CN105374384B - Portable disk - Google Patents

Abstract

The present invention discloses a kind of portable disk, including shell, memory module and an at least elastic component.There is shell flexible and shell to be formed with inner space.Memory module is movably configured at inner space.Elastic component is configured at inner space and is connected between memory module and shell.Shell deforms suitable for stress and compresses inner space, to drive the part of memory module to expose shell, and elastomeric deformable part.

Description

Portable disk

Technical field

The present invention relates to a kind of portable disks.

Background technology

With the development of multimedia technology, made digital document becomes more and more big.The soft magnetic of traditional 1.44MB Disk is although easy to carry, but its capacity cannot be satisfied current demand.In addition, though the hard disk of traditional magnetic disk structural formula can provide The memory space of large capacity, but cause user inconvenient to carry because its volume is larger.In recent years, with universal serial bus The universal price reduction with flash memories (Flash Memory) at the interface (Universal Serial Bus, USB), therefore have both The portable disk (USB Flash Disk) that capacity is big, compatibility is good, is convenient for carrying is widely used in different computers and deposits Data transmission between storage device.

Portable disk has the characteristic that capacity is big, plug and play, volume are light and handy and is convenient for carrying, therefore portable disk has replaced Floppy disk.Since portable disk is by a connection piece (such as 1394 plug of USB plug or IEEE) and host computer and storage device Electrical connection, and housed wherein with guard member.Therefore, protection connector is damaged to avoid because foreign object collides, and the company of allowing Fitting can be successfully mobile in guard member and be positioned, and the subject under discussion quite paid close attention to for portable disk manufacturer is become.

Invention content

The purpose of the present invention is to provide a kind of portable disks, are able to drive in it by flexible shell and elastic component Memory module.

In order to achieve the above object, the portable disk of the present invention, including shell, memory module and an at least elastic component.Shell has There is flexible and shell to be formed with inner space.Memory module is movably configured at inner space.Elastic component is configured inside It space and is connected between memory module and shell.Shell deforms suitable for stress and compresses inner space, to provide storage mould The thrust that block is moved to first direction, and elastomeric deformable part.

In one example of the present invention embodiment, above-mentioned memory module includes the memory element being electrically connected to each other and connection Device.Inner space has the channel being connected to external environment.Memory element is displaced into first position and the second position in channel Between.When memory element is located at first position, memory element is hidden in inner space with connector.When memory element is located at the When two positions, connector removes inner space.

In one example of the present invention embodiment, above-mentioned memory element adapts to the profile in channel, to keep internal empty Between air-tightness.

In one example of the present invention embodiment, above-mentioned memory element has the first positioning region, and shell also has the Two positioning regions and third positioning region, the second positioning region are formed in the inner wall of shell with third positioning region, and the second positioning region and the Three positioning regions are located on the mobile route of the first positioning region.When memory element is located at first position, the first positioning region and second The mutual clip in positioning region.When memory element is located at the second position, the first positioning region and the mutual clip in third positioning region.

In one example of the present invention embodiment, the first above-mentioned positioning region is protrusion, and second, third positioning region is distinguished For groove.

In one example of the present invention embodiment, above-mentioned inner space also has a pair of 4th positioning region, is located at channel Opposite sides and not be located at memory element mobile route on.Portable disk includes a pair of resilient members, and one end of each elastic component is fixed Positioned at memory element, and the other end of elastic component is respectively positioned in the 4th positioning region.

In one example of the present invention embodiment, above-mentioned each 4th positioning region has position limiting structure and buckle structure, and Position limiting structure is communicated between channel and buckle structure.There is each elastic component interconnecting piece and bizet, interconnecting piece to connect memory element And position limiting structure is passed through, bizet extends from interconnecting piece and is snapped in buckle structure.

In one example of the present invention embodiment, when above-mentioned memory element is located at first position, interconnecting piece perpendicular to The side of memory element.When memory element is located at the second position, interconnecting piece is deformed by memory element along channel extrusion.

