CN101640342B - Flash memory card hooking structure - Google Patents

Abstract

The invention relates to a flash memory card hooking structure, which is provided with a supporting part and an extending part. A flash memory card is hooked by a hooking part extended from the extending part and is supported by the supporting part; and when the flash memory card is plugged into a flash memory card plug slot used for an industrial computer, the flash memory card can be plugged and fixed more quickly and conveniently. The flash memory card hooking structure solves the problems of inconvenient drawing replacement of the flash memory card in the industrial computer and industrial computer crash caused by easy loosening of the flash memory card so as to achieve the technical effects of the convenient drawing replacement of the flash memory card and the maintenance of stable operation of the industrial computer.

Description

Flash memory card hooking structure

Technical field

A kind of connect-disconnect structure of flash memory refers in particular to a kind of flash memory card hooking structure that the hook mode of holding can fasten fast-flash memory and plug that sees through.

Background technology

Modern society in scientific and technological progress; Many electronic products all design under the demand of compact, rapid, multifunction and high frequencyization gradually; Wherein, Industrial computer is because operational environment needs the size of its body exquisiteness that also office is used or home computer comes, petite.

And; Cooperate the development of flash memory; Develop into the bigger flash memory of storage volume (for example: 2GB, 4GB) from the less flash memory of early stage storage volume (for example: 32MB, 64MB), make it, more be expanded into the interface of extended function from not only being the function of storage data.

Therefore, industrial computer adopts flash memory extended function interface, reaches the purpose that function expands; And can meet compact design, please with reference to shown in Figure 1, Fig. 1 is prior art flash memory and industrial computer assembling process stereogram; General existing industrial computer; Mainly by central processing unit (not illustrating among the figure), internal memory (not illustrating among the figure), input/output interface element 52 on the motherboard 51, and be integrated in the housing, therefore; Under the conditional situation of memory space, performed function also can be restricted.

And because the development of flash memory 10 is quick; Make when industrial computer needs extended function; Can be by the high power capacity storage area of flash memory 10, so as to storing expanding program, seeing through 10 of flash memories can expand the function of industrial computer.

Therefore; On motherboard 51, flash memory slot holder 511 need be set; Flash memory slot holder 511 both sides respectively have guide rod 512, make flash memory 10 can see through both sides guide rod 512 guiding and make flash memory 10, can be correct be plugged on the flash memory slot holder 511.

Yet, because the both sides guide rod 512 of the flash memory slot holder 511 of prior art only has the usefulness of guiding flash memory 10, do not have the fixedly effect of flash memory 10, even bed knife in the flash memory 10 insertion pins is still limited.Therefore, can produce the problem that flash memory 10 gets loose, when industrial computer in when running, getting loose of flash memory 10 then can cause the machine of working as of industrial computer.

In addition; Because industrial computer is under the consideration attractive in appearance of design, when flash memory 10 was inserted in flash memory slot holder 511, flash memory 10 can't protrude from the housing of industrial computer usually; So when the user need change extended function to industrial computer; Then need carry out the insertion of flash memory 10,, therefore in the time will substituting flash memory 10, can't take out easily with manual mode because the flash memory 10 after inserting can not protrude from housing with manual mode; And need to use extra instrument could flash memory 10 be taken out, make when substituting flash memory 10 quite inconvenient.

In sum; Can know that prior art existed since the midium or long term always and substitute flash memory inconvenience and flash memory in the industrial computer and get loose easily and cause industrial computer to work as the problem of machine; Therefore be necessary to propose improved technological means, solve this problem.

Summary of the invention

Because prior art exists and substitutes flash memory inconvenience and flash memory in the industrial computer and get loose easily and cause industrial computer to work as the problem of machine, the present invention provides a kind of flash memory card hooking structure then, wherein:

First execution mode of flash memory card hooking structure provided by the present invention is used for hook and holds flash memory, and fast-flash memory is arranged with protuberance, and flash memory card hooking structure comprises: substrate, extension board and supporting bracket.

