CN2567621Y - Magnetic frame structure of computer - Google Patents

Abstract

The utility model discloses a magnetic frame structure of a computer, which comprises a first magnetic frame, a connecting plate and a second magnetic frame, wherein, the first magnetic frame comprises a first soleplate and a first lateral wall. A slideway is arranged at the middle part of the first soleplate. A pair of convex ribs which are vertically arranged are arranged at the back end of the soleplate. An L-shaped hook is downward extended from the edge of the bottom end of the first lateral wall. A slide rail is arranged at the middle part of the connecting plate correspondingly to the slideway. An elastic sheet is arranged at one end of the connecting plate. Convex hooks are arranged on the elastic sheet to be matched with the convex ribs so that the convex ribs are buckled and positioned. A suspension sheet is arranged on a lateral edge of the connecting plate in order to correspond to the action of the L-shaped hook of the first magnetic frame. After the second magnetic frame and the connecting plate can be fixed into one body, the second magnetic frame is arranged below the first magnetic frame in a sliding way through the structure of the slide rail. When the operation to a mainboard is carried out, the second magnetic frame can be screwed out from a shell body of the computer so that the second magnetic frame is far from the mainboard.

Description

Magnetic shelf structure of computer

[technical field]

The utility model is about a kind of magnetic shelf structure of computer, and is particularly easy to operate about a kind of mounting or dismounting, and be convenient to disc driver load and unload, the magnetic shelf structure of computer of maintenance and inspection.

[technical background]

Usually be equiped with two magnet stands in the computer casing, can be respectively in order to accommodate and the various data access that lock (floppy drive and CD-ROM drive etc. firmly).Magnet stand is installed on computer casing usually can directly be fixed with screw, such magnet stand generally comprises upper and lower two magnet stands, last magnet stand and housing are one-body molded or be fixed on the housing by screw, the upper limb both sides of following magnet stand respectively establish one in conjunction with edge, on in conjunction with edge, offer screw, can will descend magnet stand to be assembled in the bottom surface of magnet stand by screw; Usually adopt the shell fragment buckle structure to assemble magnet stand in addition; the computer disk actuator frame structure-improved that is disclosed for No. 285393 as the Taiwan patent announcement; it respectively forms L type flange in front and back up and down in limit, computer disk actuator frame left side; upper limb central authorities are horizontally set with lug; lower edge central authorities are horizontally set with a L type lug with caulking groove; other has the pre-and post perforative box body of a rectangle to be provided with corresponding flange and lug; this box body slips into from computer disk actuator frame proceeds posterolateral, flange on the box body and lug respectively with the computer disk actuator frame on flange and the mutual buckle of lug and box body and magnet stand are fixed.But, the mode of above-mentioned installation magnet stand is too loaded down with trivial details when the dismounting magnet stand, operate consuming time, effort, and two kinds of magnet stand fit keep in repair being installed in disc driver in the magnet stand, when changing, all need to operate in computer casing inside, and because the computer casing inner space is limited, make troubles and easy other assembly of clashing and breaking computer casing inside to operation.

[summary of the invention]

The purpose of this utility model is to provide a kind of mounting or dismounting easy to operate, and be convenient to disc driver load and unload, the magnetic shelf structure of computer of maintenance and inspection.

The purpose of this utility model is achieved through the following technical solutions: the utility model magnetic shelf structure of computer comprises one first magnet stand, a plate and one second magnet stand.Wherein, this first magnet stand comprises one first base plate and a first side wall, and this first base plate middle part is provided with slideway, and the rear end is provided with a pair of fin that is homeotropic alignment, and this first side wall bottom edge is extended a L shaped hook downwards; This corresponding above-mentioned slideway in web joint middle part is provided with slide rail, and an end is provided with a shell fragment, and which is provided with protruding hook, and to cooperate above-mentioned fin snaps into position, this web joint one lateral margin is provided with a dag, with the L shaped hook start on corresponding first magnet stand; After this second magnet stand can be fixed as one with this web joint, carriage can revolve second magnet stand when motherboard is operated and skids off computer casing and make it away from motherboard below first magnet stand by rail structure.

