CN208954636U - Disk draw-out device - Google Patents

Abstract

The utility model provides a kind of disk draw-out device, including: a framework, framework has two resilient sides being parallel to each other, and it is connected to a bottom side of one end of two resilient sides, and it is connected to upper lateral part of two resilient sides relative to one end of the bottom side, multiple interference pieces are arranged in the medial surface of two resilient sides, and when disc driver is assembled in framework, multiple interference pieces can be sticked in multiple lockholes of disc driver side；Wherein, at least one first buffer part is respectively set in the lateral surface of two resilient sides of framework, and at least one second buffer part is arranged towards the one side of disk slot in two resilient sides, and an at least third buffer part is arranged in bottom side.

Description

Disk draw-out device

Technical field

The utility model relates to a kind of disk draw-out device more particularly to a kind of it is used in what swapping type storage device used Disk draw-out device.

Background technique

The draw-out device that existing swapping type storage device usually passes through the types such as disk tray or taking case drives disk Dynamic device is installed in the disk slot of storage device in a manner of it can substitute.However the construction of existing disk draw-out device usually by A variety of difference parts (such as: framework, sliding rail, locker, handle etc.) assemble, and its structure is complicated, and assemble difficult.

In addition, existing disk replacing device does not have vibration buffer structure, or an only independent axial shake usually Dynamic buffer structure, therefore make its vibration buffering effect situation hair that is bad, and can not effectively avoiding disc driver vibration impaired It is raw.

Due to above, various inconvenience in existing disk draw-out device use are caused, therefore how to be changed by structure It is good, to solve the problems, such as aforementioned items, it has also become this cause one of the important topic to be solved

Utility model content

Technical problem to be solved in the utility model is to solve existing disk draw-out device construction complexity, and prevents Shake ineffective problem.

The utility model embodiment provides a kind of disk draw-out device, a disc driver is installed on storage dress In the disk slot set, wherein two sides that there is the disc driver insertion end to be located at the insertion end two sides Portion, two side surface parts are respectively provided with multiple lockholes；The disk draw-out device includes: a framework, and the framework is to prop up The disc driver is held, the framework has two resilient sides being parallel to each other, and is connected to two elastic sides One bottom side of the one end in portion, and it is connected to upper lateral part of two resilient sides relative to one end of the bottom side, Two resilient sides and the upper lateral part and the bottom side define to form one to accommodate the disc driver jointly Accommodating space, when the disc driver is placed in the framework, the medial surface of two resilient sides distinguishes position In the outside of two side surface parts in the disc driver, the bottom side is located at the insertion end of the disc driver Outside；Multiple interference pieces are respectively set in the position that the medial surface of two resilient sides corresponds to multiple lockholes, multiple The interference piece is able to be sticked in multiple lockholes, and the disc driver is located in the framework In the accommodating space of side；Wherein, two resilient sides of the framework are relative to described in the disc driver At least one first buffer part is respectively set in one lateral surface of side surface part, and two resilient sides are towards the disk slot At least one second buffer part is respectively set in one side, and an at least third buffer part is arranged in the bottom side.

One preferred embodiment of the utility model, resilient side described in two of them have the elasticity of flexure, two elasticity Side be capable of the separate direction bending of the side surface part of direction and the disc driver and make multiple interference pieces and Multiple lockholes are detached from.

One preferred embodiment of the utility model, wherein first buffer part is integrally formed and is projectedly set to described The elastic slice of resilient side lateral surface；Wherein second buffer part is integrally formed and is projectedly set to the resilient side court To the elastic slice in the slot-side face.

One preferred embodiment of the utility model, wherein the insertion of the bottom side of the framework and the disc driver Keep a spacing between end, the third buffer part, which is integrally formed, is set to the bottom side and towards the disc driver Insertion end protrusion arc spring lamination, when the disc driver is assembled in the framework, the third buffer part direction The side of the disc driver is contacted with the insertion end of the disc driver.

One preferred embodiment of the utility model, wherein a connector is arranged in the insertion end of the disc driver, institute The bottom side for stating framework corresponds to one notch section of position setting of the connector, and makes the connector not by described Bottom side masking.

