A variety of computer chassis designs are configured to hold certain drives, such as floppy disk drives or CD Rom drives. Additionally, some of these designs allow the chassis to be used in more than one orientation. For example, a computer chassis may be utilized in a desktop orientation or a deskside orientation. However, when the chassis is moved from one orientation to another, the orientation of the drive or drives also changes. In some applications, the reorientation of the chassis results in an undesirable orientation of the drive or drives. Some attempts have been made to permit the position of the drives to be changed relative to the chassis, but the resulting designs generally require drives of the same external dimensions.
In one embodiment of the present invention, a system is provided for enabling installation of media devices. The system comprises a computer chassis having an internal cavity defined by a plurality of walls. The system further comprises a first media device having a first external width dimension. A second media device has a second external width dimension, the external width dimension being different than the first external width dimension. A plurality of mounting features are connected to the plurality of walls to hold the first media device and the second media device in a plurality of orientations relative to the computer chassis.
Another embodiment relates to a system for facilitating placement of media devices. The system comprises a chassis having a plurality of mounting features, a first media device and a second media device. The second media device has an external width dimension different from that of the first media device. The chassis and the plurality of mounting features enable direct coupling of each of the first media device and the second media device in a plurality of orientations relative to the chassis.
Another embodiment relates to a method for positioning media devices. The method comprises reorienting a first media device within a cavity in a computer chassis from a first position to a second position. The second position is generally perpendicular to the first position. The method also comprises moving a second media device, having a width different from that of the first media device, from a first chassis position in the cavity to a second chassis position. The second chassis position is located within a portion of the cavity vacated by the first media device during reorienting of the first media device.
Another embodiment relates to a chassis. The chassis has a plurality of walls defining a cavity within a main cavity portion and a pair of cavity extensions. The main cavity portion and the pair of cavity extensions are formed generally in a right angle to permit selective insertion of media devices in a plurality of orientations.
Certain exemplary embodiments of the invention will hereafter be described with reference to the accompanying drawings, wherein like reference numerals denote like elements, and:
Referring generally to
Media devices 24 and 26 are received in a cavity 28 of chassis 22. The devices 24, 26 are inserted through an outer wall 30 of chassis 22 via an appropriately-sized opening 32 in wall 30. By way of example, outer wall 30 may be a front wall or panel of a computer chassis.
In the embodiment illustrated in
When the orientation of chassis 22 is changed, the previous orientation of media devices 24 and 26 relative to a potential user may be maintained by reorienting or changing their position relative to chassis 22. In the example illustrated, media devices 24 and 26 are rotated approximately 90 degrees with respect to chassis 22 when chassis 22 is moved from the deskside orientation of
As further illustrated in
In the embodiment illustrated in
Thus, when chassis 22 is in a first orientation (e.g. see orientation illustrated in
One exemplary technique for removably mounted media devices 24 and 26 within cavity 28 utilizes a plurality of, mounting features 48. Mounting features 48 readily permit the removal and insertion of media devices 24 and 26 in any of a plurality of orientations provided by cavity 28. For example, mounting feature 48 may comprise slots 50 formed by features, such as tabs 52, connected to cavity walls 34. Tabs 52 may be formed by bending the material of cavity walls 34 inwardly at appropriate locations to form slots 50. Slots 50 are sized to slidably receive corresponding rails, such as rails 54 of media device 24 and rails 56 of media device 26, as illustrated in
Rails 54 and 56 may be attached to media devices 24 and 26, respectively, by fasteners 58, e.g. rivets, screws, moldable stabs or other fasteners. Additionally, at least one of the rails 54 and 56 may comprise at least one retention feature 60 designed to prevent inadvertent removal or movement of the media devices. In this example, each rail comprises a retention feature 60 in the form of a protrusion mounted on a flexible portion 62 of the rail.
As media device 24 or media device 26 is inserted into cavity 28, slots 50 guide corresponding rails 54, 56 until the media device is fully inserted into cavity 28. As the media device is moved to its fully inserted position, retention features 60 and flexible portions 62 are flexed slightly inwardly until retention features 60 engage corresponding features 64, as illustrated by the external perspective view of
Once each retention feature 60 and corresponding feature 64 are engaged, outward or disengaging motion of the media device is inhibited. Removal of a media device may be accomplished when a user disengages the appropriate retention features 60 by squeezing corresponding flexible portions 62 inwardly toward the media device. Once the retention features are disengaged, the media devices 24, 26 may be slid out of cavity 28 for reorientation, servicing or replacement.
Additionally, one or more abutment members may be used to inhibit excess travel of one or more of the media devices when inserted into cavity 28 (see
Although an exemplary embodiment of chassis 22, cavity 28 and mounting features 48 have been described, the configuration of the features may change depending on the specific implementation and the desired media device orientations with respect to the chassis. For example, a variety of media devices having differing dimensions, e.g. differing width dimensions, may be designed for insertion and reorientation in a given chassis. Exemplary media devices comprise components such as compact disc read only memory (CD ROM) devices, digital video disc (DVD) devices, hard drives, floppy disk drives and tape backups. Also, each media device may comprise more than one of the components.
In the example illustrated in several figures, such as
In one embodiment, media device 24 comprises a standard device in which the width of each component 68 is approximately 5.25 inches. The exemplary hard drives 70 have a standard width of approximately 3.5 inches. Thus, the external width dimension 46 of media device 26 is substantially different than the external width dimension 42 of media device. 24. However, even though the widths of the devices substantially vary, the unique, space-efficient design of cavity 28 permits both media devices 24 and 26 to be transitioned between orientations, e.g. a deskside orientation and a desktop orientation. In other implementations, media devices 24 and 26 may comprise at least one component having various non-standard widths. The media devices 24 and 26 also may comprise a combination of standard and nonstandard width dimensions.
Depending on the types of media devices employed, it can be beneficial to facilitate the dissipation or removal of heat. Thus, in an exemplary embodiment illustrated in
Referring generally to
When media devices 24 and 26 are reoriented with respect to chassis 22, cable 72 is readily folded such that air flow through chassis 22 is not adversely affected. As illustrated in
It will be understood that the foregoing description is of exemplary embodiments of the invention, and that the invention is not limited to the specific forms shown. For example, a variety of chassis types and styles can be utilized; different types of media devices may be combined, and each media device may comprise one or more components; the location and configuration of the cavity may change depending on the media devices utilized as well as the position and number of orientations that may be selected; and the various retention features may be adapted for the specific implementations.
Number | Date | Country | |
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Parent | 10285858 | Nov 2002 | US |
Child | 11068694 | Feb 2005 | US |