초록 ▼

There is provided a drive carrier. The drive carrier is configured to receive a media drive and is also configured to be removably receivable in a receiving location of a computer system. The drive carrier includes a base portion, a handle portion and a latch mechanism for securing the carrier withi

There is provided a drive carrier. The drive carrier is configured to receive a media drive and is also configured to be removably receivable in a receiving location of a computer system. The drive carrier includes a base portion, a handle portion and a latch mechanism for securing the carrier within the receiving location. The base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single movement of the handle portion.

대표청구항 ▼

What is claimed is: 1. A drive carrier configured to receive a media drive and configured to be removably receivable in a receiving location of a computer system, the carrier comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within the receiving location,

What is claimed is: 1. A drive carrier configured to receive a media drive and configured to be removably receivable in a receiving location of a computer system, the carrier comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within the receiving location, wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; and wherein the handle portion and the base portion are two separate parts of the carrier that are coupled together and move independent of each other through at least part of the handle portion's movement between the first position and the second position. 2. The drive carrier of claim 1, wherein when the handle portion is in the first position, the latch mechanism is in a deployed state for securing the drive carrier within the receiving location, and when the handle portion is in the second position, the latch mechanism is in a retracted state for allowing insertion and/or removal of the drive carrier from the receiving location. 3. A drive carrier configured to receive a media drive and configured to be removably receivable in a receiving location of a computer system, the carrier comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within the receiving location, wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; and wherein the single movement of the handle portion includes actuating the handle portion between the first position and the second position; wherein when the handle portion is in the first position, the latch mechanism is in a deployed state for securing the drive carrier within the receiving location, and when the handle portion is in the second position, the latch mechanism is in a retracted state for allowing insertion and/or removal of the drive carrier from the receiving location; wherein the latch mechanism comprises a resilient latch portion and an aperture in the handle portion, wherein when the latch mechanism is in the deployed state, the resilient latch portion protrudes through the aperture in the handle portion such that the resilient latch portion is configured for engagement with a formation of the receiving location, and wherein movement of the handle portion from the first position to the second position causes the resilient latch portion to be retracted through the aperture in the handle portion. 4. The drive carrier of claim 3, wherein the latch portion is integrally formed with the base portion. 5. The drive carrier of claim 3, wherein the latch portion comprises a folded portion of springy metal. 6. The drive carrier of claim 3, wherein when the latch mechanism is in the retracted state, the latch portion urges against an inner surface of the handle portion. 7. The drive carrier of claim 1, further comprising a plurality of electromagnetic interference (EMI) fingers configured to switch between: a deployed position in which the EMI fingers abut against a neighboring drive carrier, media drive or inner wall of the receiving location; and a retracted position in which the EMI fingers retract from the deployed position to reduce sliding resistance on insertion and/or removal of the drive carrier from the receiving location. 8. The drive carrier of claim 7, wherein the handle portion is operable to move between the first position and the second position relative to the base portion for operating the latch mechanism and for moving the EMI fingers between the deployed position and the retracted position respectively, wherein, to move the EMI fingers to the deployed position, the handle portion contacts a portion of the EMI fingers to urge the EMI fingers into engagement with the neighboring drive carrier, media drive or inner wall of the receiving location, and wherein the single movement of the handle portion includes actuating the handle portion between the first position and the second position. 9. The drive carrier of claim 8, wherein the EMI fingers are fixed relative to the base portion, and wherein the handle portion comprises a ramp upon which the EMI fingers are operable to ride, whereby movement of the handle portion from the second position to the first position causes the ramp portion to urge the EMI fingers into the deployed position. 10. The drive carrier of claim 7, wherein the EMI fingers are integrally formed with the base portion. 11. The drive carrier of claim 1, wherein the handle portion comprises one or more light pipes for directing light from an indicator light of a received media drive. 12. The drive carrier of claim 1, comprising one or more electrostatic discharge (ESD) fingers configured to urge against an inner wall of the receiving location when the drive carrier is received in the receiving location. 13. The drive carrier of claim 12, wherein one or more of the ESD fingers are formed integrally with the base portion. 14. The drive carrier of claim 1, further comprising one or more formations for guiding movement of the carrier within the receiving location. 15. The drive carrier of claim 1, wherein the base portion comprises a plastics material. 16. A computer system comprising: a receiving location; and a drive carrier removably received within the receiving location, the drive carrier being configured to receive a media drive and comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within the receiving location, wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; wherein the single movement of the handle portion includes actuating the handle portion between the first position and the second position; wherein the receiving location comprises a formation; wherein the latch mechanism comprises a resilient latch portion and an aperture in the handle portion; wherein when the latch mechanism is in a deployed state, the resilient latch portion protrudes through the aperture in the handle portion such that the resilient latch portion is configured to engage with the formation of the receiving location, and wherein movement of the handle portion from the first position to the second position causes the resilient latch portion to be retracted through the aperture in the handle portion. 