CN204028764U - Fixed mechanism and there is the electronic installation of fixed mechanism - Google Patents

Abstract

A kind of fixed mechanism and there is the electronic installation of fixed mechanism.This fixed mechanism is suitable for fixedly comprising and is formed with the side surface of hole clipping and the electronic package of end face, fixed mechanism comprises: framework, fastener and biasing spring, framework comprises axle part, electronic package can be inserted in framework along plant direction, fastener comprises force application rod, drag bar and buckle bar, force application rod comprises the fulcrum that is articulated in axle part, drag bar and buckle bar are convexly set in respectively the same side of force application rod and spaced apart, drag bar is used for end face pushing tow, buckle bar can move apart and be snapped in hole clipping, biasing spring moves apart in order to fastener bias voltage is located to buckle bar the initial position that electronic package moves path, when electronic package is inserted in framework along plant direction, end face meeting pushing tow drag bar, make fastener rotate to buckle bar and be snapped in the locking position in hole clipping along the first sense of rotation by initial position.Simple in structure and the processing ease of the utility model, the man-hour that can effectively reduce assembling or dismounting.

Description

Fixed mechanism and there is the electronic installation of fixed mechanism

Technical field

The utility model relates to a kind of fixed mechanism and has the electronic installation of fixed mechanism, particularly a kind of in order to electronic packages such as CD drive or hard disk be fixed to the fixed mechanism of casing and have the electronic installation of this fixed mechanism.

Background technology

When existing CD drive will be assembled in the casing that is fixed on computing machine, need first by a plurality of screws, one location frame lock to be fixed in CD drive, subsequently CD drive is inserted in casing, then, one transmission yarn is plugged in CD drive, finally, by a plurality of screws, positioning framework is locked in after casing, completes the assembling of CD drive.In addition, the casing that wish is separated CD drive server is when repairing or replacing, need first the screw between positioning framework and casing to be unscrewed and taken off, then, transmission line is pulled away to CD drive and by CD drive by taking out in casing, finally, the screw between positioning framework and CD drive is unscrewed and taken off, complete the dismounting of CD drive.

Because the locking between positioning framework, CD drive and casing and dismounting all must auxiliaryly by the aid of for example turnscrew just can complete, therefore, whole operating process is comparatively complicated and inconvenient, and easily expends a large amount of man-hours.

Thereby the electronic installation that a kind of fixed mechanism need to be provided and have a fixed mechanism solves the problems referred to above.

Utility model content

Therefore, an object of the present utility model, be to provide a kind of fixed mechanism, its simple in structure and processing ease, can convenient, laborsaving and promptly electronic package be locked on casing or by dismantling on casing, in the assembling of electronic package or unloading process, do not need auxiliary by screw and aid, by this, can effectively reduce the man-hour of assembling or dismounting.

So fixed mechanism of the present utility model is suitable for fixing an electronic package, this electronic package comprises a side surface and an end face being connected with this side surface, this side surface is formed with a hole clipping, this fixed mechanism comprises: a framework, one fastener and a biasing spring, this framework comprises an axle part, this electronic package can be inserted in this framework along a plant direction, this axle part be axially perpendicular to this plant direction, this fastener comprises a force application rod, one drag bar and a buckle bar, this force application rod comprises a fulcrum that is articulated in this axle part and can rotates around this axle part, this drag bar and this buckle bar are convexly set in respectively the same side of this force application rod and spaced apart, this drag bar this end face pushing tow for this electronic package, this buckle bar can move apart and be snapped in this hole clipping, this biasing spring moves apart in order to make this fastener be positioned at this buckle bar to this fastener bias voltage the initial position that this electronic package moves path, when this electronic package is inserted in this framework along this plant direction, this this drag bar of end face meeting pushing tow, make this fastener along one first sense of rotation rotation to this buckle bar, be snapped in the locking position in this hole clipping by this initial position.

Fastener can make this buckle bar move apart this hole clipping along a second sense of rotation rotation in contrast to this first sense of rotation, and this drag masthead pushes away this end face this electronic package is moved along an exit axis in contrast to this plant direction.

This force application rod also comprises the force section of using for pulling, and this force section and this fulcrum lay respectively at the opposition side of this drag bar.

This fulcrum and this force section are positioned at respectively this force application rod end opposite, and this drag bar is adjacent to this fulcrum, and this buckle bar is adjacent to this force section.

This force application rod also comprises a medial surface, and the lateral surface in contrast to this medial surface, this drag bar and this buckle bar are convexly set in respectively this medial surface, and this framework also comprises a side shield, this side shield in order to this lateral surface of block so that this fastener is positioned this initial position.

This framework also comprises a location division, and this force application rod also comprises a fixture block, and this fixture block can move apart and be connected in this location division so that this fastener is positioned this locking position.

This force application rod is formed with a microscler perforate, and an elastic arm portion that is positioned at this microscler perforate one side, and this fixture block is convexly set in this elastic arm portion in contrast to a side of this microscler perforate.

