A mounting apparatus for fixing a storage device to a chassis defining an opening includes two opposite fixing arms for supporting the storage device, a main body connecting the fixing arms, a latching member pivotably received in the main body, and an operating member slidably coupled to the main b
A mounting apparatus for fixing a storage device to a chassis defining an opening includes two opposite fixing arms for supporting the storage device, a main body connecting the fixing arms, a latching member pivotably received in the main body, and an operating member slidably coupled to the main body. When the mounting apparatus is received in the chassis through the opening, and the operating member is pushed to drive the latching member to rotate, the latching portion protrudes outwardly from the main body and engages with an inside surface adjoining the opening of the chassis.
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1. A mounting apparatus for fixing a storage device to a chassis, the chassis defining an opening, the mounting apparatus comprising: two opposite fixing arms for supporting the storage device; a main body connecting the fixing arms; a latching member pivotably received in the main body under a resi
1. A mounting apparatus for fixing a storage device to a chassis, the chassis defining an opening, the mounting apparatus comprising: two opposite fixing arms for supporting the storage device; a main body connecting the fixing arms; a latching member pivotably received in the main body under a resilient force, the latching member comprising a latching portion; and an operating member slidably coupled to the main body, the operating member comprising a slanted surface, wherein when the mounting apparatus is received in the chassis from the opening and the operating member is pushed to be received in the main body, the slanted surface of the operating member pushes the latching member to rotate, the latching portion protrudes outwardly from the main body and engages with an inside surface adjoining the opening of the chassis, wherein a recess is defined in a bottom surface of the main body, with an end of the recess extending through a front edge of the main body, the operating member is slidably received in the recess, an aperture is defined in a top of the main body in communication with the recess, the latching member is received in the aperture, a rear end of the latching member is received in the aperture, a rear end of the latching member is pivotably coupled to a portion adjoining a rear end of the aperture of the main body, and the latching portion is upwardly bent from the latching member adjacent to a front end of the latching member, a protrusion extends down from a front end of the latching member, and a positioning trough is defined in a top of the operating member; when the operating member is pushed towards the latching member, the slanted surface of the operating member pushes the protrusion of the latching member to pass over the slanted surface and engage in the positioning trough. 2. The mounting apparatus of claim 1, wherein the operating member comprises a handle exposed out of the main body. 3. The mounting apparatus of claim 1, wherein an abutting portion extends rearward from a bottom of the latching portion, the mounting apparatus further comprises a resilient member, the resilient member comprises two resilient arms each forming a foot engaging with a rear edge of the main body, and a connecting arm connecting front ends of the resilient arms for engaging with the abutting portion. 4. The mounting apparatus of claim 1, wherein two tabs correspondingly extend down from two portions bounding the aperture of the main body adjacent to a rear end of the aperture, a pivot protrudes from each tab towards the aperture, two pivoting portions correspondingly extend down from opposite sides of a rear end of the latching member, and a pivoting hole is defined in each pivoting portion, to engage with a corresponding pivot. 5. The mounting apparatus of claim 1, wherein two opposite walls bounding the recess of the main body each define an elongated sliding slot and form a block in the sliding slot adjacent to the front edge of the main body, two resilient hooks are correspondingly formed on opposite ends of a rear side of the operating member, to slidably engage with the sliding slots. 6. The mounting apparatus of claim 1, wherein two resilient tabs are formed on opposite ends of the main body, an engaging portion extends from each of the resilient tabs, each of the fixing arms defines an engaging slot engaging with a corresponding engaging portion. 