Wherein, the substrate both sides are respectively equipped with retaining element, and retaining element is located at external of substrate, and the another side with respect to external is defined as datum level.

Extension board is fixed on the datum level of substrate, and in the extension board upper side perpendicular to the direction of datum level and extend at least one hook-holding part, hook-holding part is held the protuberance of flash memory in order to hook.

Supporting bracket in perpendicular to the direction of datum level and be fixed in substrate or extension board on, supporting bracket is when the hook-holding part hook is held the protuberance of flash memory, is used to support flash memory.

Second execution mode of flash memory card hooking structure provided by the present invention is used for hook and holds flash memory, and fast-flash memory is arranged with protuberance, and flash memory card hooking structure comprises: substrate and extension board.

Wherein, the substrate both sides are respectively equipped with retaining element, and retaining element is located at external of substrate, and the another side with respect to external is defined as datum level.

Extension board is fixed on the datum level of substrate, and extends at least one hook-holding part in the extension board upper side perpendicular to the direction of this datum level, and hook-holding part is held the protuberance of flash memory in order to hook; Extend the support portion in the extension board lower side perpendicular to the direction of datum level, when the protuberance of flash memory is held in the hook-holding part hook in the support portion, be used to support flash memory.

The 3rd execution mode of flash memory card hooking structure provided by the present invention is used for hook and holds flash memory, and fast-flash memory is arranged with protuberance, and flash memory card hooking structure comprises: substrate and extension board.

Wherein, the substrate both sides are respectively equipped with retaining element, and retaining element is located at external of substrate, and the another side with respect to external is defined as datum level, extend the support portion in the substrate lower side perpendicular to the direction of datum level.

Extension board is fixed on the datum level of substrate; And extend at least one hook-holding part perpendicular to the direction of datum level in the extension board upper side; Hook-holding part is held the protuberance of flash memory in order to hook, and the support portion is used to support flash memory when the hook-holding part hook is held the protuberance of flash memory.

The 4th execution mode of flash memory card hooking structure provided by the present invention is used for hook and holds flash memory, and fast-flash memory is arranged with protuberance, and flash memory card hooking structure comprises: substrate.

Wherein, The substrate both sides are respectively equipped with retaining element, and retaining element is located at external of substrate, and the another side with respect to external is defined as datum level; Extend at least one hook-holding part in the substrate upper side perpendicular to the direction of datum level, hook-holding part is held the protuberance of flash memory in order to hook; Extend a support portion in the substrate lower side perpendicular to the direction of datum level, when the protuberance of flash memory is held in the hook-holding part hook in the support portion, be used to support flash memory.

Structure provided by the present invention as above; And the difference between the prior art is the present invention, and it has a support portion; And an extension, see through the hook-holding part hook that extension extended and hold flash memory, and support flash memory with the support portion; Can be when the enterprising capable flash memory plug of the fast-flash memory card slot of industrial computer, can plug more quickly and easily and fixing flash memory.

See through above-mentioned technological means, the present invention can reach and conveniently substitute flash memory and keep the stable technological effect of industrial computer running.

Description of drawings

Fig. 1 is prior art flash memory of the present invention and industrial computer assembling process stereogram.

Fig. 2 A is the flash memory structural perspective that the present invention was suitable for.

Fig. 2 B and 2C figure are first embodiment of the invention flash memory card hooking structure stereogram.

Fig. 3 is a second embodiment of the invention flash memory card hooking structure stereogram.

Fig. 4 is a third embodiment of the invention flash memory card hooking structure stereogram.

Fig. 5 is a four embodiment of the invention flash memory card hooking structure stereogram.

Fig. 6 A comprises the withstanding part structural perspective for flash memory card hooking structure of the present invention.

Fig. 6 B comprises the limiting section structural perspective for flash memory card hooking structure of the present invention.