In one example of the present invention embodiment, above-mentioned channel has open side relative to each other and closed side.When depositing When storage element is located at the second position, connector removes channel across open side.When memory element is located at first position, storage The one end of element far from connector keeps gap relative to closed side.

In one example of the present invention embodiment, above-mentioned shell also has positioned at the press section of outer surface.Press section exists Orthographic projection profile and gap on channel is least partially overlapped.

Memory module is provided in one example of the present invention embodiment, after the deformation of above-mentioned elastic component to move to second direction Pulling force, first direction is in contrast to second direction.

Based on above-mentioned, portable disk has pliability by shell, thus allows shell that can drive configuration by external force and when deforming In the memory module of shell, expose or hide its connector to allow memory module to be moved in shell.Furthermore elastic component connects Between memory module and shell, to provide the thrust or pulling force of memory module movement by deformation by elastic component, and make storage The part of module removes or moves into shell.Accordingly, whether user just can be by the force of shell, and reach mobile storage mould The effect of block and its connector.

To make the foregoing features and advantages of the present invention clearer and more comprehensible, special embodiment below, and it is attached appended by cooperation Figure is described in detail below.

Description of the drawings

Fig. 1 is a kind of schematic diagram of portable disk of an exemplary embodiment of the invention；

Fig. 2 and Fig. 3 is painted the partial schematic diagram of the portable disk of Fig. 1 with different visual angles respectively；

Fig. 4 is status diagram of the portable disk of Fig. 1 when stress；

Fig. 5 and Fig. 6 is respectively the partial schematic diagram of the portable disk of Fig. 4；

Fig. 7 and Fig. 8 is respectively a kind of partial schematic diagram of portable disk of another exemplary embodiment；

Fig. 9 and Figure 10 is respectively the partial schematic diagram of the portable disk of the another exemplary embodiment of the present invention.

Symbol description

100：Portable disk

110：Shell

112：Second positioning region

114：Third positioning region

116：Press section

120：Memory module

122：Memory element

122a：First positioning region

124：Connector

130、230、330：Elastic component

132：Interconnecting piece

134：Bizet

E1：Open side

E2：Closed side

P1：First position

P2：The second position

S1：Inner space

S12：Channel

S14：4th positioning region

S14a：Position limiting structure

S14b：Buckle structure

S16：Gap

S18：5th positioning region

Specific implementation mode

Fig. 1 is the schematic diagram according to a kind of portable disk of an exemplary embodiment of the invention.Fig. 2 and Fig. 3 is regarded with difference respectively Angle is painted the partial schematic diagram of the portable disk of Fig. 1, can understand that identification is installed in it by omitting the part of shell 110 herein Component, the another rectangular coordinate system that provided in relevant drawings simultaneously is in favor of subsequent explanation.Fig. 1 to Fig. 3 is please also refer to, at this In exemplary embodiment, portable disk 100 includes shell 110, memory module 120 and elastic component 130, and middle casing 110 is by one Made by flexible material, wherein this material by outer force effect when will produce deformation, inside is corresponding to generate stress (stress).When When external force removal, it can restore.E.g. with made by rubber or elastomeric yarn, thus it is made to have flexible and be able to be made User is pressed, and therefore has elasticity, to be restored to the original state when the person of being not used presses.Furthermore shell 110 is Hollow structure is formed with inner space S1 to allow memory module 120 to be movably configured at inner space S1, and allows elastic component 130 are configured at inner space S1 and are connected between memory module 120 and shell 110.

Furthermore memory module 120 is, for example, that system encapsulates (system in package, SIP) module, i.e., in packaging body In include one chip or multiple chips, and passive device can be added, capacitance, resistance, linkage interface, antenna ... wait any member More than part it is formed by package module.Accordingly, memory module 120 can be divided into the memory element 122 being electrically connected to each other and connect Device 124 is connect, to allow memory element 122 to be suitable for connector 124 as the connection being electrically connected with other electronic devices (not being painted) Interface.Here, depicted connector 124 be meet micro- Universal cylinder manifold (micro universal series bus, Micro-USB specification), but the present invention is not limited thereto.