One preferred embodiment of the utility model, wherein the upper lateral part and the disc driver of the framework relative to A spacing is kept between one end of the insertion end, and the framework further includes two stopper sections, two stopper sections abut In the one end of the disc driver relative to the insertion end.

One preferred embodiment of the utility model, wherein the disk slot has two opposite slot side plates, the magnetic When disk draw-out device is inserted into the disk slot, two resilient sides are respectively adjacent to two disk side plates；Wherein, An at least convex block is respectively set relative to the one side of the disc driver in two resilient sides of the framework, described Convex block protrudes from one side of the resilient side relative to the disc driver, and the convex block drives towards the disk The side of the insertion end of dynamic device forms an extension；Wherein, the slot lateral plates to the disk draw-out device one An at least interface components, side of the interface components relative to the insertion end of the disc driver is respectively set in side Form the shape and position phase interworking of the extension of a connecting groove, the shape of the connecting groove and position and the convex block It closes, when so that the disk draw-out device being inserted into the insertion position of the disk slot, the extension can engage In the connecting groove.

One preferred embodiment of the utility model, wherein the extension forms one relative to a side of the slot bottom plate Contact surface, the connecting groove form a limitation face, the contact surface and the limitation relative to a side of the slot bottom plate Face is parallel to the slot bottom plate, and when the disk draw-out device is inserted into the insertion position of the disk slot, The limitation face is connected to the outside of the contact surface from the contact surface relative to the side of the slot bottom plate.

The beneficial effects of the utility model are that its structure is simple, and have polyaxial vibration pooling feature, and can Fast assembling-disassembling.

For the enabled feature and technology contents for being further understood that the utility model, please refer to below in connection with the utility model Detailed description and accompanying drawings, however appended attached drawing is only for reference and description, and is not used to limit the utility model Person.

Detailed description of the invention

Fig. 1 is the three-dimensional combination figure of the storage device of a disk draw-out device with the utility model.

Fig. 2 is the stereogram exploded view of storage device shown in Fig. 1.

Fig. 3 is the disk draw-out device of the utility model and the part isometric exploded view of storage device.

Fig. 4 is the stereogram exploded view of the utility model disk draw-out device and disc driver.

The enlarged partial isometric view that Fig. 5 is taken by the utility model disk draw-out device from the part V of Fig. 4.

The enlarged partial isometric view that Fig. 6 is taken by the utility model disk draw-out device from the part VI of Fig. 4.

Fig. 7 is the three-dimensional combination figure of the utility model disk draw-out device and disc driver.

Fig. 8 is the combination of side view of the utility model disk draw-out device and disc driver.

Fig. 9 is the part combination of side view of the pedestal of the utility model disk draw-out device and storage device.

Figure 10 to Figure 12 is that the utility model disk draw-out device is inserted into the continuous action schematic diagram in disk slot.

Specific embodiment

The utility model embodiment provides a kind of disc driver can be installed on a storage device with substituting Disk draw-out device.

As shown in Figure 1 to Figure 3, the specific implementation for the storage device 1 for using the utility model disk draw-out device 20 for one Example.Wherein storage device 1 has a casing 10, and casing 10 has a pedestal 11, a front cover 12 and a dismountable Moveable lid body 13.One pedestal 14 is set inside casing 10, and a circuit substrate 15 is arranged in the one side of pedestal 14, and pedestal 14 is relative to circuit base Multiple disk slot 16s are arranged in the one side of plate 15.

As shown in figure 3, each disk slot 16 is respectively by a slot bottom plate 161, and it is located at 161 two sides of slot bottom plate Slot side plate 162 define jointly, disk slot 16 forms an opening, magnetic in the one side opposite with slot bottom plate 161 Disk draw-out device 20 and disc driver 30 can be after the mergings of the opening of disk slot 16, further along one and slot bottom plate 161 Parallel first direction D1 is inserted into the insertion position in disk slot 16.

As shown in Fig. 4, Fig. 7 and Fig. 8, for the utility model disk draw-out device 20 and taken with disk draw-out device 20 Structure with the disc driver 30 used, wherein disk draw-out device 20 includes that a use plastic ejection moulding mode is made Framework 21, framework 21 has two resilient sides 211 being parallel to each other, and is connected to one end of two resilient sides 211 A upper lateral part 212, and be connected to bottom side 213 of two resilient sides 211 relative to one end of upper lateral part 212.Two Resilient side 211 and upper lateral part 212 and bottom side 213 link together and define to form one to accommodate jointly with being integrally formed The accommodating space of disc driver.