17. The computer system of claim 16, further comprising at least one additional drive carrier and media drive received with the receiving location. 18. A method of removing a media drive from a computer system, the method comprising: providing a drive carrier having the media drive received therein, the drive carrier being removably received within a receiving location of the computer system, the drive carrier comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within the receiving location, wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; and wherein the handle portion and the base portion are two separate parts of the carrier that are coupled together and move independent of each other through at least part of the handle portion's movement between the first position and the second position; and moving the handle portion in a linear direction to operate the latch mechanism and remove the carrier from the receiving location. 19. The method of claim 18, wherein the single movement includes actuating the handle portion relative to the base portion from the first position in which the latch mechanism is in a deployed state for securing the drive carrier within the receiving location to the second position in which the latch mechanism is in a retracted state. 20. The method of claim 19, wherein the single movement subsequently includes sliding the drive carrier and the media drive out from the receiving location. 21. A method of installing a media drive in a computer system, the method comprising: providing a drive carrier having the media drive received therein, the drive carrier comprising: a base portion; a handle portion; and a latch mechanism for securing the carrier within a receiving location, wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a single linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; and wherein the handle portion and the base portion are two separate parts of the carrier that are coupled together and move independent of each other through at least part of the handle portion's movement between the first position and the second position; and moving the handle portion in a linear direction to insert the carrier within the receiving location and to operate the latch mechanism. 22. The method of claim 21, wherein the single movement is a single, linear movement in the direction of insertion of the drive carrier within the receiving location. 23. The method of claim 21, wherein the single movement includes sliding the drive carrier and the media drive into the receiving location. 24. The method of claim 23, wherein the single movement subsequently includes actuating the handle portion relative to the base portion from the second position in which the latch mechanism is in a retracted state to the first position in which the latch mechanism is in a deployed state for securing the drive carrier within the receiving location. 25. The drive carrier of claim 1, wherein the single linear movement comprises a sliding movement of the handle portion on the base portion in a linear direction with respect to the base portion. 26. The drive carrier of claim 1, wherein the latch mechanism comprises a pair of resilient latching portions on opposing sides of the carrier, wherein the handle portion is configurable to retract both of the resilient latch portions with a single linear movement of the handle portion with respect to the base portion. 27. The drive carrier of claim 1, wherein the base portion or the handle portion comprises a slide and the other of the base portion or the handle portion comprises a guide rail; and wherein movement of the handle portion between the first position and the second position relative to the base portion includes movement of the slide relative to the guide rail. 28. The drive carrier of claim 27, wherein movement of the handle portion between the first position and the second position relative to the base portion comprises sliding the handle portion relative to the base portion. 29. The drive carrier of claim 1, wherein the handle portion and the base portion are separable pieces. 30. The drive carrier of claim 1, wherein the handle portion comprises an aperture and the latch mechanism comprises a resilient latch portion; and wherein the resilient latch portion is operable to protrude through the aperture in the handle portion. 31. The drive carrier of claim 30, wherein movement of the handle portion from the first position to the second position causes the resilient latch portion to be retracted through the aperture in the handle portion. 32. A drive carrier configured to receive a media drive and configured to be removably receivable in a receiving location of a computer system, the carrier comprising: a base portion; a handle portion comprising an aperture; and a latch mechanism for securing the carrier within the receiving location, wherein the latch mechanism comprises a resilient latch portion; wherein the base portion and the handle portion are configured to co-operate to operate the latch mechanism on insertion and/or removal of the carrier from the receiving location, for inserting and/or removing the carrier from the receiving location and operating the latch mechanism with a linear movement of the handle portion in a direction of insertion/removal of the drive carrier from the receiving location; wherein the handle portion is operable to move between a first position and a second position relative to the base portion to operate the latch mechanism; and wherein when the handle portion is in the first position, the resilient latch portion protrudes through the aperture in the handle portion; and wherein when the handle portion is in the second position, the resilient latch portion is retracted through the aperture in the handle portion. 33. The drive carrier of claim 32, further comprising a plurality of electromagnetic interference (EMI) fingers configured to switch between: a deployed position in which the EMI fingers abut against a neighboring drive carrier, media drive or inner wall of the receiving location; and a retracted position in which the EMI fingers retract from the deployed position to reduce sliding resistance on insertion and/or removal of the drive carrier from the receiving location. 34. The drive carrier of claim 33, wherein the handle portion is operable to move between the first position and the second position relative to the base portion for operating the latch mechanism and for moving the EMI fingers between the deployed position and the retracted position respectively, wherein, to move the EMI fingers to the deployed position, the handle portion contacts a portion of the EMI fingers to urge the EMI fingers into engagement with the neighboring drive carrier, media drive or inner wall of the receiving location, and wherein the single movement of the handle portion includes actuating the handle portion between the first position and the second position.