In addition, the inner space S1 of shell 110 also there is channel S12 to have with the 4th positioning region S14 of a pair, channel S12 Open side E1 relative to each other and closed side E2, and above-mentioned memory element 122 and connector 124 are to be movably arranged at channel S12, and state as shown in Figure 2, connector 124 are to be adjacent to open side E1 compared with memory element 122.4th positioning region S14 is located at The opposite sides of channel S12 but not on the mobile route of memory element 122, that is, the 4th positioning region S14 is offset between channel S12 and position not upward in the outrigger shaft of channel S12.Here, channel S12 is to extend along an axis X, and this is to the 4th positioning region S14 is respectively relative to channel S12 and is configured at by the S12 of channel along Y-axis, memory module 120 can be moved along the x-axis, and connects Device 124 also extends along an axis X, to allow user to be able to fill along X-axis and other electronics by stretching out connector 124 of shell 110 Set docking.

And in a pair of resilient members 130 shown in this exemplary embodiment, one end of each elastic component 130 is positioned at memory element 122, and the other end of each elastic component 130 is then positioned in the 4th positioning region S14.As shown in Figure 2 and Figure 3, elastic component 130 It is the opposite sides for being symmetrically arranged at memory element 122.Specifically, each elastic component 130 has interconnecting piece 132 and bizet 134, one end of wherein interconnecting piece 132 is connected to memory element 122, and bizet 134 is extended to form from the other end of interconnecting piece 132 Cap-like structure as shown in the figure.Accordingly, each 4th positioning region S14 has position limiting structure S14a and buckle structure S14b, and limits Bit architecture S14a is communicated between buckle structure S14b and channel S12, and then forms the interior concave space that eck is shunk, therefore advantageous It is able in the buckle structure S14b for being snapped in the 4th positioning region S14 in allowing the bizet 134 of elastic component 130.It is not limiting as bullet herein Property part 130 connection type with memory element 122 and shell 110 respectively.In the present invention, connection can refer to a variety of different skills Art means, for example, stick together, thermal welding, buckle, the affixed or modes such as integrally formed.In this exemplary embodiment, elastic component 130 One end is that entity is connected to memory element, can by the prior art, such as stick together, thermal welding, the skills such as hot pressing or injection molding Art links together elastic component 130 and 122 entity of memory element, and the other end of elastic component 130 is then with buckle structure S14b It is connect with shell 110.In another embodiment not being painted, elastic component can also be connect with memory element by buckle structure, And elastic component then links together with the 4th positioning region entity of shell, the connection type end rely manufacture and use demand and Suitably changed.

Fig. 4 is painted status diagram of the portable disk of Fig. 1 when stress, is with user's finger pressing shell 100 herein Example is further described.Fig. 5 and Fig. 6 is painted the partial schematic diagram of the portable disk of Fig. 4 respectively, with by omitting shell 110 Locally clearly recognize relative position of its inner member shown in Fig. 4 when state.Meanwhile this exemplary embodiment will be in Fig. 1 to Fig. 3 122 position of memory element is denoted as first position P1, and 122 position of memory element in fig. 4 to fig. 6 is denoted as Two position P2.

Fig. 5 and Fig. 6 and compares figure 2 and Fig. 3 are please also refer to, in this exemplary embodiment, when memory element 122 is located at the When one position P1, gap S16 is kept between the one end of memory element 122 far from connector 124 and the closed side E2 of channel S12. Furthermore shell 110 also has positioned at the press section 116 of outer surface, and orthographic projection profile of the press section 116 on the S12 of channel is It is least partially overlapped with above-mentioned gap S16.In addition, Fig. 2, Fig. 3, Fig. 5 and Fig. 6 are refer again to, in this exemplary embodiment, no matter Memory module 120 is in which kind of state (i.e. no matter the where of 120 internally positioned space S 1 of memory module), and memory element 122 is equal The profile of channel S12 can be adapted to, and inner space S1 is made to be maintained air-tightness.Thus, when user's such as Fig. 4 pressings When shell 110, squeezing effect will be generated to gap S16, that is, compressed to the air at the S16 of the gap, and then can produce Raw pressure is to push memory element 122 to be moved in the S12 of channel, and the closed side E2 for driving memory element 122 to deviate from channel S12 Mobile (being moved from first position P1 towards second position P2), until connector 124 is exposed to shell 110.Certainly, in shell 110 stress and while deform, in addition to the above-mentioned air positioned at the places gap S16 is compressed, the shell 110 of deformation can be also pressed on On memory element 122, equally memory element 122 can be thus pushed to be moved in the S12 of channel and reach connector 124 and be exposed to shell The effect of body 110.