This framework also comprises a location-plate, this location-plate is in order to locate an electric connector for socket, this electronic package also comprises a grafting electric connector that is arranged at this end face, when this fastener is during at this locking position, this grafting electric connector is plugged in this electric connector for socket, when this fastener rotates along this second sense of rotation, this drag masthead pushes away this electronic package and moves so that this grafting electric connector pulls away this electric connector for socket along this exit axis.

Another object of the present utility model, be to provide a kind of electronic installation with fixed mechanism, simple in structure and the processing ease of fixed mechanism, can convenient, laborsaving and promptly electronic package be locked on casing or by dismantling on casing, in the assembling of electronic package or unloading process, do not need assisting by screw and aid, by this, can effectively reduce the man-hour of assembling or dismounting.

An object more of the present utility model, is to provide a kind of electronic installation with fixed mechanism, and fixed mechanism can convenient and promptly be assembled and be fixed on casing or by dismantling on casing.

So the electronic installation of the present utility model with fixed mechanism comprises: a housing, one electronic package and a fixed mechanism, this housing defines a storage tank, and the opening being connected with this storage tank, this electronic package comprises a side surface and an end face being connected with this side surface, this side surface is formed with a hole clipping, this electronic package can be inserted in this storage tank along a plant direction via the guiding of this opening this housing of mat, this fixed mechanism comprises: a framework, one fastener and a biasing spring, this framework collection is loaded on this housing and is positioned at this storage tank, this framework comprises an axle part, this axle part be axially perpendicular to this plant direction, this electronic package can be inserted in this framework along this direction of planting, this fastener comprises a force application rod, one drag bar and a buckle bar, this force application rod comprises a fulcrum that is articulated in this axle part and can rotates around this axle part, this drag bar and this buckle bar are convexly set in respectively the same side of this force application rod and spaced apart, this drag bar this end face pushing tow for this electronic package, this buckle bar can move apart and be snapped in this hole clipping, this biasing spring moves apart in order to make this fastener be positioned at this buckle bar to this fastener bias voltage the initial position that this electronic package moves path, when this electronic package is inserted in this framework along this plant direction, this this drag bar of end face meeting pushing tow, make this fastener along one first sense of rotation rotation to this buckle bar, be snapped in the locking position in this hole clipping by this initial position.

Effect of the present utility model is: the simple in structure and processing ease of fixed mechanism, can convenient, laborsaving and promptly electronic package be locked on casing or by dismantling on casing, in the assembling of electronic package or unloading process, do not need assisting by screw and aid, by this, can effectively reduce the man-hour of assembling or dismounting.

Accompanying drawing explanation

Other features of the present utility model and effect, will clearly present in the embodiment with reference to accompanying drawing, wherein:

Fig. 1 is the stereographic map of an embodiment of the electronic installation with fixed mechanism of the present utility model;

Fig. 2 is the three-dimensional exploded view of an embodiment of the electronic installation with fixed mechanism of the present utility model, and the assembled relation between casing, electronic package, transmission yarn and fixed mechanism is described;

Fig. 3 is the stereographic map of fixed mechanism of an embodiment of the electronic installation with fixed mechanism of the present utility model;

Fig. 4 is the three-dimensional exploded view of fixed mechanism of an embodiment of the electronic installation with fixed mechanism of the present utility model, and the assembled relation between framework, fastener and biasing spring is described;

Fig. 5 is the three-dimensional exploded view that the fixed mechanism of an embodiment of the electronic installation with fixed mechanism of the present utility model is watched by another visual angle, and the assembled relation between framework, fastener and biasing spring is described;

Fig. 6 is the vertical view of fixed mechanism of an embodiment of the electronic installation with fixed mechanism of the present utility model, and instruction card fastener is positioned at initial position;

Fig. 7 is the partial top view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrates that framework is placed on the loading plate of housing, and the clip cylinder of each reference column is through the macropore portion of corresponding pilot hole;

Fig. 8 is the cross-sectional schematic intercepting along the 8-8 line in Fig. 7, illustrate that the clip cylinder of each reference column is through the macropore portion of corresponding pilot hole, and the clip protuberance of locking spring plate is connected to loading plate end face;

Fig. 9 is the partial top view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrates that the clip cylinder clip of each reference column is in plate top surface;

Figure 10 is the cross-sectional schematic intercepting along the 10-10 line in Fig. 9, illustrates that the neck cylinder of each reference column stretches through to the aperture portion of corresponding pilot hole, make clip cylinder clip in plate top surface, and the clip protuberance clip of locking spring plate is in the spacing hole of loading plate;

Figure 11 is the partial top view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrates that electronic package is inserted in framework and the drag bar of pushing tow fastener along plant direction, makes fastener rotate along the first sense of rotation;

Figure 12 is the partial sectional view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrates that the lower fixture block of force application rod is connected to lower location division outboard end, and upper fixture block is connected to top board outboard end;

Figure 13 is the partial enlarged drawing of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrates that the lower fixture block of force application rod is connected to top, lower location division, and upper fixture block is connected to top board bottom;

Figure 14 is the partial top view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrate that the grafting electric connector of electronic package is plugged in electric connector for socket, and fastener is positioned at locking position;

Figure 15 is the partial perspective view of an embodiment of the electronic installation with fixed mechanism of the present utility model, illustrate that the grafting electric connector of electronic package is plugged in electric connector for socket, and fastener is positioned at locking position;

Figure 16 is the cross-sectional schematic intercepting along the 16-16 line in Figure 15, illustrates that the lower fixture block of force application rod is connected in lower location division medial extremity, and upper fixture block is connected in location division; And

Figure 17 is the partial top view of an embodiment of the electronic installation with fixed mechanism of the present utility model, and instruction card fastener moves along exit axis along the second sense of rotation rotation pushing tow electronic package, and the electric connector that makes to peg graft pulls away electric connector for socket.

