GB2518381A - Electronic assembly casing and electronic assembly - Google Patents

Abstract

An electronic assembly casing, with walls 11, 12, 13 (see Figure 1) providing an internal chamber and a circuit board 50 mounted in the internal chamber, the casing further comprises a heat sink cage 20 in one of the walls to accommodate a heat sink 60 of the circuit board when mounted on the circuit board. The heat sink cage may form part of one of the walls. The heat sink cage may include a plurality of vents 21, 22. The heat sink cage may be formed in a wall parallel to the circuit board, the wall further defining a trench extending towards the circuit board.

Description

Electronic Assembly Casing and Electronic Assembly

Field of the Invention

The present invention relates to an electronic assembly casing and electronic assembly that are particularly suited to for use in gaming and gambling machines -often referred to as "slot machines".

Background of the Invention

It is also usually necessary for gaming and gambling machines such as slot machines to comply with certain standards set by government, state or other regulatory bodies relating to the security of the slot machines, as they handle significant revenue streams. There are normally security requirements to ensure that the machines are not tampered with, either to manipulate payouts to users or the recording of transactions for the purpose of collecting government gaming taxes from machine operators. This is in addition to protection from physical attacks aimed at stealing money contained within the machines. Usually, this is protection includes physical security to prevent unauthorised access to the interior of the slot machine and especially the "logic box" that houses the computer system and the operating programs.

In recent years there has been a trend in the slot machine industry to migrate from low performance, low power computer technologies to a PC standard architecture. This has greatly improved the performance of slot games but has introduced another problem. Computer architecture systems generally consume much more power and therefore generate more heat.

The heat produced by PC based computer systems is clearly an issue.

Conventional PC cases with fans mounted around hot components or at vents generally do not meet the physical security requirements discussed above.

Not only is it desirable to produce systems that can efficiently disperse generated heat while remaining secure, there is also a general desire in the industry to improve security where possible and provide additional reassurance to owners, users and regulators that the logic box that houses the all-important computer system and operating programs has not been tampered with.

Summary of the Invention

According to an aspect of the present invention, there is provided an electronic assembly casing having walls providing an internal chamber and a circuit board mount to mount a circuit board in the internal chamber, the casing further comprising a heat sink cage in one of said walls to accommodate a heat sink of the circuit board when mounted on the circuit board mount.

Preferably, the heat sink cage is part of one of the walls.

Preferably, the heat sink cage is arranged to extend from the circuit board, when mounted, about a perimeter of the heat sink.

Preferably, the casing further comprises a coupling member to couple the heat sink cage to the circuit board and/or heat sink about said perimeter.

The coupling member may include an adhesive to adhere the heat sink cage to the circuit board about said perimeter.

The coupling member may comprise a foam body having said adhesive on a portion of the body that faces and adheres to said perimeter of the circuit board when the circuit board is mounted.

Preferably, the heat sink cage is in a first wall of the casing that extends, when the circuit board is mounted, in a first plane substantially parallel to a surface of the circuit board mounting the heat sink, the first wall further defining a trench about said cage, the trench extending from said first plane toward said surface of said circuit board.

At least one of the walls of the trench may be non-perpendicular to said first plane.

One of the walls of the trench may be a wall of said heat sink cage.

The trench preferably includes a first trench wall extending from said first plane toward said surface of said circuit board, a second trench wall that is substantially co-planar to said surface of said circuit board and a third trench wall, the third trench wall comprising the wall of the heat sink cage.

The first and third trench walls may be at substantially mirror opposite angles with respect to the second trench wall.

The heat sink cage may include a plurality of heat vents.

Preferably, the casing comprises a plastics body. The plastics body may be substantially transparent.

The heat sink cage may be formed by at least a part of one of the walls of the casing.

According to another aspect of the present invention, there is provided an electronic assembly comprising an electronic assembly casing as described above and a circuit board mounted to the circuit board mount, the circuit board including a heat sink that extends from the circuit board into the heat sink cage of the casing.

The present invention seeks to provide an improved electronic assembly casing for a printed circuit board such as a computer, logic box or other electronic assembly for use, for example, in a gaming device. The present invention also seeks to provide an improved electronic assembly including such a case.

Advantageously, an electronic assembly casing according to embodiments is of the present invention can be formed from substantially non-heat-conducting materials such as plastics. Unlike conventional casings that typically select materials based on heat conductivity, casing materials in embodiments of the present invention can be selected for properties such as weight and ability to be attractively coloured or patterned and/or moulded in non-box-like shapes.

In preferred embodiments, the casing can be formed substantially entirely from transparent plastics to enable a user, owner or regulator to visually reassure themselves, while the electronic assembly is installed and in potentially is use, that the electronics assembly (such as a circuit board) contained in the casing is standard and has not been tampered with or includes unexpected components or connections.