Please compares figure 3 and Fig. 6 again, the memory element 122 of this exemplary embodiment have the first positioning region 122a, and shell 110 also have the second positioning region 112 and third positioning region 114, the second positioning region 112 and 114 internally positioned sky of third positioning region Between S1, and the second positioning region 112 and third positioning region 114 are on the mobile route of the first positioning region 122a.When storage member When part 122 is located at first position P1,112 mutual clip of the first positioning region 122a and the second positioning region, when memory element 122 is located at When the P2 of the second position, the first positioning region 122a and 114 mutual clip of third positioning region.Accordingly, memory element 122 is maintained within First position or the second positions P1 P2.

In detail narration relative motion state it is as follows, when memory module 120 is located at first position P1, memory element 122 and Connector 124 is hidden in shell 110 and is formed by inner space S1, (such as above-mentioned to force in when shell 110 is pressed Press section 116), the clip relationship between the first positioning region 122a and the second positioning region 112 can also be solved as shell 110 deforms It removes, the shell 110 for the air and deformation that memory element 122 just can be compressed drives and moved in the S12 of channel.Then, when When memory element 122 moves to second position P2 and connector 124 is made to be exposed to shell 110, user stops to shell 110 at this time It exerts a force and shell 110 can be restored to the original state by its elasticity, the first positioning region 122a just can be allowed mutually to block with third positioning region 114 Tug, and memory element 122 is made to be held in second position P2.

It is noted that when memory module 120 is located at first position P1, the interconnecting piece 132 of elastic component 130 is perpendicular to The side (i.e. the extending direction of interconnecting piece 132 is parallel to Y-axis) of memory element 122, and in memory module 120 from first position P1 During the P2 of the migration second position, since the bizet 134 of elastic component 130 is to be snapped in the 4th positioning region S14, that is, elastic component 130 in bizet 134 be the state that can be considered as being fixed on shell 110, therefore the interconnecting piece 132 of elastic component 130 can be with storage Element 122 is moved and is stretched deformation along channel S12, i.e., user applies during pushing the movement of memory element 122 Power needs that the elastic force of elastic component 130 can be overcome, if stopping force at this time, elastic component 130 just can keep storage first by its elastic force Part 122 is to first position P1.But after memory module 120 is moved to second position P2, as shell 110 is not exerted a force And restore to the original state, the first positioning region 122a just thus can be able to resist elastic component 130 with 114 mutual clip of third positioning region Elastic force, and memory module 120 is made to be maintained at second position P2, and elastic component 130 is in elastic deformation.

Accordingly, when not using portable disk 100 and be intended to reset memory module 120, then user forces in again Shell 110 is allowed to deform, when the first positioning region 122a and third positioning region 114 release clip relationship, above-mentioned elastic component 130 Just memory module 120 can be moved back to first position P1 along channel S12 and connector 124 is allowed to be hidden in inside again by its elastic force Space S 1.Thus, by the material characteristic (flexible and elasticity) of shell 110 and elastic component 130, to allow shell 110 to carry Elastic component 130 is set to provide storage for the thrust that memory module 120 is moved to positive X-direction, and by elastomeric deformable part 130 The pulling force that module 120 is moved to negative X-direction just can allow user to operate driving and the location structure of portable disk 100 easily, And achievees the effect that mobile and position memory module 120.

