternatively or additionally, replaceable or, alternatively or additionally, interchangeable on the part that they are mounted on. Each connector may include a plurality of separate connections.

When the first and second parts as anywhere described above had been moved such that their respective connector portions are connected, at least one of the connector portions on one part may be resiliently biased towards a connector portion on the other part. The resilient bias may be arranged to be applied or effected during connection of the connector portions.

The present invention includes any combination of the herein referred to features or limitations.

The present invention may be carried into practice in various ways but one embodiment will now be described, by way of example, and with reference to the accompanying drawings in which:

Figure 1 is a perspective.view of a female connector 10 10 and a male connector 12; Figure 2 is a view of the rear of a static panel 14 that accommodates a plurality of male connectors 12; is Figures 3 and 4 are a rear view and a f ront view respectively of a rack panel 16 that accommodates a plurality of female connectors 10; Figures 5 and 6 are front and side views respectively 20 of the connector housing for a male connector 12; Figures 7 and 8 are front and side views respectively of the connector housing for a female connector 10, and Figure 9 is a cross sectional side view of a static panel 14 and a rack panel 16.

The connectors used in the embodiment described are typically those that conduct power, fibre optics, bus data, filter contacts or gas, for instance for cooling of infra red equipment.

Figure 1 shows an electrical connector'comprising a female counter 10 having a plurality of sockets 18 that 35 are arranged to receive a plurality of male contact pins 7 20. The male connector 12 includes a cylindrical housing 22 that is arranged to surround the cylindrical housing 24 of the female connector when the two are connected.

Axially extending guide channels 26 located around the inside of the male housing 22 receiveoutwardly extending lugs 28 on the female housing 24 to guide the correct male contact pins into the required. female sockets. The guide channels and the lugs 28 also ensure that the connectors only fit together in one relative rotational orientation. The inner surface of the outer portion of the male housing 22 diverges outwardly as shown at 30 to allow the male and female connectors to adjust for any.slight misalignment between the connectors when is they are first brought into contact with each other.

Figure 2 shows a box panel 14 that is arranged to be mounted typically on a part of an aircraft such that the panel does not move. The panel 14 includes a plurality of male connectors 12A, 12B, 12C, 12D of varying diameter with the connectors 12 having different electrical or non electrical function and with some of the male connectors possibly having a different number of pins or perhaps some dummy pins that serve no function.

Figure 4 shows a front view of a rack panel 16 that includes female connectors 10A, 10B, 10C, 10D and 10E that are aligned with the corresponding male connectors on the panel 14 whereby movement of the rack panel towards the box panel effects connection of all male and female connectors on the panel in one movement.

The rack panel 16 is mounted on slides (not shown) that cooperate with recess 32 formed in the lower surface of the panel 16, seen in Figure 3. The other peripheral 8 surfaces of the panel 16 may also slide along guide surfaces in order that, when the rack panel 16 is pushed towards the panel 14 each of the connections are substantially correctly aligned. The slides and guides could be provided separately from the box panel. Alternatively those slides and guides could be integral and part of the box panel, for instance by housing a hood extending forwardly from the box panel within which the rack panel is received.

As the panels approach each other openings 34 on the rack panel (only two of which are shown) are brought over the threaded end of studs 35 that project forwardly from the box,panel which may assist in the alignment of the is panels. Then the panels are manually pushed together, possibly all the way home or possibly only partially.

Then the ends of the studs 35 that now extend through the rack panel are engaged by threaded members (not shown) whereby tightening of the threaded members (possibly in turn or together) keeps the panels together or urges the panels to their final relative position.

The female connectors are mounted on their panel by springs 36 (described later) to bias each connector towards the rack panel. Accordingly as the threaded studs bring the rack panel home, the female connectors can move axially against that spring bias such that the connectors are both held together and urged together by the springs. The studs can have enlarged abutments against which the rack panel bears to resist movement of the panels towards each other and to allow tightening of the threaded members to a considerable extent without undue force being exerted on each individual connector.

9 - It will be appreciated that all of the connectors on the male and female connectors may not be completely accurately aligned with each other. Accordingly relative translational movement in the 'W, and 11Y11 direction is able to take place as the connectors are being brought into contact with each other in a manner to be described below. Any misalignment is relatively slight and each housing 24 of the female connector will always be brought into the diverging portion 30 of the male housing, albeit 10 that the housings are not perhaps concentric.