Fig. 6 C comprises the Handheld Division structural perspective for flash memory card hooking structure of the present invention.

Fig. 7 A is flash memory of the present invention and the flash memory card hooking structure first assembling mode stereogram.

Fig. 7 B is flash memory of the present invention and the flash memory card hooking structure second assembling mode assembling process planar side view.

Fig. 7 C is flash memory of the present invention and flash memory card hooking structure second assembling mode assembling completion planar side view.

Fig. 8 is flash memory of the present invention and flash memory card hooking structure assembling completion practical application stereogram.

[main element symbol description]

10 flash memories

11 protuberances

20 flash memory card hooking structures

21 substrates

211 retaining elements

212 external

213 datum levels

214 support portions

215 hook-holding parts

22 extension boards

221 hook-holding parts

222 support portions

223 extended surfaces

23 supporting brackets

31 withstanding parts

32 limiting sections

33 Handheld Divisions

40 industrial computers

41 co-operating members

51 motherboards

511 flash memory slot holder

512 guide rods

52 input/output interface elements

Embodiment

Below conjunction with figs. and embodiment are specified execution mode of the present invention, whereby to the present invention how the application technology means implementation procedure that solves technical problem and reach technological effect can make much of and implement according to this.

Introduce each element that the present invention is constituted in the first execution mode flash memory card hooking structure at first respectively, and please with reference to shown in Fig. 2 A, Fig. 2 B and Fig. 2 C, Fig. 2 A is the flash memory structural perspective that the present invention was suitable for; Fig. 2 B and Fig. 2 C are first embodiment of the invention flash memory card hooking structure stereogram.

First execution mode of flash memory card hooking structure provided by the present invention; Be applicable to flash memory 10 (Compact Flash card; CF card) hook is held; The product design of flash memory 10 is the standard of existing industrywide standardization all, therefore on known flash memory 10, all can form protuberance 11.

Flash memory card hooking structure 20 comprises: substrate 21, extension board 22 and supporting bracket 23.Wherein, substrate 21 is respectively equipped with retaining element 211 in external 212 both sides, and the another side with respect to external 212 then is defined as datum level 213.

In the above-mentioned retaining element 211, include flexible member and screw (not illustrating among the figure), outside flexible member does not receive during force compresses; Then can screw be accommodated in the retaining element 211, during force compresses, then screw can protrude in retaining element 211 outside flexible member receives; And screw togather mutually with nut; So as to fixing flash memory card hooking structure, be merely at this and illustrate retaining element 211, do not limit to application of the present invention with this; Existing technique for fixing all can be within the protection range of the present invention like engaging mode, manner and screw-in version etc.

Extension board 22 is fixed on the datum level 213 of substrate 21, and in the extension board upper side and perpendicular to the direction of datum level 213 and extend at least one hook-holding part 221, hook-holding part 221 is held the protuberance 11 of flash memory 10 in order to hook.

Above-mentioned extension board 22 is fixed on the datum level 213 of substrate 21; It can see through technology such as bonding mode, welding manner; Extension board 22 is fixed on the datum level 213 of substrate 21, is merely the mode that extension board 22 is fixed in substrate 21 that illustrates, do not limit to application of the present invention with this at this

Supporting bracket 23, in perpendicular to the direction of datum level 213 and be fixed in substrate 21 or the bottom surface of extension board 22 on, supporting bracket 23 is protuberances 11 of flash memory 10 when being held in hook-holding part 221 by hook, is used for supporting the usefulness of flash memory 10.

Wherein, Supporting bracket 23 is in order to make being supported on the supporting bracket 23 that flash memory 10 can be firm; The length and the width that can design supporting bracket will meet the half the of flash memory 10 length and width at least; Make being supported on the supporting bracket 23 that flash memory 10 can be more firm, but not as limit.