In preferred embodiments, the heat sink cage is substantially sealed to the circuit board about a perimeter of the heat sink. While the heat sink is exposed to the outside world and could theoretically be physically accessed via the vents such as slots, mesh or apertures in the case, the actual electronic components are protected by the heat sink and/or the seal and cannot themselves be accessed.

As such, a heat generating electronic assembly can be accommodated in a casing that substantially prevents physical access to electronic components of the assembly from the outside world whilst enabling heat to be dissipated via the heat sink.

In preferred embodiments, a trench is formed around the heat sink cage to allow air to flow over substantially the entirety of a surface of a heat sink accommodated by the cage.

It will be appreciated that multiple cages, potentially in multiple different walls of the casing could be provided for different heat sinks.

Brief Description of the Drawings

Embodiments of the present invention are described below, by way of example only, with reference to the accompanying drawings, in which: Figure 1 shows a perspective view of an electronics assembly casing according to one embodiment; Figures 2 and 3 are, respectively, top and side views of the casing of Figure 1; Figure 4 is a cross-sectional view of the casing of Figure 1 showing aspects of a mounted electronic circuit board; and, Figure 5 is a perspective view of the interior of the casing of Figure 1 showing an example circuit board mounted in place.

Detailed Description

In the following description, terms such as "top", "base", "front" and "rear" are used. It will be appreciated that these do not impart any particular required orientation of the described element and are simply relative terms referring to the illustrated element. The terms are not to be interpreted as restrictions and the element could, for example, be turned over or onto its side so that the "top"O is no longer at the top.

Figure 1 shows a perspective view of an electronic assembly casing according to one embodiment. Figures 2 and 3 are, respectively, top and side views of the casing of Figure 1.

The electronic assembly casing 10 has walls 11, 12, 13 (rear and base walls not shown) which define an internal chamber. The size and shape of the casing is shown purely for exemplary purposes and could be varied depending on the intended application and end use. Although a box-shaped casing is shown, the casing could be of any size, shape, design or proportion.

A heat sink cage 20 is formed as part of the top wall 11. The heat sink S cage 20 includes a plurality of heat vents 21, 22 in the form of slots 21 and circular holes 22.

In the illustrated embodiment, the heat sink cage 20 projects above the top wall 11.

In a preferred embodiment, the top wall 11 slopes (ha) down into the casing towards the base wall (not shown) before flattening out (11 b) and then rising back out (ii c) to form the cage 20. This forms a trench 11 a-i i c that runs around the perimeter of the cage 20 and provides for improved airflow around the heat sink cage 20. The heat sink cage is preferably formed as part of one of the walls (as opposed to being a separate component and joined or otherwise connected to the casing).

Figure 4 is a cross-sectional view of the casing 10 of Figure 1 showing aspects of a mounted electronic circuit board 50.

The casing 10 includes a circuit board mount 15 to mount the circuit board in the internal chamber. The circuit board 50 includes a heat sink 60 which is positioned in the heat sink cage 20 when the circuit board is mounted on the circuit board mount 15.

Preferably, the heat sink cage 20 is arranged to extend from the circuit board 50, when mounted, about a perimeter of the heat sink. Most preferably, the heat sink cage 20 sits on or couples to the circuit board 50 about said perimeter such that all that is within the caged area is the heat sink, as can be seen in Figure 4. As the heat sink sits on top of heat producing elements such as processors, it acts as physical block/protection to those elements. The heat sink cage 20 being connected to the circuit board around the trench area prevents someone trying to physically access other elements of the circuit board 50 via the heat vents 21, 22.

The trench 11 a-il c therefore provides a thermal and mechanical (security) barrier between the area in and around the heat sink and the remainder of the chamber inside the casing.

In one embodiment, the heat sink cage is coupled to the circuit board by a coupling member. In one embodiment, the coupling member includes an adhesive 16 to adhere the heat sink cage to the circuit board about said perimeter.

In a preferred embodiment, the coupling member includes a foam body such as a foam gasket, strip or pad, optionally having adhesive on a portion of the body that faces and adheres to said perimeter of the circuit board when the circuit board is mounted.

In preferred embodiments, the foam gasket sits beneath the base of the trench (11 b) and fills any gap between the bottom of the trench in the case and the surface of the circuit board and/or the base of the heat sink (depending on whether the foam gasket couples to the circuit board or to a portion of the heat sink). This arrangement allows any irregular gaps that may be present in that area to be filled and serves as a barrier to air heated by the heat sink from entering the main chamber inside of the casing. It will be appreciated that the gasket is optional if the is gap is minimal between the bottom of the trench in the case and the base of the heat sink or surface of the circuit board.