Primary clustering symbol description:

100 electronic installation 423 top boards

1 casing 424 side openings

11 jacket 425 times location divisions

Location division on 12 housings 426

121 loading plate 43 locking spring plates

122 header board 431 spring plates

123 side plates 432 connect lamellar body

124 storage tanks 433 are pulled lamellar body

125 opening 434 clip protuberances

126 reference column 44 location-plates

127 neck cylinder 441 perforation

128 clip cylinder 45 axle parts

129 spacing hole 5 fasteners

2 electronic package 51 force application rods

21,5101 times fixture blocks of 22 side surface

Fixture block in 221 hole clippings 5102

23 end face 511 fulcrum

24 grafting electric connector 512 medial surfaces

3 transmission yarn 513 lateral surfaces

31 transmission line body 514 force sections

32 electric connector for socket 515 cylinders

321 clasp 516 ring slices

40 fixed mechanism 517 pivoted holes

4 framework 518 draw-in grooves

The microscler perforate of 41 chassis body 519

411 base plate 520 elastic arm portions

412 pilot hole 52 drag bars

413 macropore portion 53 buckle bars

414 aperture portion 6 biasing springs

415 intercommunicating pore portion 61 loop portions

416 protrude out plate 62 clamping ends

417 top plate portions 63 connect end

Through hole I the first sense of rotation on 418

419 lower through-hole II the second sense of rotation

420 rear board D1 plant directions

421 side shield D2 exit axis

422 web joint V arrows

Embodiment

Consult Fig. 1 and Fig. 2, Fig. 1 and Fig. 2 are embodiment with the electronic installation of fixed mechanism of the present utility model, the electronic installation 100 of the present embodiment is to take a desktop computer to explain as example, certainly, electronic installation 100 also can be the electronic installation of a server, a notebook computer or other types.Electronic installation 100 comprises a casing 1, an electronic package 2, a transmission yarn 3 and a fixed mechanism 40.

Casing 1 comprises a jacket 11, and a housing 12 being arranged in jacket 11.Housing 12 comprises the header board 122 that a loading plate 121, is arranged at loading plate 121 front ends, and two side plate 123 that is arranged at respectively loading plate 121 left and right sides, loading plate 121, header board 122 and biside plate 123 define a storage tank 124 jointly, and header board 122 defines an opening 125 being connected with storage tank 124.

The electronic package 2 of the present embodiment be take CD drive and is explained as example, and electronic package 2 also can be hard disk certainly.Electronic package 2 comprises the end face 23 that two side surfaces 21,22, that lay respectively at left and right sides are positioned at rear end, and a grafting electric connector 24 that is arranged at end face 23.End face 23 is connected with one of them side surface 22, and side surface 22 is formed with a hole clipping 221 that is adjacent to end face 23 places.Electronic package 2 can stretch through to storage tank 124 via opening 125, biside plate 123 by housing 12 is connected to respectively the both side surface 21,22 of electronic package 2 and guides its moving direction, and electronic package 2 can be inserted in storage tank 124 along a plant direction D1.

Transmission yarn 3 comprises that a transmission line body 31, is arranged at the electric connector for socket 32 of transmission line body 31 one end, and a butt-jointed electric connector (not shown) that is arranged at transmission line body 31 other ends.Electric connector for socket 32 is pegged graft in order to the grafting electric connector 24 of supplied for electronic assembly 2, butt-jointed electric connector is plugged in the electric connector (not shown) of a mainboard, by this, electronic package 2 can be electrically connected on mainboard by transmission yarn 3, to carry out the transmission of electric signal.

Consult Fig. 2, Fig. 3 and Fig. 4, housing 12 also comprises a plurality of reference columns 126 that are arranged on loading plate 121, and each reference column 126 comprises a neck cylinder 127, and a clip cylinder 128 that is formed at neck cylinder 127 tops, wherein, clip cylinder 128 external diameters are greater than neck cylinder 127 external diameters.The loading plate 121 of housing 12 is formed with the spacing hole 129 at an adjacent back end place.