Any eccentricity of the housings causes the fixed male housing to bear against the side walls of the female housing as the two are pushed together to cause the female is housing to shift translationally in the "X" and "Y" direction, as required. The guide channels 26 of the male housing also diverge circumferentially outwardly in their outer extent. This allows the lugs 28 on the female member to start off slightly misaligned but to bear against the axial side walls of the channels upon movement of the connectors towards each other to cause limited relative rotational movement of the connectors to thereby correctly align the connectors.

The features of the female connector mounting that permit its relative movement to the rack panel, both in the translational X and Y direction and also translationally in the Z direction and rotational movement about the Z axis will now be described with reference to Figures 7 and 8.

The female connector includes a rear portion 38 comprising an outer threaded portion 40 for connecting to other parts of the connector in a manner that is well known and an enlarged flange 42. During assembly, before the spring 36 is mounted, the connector is pushed through an opening 44 (see Figure 1) in the panel 16 until the front of the flange 42 abuts the panel. The connector includes a cylindrical portion 46 that lies within the panel opening with there being a gap between the cylindrical portion 46 and the wall of the panel defining the opening in the panel to permit the two parts to move in the X and Y direction relative to each other.

The flange 42 also includes forwardly extending cylindrical lugs 48 on diametrically opposite sides of the opening 44 which lugs 48 extend into slots 50 in the panel 16. The slots 50 extend radially out from the opening.

The slots 50 are of slightly greater dimension than the is lugs 48 such that translational movement of the connector can occur in the X and Y direction and also a restricted amount of rotational movement around the Z axis can occur.

After the female connector has been pushed through the opening in the panel 16, a shim 52 is slid along the connector to bear against the front of the panel followed by the annular sinusoidal disc spring 36, a further shim 54 and then a circlip 56 that is held axially in a groove (not shown) in the connector such that the spring 36 in always under slight flexure.

It can be seen from Figure 8 that the connector can move to the right relative to the panel on which it is mounted in the Z direction, against the bias of the spring 36.

Each female electrical connector is also provided with its own electro magnetic compatibility protection spring 62, as seen in Figure 8, that is located axially 35 between spaced flanges 64. These flanges 64 also each 11 - have the lugs 28 axially aligned with each other. The protection spring 62 shields each connector in a panel off from every other connector.

The male connector mounting on the panel 14 is shown in Figures 5 and 6. The connector has an enlarged flange that abuts the panel 14 either at front or rear surface of the panel. The flange includes four openings 60. ' Bolts can be pushed through these openings 60, and aligned openings in the panel, with nuts then being used to fix the connectors firmly to the panel 14.

Figure 9 shows the different sizes and types of connectors that can be brought together simultaneously by the panels 14 and 16 with a gas connector 60 being shown at the bottom and with the other connectors being electrical.

The reader's attention is directed to all papers and documents which are filed concurrently with or previous to this specification in connection with this application and which are open to public inspection with this specification, and the contents of all such papers and documents are incorporated herein by reference.

All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive.

12 Each feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. Thus, unless expressly stated otherwise, each feature disclosed is one example only of a generic series of equivalent or similar features.

The invention is not restricted to the details of the foregoing embodiment (s). The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract and drawings), or to any novel one, or any novel combination, of the steps of any is method or process so disclosed.

Claims (37)

1. A connector arrangement including a first part and a second part, each part comprising at least one connector portion with the connector portion on one part being arranged to cooperate with the connector portion on the other part upon relative movement of one part relative to the other in a first direction in which the first part has its connector portion mounted thereon whereby the connector portion of the first part is able to move relative to the first part.

2. An arrangement as claimed in Claim 1 in which the connector portion of the first part is able to move in a direction transverse to the extent of the first direction.

3. An arrangement as claimed in Claim 2 in which the connector portion of the first part extends through an opening in the first part such that the connector portion is able to move in the opening relative to the first part in a direction transverse to the first direction.

4. An arrangement as claimed in Claim 1, 2 or 3 in which the relative movement of the connector portion of the first part to the first part is translational movement.

5. An arrangement as claimed in any preceding claim in which the relative movement of the connector portion of the first part to the first part is generally in line with 30 the first direction.

6. An arrangement as claimed in Claim 5 in which the relative movement of the connector portion of the first part to the first part is against a resilient bias.

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7. An arrangement as claimed in any preceding claim in which the relative movement of the connector portion of the first part to the first part is arranged to be arcuate movement generally about the extent of the first direction.