7. The mounting apparatus of claim 6, wherein two concave engaging areas are correspondingly defined in opposite ends of the main body, the resilient tabs are correspondingly formed on the engaging areas, each fixing arm comprises a top wall, a bottom wall, and a connecting wall connecting the top wall and the bottom wall, an engaging tab is formed on a front end of each of the top wall and bottom wall, for engaging with top and bottom surfaces of a corresponding engaging area, the engaging slot of each fixing arm is defined in a corresponding engaging tab. 8. The mounting apparatus of claim 7, wherein two stop plates correspondingly extend from rear ends of the top wall and the bottom wall of each fixing arm. 9. A mounting apparatus for fixing a storage device, the mounting apparatus comprising: two opposite fixing arms for supporting the storage device; a main body connecting the fixing arms; a latching member pivotably coupled to the main body the latching member comprising a latching portion; a resilient member coupled between the latching member and the main body, the resilient member forcing the latching member to be received in the main body; and an operating member slidably coupled to the main body, the operating member comprising a slanted surface and a handle exposed out of the main body, wherein when the handle is pushed to allow the operating member to be received in the main body, the slanted surface of the operating member pushes the latching member to rotate against the resilient member, the latching portion protrudes outwardly from the main body, wherein a recess is defined in a bottom of the main body, with an end of the recess extending through a front edge of the main body, the operating member is slidably received in the recess, an aperture is defined in a top of the main body in communication with the recess, the latching member is received in the aperture, a rear end of the latching member is pivotably coupled to a portion adjoining a rear end of the aperture of the main body, and the latching portion is upwardly bent from the latching member adjacent to a front end of the latching member, wherein an abutting portion extends rearward from a bottom of the latching portion, the resilient member comprises two resilient arms each forming a foot engaging with a rear edge of the main body, and a connecting arm connecting front ends of the resilient arms for engaging with the abutting portion. 10. The mounting apparatus of claim 9, wherein a protrusion extends from the latching member, and a positioning trough is defined in the operating member, when the operating member is pushed to be received in the main body, the slanted surface of the operating member pushes the protrusion of the latching member to pass over the slanted surface and engage in the positioning trough. 11. The mounting apparatus of claim 9, wherein two tabs correspondingly extend down from two portions bounding the aperture of the main body adjacent to a rear end of the aperture, a pivot protrudes from each tab towards the aperture, two pivoting portions correspondingly extend down from opposite sides of a rear end of the latching member, and a pivoting hole is defined in each pivoting portion, to engage with a corresponding pivot. 12. The mounting apparatus of claim 9, wherein two opposite walls bounding the recess of the main body each define an elongated sliding slot and form a block in the sliding slot adjacent to the front edge of the main body, two resilient hooks are correspondingly formed opposite ends of a rear side of the operating member, to slidably engage with the sliding slots. 13. The mounting apparatus of claim 9, wherein two resilient tabs are formed on opposite ends of the main body, an engaging portion extends from each of the resilient tabs, each of the fixing arms defines an engaging slot engaging with a corresponding engaging portion. 14. A mounting apparatus for fixing a storage device to a chassis, the chassis defining an opening, the mounting apparatus comprising: two opposite fixing arms for supporting the storage device;a main body connecting the fixing arms;a latching member pivotably received in the main body under a resilient force, the latching member comprising a latching portion; andan operating member slidably coupled to the main body, the operating member comprising a slanted surface, wherein when the mounting apparatus is received in the chassis from the opening, and the operating member is pushed to be received in the main body, the slanted surface of the operating member pushes the latching member to rotate, the latching portion protrudes outwardly from the main body and engages with an inside surface adjoining the opening of the chassis, a recess is defined in a bottom surface of the main body, with an end of the recess extending through a front edge of the main body, the operating member is slidably received in the recess, an aperture is defined in a top of the main body in communication with the recess, the latching member is received in the aperture, a rear end of the latching member is pivotably coupled to a portion adjoining a rear end of the aperture of the main body, and the latching portion is upwardly bent from the latching member adjacent to a front end of the latching member, an abutting portion extends rearward from a bottom of the latching portion, the mounting apparatus further comprises a resilient member, the resilient member comprises two resilient arms each forming a foot engaging with a rear edge of the main body, and a connecting arm connecting front ends of the resilient arms for engaging with the abutting portion.
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이 특허에 인용된 특허 (35)
Weng, Mao-Huai; Wu, Chia-Chang; Chen, Po-Yao; Wu, Deryi; Lien, Ping-Hua, Automated disk-ejection apparatus and disk array having the same.
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