Fixed mechanism 40 comprises a framework 4, a fastener 5 and a biasing spring 6.Framework 4 is assembled in the loading plate 121 of housing 12 and is positioned at storage tank 124, and framework 4 comprises a chassis body 41, a locking spring plate 43, a location-plate 44 and an axle part 45.Chassis body 41 comprises a base plate 411, base plate 411 is formed with a plurality of pilot holes 412, each pilot hole 412 is microscler and length bearing of trend perpendicular to plant direction D1, each pilot hole 412 has the aperture portion 414 that a macropore portion 413, is less than macropore portion 413, and the intercommunicating pore portion 415 being communicated between macropore portion 413 and aperture portion 414, the width of intercommunicating pore portion 415 is dwindled towards aperture portion 414 directions gradually by macropore portion 413.The clip cylinder 128 of each reference column 126 of housing 12 can, through the macropore portion 413 of corresponding pilot hole 412, make aperture portion 414 aligned in position of neck cylinder 127 with the corresponding pilot hole 412 of each reference column 126.The neck cylinder 127 of each reference column 126 can stretch through and make clip cylinder 128 clips in base plate 411 end faces to aperture portion 414 via intercommunicating pore portion 415, by this, chassis body 41 can be assembled on the loading plate 121 that is positioned housing 12.

Consult Fig. 3, Fig. 4 and Fig. 5, locking spring plate 43 comprises the connection lamellar body 432 that a spring plate 431, is connected in spring plate 431 one end, and one be connected in spring plate 431 in contrast to connect lamellar body 432 the other end pull lamellar body 433.Connect lamellar body 432 and be connected and fixed on base plate 411 bottom surfaces by for example riveting method.Spring plate 431 protrudes out a side of base plate 411, spring plate 431 bottom surfaces convex with a clip protuberance 434, clip protuberance 434 in order to clip in the spacing hole 129 of loading plate 121, make to be a lock-out state between locking spring plate 43 and loading plate 121, by this, can prevent that base plate 411 from moving with respect to loading plate 121, make each reference column 126 can be positioned at clip cylinder 128 clips in the position of base plate 411 end faces.Pulling lamellar body 433 is inverted L-shaped and uses for user and pull.User can upwards pull lamellar body 433 to drive spring plate 431 up to bend, and makes clip protuberance 434 move apart spacing hole 129, by this, and the lock-out state that just can unlock between shell fragment 43 and loading plate 121.

Location-plate 44 is L-shaped, location-plate 44 is connected and fixed on base plate 411 end faces by for example riveting method, location-plate 44 forms the perforation 441 that use wear for the electric connector for socket 32 of transmission yarn 3, and location-plate 44 is in order to locate the electric connector for socket 32 of transmission yarn 3.

Chassis body 41 also comprise one be convexly set in base plate 411 end faces and contiguous base plate 411 sides protrude out plate 416, protrude out plate 416 and comprise that one is located at interval at the top plate portion 417 of base plate 411 tops, top plate portion 417 is formed with through hole 418 on, the base plate 411 of chassis body 41 is formed with a lower through-hole 419 that is located at interval at through hole 418 belows, and upper through hole 418 and lower through-hole 419 are used respectively for axle part 45 and worn.In the present embodiment, the plant direction D1 (as shown in Figure 2) that is axially perpendicular to electronic package 2 of axle part 45.

Fastener 5 comprises a force application rod 51, a drag bar 52 and a buckle bar 53.Force application rod 51 is that plastic material is made, and it comprises fulcrum 511, a medial surface 512, the lateral surface 513 in contrast to medial surface 512 that is articulated in axle part 45 and can rotates around axle part 45, and a use is for the force section 514 of pulling.Force section 514 and fulcrum 511 lay respectively at the front and back ends of force application rod 51, and fulcrum 511 has a cylinder 515, and two ring slices 516 that convexedly stretch in respectively cylinder 515 upper and lower ends, and cylinder 515 defines the pivoted hole 517 that a use wears for axle part 45.

Buckle bar 53 and drag bar 52 be convexly set in respectively the medial surface 512 of force application rod 51 and each other before and after separately, the drag bar 52 of the present embodiment is convexly set in the medial surface 512 of force application rod 51 vertical with medial surface 512 one-body moldedly, drag bar 52 is in order to end face 23 (as shown in Figure 2) pushing tow of supplied for electronic assembly 2, and drag bar 52 can pushing tow end face 23.Buckle bar 53 is a metal material, and buckle bar 53 is connected and fixed on the medial surface 512 of force application rod 51 vertical with medial surface 512 by for example thermal welding mode, and buckle bar 53 can move apart the hole clipping 221 (as shown in Figure 2) that is snapped in electronic package 2.When being inserted in framework 4 along plant direction D1, electronic package 2 can drive fastener 5 to rotate to a locking position (as shown in figure 14), so that buckle bar 53 is snapped in the hole clipping 221 of electronic package 2 by pushing tow drag bar 52 when interior.It should be noted that, the design that is metal material by buckle bar 53, can promote the structural strength of buckle bar 53, and buckle bar 53 can be firmly snapped in the hole clipping 221 of electronic package 2.