The difference of Fig. 2 B and Fig. 2 C is that supporting bracket 23 fixed positions are different, and Fig. 2 B supporting bracket 23 is fixed on the substrate 21; And Fig. 2 C supporting bracket 23 is fixed on the extension board 22.

Second execution mode of the present invention then is described; Each element that flash memory card hooking structure constitutes in this mode and the difference between other execution mode; And please with reference to shown in Figure 3, the difference of first execution mode and second execution mode is the difference of element number.First execution mode constitutes flash memory card hooking structure of the present invention with three element; Second execution mode then constitutes flash memory card hooking structure of the present invention with two element; Mainly be supporting bracket 23 elements at first execution mode; Then by being extended setting by extension board 22, therefore, second execution mode can promptly can be formed flash memory card hooking structure of the present invention by two elements in second execution mode.

Therefore, extension board 22 is fixed on the datum level 213 of substrate 21, and in extension board 22 upper sides, and extending at least one hook-holding part 221 perpendicular to the direction of datum level 213, hook-holding part 221 is held the protuberance 11 of flash memory 10 in order to hook; In extension board 22 lower side, reach perpendicular to the direction of datum level 213 and extend support portion 222, support portion 222 is when hook-holding part 221 hooks are held the protuberance 11 of flash memory 10, supports the usefulness of flash memory 10.

The 3rd execution mode of the present invention then is described; Each element that flash memory card hooking structure constitutes in this mode and the difference between other execution mode; And please with reference to shown in Figure 4; The difference of the 3rd execution mode and first execution mode is structural difference, and first execution mode constitutes flash memory card hooking structure of the present invention with three element, and the 3rd execution mode then constitutes flash memory card hooking structure of the present invention with two element; Mainly be supporting bracket 23 elements at first execution mode; Then by being extended setting by substrate 21, therefore, second execution mode can promptly can be formed flash memory card hooking structure of the present invention by two elements in the 3rd execution mode.

And the difference of the 3rd execution mode and second execution mode is structural difference, mainly is supporting bracket 23 elements at first execution mode, in the 3rd execution mode then by being extended setting by substrate 21; And supporting bracket 23 elements of first execution mode then by extended setting by extension board 22, can be found out structural difference in second execution mode.

Therefore, substrate 21 both sides are respectively equipped with retaining element 211, and are located at external 212 of substrate 21, and the another side with respect to external 212 is defined as datum level 213, in substrate 21 lower side, and extend support portion 214 perpendicular to the direction of datum level 213.

And; Extension board 22 is fixed on the datum level 213 of substrate 21; And in extend at least one hook-holding part 221 perpendicular to the direction of datum level 213; Hook-holding part 221 is held the protuberance 11 of flash memory 10 in order to hook, and the usefulness of flash memory 10 is supported in support portion 214 when hook-holding part 221 hooks are held the protuberance 11 of flash memory 10.

The 4th execution mode of the present invention then is described; Each element that flash memory card hooking structure constitutes in this mode and the difference between other execution mode; And please with reference to shown in Figure 5; The difference of the 4th execution mode and first execution mode is structural difference, mainly is to constitute flash memory card hooking structure of the present invention at first execution mode with three element, and the 4th execution mode then constitutes flash memory card hooking structure of the present invention with an element; And the hook-holding part 221 of first execution mode by extension 22 extend setting, in the 4th execution mode then by extended setting by substrate 21; And supporting bracket 23 elements of first execution mode, then by extended setting by substrate 21, therefore, second execution mode can promptly can form flash memory card hooking structure of the present invention by an element in the 4th execution mode.

Then, the difference of the 4th execution mode and second execution mode is structural difference, mainly be the hook-holding part 221 of second execution mode by extension 22 extend setting, in the 4th execution mode then by extended setting by substrate 21; Supporting bracket 23 elements of first execution mode, in the 4th execution mode then by being extended setting by substrate 21; And supporting bracket 23 elements of first execution mode then by extended setting by extension board 22, therefore, can be found out structural difference in second execution mode.

