CN112397106A - Mounting and positioning structure - Google Patents

Abstract

The utility model provides an installation location structure for with solid state hard disk switching to on the keysets, be equipped with the interface on the keysets, the interface with keysets electric conduction, the front end of solid state hard disk with the interface is pegged graft and is switched on, installation location structure is including the locking module, the locking module is located on the keysets, the locking module includes the knob and locates press on the knob and hold the portion, the knob can be relative the keysets is rotatory so that press and hold the locking of portion or loosen the rear end of solid state hard disk. The installation location structure is through set up the knob structure on the keysets, utilize the rotation of knob drives to be located pressing portion lock on the knob the rear end of solid state hard drives has replaced traditional lock screw fixed mode, makes solid state hard drives's dismouting is very time-saving and simple.

Description

Mounting and positioning structure

Technical Field

The invention relates to the technical field of solid state disk installation, in particular to an installation positioning structure for positioning and installing a solid state disk.

Background

The Solid State Drives (Solid State Drives), referred to as fixed disks for short, are hard disks made of Solid State electronic memory chip arrays, and are composed of a control unit and a memory unit (FLASH chip, DRAM chip). The specification, definition, function and use method of the interface of the solid state disk are completely the same as those of a common hard disk, and the appearance and size of the product are also completely consistent with those of the common hard disk. The method is widely applied to the fields of military affairs, vehicle-mounted, industrial control, video monitoring, network terminals, electric power, medical treatment, aviation, navigation equipment and the like.

Because the interface of solid state hard drives is comparatively special, need install it on the keysets to with transmission signal conversion for ordinary interface input, because solid state hard drives and the interface of installing on the keysets can the perk after to inserting, present common way is: the rear end of the solid state disk is pressed downwards, and then the rear end of the solid state disk is locked on the adapter plate through screws. However, this method makes the solid state disk assembly and disassembly very time-consuming and cumbersome, which brings inconvenience to production test or user use.

Disclosure of Invention

In view of the above, it is desirable to provide an installation positioning structure for facilitating the assembly and disassembly of a solid state disk.

The utility model provides an installation location structure for with solid state hard disk switching to on the keysets, be equipped with the interface on the keysets, the interface with keysets electric conduction, the front end of solid state hard disk with the interface is pegged graft and is switched on, installation location structure is including the locking module, the locking module is located on the keysets, the locking module includes the knob and locates press on the knob and hold the portion, the knob can be relative the keysets is rotatory so that press and hold the locking of portion or loosen the rear end of solid state hard disk.

Furthermore, the pressing part is a flange protruding outwards from the side edge of the knob, a yielding notch is formed in the middle of the rear end of the solid state disk, and when the pressing part locks the rear end of the solid state disk, the pressing part abuts against the yielding notch so as to be relatively fixed with the yielding notch.

Furthermore, the knob comprises a fixed part and a rotating part, and the fixed part is fixed on the adapter plate; the rotating part is connected to the fixed part and can rotate relative to the fixed part; the pressing part is arranged on the rotating part.

Further, the fixing piece comprises a fixing column and a damping element; the fixing column is fixed on the adapter plate, and the damping element is in threaded connection with the top end of the fixing column; the rotating piece is sleeved on the damping element.

Furthermore, the locking module further comprises a positioning piece, and the positioning piece is fixed on the adapter plate; the positioning piece is provided with a shaft hole, and the adapter plate is provided with an opening at a position corresponding to the shaft hole; the fixing column penetrates through the opening and the shaft hole, the lower end of the fixing column supports against one side surface, back to the positioning piece, of the adapter plate, and the damping element is in threaded connection with the upper end of the fixing column and supports against one side surface, back to the adapter plate, of the positioning piece.

Further, be equipped with the arc wall on the setting element, be equipped with the guide part on the rotation piece, the guide part is located in the arc wall.

Further, the rotating member includes a socket portion and an operating portion; the sleeving part is sleeved on the damping element, and the operating part extends outwards from the side surface of the sleeving part; the guide part is formed at the tail end of the operation part; the pressing part is formed at a connecting corner of the socket part and the operating part.

Compared with the prior art, the mounting and positioning structure has the advantages that the knob structure is arranged on the adapter plate, the pressing and holding part arranged on the knob is driven by the rotation of the knob to lock the rear end of the solid state disk, the traditional screw locking fixing mode is replaced, and the solid state disk is quite time-saving and simple to mount and dismount.

Drawings

Fig. 1 is a perspective view of a mounting and positioning structure according to an embodiment of the present invention.