Particularly, the force section 514 of the present embodiment and fulcrum 511 lay respectively at the forward and backward side of force application rod 51, making fastener 5 is a laborsaving lever construction, by this, user can drive fastener 5 rotations by pulling force section 514 comparatively effortlessly, so that buckle bar 53 moves apart hole clipping 221, and by the end face 23 of drag bar 52 pushing tow electronic packages 2, make electronic package 2 mobile along an exit axis D2 (as shown in figure 17) in contrast to plant direction D1.In addition, the drag bar 52 of the present embodiment is adjacent to fulcrum 511 and is partly connected in the cylinder 515 of fulcrum 511, by this, the length that makes drag bar 52 protrude out the medial surface 512 of force application rod 51 can design shortlyer when design, to avoid the position of drag bar 52 and the position of location-plate 44 mutually to interfere.Moreover the buckle bar 53 of the present embodiment is adjacent to force section 514, by this, make force application rod 51 rotations can make buckle bar 53 move apart hole clipping 221 completely after less suitable angle.

Biasing spring 6 is a torque spring, and biasing spring 6 is in order to be located at the initial position (as shown in Figure 6) that buckle bar 53 moves apart electronic package 2 mobile routes to fastener 5 bias voltages.Biasing spring 6 comprises two loop portions 61, two clamping ends 62 that protruded out by two loop portions 61 respectively separately up and down, and a connection end 63 being connected between two loop portions 61.

Consult Fig. 4, Fig. 5 and Fig. 6, when wish is assembled in the chassis body 41 of framework 4 by fastener 5 and biasing spring 6, first two loop portions 61 of biasing spring 6 are placed in respectively in two ring slices 516 of fulcrum 511, each clamping end 62 is connected in a draw-in groove 518 of corresponding ring slice 516.Subsequently, the fulcrum of fastener 5 511 and biasing spring 6 are moved to base plate 411 and protrude out between the top plate portion 417 of plate 416, make the pivoted hole 517 of fulcrum 511 be aligned in respectively through hole 418 and lower through-hole 419, and the connection end 63 of biasing spring 6 is connected on a rear board 420 that protrudes out plate 416.Then, axle part 45 is from top to bottom sequentially arranged in to upper through hole 418, loop portions 61, pivoted hole 517, loop portions 61 and lower through-hole 419, axle part 45 can be matched with upper through hole 418 and lower through-hole 419 and is positioned in upper through hole 418 and lower through-hole 419 by for example friction tight mode, by this, just fastener 5 and biasing spring 6 can be assembled in chassis body 41.

Chassis body 41 also comprises the web joint 422 that a side shield 421, that is convexly set in base plate 411 end faces and adjacent side is convexly set in base plate 411 end faces and is adjacent to side, and a top board 423 that is connected in side shield 421 and web joint 422 tops.Base plate 411, side shield 421, web joint 422 and top board 423 define a side opening 424 that can pass for fastener 5 jointly.By 6 pairs of fastener 5 bias voltages of biasing spring, make the force section 514 of fastener 5 can pass side opening 424.By side shield 421 blocks of chassis body 41, in the lateral surface 513 of force application rod 51, the rotational angle of restriction fastener 5, makes fastener 5 can be positioned at the initial position shown in Fig. 6, and now, buckle bar 53 moves apart the mobile route of electronic package 2.

On the other hand, in order to make fastener 5 can firmly be positioned at locking position, the chassis body 41 of the present embodiment also comprises one and is arranged on base plate 411 and the lower location division 425 of contiguous base plate 411 sides, and lower location division 425 is one to be convexly set in the projection of base plate 411.The top board 423 of chassis body 41 is formed with location division 426 on, and upper location division 426 is a blocked hole.Force application rod 51 is formed with two and runs through respectively medial surface 512 and lateral surface 513 and microscler perforate 519 separately up and down, and two elastic arm portions 520 that lay respectively at two microscler perforate 519 upper and lower sides, the length bearing of trend of each microscler perforate 519 is identical with the length bearing of trend of force application rod 51.Force application rod 51 also comprises fixture block 5102 on fixture block 5101 and, and lower fixture block 5101 and upper fixture block 5102 are convexly set in respectively two elastic arm portions 520 in contrast to a side of microscler perforate 519.Lower fixture block 5101 can move apart and be connected in lower location division 425, and upper fixture block 5102 can move apart and be connected in location division 426, by this, makes fastener 5 can firmly be positioned locking position.It should be noted that, in other embodiment, 426 of the 425Ji Shang location divisions, lower location division of chassis body 41 need to design one of them, and 5 need of fastener be provided with one can with the cooperatively interact fixture block of clamping of aforementioned location division, by this, can reach equally the effect that makes fastener 5 be positioned locking position.

Consult Fig. 2, Fig. 7 and Fig. 8, when wish is fixed on housing 12 by fixed mechanism 40 assemblings, first the macropore portion 413 of each pilot hole 412 of framework 4 is aligned in to the clip cylinder 128 of the corresponding reference column 126 of housing 12.Subsequently, toward moving down and be positioned on loading plate 121, make the clip cylinder 128 of each reference column 126 pass the macropore portion 413 of corresponding pilot hole 412 and protrude base plate 411 end faces the framework of fixed mechanism 40 4.Meanwhile, the clip protuberance 434 of the locking spring plate 43 of framework 4 can be connected to the end face of loading plate 121.