Then, the difference of the 4th execution mode and the 3rd execution mode is structural difference, mainly be the hook-holding part 221 of the 3rd execution mode by extension 22 extend setting, in the 4th execution mode then by extended setting by substrate 21; Supporting bracket 23 elements of first execution mode, in the 4th execution mode then by being extended setting by substrate 21; And supporting bracket 23 elements of first execution mode then by extended setting by substrate 21, therefore, can be found out structural difference in the 3rd execution mode.

Therefore; Substrate 21 both sides are respectively equipped with retaining element 211; And be located at external 212 of substrate 21, the another side with respect to external 212 is defined as datum level 213, in substrate 21 upper sides; And extending at least one hook-holding part 215 perpendicular to the direction of datum level 213, hook-holding part 215 is held the protuberance 11 of flash memory 10 in order to hook; In substrate 21 lower side, and extend a support portion 214, when the protuberance 11 of flash memory 10 is held in hook-holding part 215 hooks in support portion 214, support the usefulness of flash memory 10 perpendicular to the direction of datum level 213.

Below will explain in above-mentioned four execution modes can common application other architectural feature, and be the basis so that first execution mode is graphic, increase the explanation of architectural feature newly.

And please refer to shown in Fig. 6 A, Fig. 6 B and Fig. 6 C, Fig. 6 A comprises the withstanding part structural perspective for flash memory card hooking structure of the present invention; Fig. 6 B comprises the limiting section structural perspective for flash memory card hooking structure of the present invention; Fig. 6 C comprises the Handheld Division structural perspective for flash memory card hooking structure of the present invention.

Shown in Fig. 6 A; Flash memory card hooking structure 20 of the present invention; More can comprise at least one withstanding part 31, in first, second and the 3rd execution mode, withstanding part 31 is provided with in extending from extension board 22 perpendicular to the direction of datum level 213; And in the 4th execution mode, withstanding part 31 is provided with in extending from substrate 21 perpendicular to the direction of datum level 213.

See through and extend the withstanding part 31 that is provided with; Then can increase the retaining space between hook-holding part 221 and the extension board 22; Or the retaining space between hook-holding part 215 and the substrate 21; And when flash memory 10 was held by hook, the top that can see through withstanding part 31 is usefulness instead, and make flash memory 10 be held in hook-holding part 221 by hook accurately; Simultaneously can be with flash memory 10 via the retaining space between hook-holding part 221 and the extension board 22; Or the retaining space between hook-holding part 215 and the substrate 21, hold or remove hook and hold so that the mode that can see through rotary flash memory card 10 of having living space is carried out hook, promptly can increase the assembling mode of flash memory 10 and flash memory card hooking structure of the present invention 20.

Then, please refer to shown in Fig. 6 B flash memory card hooking structure 20 of the present invention; More can comprise at least one limiting section 32; Limiting section 32 among Fig. 6 B is arranged on the datum level 213 of substrate 21, but limiting section 32 is in first, second and the 3rd execution mode, on the datum level 213 that can be arranged at substrate 21; More can be arranged on the extended surface 223 of extension board 22, or be arranged on supporting bracket 23 or the support portion 222; And in the 4th execution mode, limiting section 32 is arranged on the datum level 213 of substrate 21, or is arranged on the support portion 214.

See through the limiting section 32 that is provided with; In the time of then can flash memory 10 being positioned over flash memory card hooking structure 20 of the present invention; Can locate the displacement that is unlikely to produce transverse horizontal after making flash memory held by 32 pairs of flash memories 10 of limiting section fast by hook.

Then, please refer to shown in Fig. 6 C, flash memory card hooking structure 20 of the present invention more can comprise Handheld Division 33, and in the first, second, third and the 4th execution mode, Handheld Division 32 is all on external 212 that is arranged at substrate 21.