8. An arrangement as claimed in any preceding claim in which the connector portion of the first part and the first part are arranged to cooperate to restrict relative rotational movement of those parts generally about the extent of the first direction.

9. An arrangement as claimed in any preceding claim in which the connector portion of the first part is arranged is to cooperate with the first part to permit restricted relative movement by a lug on one of the connector portion or the first part cooperating with an opening of the other of the connector portion or the first part.

10. An arrangement as claimed in any preceding claim in which the movement of the connector portion of the first part relative to the first part is arranged to be caused by abutment of the connector portion of the first part with a connector porticn of the second part.

11. An arrangement as claimed in any preceding claim in which the first part includes a plurality of connector portions each of which are mounted such that they can move separately relative to each other.

12. A connector arrangement substantially as shown and described, with reference to, and as shown in any of Figures 1 to 9.

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13. A method of connecting a first part and a second part in which each part includes at least one connector portion, the method comprising moving one of the parts towards the other part such that the connector portions on each part become connected with the connector portion of the first part moving relative to the first part during the relative movement of the first and second parts.

14. A method as claimed in Claim 13 in which the movement of the connector portion on the first part relative to the first part is effected upon a connector arrangement as claimed in any of Claims 1 to 12.

15. A method as claimed in Claim 13 or 14 comprising a is plurality of connector portions on the first part each moving relative to the first part when the first part and the second part move towards each other to connect the connector portions of the respective parts.

16. A method as claimed in Claim 15 comprising the connector portions on the first part each moving relative to each other and relative to the first part during relative movement of the first and second parts to connect their respective connector portions.

17. A method as claimed in any of Claims 13 to 16 including a guide for one of the first or second parts whereby movement of that part along the guide moves that part accurately towards the other part.

18. A method of connecting a first part and a second part substantially as herein described with reference to, and as shown in any of the accompanying drawings.

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19. A connector arrangement includes a first part and a second part, each part including at least three separate connector portions with the connector portions of one part being arranged to cooperate with the connector portions on 5 the other part upon relative movement of those parts.

20. An arrangement as claimed in Claim 19 in which a line through the centre of each connector portion on each part includes at least one angle.

21. An arrangement as claimed in Claim 19 or 20 in which the connector portions are arranged in a plurality of rows.

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22. An arrangement as claimed in any of Claims 19 to 21 in which at least two of the connector portions on the first part are arranged to be of different sizes.

23. An arrangement as claimed in any of Claims 19 to 22 in which at least two of the connector portions on the first part are arranged to be of the same size.

24. An arrangement as claimed in any of Claims 19 to 23 in which the connector portions on the first part are arranged to be generally circular in a plane perpendicular to the direction of relative movement of the parts.

25. An arrangement as. claimed in any of Claims 19 to 24 including a guide for one of the parts whereby that part can be moved relative to the other part to move the parts accurately towards each other.

26. A connector arrangement includes a first part and a second part, each part including at least two separate connector portions with the connector portions on one part being arranged to cooperate with the connector portions on the other part upon relative movement of one part relative to the other, the connector portions of one part being protected from electro magnetic interference with other connector portion or portions on that part.

27. An arrangement as claimed in Claim 26 in which the protection from electro magnetic interference comprises a protector surrounding at least one connector.

28. An arrangement as claimed in Claim 26 or 27 in which the protector comprises a sprung connector.

29. A connector arrangement including a first part and a second part with each part including a plurality of separate connector portions with the connector portions of one part being arranged to cooperate with the connector portions of the other part upon relative movement of one part in a first direction relative to the other part, the connector portions being generally circular when viewed in the first direction.

30. An arrangement as claimed in any of Claims 1 to 12 or 19 to 29 in which the connector portions as described anywhere above may comprise connectors.

31. An arrangement as claimed in Claim 30 in which each connector is detachable.

32. An arrangement as claimed in Claim 30 or 31 in which each connector is replaceable.

33. An arrangement as claimed in any of Claims 30 to 32 in which each connector is interchangeable on the part that they are mounted on.

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34. An arrangement as claimed in any of Claims 30 to 33 in which each connector includes a plurality of separate connections.

35. An arrangement as claimed in any of Claims 30 to 34 in which the connector portions include electrical connections.

36. An arrangement as claimed in any of Claims 30 to 35 in which, when the first and second parts are moved such that their respective connector portions are connected,. at least one of the connector portions on one part is resiliently biased towards a connector portion on the other part.

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37. An arrangement as claimed in Claim 36 in which the resilient bias is arranged to be applied or effected during connection of the connector portions.