Electronics assembly

Details Electronics assembly Electronics assembly

2002-06-10

2004-01-20

Martin, David (Department: 2841)

Electricity: electrical systems and devices

Housing or mounting assemblies with diverse electrical...

For electronic systems and devices

C361S801000, C361S759000, C361S740000, C361S829000, C361S754000, C361S725000

Reexamination Certificate

active

06680850

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to electronics assemblies, and is primarily concerned with racked assemblies. Many such assemblies will be located in racks for housing in for example nineteen inch cabinets, or other size cabinets such as twenty three inch or metric cabinets. The assemblies may for instance be employed as servers for a number of systems, for example in local area networks (LANs), wide area networks (WANS), telecommunications systems or other operations such as database management or as internet servers.
Such an assembly will typically comprise a supporting frame that houses a motherboard or backplane and a number of daughterboards or module cards that extend in planes generally perpendicular to the plane of the motherboard and which are connected to the motherboard by connectors, e.g. high density connectors, so that the daughterboards can simply be introduced into the frame through an opening therein opposite the motherboard, located on guides and pushed toward the motherboard in order to connect them to it.
Each daughterboard usually requires multiple electrical connections which are generally provided by two-part multi-pin electrical connectors, one part of which is located at the rear of the daughterboard and the other part provided on the motherboard.
In order to engage the daughterboard and the motherboard connectors properly during insertion, and to aid removal of the daughterboards, it is common to employ injector/ejector mechanisms. An injector/ejector mechanism is operated by a user and is intended to ensure an appropriate even force to be applied to the electrical connectors between the motherboard and the daughterboards during insertion of the daughterboard, to lock the daughterboard in place during operation of the system and to aid disconnection of the electrical connectors during removal of the daughterboard. The most common form of injector/ejector mechanism comprises a lever arm that can be pivotally located on a flange on the frame at or adjacent to the opening or, more usually, located on the daughterboard and engage the flange, in order to provide a mechanical advantage during connection or disconnection.
One problem that has been encountered with such assemblies, however, is ensuring correct electrical connection between the daughterboards and the motherboard due to dimensional tolerances in the daughterboards and other parts of the assembly. The daughterboards may, for example, have typical dimensions in the region of 500 mm in the insertion and removal direction whereas the connectors may have a length of travel between initial contact of the pins and complete mating of the connectors, or so-called “wipe”, as low as 0.5 to 0.8 mm, with the result that because of tolerances in the length of the daughterboards, some connectors may be overstressed while other connectors may not form a good connection. This problem is particularly severe if daughterboards toward the end of an array are relatively long and cause the flange to bow, while daughterboards at the centre of the array are relatively short.
This problem may be resolved by providing a flexible coupling in the injector/ejector mechanism to allow relative movement of a daughterboard away from the motherboard while applying a biasing force toward the motherboard. Although such a system is perfectly adequate in resolving the problem, it requires discrete components to be incorporated in each injector/ejector mechanism and is therefore relatively expensive to implement.
SUMMARY OF THE INVENTION
According to one aspect, the present invention provides an electronics assembly which comprises a frame that contains a motherboard and a plurality of daughterboards that extend in a plane generally perpendicular to the plane of the motherboard and are connected to the motherboard by means of connectors, the frame having:
(i) an opening opposite the motherboard to allow insertion of the daughterboards into the frame or removal of the daughterboards from the frame in a direction normal to the plane of the motherboard;
(ii) an injector/ejector mechanism for each daughterboard that is located on the daughterboard or the frame and engages the frame or the daughterboard respectively in a region adjacent to the opening; and
(iii) a flange that extends therealong at or adjacent to the opening and on which the injector/ejector mechanism of each daughterboard is attached or engages at different locations along the length thereof,
wherein the flange is divided into separate sections that correspond to the different locations to allow the flange to flex at any location therealong during insertion of a daughterboard without the flexing affecting the position of any adjacent location of the flange with respect to the motherboard.
According to another aspect, the present invention provides a frame for an electronics assembly which comprises a location in which a planar motherboard can be received and a plurality of guides that extend in a direction generally normal to the plane of the motherboard when it is received in the frame in order to enable a plurality of daughterboards to be located in the frame in engagement with the motherboard, the frame having:
(i) an opening opposite the location for the motherboard to allow insertion of the daughterboards into the frame or removal of the daughterboards from the frame; and
(ii) a flange that extends therealong at or adjacent to the opening and along which an injector/ejector mechanism for each daughterboard is attached or can engage at different locations along the length thereof;
wherein the flange is divided into separate sections that correspond to the different locations to allow the flange to flex at any location therealong during insertion of a daughterboard without the flexing affecting the position of any adjacent location of the flange with respect to the location of the motherboard.
The assembly and frame according to the invention enable daughterboards of different dimensional tolerances to be accommodated within the frame and biased into engagement with the motherboard in a particularly inexpensive manner since no discrete biasing components are required.
The injector/ejector mechanism for each daughterboard may, for example, comprise a lever arm that is located on the daughterboard and engages the flange or is located on the flange and engages the daughterboard. Usually the injector/ejector mechanism will be in the form of a lever arm that is pivotally attached to the daughterboard and has a relatively short (i.e. in relation to the arm) projection that engages the flange and moves the daughterboard toward the motherboard when the lever arm is moved toward the front edge of the daughterboard so that it provides a degree of mechanical advantage during insertion of the daughterboard.
Although only one injector/ejector mechanism has been referred to in respect of each daughterboard, the assembly will usually have two such mechanisms for each daughterboard, one mechanism being located at each end of the front edge of the daughterboard or on each side of the opening and the frame will accordingly have a flange on each side of the opening.
The frame will normally have a strengthening member that extends along a side thereof, and usually along both sides thereof, in the region of the opening in order to provide the frame with rigidity in the plane of the daughterboards. That is to say, the or each strengthening member will extend along the or each side of the opening in a direction normal to the plane of the daughterboards in order to reduce the degree to which the or each side of the strengthening member bows out in a direction in the plane of the daughterboards. Typically the strengthening member will extend parallel to and adjacent to the flange. It may be formed separately from the flange, for example where the flange is formed by folding a front edge portion of the material forming the sides of the frame, and attached to the sides of the frame in any appropriate manner. Alternatively, if the strengthening member and the flange are

Affiliated with

Also associated with

Rating

Electronics assembly does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Electronics assembly, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Electronics assembly will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-3225150