Consult Fig. 9 and Figure 10, then, the framework 4 that promotes fixed mechanism 40 along arrow V direction moves, and makes the aperture portion 414 of each pilot hole 412 close towards the neck cylinder 127 of corresponding reference column 126.The neck cylinder 127 of each reference column 126 can stretch through to aperture portion 414 via the intercommunicating pore portion 415 of corresponding pilot hole 412, make clip cylinder 128 clips in base plate 411 end faces, simultaneously, the clip protuberance 434 meeting clips of locking spring plate 43, in the spacing hole 129 of loading plate 121, make to be lock-out state between locking spring plate 43 and loading plate 121.By this, framework 4 just can firmly be assembled on the loading plate 121 that is positioned housing 12.

Consult Fig. 2, Fig. 5 and Figure 11, the electric connector for socket of transmission yarn 3 32 is aligned in to perforation 441 rears of location-plate 44, subsequently electric connector for socket 32 is moved forward and is arranged in perforation 441.A plurality of clasps 321 by electric connector for socket 32 are snapped in location-plate 44 front end faces, and electric connector for socket 32 can be firmly positioned on location-plate 44.It should be noted that, electric connector for socket 32 also can not yet be assembled at framework 4 that housing 12 is front to be first assembled on location-plate 44, with the disclosed assembling sequence of the present embodiment, is not limited.

Consult Fig. 4, Figure 11, Figure 12 and Figure 13, when electronic package 2 stretches through when interior to storage tank 124 via opening 125, the biside plate 123 of housing 12 can make it along plant direction D1, move by guiding electronic packages 2.Electronic package 2 is inserted in framework 4 when interior along plant direction D1, the grafting electric connector 24 of electronic package 2 can first be plugged on electric connector for socket 32, subsequently, the drag bar 52 of the end face 23 meeting pushing tow fasteners 5 of electronic package 2, makes fastener 5 around axle part 45, be rotated along one first sense of rotation I by initial position.

Fastener 5 is along in the process of the first sense of rotation I rotation, and the ring slice 516 of fulcrum 511 can drive clamping end 62 rotations of biasing springs 6, loop portions 61 is out of shape and accumulates reseting elasticity.In addition, the inclined-plane of the lower fixture block 5101 of force application rod 51 is subject to lower location division 425 outboard ends and pushes upward and then drive elastic arm portion 520 slightly up in flexural deformation also, to be reduced in microscler perforate 519, makes lower fixture block 5101 can move to 425 tops, lower location division.The inclined-plane of the upper fixture block 5102 of force application rod 51 can be subject to top board 423 outboard ends push down so that drive lower flexural deformation of elastic arm portion 520 and in be reduced in microscler perforate 519, make fixture block 5102 can move to top board 423 bottoms.

Consult Figure 14, Figure 15 and Figure 16, when electronic package 2 moves to grafting electric connector 24 and is plugged in the position of electric connector for socket 32 completely, fastener 5 can rotate to the locking position shown in Figure 14 along the first sense of rotation I.Now, buckle bar 53 is snapped in the hole clipping 221 of electronic package 2, and lower fixture block 5101 moves apart 425 tops, lower location division, 426 positions, location division in 5102 alignment of upper fixture block.The reseting elasticity of accumulating by two elastic arm portions 520 drives respectively lower fixture block 5101 and upper fixture block 5102 to reset, make lower fixture block 5101 be connected in lower location division 425 medial extremitys, upper fixture block 5102 is connected in location division 426, by this, make fastener 5 can firmly be positioned locking position, so that electronic package 2 is positioned in storage tank 124.

Consult Figure 15, Figure 16 and Figure 17, when wish is separated the storage tank 124 of housing 12 by electronic package 2, user can stretch through finger in framework 4 and fasten the force section 514 of force arm 51 via side opening 424, and the application of force is pulled force section 514 makes it along a second sense of rotation II rotation in contrast to the first sense of rotation I.Fastener 5 is along in the process of the second sense of rotation II rotation, the inclined-plane of the lower fixture block 5101 of force application rod 51 is subject to lower location division 425 medial extremitys and pushes upward and then drive elastic arm portion 520 slightly up in flexural deformation also, to be reduced in microscler perforate 519, makes lower fixture block 5101 can move to 425 tops, lower location division.The inclined-plane of the upper fixture block 5102 of force application rod 51 can be subject to peritreme that top board 423 defines location division 426 push down and then drive lower flexural deformation of elastic arm portion 520 and in be reduced in microscler perforate 519, make fixture block 5102 can move to top board 423 bottoms.

Subsequently, the buckle bar 53 of fastener 5 can move apart the hole clipping 221 of electronic package 2, and the end face 23 of drag bar 52 meeting pushing tow electronic packages 2, and electronic package 2 is moved along exit axis D2.In the process that electronic package 2 moves along exit axis D2, grafting electric connector 24 can little by little depart from electric connector for socket 32.When fastener 5 turns to the initial position shown in Figure 17 along the second sense of rotation II, the lower fixture block 5101 of force application rod 51 and upper fixture block 5102 lay respectively at lower location division 425 outboard ends and top board 423 outboard ends, and side shield 421 blocks are in the lateral surface 513 of force application rod 51, and grafting electric connector 24 pulls away electric connector for socket 32, now, user just can pull electronic package 2 to be separated the storage tank 124 of housing 12 along exit axis D2.