For ease of illustration for the sake of, the one side of slot bottom plate 161 of the following description by framework 21 towards disk slot 16 It is defined as front side, the one side of framework 21 towards upper lateral part 212 is defined as upside, one side of the framework 21 towards bottom side 213 It is defined as downside, and the one side of side surface part 32 of two resilient sides 211 towards disc driver 30 is defined as medial surface, two A elastic portion is defined as lateral surface relative to the one side of the side surface part 32 of disc driver 30.

Disc driver 30 has an insertion end 31, and the two sides positioned at insertion end 31 and two sides being parallel to each other Face 32, when disc driver 30 is placed in the accommodating space of 21 inside of framework, two sides face 32 is posted by framework respectively The medial surface of 21 two resilient sides 211, and the insertion end 31 of disc driver 30 is adjacent to the bottom side 213 of framework 21, Disc driver 30 relative to insertion end 31 side adjacent to framework 21 upper lateral part 212.

A connector 33 is arranged in the insertion end 31 of disc driver 30, and multiple locks are respectively set in two side surface parts 32 Hole 34.The position that the medial surface of two resilient sides 211 of framework 21 corresponds to multiple lockholes 34 is respectively set multiple columned Interference piece 22.As shown in figure 8, multiple interference pieces 22 are distinguished when disc driver 30 is assembled in the accommodating space of framework 21 It can snap into multiple lockholes 34 of 30 side surface part 32 of disc driver, disc driver 30 to be positioned in framework 21 In the accommodating space of side.

In addition, as shown in fig. 7, the generation of connector 33 of bottom side 213 and disc driver 30 to avoid framework 21 is done Relate to, the lower end of the framework 21 of the present embodiment setting one from the front side of framework 21 obliquely run out to bottom side 213 unfilled corner and shape At a notch section 214, the position of notch section 214 and the connector 33 of disc driver 30 are corresponding, and make disc driver 30 connector 33 can not be covered by the bottom side 213 of framework 21, so that disc driver 30 can be set with storage device 1 It is placed in the connector (not shown) connection of disk slot 16 bottom end.

As shown in figure 8, since framework 21 is made of using the plastic material of tool elasticity, two resilient sides in itself 211 have flexible elasticity.When user disassembles disc driver 30 from disk draw-out device 20, Neng Goutong It crosses and pulls the separate direction of the side surface part 32 of two 211 directions of resilient side and disc driver 30, so as to making interference piece 22 are detached from the lockhole 34 of disc driver 30, and enable the operator to remove disc driver 30 from framework 21.

As shown in Figures 4 to 7, vibration damage probability is born to achieve the purpose that reduce disc driver 30, this is practical new The buffer structure in multiple and different directions is arranged in the disk draw-out device 20 of type in framework 21, to absorb the shake of different directions It is dynamic, to reduce the vibration of the receiving of disc driver 30.Buffer structure in the utility model framework 21 includes to be set to two Two the first buffer parts 23 on 211 lateral surface of resilient side, and two second positioned at the front side of two resilient sides 211 Buffer part 24, and it is set to two third buffer parts 25 of bottom side 213.

As shown in Figures 5 and 6, two first buffer parts 23 of the present embodiment are the y directions along resilient side 211 Arrangement, and in two the first buffer parts 23, the first buffer part 23 close to 21 upside of framework be a cantilever-shaped elastic slice (such as Shown in Fig. 5), and the first buffer part 23 close to 21 downside of framework is the elastic slice (as shown in Figure 6) of an arc, two first are slow It rushes the integrated molding of portion 23 to be set on resilient side 211 and protrude from the lateral surface of two resilient sides 211, when disk extracts When device 20 is inserted in disk slot 16, the medial surface of slot side plate 162 can be contacted by the first buffer part 23, and make The lateral surface of two resilient sides 211 will not directly contact slot side plate 162, and can pass through the elasticity of the first buffer part 23 Absorb the vibration with the perpendicular direction of slot side plate 162.

