초록 ▼

A server rack includes a base and a receiving bracket secured to the base. The base includes a pair of parallel guiding rails. A limiting member is formed on each guiding rail and extends along a first direction. A horizontal guiding slot is defined in the limiting member along an extension directio

A server rack includes a base and a receiving bracket secured to the base. The base includes a pair of parallel guiding rails. A limiting member is formed on each guiding rail and extends along a first direction. A horizontal guiding slot is defined in the limiting member along an extension direction of each guiding rail. The receiving bracket is supported on and slidable long the guiding rails in the first direction, including a pair of opposite sidewalls parallel to the guiding rails. A horizontal sliding portion is formed on each sidewall of the receiving bracket corresponding to the guiding slot of the limiting member, and engaged with the guiding slot in a second direction perpendicular to the first direction when the receiving bracket is entirely retracted into the base, to prevent the receiving bracket shaking relative to the base during shipment.

대표청구항 ▼

What is claimed is: 1. A server rack, comprising: a base having a pair of parallel guiding rails extending along a first direction, at least one limiting member being formed on each guiding rail spaced from opposite ends thereof, a horizontal guiding slot being defined in each limiting member along

What is claimed is: 1. A server rack, comprising: a base having a pair of parallel guiding rails extending along a first direction, at least one limiting member being formed on each guiding rail spaced from opposite ends thereof, a horizontal guiding slot being defined in each limiting member along the first direction; a receiving bracket having a pair of opposite sidewalls parallel to the guiding rails of the base, the receiving bracket being supported on and slidable along the guiding rails in the first direction, at least one horizontal sliding portion formed on each sidewall of the receiving bracket corresponding to the guiding slot of the at least one limiting member, and engaged with the guiding slot when the receiving bracket is entirely retracted into the base, to prevent the receiving bracket from moving in a second vertical direction relative to the base during shipment; and an elastic member having a free end is mounted on each sidewall of the receiving bracket, at least one edge of the free end of each elastic member being bent laterally in a third direction perpendicular to the first direction and the second direction to form the at least one sliding portion, wherein each of the sidewalls of the receiving bracket defines a slot with at least one thin portion configured for the at least one sliding portion of the elastic member extending through and a wide portion configured for providing an access to an external force exerted on the free end of the elastic member from outside of the receiving bracket. 2. The server rack as described in claim 1, wherein each guiding rail comprises a pair of limiting members, one is deposed at an end portion of the guiding rail, and the other is disposed at a middle portion of the guiding rail, the at least one sliding portion of each sidewall of the receiving bracket engages with the limiting member at the end portion of the guiding rail when the receiving bracket is partially retracted into the base, and engages with the limiting member at the middle portion of the guiding rail when the receiving bracket is entirely retracted into and secured to the base. 3. The server rack as described in claim 1, wherein the base comprises a rectangular plate with two fore corners and two back corners, a generally L-shaped stand perpendicularly protrudes up from each of the corners of the plate, and each of the guiding rails is connected between one stand extending from a fore corner and a corresponding stand extending from a back corner. 4. The server rack as described in claim 3, wherein when the receiving bracket is entirely refracted into the base, one end of the receiving bracket abuts against two stands extending from the back corners of the plate, a pair of securing tabs with securing holes defined therein extend laterally from the other end of each sidewall of the receiving bracket, a pair of fasteners extending through the corresponding securing holes to engage with the other two stands extending from the fore corners of the plate to thereby secure the receiving bracket to the base. 5. A server rack, comprising: a base having a pair of parallel guiding rails extending in a first direction; a receiving bracket having a pair of opposite sidewalls parallel to the guiding rails, at least one sliding portion formed at a middle portion of each sidewall, the receiving bracket sliding into the base along the guiding rail from an end portion thereof, and the sliding portion of the receiving bracket engaged with a corresponding guiding rail at the end portion thereof when the receiving bracket is partially retracted in the base, and engaged with the corresponding guiding rail at a middle portion thereof when the receiving bracket is entirely retracted into the base at least one limiting member is secured on each guiding rail, each of the limiting members defines a guiding slot along the first direction configured for the sliding portion of the receiving bracket sliding therein in the first direction and engaged therewith in a second vertical direction perpendicular to the first direction; and an elastic member having a free end is mounted on each sidewall of the receiving bracket, at least one edge of the free end of each elastic member being bent laterally in a third direction perpendicular to the first direction and the second vertical direction to form the at least one sliding portion, wherein each of the sidewalls of the receiving bracket defines a slot with at least one thin portion configured for the at least one sliding portion of the elastic member extending through and a wide portion configured for providing an external force exerted on the free end of the elastic member being availably pressable in the receiving bracket. 6. The server rack as described in claim 5, wherein each guiding rail comprises a pair of limiting members, one is secured on the guiding rail at an end portion of the guiding rail, and the other is secured on the guiding rail at a middle portion thereof, the at least one sliding portion of each sidewall of the receiving bracket engages with the limiting member at the end portion of the guiding rail when the receiving bracket is partially retracted into the base, and engages with the limiting member at the middle portion of the guiding rail when the receiving bracket is entirely retracted into and secured to the base. 7. The server rack as described in claim 5, wherein the base comprises a rectangular plate with two fore corners and two back corners, a generally L-shaped stand perpendicularly protrudes up from each of the corners of the plate, and each of the guiding rails is connected between one stand extending from a fore corner and a corresponding stand extending from a back corner. 8. The server rack as described in claim 5, wherein when the receiving bracket is entirely refracted into the base, one end of the receiving bracket abuts against two stands extending from the back corners of the plate, a pair of securing tabs with securing holes defined therein extend laterally from the other end of each sidewall of the receiving bracket, a pair of fasteners extending through the corresponding securing holes to engage with the other two stands extending from the fore corners of the plate to thereby secure the receiving bracket to the base. 9. A server rack comprising: a base comprising a bottom plate with a plurality of stands extending up therefrom, and a pair of guiding rails each connecting at least two stands in a back-and-forth direction; a receiving bracket configured for receiving electronic components therein, the receiving bracket comprising a pair of opposite sidewalls respectively slidably attached to the guiding rails, at least one sliding portion being arranged at each sidewall spaced from opposite ends thereof, the receiving bracket capable of sliding into or out of the base via the sidewalls sliding along the guiding rails, the at least one sliding portion being engaged with a corresponding portion of the guiding rail in an up-and-down direction and the back-and-forth direction when the receiving bracket is partially refracted in the base, and engaged with another corresponding portion of the guiding rail in the up-and-down direction when the receiving bracket is totally retracted into the base a limiting member is formed at each of the guiding rails and defines a slot extending in the back-and-forth configured for receiving the sliding portion of the receiving bracket to thereby preventing the receiving bracket from moving in the up-and-down direction; and an elastic plate having a free end is mounted on each of the sidewalls of the receiving bracket, and the at least one sliding portion comprises a tab extending from one edge of the free end in a left-and-fight direction configured for being received in the slot, wherein each of the receiving brackets defines a slot configured for providing an access to the tab before the tab entering into the slot of the limiting member and providing an access to an external force exerted on the free end of the elastic plate from outside of the receiving bracket. 10. The server rack as described in claim 9, wherein each of the guiding rails has a U-shaped cross-section.