In sum, the electronic installation 100 of the present embodiment, the design matching with reference column 126 and the spacing hole 129 of housing 12 respectively by pilot hole 412 and the locking spring plate 43 of framework 4, makes framework 4 not need just can facilitate and promptly assembling is fixed on the housing 12 of casing 1 or by dismantling on housing 12 by screw and aid auxiliary.In addition, framework 4, fastener 5 and biasing spring 6 designs by fixed mechanism 40, total simplicity of design and processing ease, can convenient, laborsaving and promptly electronic package 2 lockings be dismantled on the housing 12 of casing 1 or on housing 12, in the assembling of electronic package 2 or unloading process, do not need assisting by screw and aid, by this, can effectively reduce the man-hour of assembling or dismounting, therefore really can reach the purpose of this utility model.

Only as described above, be only embodiment of the present utility model, can not limit the scope that the utility model is implemented with this, be every simple equivalent variations and modification of doing according to the scope of the utility model claims and utility model description, all still belong in the scope that the utility model patent contains.

Claims (19)

1. a fixed mechanism, this fixed mechanism is suitable for fixing an electronic package, and this electronic package comprises a side surface and an end face being connected with this side surface, it is characterized in that, and this side surface is formed with a hole clipping, and this fixed mechanism comprises:

One framework, this framework comprises an axle part, this electronic package can be inserted in this framework along a plant direction, this axle part be axially perpendicular to this plant direction,

One fastener, this fastener comprises a force application rod, a drag bar and a buckle bar, this force application rod comprises a fulcrum that is articulated in this axle part and can rotates around this axle part, this drag bar and this buckle bar are convexly set in respectively the same side of this force application rod and spaced apart, this drag bar this end face pushing tow for this electronic package, this buckle bar can move apart and be snapped in this hole clipping, and

One biasing spring, this biasing spring moves apart in order to make this fastener be positioned at this buckle bar to this fastener bias voltage the initial position that this electronic package moves path, when this electronic package is inserted in this framework along this plant direction, this this drag bar of end face meeting pushing tow, makes this fastener along one first sense of rotation rotation to this buckle bar, be snapped in the locking position in this hole clipping by this initial position.

2. fixed mechanism as claimed in claim 1, it is characterized in that, this fastener can be along a second sense of rotation rotation in contrast to this first sense of rotation, make this buckle bar move apart this hole clipping, and this drag masthead push away this end face this electronic package is moved along an exit axis in contrast to this plant direction.

3. fixed mechanism as claimed in claim 1, is characterized in that, this force application rod also comprises the force section of using for pulling, and this force section and this fulcrum lay respectively at the opposition side of this drag bar.

4. fixed mechanism as claimed in claim 3, is characterized in that, this fulcrum and this force section are positioned at respectively this force application rod end opposite, and this drag bar is adjacent to this fulcrum, and this buckle bar is adjacent to this force section.

5. fixed mechanism as claimed in claim 3, it is characterized in that, this force application rod also comprises a medial surface, and the lateral surface in contrast to this medial surface, this drag bar and this buckle bar are convexly set in respectively this medial surface, this framework also comprises a side shield, this side shield in order to this lateral surface of block so that this fastener is positioned this initial position.

6. fixed mechanism as claimed in claim 3, is characterized in that, this framework also comprises a location division, and this force application rod also comprises a fixture block, and this fixture block can move apart and be connected in this location division so that this fastener is positioned this locking position.

7. fixed mechanism as claimed in claim 6, is characterized in that, this force application rod is formed with a microscler perforate, and an elastic arm portion that is positioned at this microscler perforate one side, and this fixture block is convexly set in this elastic arm portion in contrast to a side of this microscler perforate.

8. fixed mechanism as claimed in claim 2, it is characterized in that, this framework also comprises a location-plate, this location-plate is in order to locate an electric connector for socket, this electronic package also comprises that one is arranged at the grafting electric connector of this end face, when this fastener is during at this locking position, this grafting electric connector is plugged in this electric connector for socket, when this fastener rotates along this second sense of rotation, this drag masthead pushes away this electronic package and moves so that this grafting electric connector pulls away this electric connector for socket along this exit axis.