As shown in Figures 5 and 6, two second buffer parts 24 of the present embodiment are equally along the longitudinal axis side of resilient side 211 To arrangement, two the second buffer parts 24, which are integrally formed, is set to the arc spring lamination of the leading flank of resilient side 211, and two Two buffer parts 24 protrude from the leading flank of resilient side 211 respectively.When disk draw-out device 20 is inserted in disk slot 16, The framework 21 of disk draw-out device 20 can contact slot bottom plate 161 by two the second buffer parts 24, and make framework 21 not Slot bottom plate 161 can be directly contacted, and is absorbed and the perpendicular direction of slot bottom plate 161 by the elasticity of the second buffer part 24 Vibration.

As shown in fig. 7, being protected between the bottom side 213 of framework 21 and the insertion end 31 of disc driver 30 in the present embodiment A spacing is held, third buffer part 25, which is integrally formed, is set to the bottom side 213 of framework 21 and inserting towards disc driver 30 Enter the arc spring lamination of 31 protrusion of end.And third buffer part 25 can be contacted with disc driver towards one end of disc driver 30 30 insertion end 31, therefore the vibration of line direction equal with slot bottom plate 161 can be absorbed by third buffer part 25.

In addition, as shown in Figures 7 and 8, the medial surface of framework 21 is close to disc driver 30 relative to insertion end 31 Two stopper sections 26, when disc driver 30 is placed in the accommodating space of framework 21, disc driver 30 are arranged in side Upper end can be resisted against two stopper sections 26, and make the upper end of disc driver 30 by the limitation of two stopper sections 26, and A spacing is kept between the upper lateral part 212 of framework 21.As shown in figure 9, when disk draw-out device 20 and disc driver 30 are inserted When entering into disk slot 16, the upper lateral part 212 of framework 21 is located at the opening above disk slot 16, and due to framework 21 Upper lateral part 212 and disc driver 30 relative between one end of insertion end 31 have gap so that framework 21 is upper Side 212 forms a structure for being similar to handle, and operator is taken out disc driver 30 from disk slot 16 When, it can be extend into finger between the one end of the upper lateral part 212 and disc driver 30 of framework 21 relative to insertion end 31 In gap, and with finger catch the mode of the upper lateral part of framework 21 by disk draw-out device 20 together with 30 direction of disc driver and First direction D1 opposite direction pulls, and disk draw-out device 20 and disc driver 30 is made to exit insertion position.

As shown in Fig. 3, Fig. 4 and Fig. 7, in the present embodiment, two resilient sides 211 of framework 21 are relative to disc driver One first convex block 27 and one second convex block 28 is respectively set in 30 one side, and the first convex block 27 and the second convex block 28 are along two The long axis direction of resilient side 211 is arranged in the lateral surface of resilient side 211, and protrudes from two resilient sides 211 Lateral surface.The side of first convex block 27 and the second convex block 28 towards the insertion end 31 of disc driver 30 is respectively formed one Towards the first extension 271 and the second extension 281 of the direction protrusion of the insertion end 31 of disc driver 30, and first extends Portion 271 and the second extension 281 are respectively formed the first contact surface 272 and the second contact surface relative to the side of the leading flank of framework 282, and the first contact surface 272 and the second contact surface 282 are parallel with the leading flank of framework 21.

As shown in Fig. 3 and Figure 10 to Figure 12, to make disk draw-out device 20 can after being inserted into disk slot 16 Engaged to be located in disk slot 16, the utility model is respectively set in the medial surface of the slot side plate 162 of disk slot 16 One first interface components 17 and the second interface components 18, the first interface components 17 and the second interface components 18 protrude from slot respectively The side of side plate 162, and the first interface components 17 and the second interface components 18 are in 31 phase of insertion end with disc driver 30 The side of opposite direction is respectively formed one first connecting groove 171 and the second connecting groove 181, and the first connecting groove 171 and the second rank Access slot 181 is respectively formed the first limitation face 172 and the second limitation face 182 relative to a side of slot bottom plate 161.