Compared with prior art, the utility model is in when assembling, by adopting the protruding hook snaps into position mutually on fin and the web joint on first magnet stand, locks and can save screw, assembles more succinct; In when dismounting, skid off computer casing and be affiliated to below first magnet stand by adopting the suspension of L type hook and dag, second magnet stand can being revolved, can avoid in computer casing, changing disc driver or motherboard is operated.

[description of drawings]

With reference to the accompanying drawings, in conjunction with the embodiments the utility model is further described.

Fig. 1 is the three-dimensional exploded view of the utility model magnetic shelf structure of computer and associated component thereof.

Fig. 2 is the part stereographic map of the utility model magnetic shelf structure of computer first magnet stand.

Fig. 3 is the three-dimensional combination figure of the utility model magnetic shelf structure of computer and associated component thereof.

Fig. 4 is the user mode reference diagram of the utility model magnetic shelf structure of computer.

Fig. 5 is the partial enlarged drawing of the utility model magnetic shelf structure of computer.

[embodiment]

See also Fig. 1 and Fig. 2, the utility model magnetic shelf structure of computer comprises one first magnet stand 30, a plate 60 and one second magnet stand 70.

This first magnet stand 30 is to be installed in this computer casing 10, comprises one first base plate 32 and the first side wall 34 that extends along the upwards vertical bending of these first base plate, 32 1 lateral margins.The bending downwards of these first base plate, 32 middle parts is extended with some arcuation slideways 40 to extending dorsad, these slideways 40 are that the outside bending of the level that bends vertically downward more earlier forms, these first base plate, 32 1 sides are bent to form one first lug 42 vertically downward, opposite side also is bent to form a spacer 43 and one second lug 44 vertically downward, and an end of this spacer 43 and an end of this second lug 44 respectively are provided with an elasticity buckling parts 45, the rear end of this first base plate 32 is provided with a pair of fin 46 that is homeotropic alignment, and these the first side wall 34 bottom edge are extended a L shaped hook 48 downwards.

This web joint 60 is a square plate body, and its middle part slideway 40 on corresponding first magnet stand 30 extends upward a pair of arcuation slide rail 62 in opposite directions, and this slide rail 62 is to bend vertically upward more earlier that level bends to the inside and end sealing.These web joint 60 1 lateral margins extend to form one first tabs 63 and one second tabs 64 vertically upward, and the L shaped hook 48 on corresponding first magnet stand 30 of an end of this first tabs 63 is provided with a dag 65, and the opposite side marginal lappet has directly extended upward one the 3rd tabs 69, these tabs 63,64,69 can cooperate auxiliary positioning second magnet stand 70 respectively with first lug 42, second lug 44 and the spacer 43 of this first magnet stand 30, and come auxiliary second magnet stand 70 by elasticity buckling parts 45 buckles second tabs 64.These web joint 60 1 ends are provided with a rectangle shell fragment 66, and this rectangle shell fragment 66 is provided with a pair of protruding hook 67 that is homeotropic alignment, and this protruding hook 67 can cooperate a pair of fin 46 snaps into position that are homeotropic alignment on first base plate 32.The angle end of this web joint 60 respectively is provided with a locking hole 68.

This second magnet stand 70 comprises a base plate 72 and the two side 74,76 of extending along the upwards vertical bending of these base plate 72 both side edges, the apical margin of sidewall 74,76 vertically bends inwards respectively and forms flanging 78, the locking hole 68 of the corresponding web joint 60 in the two ends of each flanging 78 is respectively offered a through hole 80, can this web joint 60 be locked on this second magnet stand 70 by rivet.