Fig. 2 is an exploded view of the mounting and positioning structure shown in fig. 1.

Fig. 3 is a perspective view of the mounting and positioning structure shown in fig. 1 when the solid state disk is released.

Fig. 4 is a perspective view of the mounting and positioning structure shown in fig. 1 when the solid state disk is locked.

Description of the main elements

Mounting and positioning structure	10
		Solid state disk	20
Abdication gap	21
		Adapter plate	30
Screw hole	31
		Opening of the container	32
Interface	40
		Locking module	50
Pressing and holding part	501
		Guide part	502
Rotary knob	51
		Fixing piece	511
Fixing column	5111
		Damping element	5112
Rotating member	512
		Coupling part	5121
Operation part	5122
		Locating piece	52
Shaft hole	521
		Arc-shaped groove	522

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

The invention provides an installation positioning structure which is used for connecting a solid state disk to a switching plate in a switching way, wherein an interface is arranged on the switching plate, the interface is electrically communicated with the switching plate, the front end of the solid state disk is connected and communicated with the interface in a plugging way, the installation positioning structure comprises a locking module, the locking module is arranged on the switching plate, the locking module comprises a knob and a pressing and holding part arranged on the knob, and the knob can rotate relative to the switching plate so as to enable the pressing and holding part to lock or release the rear end of the solid state disk.

Some embodiments of the invention are described in detail below with reference to the accompanying drawings. In the following embodiments, features of the embodiments may be combined with each other without conflict.

Referring to fig. 1 to 4, a mounting and positioning structure 10 according to an embodiment of the present invention is used to transfer a solid state disk 20 to an interposer 30. The mounting and positioning structure 10 includes an interface 40 and a locking module 50. The interface 40 and the locking module 50 are disposed on the interposer 30 at intervals. The interface 40 is electrically connected with the adapter plate 30 and is used for plugging and positioning the front end of the solid state disk 20; the locking module 50 is used for locking or releasing the rear end of the solid state disk 20. In this embodiment, the solid state disk 20 is an m.2 solid state disk, and the interface 40 is an m.2 connector.

The locking module 50 at least comprises a knob 51 and a pressing part 501 arranged on the knob 51. The knob 51 is disposed on the adapter plate 30 and can rotate relative to the adapter plate 30, so that the pressing portion 501 locks or releases the rear end of the solid state disk 20.

In this embodiment, the pressing portion 501 is a flange protruding outward from the side of the knob 51. The pressing portion 501 locks the rear end of the solid state disk 20, that is, the flange presses the rear end of the solid state disk 20, so as to prevent the solid state disk 20 from tilting or retreating. Specifically, the middle part of the rear end of the solid state disk 20 is provided with an abdicating notch 21, the size of the pressing part 501 is equal to or slightly larger than the size of the abdicating notch 21, and when the pressing part 501 locks the rear end of the solid state disk 20, the pressing part 501 abuts against the abdicating notch 21 to be relatively fixed therewith.

The knob 51 includes a fixed member 511 and a rotating member 512. The fixing member 511 is fixed on the adapter plate 30, and the rotating member 512 is connected to the fixing member 511 and can rotate relative to the fixing member 511. The pressing portion 501 is provided on the rotating member 512.

In this embodiment, the fixing member 511 is composed of a fixing post 5111 and a damping member 5112. The fixing post 5111 is fixed on the adapter plate 30, and the damping element 5112 is screwed on the top end of the fixing post 5111. The rotating member 512 is sleeved on the damping element 5112.

Preferably, the locking module 50 further comprises a positioning member 52. The positioning member 52 is fixed to the adapter plate 30. In the present embodiment, the positioning member 52 is fixed to the adapter plate 30 by screws (not shown), and the adapter plate 30 is correspondingly provided with screw holes 31.

In the present embodiment, the fixing member 511 is fixed to the adapter plate 30 via the positioning member 52. Specifically, the positioning element 52 is provided with an axial hole 521, an opening 32 is disposed on the adapter plate 30 at a position corresponding to the axial hole 521, the fixing column 5111 is inserted into the opening 32 and the axial hole 521, a lower end of the fixing column 5111 abuts against a lower surface of the adapter plate 30 (i.e., a side surface facing away from the positioning element 52), and the damping element 5112 is screwed to an upper end of the fixing column 5111 and abuts against an upper surface of the positioning element 52 (i.e., a side surface facing away from the adapter plate 30).