Use of a foam body enables forces from the heat sink cage to be at least partially absorbed by compression or stretching of the foam rather than being directly applied to the board or adhesive connection.

In a preferred embodiment, the casing has a plastics body. In one embodiment, the plastics body is substantially transparent.

Figure 5 is a perspective view of the interior of the casing of Figure 1 showing an example circuit board mounted in place.

The casing 10 preferably also includes a number of input/output connector access ports 30 which match to input/output connectors of the circuit board when mounted (again, in preferred embodiments the casing and connectors between them block physical access into the internal chamber of the casing in which the electronics of the circuit board is housed.

Advantageously in such an arrangement, only the heat sink and the input/output ports are physically accessible from outside the casing 10.

It will be appreciated that the components of the circuit board and their position can be varied. The elements and input/output connectors are shown purely for illustration purposes.

Indeed, although the general position and size of the heat sink cage is S dependent on the position of the heat sink of the circuit board, the design of the casing or cage could be varied to suit the board. Multiple circuit board mounts (or a sliding and locking mechanism) could be provided to allow the circuit board to be laterally shifted within the casing during mounting so as to best fit the heat sink in the cage. In another alternative, the casing may be provided as a kit of parts with multiple "top" walls, each with a different size/position of cage so as to accommodate different board configurations.

It will be appreciated that the casing may be provided ready to receive an appropriate circuit board 50 or it could be assembled and sold as a ready to use component. Indeed, while the casing is flexible so as to allow different circuit is boards to be accommodated, a key advantage is in the ability to be able to use plastics materials and indeed transparent plastics materials for applications where heat-producing components are provided with a mechanism for heat venting but are still protected from physical tampering from the exterior of the casing.

Claims (17)

1. CLAIMS1. An electronic assembly casing having walls providing an internal chamber and a circuit board mount to mount a circuit board in the internal S chamber, the casing further comprising a heat sink cage in one of said walls to accommodate a heat sink of the circuit board when mounted on the circuit board mount.
2. 2. An electronic assembly casing as claimed in claim 1, wherein the heat sink cage is part of one of the walls.
3. 3. An electronic assembly casing as claimed in claim 1 or 2, wherein the heat sink cage is arranged to extend from the circuit board, when mounted, about a perimeter of the heat sink.
4. 4. An electronic assembly casing as claimed in claim 3, further comprising a coupling member to couple the heat sink cage to the circuit board and/or heat sink about said perimeter.
5. 5. An electronic assembly casing as claimed in claim 4, wherein the coupling member includes an adhesive to adhere the heat sink cage to the circuit board about said perimeter.
6. 6. An electronic assembly casing as claimed in claim 5, wherein the coupling member comprises a foam body having said adhesive on a portion of the body that faces and adheres to said perimeter of the circuit board when the circuit board is mounted.
7. 7. An electronic assembly casing as claimed in any preceding claim, wherein the heat sink cage is in a first wall of the casing that extends, when the circuit board is mounted, in a first plane substantially parallel to a surface of the circuit board mounting the heat sink, the first wall further defining a trench about said cage, the trench extending from said first plane toward said surface of said circuit board.
8. 8. An electronic assembly casing as claimed in claim 7, wherein at least one of the walls of the trench is non-perpendicular to said first plane.
9. 9. An electronic assembly casing as claimed in claim 8, wherein one of the walls of the trench is a wall of said heat sink cage.
10. 10. An electronic assembly casing as claimed in claim 9, wherein the trench includes a first trench wall extending from said first plane toward said surface of said circuit board, a second trench wall that is substantially co-planar to said surface of said circuit board and a third trench wall, the third trench wall comprising the wall of the heat sink cage.
11. 11. An electronic assembly casing as claimed in claim 10, wherein the first and third trench walls are at substantially mirror opposite angles with respect to the second trench wall.
12. 12. An electronic assembly casing as claimed in any preceding claim, wherein the heat sink cage includes a plurality of heat vents.
13. 13. An electronic assembly casing as claimed in any preceding claim, wherein the casing comprises a plastics body.
14. 14. An electronic assembly casing as claimed in claim 13, wherein the plastics body is substantially transparent.
15. 15. An electronic assembly casing as claimed in any preceding claim, wherein the heat sink cage is formed by at least a part of one of the walls of the casing.
16. 16. An electronic assembly comprising an electronic assembly casing as claimed in any preceding claim and a circuit board mounted to the circuit board mount, the circuit board including a heat sink that extends from the circuit board into the heat sink cage of the casing.
17. 17. An electronic assembly casing as herein described and as illustrated in the accompanying drawings.