Separately it should be mentioned that the first positioning region 122a of this exemplary embodiment is the protrusion being located on memory element 122, and Second positioning region 112, third positioning region 114 are then the groove on shell 110 respectively to correspond to the first positioning region 122a, but this Invention does not limit this, and in another exemplary embodiment not being painted, the first positioning region is groove, and the second positioning region and the Three positioning regions are protrusion, can equally achieve the effect that above-mentioned exemplary embodiment, that is, can provide component movement in the prior art simultaneously The dependency structure of locating effect, can be suitably used for the present invention.

Fig. 7 and Fig. 8 is painted a kind of partial schematic diagram of portable disk of another exemplary embodiment respectively, to describe memory module The state of different location is moved to relative to shell.Fig. 7 and Fig. 8 are please also refer to, unlike the embodiments above, this example The elastic component 230 of embodiment is an adjustable spring, and configuration is at the gap S16 of internal space S 1 and is located at memory element 122 Mobile route on.One end of elastic component 230 is positioned at memory element 122, and its other end is positioned at shell 110 and positioned at interior The closed side E2 of portion's space S 1.Furthermore, the inner space S1 of this exemplary embodiment also has the 5th positioning region S18, The closed side E2 of its internally positioned space S 1, with recess shape, to the other end of holding elastic component 230.Such as Fig. 7 institutes Show, when connector 124 stretches out the open side E1 of shell 110, elastic component 230 is the state in deformation (stretching), and at this time Storage can be allowed by the first positioning region 122a as the aforementioned and the mutual clip of the second positioning region 112 (being illustrated in Fig. 3, Fig. 6) Element is maintained at second position P2.Once 110 stress deformation of shell and release the first positioning region 122a and the second positioning region 112 After clip relationship, elastic component 230 just can drive memory element 122 to be moved back to first position P1 with its elastic force.Accordingly, this example is implemented Example can also reach effect identical with above-mentioned exemplary embodiment by elastic component 230.

Fig. 9 and Figure 10 is painted the partial schematic diagram of the portable disk of the another exemplary embodiment of the present invention respectively, to describe shell Start relationship between body 110 and memory module 120.In this exemplary embodiment, memory module 120 passes through elastic component 130 simultaneously Collective effect and reaching with 330 allows connector 124 to remove or move into the open side E1 of shell 110, wherein elastic component 130 as Aforementioned is the opposite sides for the mobile route for being located off memory module 120, and elastic component 330 is then similar to the example described in Fig. 7 Embodiment is to be located at 120 rear side of memory module (being for the front side of memory module 120 compared to connector 124).

Specifically, elastic component 130 such as earlier figures 2, Fig. 3, Fig. 5 and Fig. 6 illustrated, to be located at shell in connector 124 Shell 110 is moved into when body 110 is outer as driving memory module 120 to be used.Furthermore elastic component 330 is then compressed spring, Yi Jiqi Act on the exactly the opposite elastic component 230 depicted in Fig. 7, Fig. 8.In other words, the elastic component 330 of this exemplary embodiment be to Driving memory module 120 removes shell 110 and is used.Thus, (such as Fig. 9 when memory module 120 is located at 110 inside of shell It is depicted), not stress or the deformation of elastic component 130, and elastic component 330 is then in by the state of compressive deformation, thus carried The power resources needed for shell 110 are removed for memory module 120.Relatively, when memory module 120 be located at second position P2, I.e. connector 124 be located at shell 110 it is outer when, the not stress deformation of elastic component 330, and elastic component 130 is then in the change that is stretched The state of shape, thus be able to provide the power resources retracted memory module 120 in shell 110.Accordingly, this exemplary embodiment Memory module 120 just can be reached by the effect of elastic component 130,330 simultaneously allows connector 124 to remove or move into shell 110 Effect.

In addition, in another exemplary embodiment not being painted, there is also air bags at the S16 of its gap for shell 110, are connected to Between 110 inside of shell and memory module 120, the air bag can be because being deformed when user presses shell 110, and then provides Thrust in memory module 120 with allow connector 124 remove shell 110 open side E1, once aforementioned force removal after, air bag Just resilient, and memory module 120 and its connector 124 is allowed to be moved back to inside shell 110.