The rotating member 512 is sleeved on the damping element 5112 and located on the upper surface of the positioning member 52. Still be equipped with arc wall 522 on the setting element 52, still be equipped with guide portion 502 on rotating the piece 512, guide portion 502 is located in arc wall 522 to with arc wall 522 cooperatees, thereby the restriction the rotation angle of rotating piece 512.

Specifically, the rotating member 512 includes a socket portion 5121 and an operating portion 5122. The sleeve-joint part 5121 is sleeved on the damping element 5112, and the operation part 5122 is vertically and outwardly extended from the side surface of the sleeve-joint part 5121. In this embodiment, the pressing portion 501 is formed at a connecting corner of the socket portion 5121 and the operating portion 5122, and the guide portion 502 is formed at a distal end of the operating portion 5122.

When the solid state disk 20 is installed, the front end of the solid state disk 20 is inserted into the interface 40 and is electrically conducted with the interface; then, the rear end of the solid state disk 20 is pressed down and the rotating part 512 of the knob 51 is rotated at the same time, so that the pressing part 501 abuts against the receding notch 21 of the solid state disk 20 to be fixed relative thereto.

When the solid state disk 20 is disassembled, the rotating part 512 of the knob 51 is rotated reversely while the rear end of the solid state disk 20 is pressed down, so that the pressing part 501 deviates from the abdicating notch 21 of the solid state disk 20 until the pressing part 501 deviates from the solid state disk 20 completely; and then pulling the front end of the solid state disk 20 out of the interface 40.

Compared with the prior art, the mounting and positioning structure 10 of the present invention has the structure that the adapter plate 30 is provided with the knob 51, and the rotation of the knob 51 drives the pressing portion 501 provided on the knob 51 to lock the rear end of the solid state disk 20, so as to replace the conventional screw fixing manner, so that the mounting and dismounting of the solid state disk 20 are very time-saving and simple.

It is understood that various other changes and modifications may be made by those skilled in the art based on the technical idea of the present invention, and all such changes and modifications should fall within the protective scope of the claims of the present invention.

Claims (8)

1. The utility model provides an installation location structure for with solid state hard disk switching to the keysets on, be equipped with the interface on the keysets, the interface with keysets electric conduction, the front end of solid state hard disk with the interface is pegged graft and is switched on its characterized in that: the mounting and positioning structure comprises a locking module, the locking module is arranged on the adapter plate, the locking module comprises a knob and a pressing and holding part arranged on the knob, and the knob can rotate relative to the adapter plate to enable the pressing and holding part to lock or loosen the rear end of the solid state disk.

2. The mounting and positioning structure according to claim 1, wherein: the pressing portion is a flange protruding outwards from the side edge of the knob, a yielding notch is formed in the middle of the rear end of the solid state disk, and when the pressing portion locks the rear end of the solid state disk, the pressing portion abuts against the yielding notch to be relatively fixed with the yielding notch.

3. The mounting and positioning structure according to claim 1, wherein: the knob comprises a fixed part and a rotating part, and the fixed part is fixed on the adapter plate; the rotating part is connected to the fixed part and can rotate relative to the fixed part; the pressing part is arranged on the rotating part.

4. The mounting and positioning structure according to claim 3, wherein: the fixing piece comprises a fixing column and a damping element; the fixing column is fixed on the adapter plate, and the damping element is in threaded connection with the top end of the fixing column; the rotating piece is sleeved on the damping element.

5. The mounting and positioning structure according to claim 4, wherein: the locking module further comprises a positioning piece, and the positioning piece is fixed on the adapter plate; the positioning piece is provided with a shaft hole, and the adapter plate is provided with an opening at a position corresponding to the shaft hole; the fixing column penetrates through the opening and the shaft hole, the lower end of the fixing column supports against one side surface, back to the positioning piece, of the adapter plate, and the damping element is in threaded connection with the upper end of the fixing column and supports against one side surface, back to the adapter plate, of the positioning piece.

6. The mounting and positioning structure according to claim 5, wherein: the positioning piece is provided with an arc-shaped groove, the rotating piece is provided with a guide portion, and the guide portion is positioned in the arc-shaped groove.

7. The mounting and positioning structure according to claim 6, wherein: the rotating part comprises a sleeve joint part and an operating part; the sleeving part is sleeved on the damping element, and the operating part extends outwards from the side surface of the sleeving part; the guide portion is formed at a distal end of the operation portion.

8. The mounting and positioning structure according to claim 4, wherein: the rotating part comprises a sleeve joint part and an operating part; the sleeving part is sleeved on the damping element, and the operating part extends outwards from the side surface of the sleeving part; the pressing part is formed at a connecting corner of the socket part and the operating part.

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