9. an electronic installation with fixed mechanism, this electronic installation comprises:

One housing, this housing defines a storage tank, and an opening being connected with this storage tank,

One electronic package, this electronic package comprises a side surface and an end face being connected with this side surface, it is characterized in that, this side surface is formed with a hole clipping, this electronic package can be inserted in this storage tank along a plant direction via the guiding of this opening this housing of mat, and

One fixed mechanism, this fixed mechanism comprises:

One framework, this frame assembled is in this housing and be positioned at this storage tank, this framework comprises an axle part, this axle part be axially perpendicular to this plant direction, this electronic package can be inserted in this framework along this direction of planting,

One fastener, this fastener comprises a force application rod, a drag bar and a buckle bar, this force application rod comprises a fulcrum that is articulated in this axle part and can rotates around this axle part, this drag bar and this buckle bar are convexly set in respectively the same side of this force application rod and spaced apart, this drag bar this end face pushing tow for this electronic package, this buckle bar can move apart and be snapped in this hole clipping, and

One biasing spring, this biasing spring moves apart in order to make this fastener be positioned at this buckle bar to this fastener bias voltage the initial position that this electronic package moves path, when this electronic package is inserted in this framework along this plant direction, this this drag bar of end face meeting pushing tow, makes this fastener along one first sense of rotation rotation to this buckle bar, be snapped in the locking position in this hole clipping by this initial position.

10. the electronic installation with fixed mechanism as claimed in claim 9, it is characterized in that, this fastener can be along a second sense of rotation rotation in contrast to this first sense of rotation, make this buckle bar move apart this hole clipping, and this drag masthead push away this end face this electronic package is moved along an exit axis in contrast to this plant direction.

11. electronic installations with fixed mechanism as claimed in claim 10, is characterized in that, this force application rod also comprises the force section of using for pulling, and this force section and this fulcrum lay respectively at the opposition side of this drag bar.

12. electronic installations with fixed mechanism as claimed in claim 11, is characterized in that, this fulcrum and this force section are positioned at respectively this force application rod end opposite, and this drag bar is adjacent to this fulcrum, and this buckle bar is adjacent to this force section.

13. electronic installations with fixed mechanism as claimed in claim 12, it is characterized in that, this force application rod also comprises a medial surface, and the lateral surface in contrast to this medial surface, this drag bar and this buckle bar are convexly set in respectively this medial surface, this framework also comprises that one is assembled in the chassis body of this housing, and this chassis body comprises a side shield, this side shield in order to this lateral surface of block so that this fastener is positioned this initial position.

14. electronic installations with fixed mechanism as claimed in claim 13, it is characterized in that, this chassis body also comprises that one is connected in the base plate of this side shield bottom, and the lower location division being arranged on this base plate, this lower location division is one to be convexly set in the projection of this base plate, this force application rod also comprises fixture block, and this lower fixture block can move apart and be connected in this lower location division so that this fastener is positioned this locking position.

15. electronic installations with fixed mechanism as claimed in claim 14, it is characterized in that, this chassis body also comprises that one is connected in the top board on this side shield top, this top board is formed with location division on, on this, location division is a blocked hole, this force application rod also comprises fixture block on, and on this, fixture block can move apart and be connected in location division on this so that this fastener is positioned this locking position.

16. electronic installations with fixed mechanism as claimed in claim 15, it is characterized in that, this force application rod is formed with two and runs through respectively this medial surface and this lateral surface and microscler perforate separately up and down, and two elastic arm portions that lay respectively at the upper and lower side of this two microscler perforate, respectively the length bearing of trend of this microscler perforate is identical with the length bearing of trend of this force application rod, and on this, fixture block and this lower fixture block are convexly set in respectively this two elastic arms portion in contrast to a side of this two microscler perforate.

17. electronic installations with fixed mechanism as claimed in claim 13, it is characterized in that, this framework also comprises that one is arranged at the location-plate in this chassis body, this electronic installation also comprises a transmission yarn, this transmission yarn comprises that one is fastened in the electric connector for socket of this location-plate, this electronic package also comprises that one is arranged at the grafting electric connector of this end face, when this fastener is during at this locking position, this grafting electric connector is plugged in this electric connector for socket, when this fastener rotates along this second sense of rotation, this drag masthead pushes away this electronic package and moves so that this grafting electric connector pulls away this electric connector for socket along this exit axis.

18. electronic installations with fixed mechanism as claimed in claim 9, it is characterized in that, this housing comprises a loading plate, and a plurality of reference columns that are arranged at this loading plate, respectively this reference column comprises a neck cylinder, an and clip cylinder that is formed at this neck cylinder top, this clamping pole body diameter is greater than this neck cylinder external diameter, this framework also comprises a chassis body, this chassis body comprises a base plate, this base plate is formed with a plurality of pilot holes, and respectively this clip cylinder of this reference column can be through this corresponding pilot hole clip in this plate top surface.

19. electronic installations with fixed mechanism as claimed in claim 18, it is characterized in that, this loading plate is formed with a spacing hole, this framework also comprises that one is connected in the locking spring plate of this base plate, this locking spring plate comprises a spring plate, and one be convexly set in this spring plate one end and use for the lamellar body of pulling of pulling, this spring plate bottom surface convex with one in order to clip the clip protuberance in this spacing hole, this is pulled lamellar body and can drive this spring plate up to bend so that this clip protuberance moves apart this spacing hole, respectively this pilot hole has a macropore portion, an and aperture portion that is less than this macropore portion, respectively this clip cylinder of this reference column can be through this macropore portion of this corresponding pilot hole, respectively this neck cylinder of this reference column can stretch through and make this clip cylinder clip in this plate top surface to this aperture portion of this pilot hole of correspondence.