As shown in figure 12, the position and the first extension 271 of first connecting groove 171 and the second connecting groove 181 and The positions of two extensions 281 cooperates, and when disk draw-out device 20 being made to be inserted into the insertion position of disk slot 16, the One extension 271 and the second extension 281 can be respectively fastened in the first connecting groove 171 and the second connecting groove 181, and When the first extension 271 and the second extension 281 snap onto the first connecting groove 171 and the second connecting groove 181, the first limitation Face 172 and the second limitation face 182 can be connected to the first contact surface 272 and the second contact surface 282 relative to the slot bottom plate The outside of 161 a side, therefore pass through the first convex block 27, the second convex block 28 and the first interface components 17 and the second interface components 18 match, and can be located in disk draw-out device 20 on the insertion position of disk slot 16.

As shown in Figure 10 to Figure 12, the operation of disk slot 16 is inserted into for the disk draw-out device 20 of the utility model Journey.As shown in Figure 10, when operator inserts the disk that disc driver 30 and disk draw-out device 20 are inserted into storage device 1 When in slot 16, the Moveable lid body 13 of casing 10 is disassembled first, disc driver 30 is then assembled in disk and extracts dress After setting on 20, by disk draw-out device 20 and disc driver 30 with the front side of framework 21 towards disk slot 16, and by magnetic Disk draw-out device 20 is moved to a non-interfering position (non-interference position) together with disc driver 30.It is special Do not mentionlet alone bright, in this specification, the definition of the non-interfering position refers to when disk draw-out device 20 with one towards slot bottom plate When 161 second direction D2 displacement, first convex block 27 and the second convex block 28 of 20 two sides of disk draw-out device will not with insert The first interface components 17 on slot side plate 162 and the interference of the second interface components 18, and enable disk draw-out device 20 along Second direction D2 is presented to the position in disk slot 16.

Then as shown in figure 11, operator pushes away disk draw-out device 20 together with disc driver 30 towards second direction D2 It is dynamic, so that disk draw-out device 20 is presented in disk slot 16, and make the framework 21 and magnetic of disk draw-out device 20 The leading flank of disk drive 30 is close to slot bottom plate 161.Then again as shown in figure 12, disk draw-out device 20 is driven together with disk Dynamic 30 direction of the device first direction D1 parallel with slot bottom plate 161 is pushed, and makes disk draw-out device 20 and disc driver 30 reach at the insertion position of disk slot 16, and make the first extension 271 and the second extension 281 of 21 side of framework With the first connecting groove 171 being located on slot side plate 162 and the engaging of the second connecting groove 181, so as to by 20 He of disk draw-out device Disc driver 30 is located on insertion position.

Conversely, being then when operator takes out disk draw-out device 20 and disc driver 30 from disk slot 16 The opposite direction of 21 direction of framework and first direction D1 is pulled first, so that disk draw-out device 20 and disc driver 30 are de- From insertion position, and the first convex block 27 of 21 side of framework and the second convex block 28 is made to be displaced to the non-interfering position, then Disk draw-out device 20 and disc driver 30 are extracted out again outward with the opposite direction of direction and the second direction D2, just can It is enough to take out disk draw-out device 20 and disc driver 30 from disk slot 16.

It the disk draw-out device of the utility model and its main feature of storage device and its has the beneficial effect that:

1, the framework 21 that the utility model disk draw-out device 20 uses is using the integrally formed structure of plastic material, phase It is significantly simplified compared with existing disk draw-out device construction, and.

2, be provided in the framework 21 of the utility model disk draw-out device 20 first buffer part 23, the second buffer part 24 and Third buffer part 25, and first buffer part 23, the second buffer part 24 and third buffer part 25 are able to absorb not Homoaxial vibration, and can effectively slow down the intensity that disc driver 30 bears different directions vibration, to reach protection disk The non-damageable purpose of driver 30.

3, the disk draw-out device 20 of the utility model by be set on slot side plate 162 first and second linking structure Disk is extracted and is filled by the mode that part 17,18 and first and second convex block 28 for being set to 20 side of disk draw-out device are mutually clamped It sets on the insertion position that 20 are located in disk slot 16, enables the operator to disk draw-out device 20 together with disk drive Device 30 is quickly installed in disk slot 16, or exits from disk slot 16, therefore achievees the purpose that simplify operation.