In conclusion in the above-mentioned exemplary embodiment of the present invention, since shell has pliability, user is by pressing Pressure shell body and be able to compress the air in it and the air of compression and the shell of deformation therefore allowed to be able to push memory module, in turn It moves memory module and its connector is enable to be exposed to shell.Furthermore pass through the phase of positioning region between shell and memory module Mutual clip and memory module can be allowed to be located in the first position being hidden in shell and the when above-mentioned connector exposes shell Two positions.Further, since elastic component is connected between shell and memory module, and according to the selection stretcher strain of elastic component or Compressive deformation person and be able to provide memory module thrust or pulling force, memory module is removed or is moved into shell, once shell becomes Shape and when memory module and shell being made to release clip relationship, memory module just can be reset to and be hidden in inner space by elastic component The connector of memory module is released shell by position.

Although disclosing the present invention in conjunction with above example, it is not limited to the present invention, any affiliated technology Have usually intellectual in field, without departing from the spirit and scope of the present invention, can make some changes and embellishment, therefore this hair Bright protection domain should be subject to what the appended claims were defined.

Claims (10)

1. a kind of portable disk, including：

Shell has pliability, and the shell is formed with an inner space, which has one be connected to external environment Channel；

Memory module is movably configured at the inner space, and is displaced into a first position and a second in the channel Between setting；And

A pair of resilient members is configured at the inner space and is connected between the memory module and the shell, which is suitable for The forced compression inner space simultaneously deforms the elastic component, and provides the thrust that the memory module is moved to a first direction, wherein Respectively the elastic component has interconnecting piece and bizet, and when the memory module is located at the first position, the interconnecting piece is perpendicular to the storage The one side of module, when the memory module is located at the second position, which is become by the memory module along the channel extrusion Shape.

2. portable disk as described in claim 1, the wherein memory module further include the memory element and one being electrically connected to each other Connector, when the memory element is located at the first position, which is hidden in the inner space with the connector, when this When memory element is located at the second position, which removes the inner space.

3. portable disk as claimed in claim 2, the wherein memory element adapt to the profile in the channel, to keep the inside empty Between air-tightness.

4. portable disk as claimed in claim 2, the wherein memory element have the first positioning region, and the shell also has second Positioning region and third positioning region, second positioning region are formed in an inner wall of the shell with the third positioning region, and this is second fixed Position portion is located at the third positioning region on the mobile route of first positioning region, when the memory element is located at the first position, First positioning region and the mutual clip in the second positioning region, when the memory element is located at the second position, first positioning region With the mutual clip in third positioning region.

5. portable disk as claimed in claim 4, wherein first positioning region are protrusion, and second, third positioning region is distinguished For groove.

6. portable disk as claimed in claim 2, the wherein inner space also have a pair of 4th positioning region, it is located at the channel Opposite sides and not be located at the memory element mobile route on, respectively one end of the elastic component is positioned at the memory element, and is somebody's turn to do The other end of a little elastic components is respectively positioned in this to the 4th positioning region.

7. portable disk as claimed in claim 6, wherein respectively the 4th positioning region has position limiting structure and buckle structure, and the limit Bit architecture is communicated between the channel and the buckle structure, which connects the memory element and pass through the position limiting structure, should Bizet extends from the interconnecting piece and is snapped in the buckle structure.

8. portable disk as claimed in claim 2, the wherein channel have open side relative to each other and closed side, when the storage When element is located at the second position, which removes the channel across the open side, when the memory element be located at this first When position, the one end of the memory element far from the connector keeps a gap relative to the closed side.

9. portable disk as claimed in claim 8, the wherein shell also have positioned at a press section of outer surface, which exists Orthographic projection profile and the gap on the channel is least partially overlapped.

10. providing the memory module after the deformation of portable disk as described in claim 1, the wherein elastic component to move to a second direction Dynamic pulling force, the first direction is in contrast to the second direction.