Continue and see also Fig. 3 to Fig. 5, during assembling, at first with this web joint 60 and second magnet stand, 70 locking one, then, make the corresponding rear end of accommodating the slideway 40 on first magnet stand 30 of slide rail 62 untight ends on the web joint 60, slide rail 62 with web joint 60 slips into along slideway 40 again, at this moment, second tabs 64 will be introduced on first magnet stand 30 between the spacer 43 and lug 44, with the elasticity buckling parts on second lug 44 45 is the strong point, continue to make slide rail 62 to slip into, first tabs 63 up to these web joint 60 both side edges, second tabs 64 and the 3rd tabs 69 respectively with first lug 42 of first magnet stand 30, second lug 44 and spacer 43 correspondences fit together, wherein, second tabs, 64 1 ends are positioned at the inboard of spacer 43, and the other end is positioned at the outside of second lug 44 and passes through two Elastic buckle portions, 45 snap fit.Afterwards, auxiliary positioning second magnet stand 70 that is clasped of the fin 46 on the protruding hook 67 on the web joint 60 and first magnet stand 30, sheathed by slideway 40 and slide rail 62 can be finished the assembling of Computer magnetic shelf at last.

When disc driver is loaded and unloaded, during maintenance and inspection, pull the rectangle shell fragment 66 on the web joint 60, fin 46 on the protruding hook 67 and first magnet stand 30 is broken away from, second magnet stand 70 can be skidded off computer casing 10 along slideway 40, simultaneously, cooperate suspension (as shown in Figure 5) with dag 65 by L type hook 48, make second magnet stand 70 can be affiliated to first magnet stand 30 and unlikely coming off, at this moment, the opening of second magnet stand 70 is outwardly and away from motherboard, is convenient to change disc driver or motherboard is operated.

Claims (9)

1. magnetic shelf structure of computer, comprise one first magnet stand, a plate and one second magnet stand, it is characterized in that: this first magnet stand comprises one first base plate and a first side wall, the middle part of this first base plate is provided with some to the arcuation slideway, and the rear end is provided with a pair of fin that is homeotropic alignment, and this first side wall bottom edge is extended a hook downwards; The slideway of corresponding first magnet stand in the middle part of this web joint is provided with an arc-shaped slide rail, and an end is provided with a shell fragment, this shell fragment is provided with a pair of protruding hook that is homeotropic alignment, this protruding hook can cooperate auxiliary snaps into position with the fin on first magnet stand, this web joint one lateral margin is provided with a dag, the hook motion of this dag on can corresponding first magnet stand; This second magnet stand can be fixed as one with this web joint, and then device is below first magnet stand.

2. magnetic shelf structure of computer as claimed in claim 1 is characterized in that: the first side wall of this first magnet stand is to bend vertically upward to extend along this first base plate, one lateral margin to form.

3. magnetic shelf structure of computer as claimed in claim 2 is characterized in that: this slideway is respectively earlier to bend level vertically downward by this first base plate outwards to bend again.

4. magnetic shelf structure of computer as claimed in claim 3, it is characterized in that: this first base plate, one side is bent to form one first lug vertically downward, opposite side also is bent to form a spacer and one second lug vertically downward, and an end of an end of this spacer and this second lug respectively is provided with an elasticity buckling parts.

5. magnetic shelf structure of computer as claimed in claim 4 is characterized in that: the slideway that this slide rail can ccontaining first magnet stand slides therein, and this slide rail is respectively earlier to bend level vertically upward from this web joint to bend inwards again.

6. magnetic shelf structure of computer as claimed in claim 5, it is characterized in that: a lateral margin of this web joint extends to form one first tabs and one second tabs vertically upward, and this dag is positioned at an end of this first tabs, the opposite side marginal lappet has directly extended upward one the 3rd tabs, these tabs can cooperate auxiliary positioning second magnet stand with first and second lug and the spacer on first magnet stand, and pass through elasticity buckling parts buckle second tabs with auxiliary second magnet stand.

7. magnetic shelf structure of computer as claimed in claim 6 is characterized in that: the angle end of this web joint is respectively offered a locking hole.

8. magnetic shelf structure of computer as claimed in claim 7 is characterized in that: this second magnet stand comprises one second base plate and second sidewall that extends vertically upward of this second base plate both side edges certainly, and respectively bends inwards on the top of second sidewall and to form a flanging.

9. magnetic shelf structure of computer as claimed in claim 8 is characterized in that: the two ends of each flanging respectively are provided with a through hole that cooperates with the locking hole of this web joint on this second magnet stand, can the web joint and second magnet stand be fixed as one by rivet.

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