The foregoing is merely the preferred possible embodiments of the utility model, patent model that is non-therefore limiting to the utility model It encloses, therefore all equivalence techniques variations done with the utility model specification and accompanying drawing content, it is both contained in the utility model In protection scope.

Claims (8)

1. a kind of disk draw-out device, a disc driver to be installed in the disk slot of a storage device, wherein institute Disc driver is stated with an insertion end, and the two sides face positioned at the insertion end two sides, two side surface part difference With multiple lockholes；It is characterized in that, the disk draw-out device includes:

One framework, the framework is to support the disc driver and can be inserted in the disk slot, the framework With two resilient sides being parallel to each other, and it is connected to a bottom side of two described resilient side one end, and connection In upper lateral part of two resilient sides relative to the other end of the bottom side, two resilient sides and the upside Portion and the bottom side define to form an accommodating space to accommodate the disc driver jointly, when the disc driver When being placed in the framework, the medial surface of two resilient sides is located at two sides of the disc driver The outside of face, the bottom side are located at the outside of the insertion end of the disc driver；

Multiple interference pieces are respectively set in the position that the medial surface of two resilient sides corresponds to multiple lockholes, multiple described Interference piece is able to be sticked in multiple lockholes, and the disc driver is located on the inside of the framework In the accommodating space；

Wherein, a lateral surface of two resilient sides of the framework relative to the side surface part of the disc driver At least one first buffer part is respectively set, two resilient sides are respectively provided in the one side towards the disk slot An at least third buffer part is arranged in few one second buffer part, the bottom side.

2. disk draw-out device as described in claim 1, which is characterized in that two resilient sides have the elasticity of flexure, Two resilient sides are capable of the separate direction bending of the side surface part of direction and the disc driver and are made multiple The interference piece and multiple lockholes are detached from.

3. disk draw-out device as claimed in claim 2, which is characterized in that first buffer part is integrally formed and protrudes Ground is set to the elastic slice of the resilient side lateral surface；Wherein second buffer part is integrally formed and is projectedly set to institute State elastic slice of the resilient side towards the slot-side face.

4. disk draw-out device as claimed in claim 3, which is characterized in that the bottom side of the framework and the disk A spacing is kept between the insertion end of driver, the third buffer part, which is integrally formed, is set to the bottom side and court The arc spring lamination protruded to the insertion end of the disc driver, when the disc driver is assembled in the framework When, the side of third buffer part towards the disc driver is contacted with the insertion end of the disc driver.

5. disk draw-out device as claimed in claim 4, which is characterized in that the insertion end of the disc driver is arranged A connector, a notch section is arranged in the position that the bottom side of the framework corresponds to the connector, and makes the connection Device is not covered by the bottom side.

6. disk draw-out device as claimed in claim 5, which is characterized in that the upper lateral part and the disk of the framework Driver keeps a spacing between one end relative to the insertion end, and the framework medial surface is close to the disk drive Device also sets up two stopper sections relative to the position of the side of the insertion end, and two stopper sections are connected to the disk and drive Dynamic side of the device relative to the insertion end.

7. disk draw-out device as described in claim 1, which is characterized in that the disk slot has two opposite slots Side plate and slot bottom plate, when the disk draw-out device is inserted into the disk slot, the lateral surface of two resilient sides It is respectively adjacent to two slot side plates；Wherein, the lateral surface of two resilient sides of the framework is respectively set at least One convex block, the convex block protrude from the lateral surface of two resilient sides, and the convex block is towards the disc driver The insertion end side formed an extension；Wherein, one side of the slot lateral plates to the disk draw-out device An at least interface components are respectively set, the interface components are formed relative to the side of the insertion end of the disc driver The shape of the extension of one connecting groove, the shape of the connecting groove and position and the convex block and position cooperate, and make Disk draw-out device when being inserted into the insertion position of the disk slot, the extension can be fastened on described In connecting groove.

8. disk draw-out device as claimed in claim 7, which is characterized in that the extension is relative to the slot bottom plate A side forms a contact surface, and the connecting groove forms a limitation face, the contact relative to a side of the slot bottom plate Face and the limitation face are parallel to the slot bottom plate, and when the disk draw-out device is inserted into the described of the disk slot When insertion position, the limitation face is connected to the outer of the contact surface relative to the side of the slot bottom plate from the contact surface Side.