See through the Handheld Division 33 that is provided with; The user then can see through the action that the 33 pairs of flash memory card hooking structures 20 of the present invention in Handheld Division are substituted flash memory 10, and Handheld Division 33 can be arranged at external 212 center, makes that seeing through Handheld Division 33 carries out flash memory 10 when substituting; The point of application can fall within external 212 center; To substitute flash memory 10, can avoid seeing through retaining element 211 whereby and carry out flash memory 10 when substituting, because the point of application is positioned at external 212 left and right sides; And make and to substitute the flash memory 10 uneven problem of the left and right sides application of force that produces, can substitute flash memory 10 more smoothly.

For above-mentioned withstanding part 31, limiting section 32 and Handheld Division 33, in the corresponding different execution modes, can comprise three architectural features simultaneously, for example: in first execution mode, comprise withstanding part 31, limiting section 32 and Handheld Division 33 simultaneously; Also can choose two architectural features wantonly, for example: in the 3rd execution mode, only comprise withstanding part 31 and limiting section 32, or limiting section 32 and Handheld Division 33; Also can only select an architectural feature, for example: in the 4th execution mode, only comprise withstanding part 31, or in second execution mode, only comprise limiting section 32; For example different embodiment and various structure characteristic are carried out various permutation and combination methods through above-mentioned, can expand multiple execution mode of the present invention.

After component structure has been described, then, flash memory 10 of the present invention and flash memory card hooking structure of the present invention 20 assembling process is described, and please refer to Fig. 7 A, Fig. 7 B, Fig. 7 C and shown in Figure 8.

Fig. 7 A is flash memory of the present invention and the flash memory card hooking structure first assembling mode stereogram; Fig. 7 B is flash memory of the present invention and the flash memory card hooking structure second assembling mode assembling process planar side view; Fig. 7 C is flash memory of the present invention and flash memory card hooking structure second assembling mode assembling completion planar side view; Fig. 8 is flash memory of the present invention and the actual stereogram that uses of flash memory card hooking structure assembling completion.

Shown in Fig. 7 A; Flash memory card hooking structure 20 of the present invention can be along the direction of datum level 213 levels with flash memory 10; With the direction of arrow of flash memory 10 on Fig. 7 A figure; Flash memory 10 is assembled on the flash memory card hooking structure 20 of the present invention, or takes out flash memory 10 from flash memory card hooking structure 20 of the present invention, this is first assembling mode of flash memory 10 and flash memory card hooking structure 20.

Then, please refer to shown in Fig. 7 B, at first with angle of flash memory 10 inclinations; And the protuberance 11 of flash memory 10 is positioned over the space between hook-holding part 221 and datum level 213 or the extended surface 223; Then, the direction of arrow on Fig. 7 B figure rotates in a counter-clockwise direction flash memory 10 downwards (direction of rotation is according to graphic illustrated); When flash memory 10 smooth during in supporting bracket 23 or support portion 214; The protuberance 11 of flash memory 10 can just in time be held by hook-holding part 221 hooks, accomplish that flash memory 10 is assembled on the flash memory card hooking structure 20, its result is shown in Fig. 7 C.

Above-mentioned assembling process is second assembling mode of flash memory 10 and flash memory card hooking structure 20, and takes out the inverse operation that flash memories 10 are the aforesaid operations process from flash memory card hooking structure 20 of the present invention, no longer gives unnecessary details at this.

At last; Please refer to shown in Figure 8ly, after flash memory 10 and flash memory card hooking structure 20 combinations are accomplished, promptly can see through flash memory card hooking structure 20 of the present invention flash memory 10 is inserted in the industrial computers 40; And see through flash memory card hooking structure 20 of the present invention and can plug flash memory 10 quickly and easily; Then 40 data that can read in the flash memory 10 of industrial computer make industrial computer 40 runnings, and; With the retaining element on the flash memory card hooking structure 20 211; Be fixed in industrial computer 40 co-operating members 41, can prevent effectively then that flash memory 10 from getting loose easily to cause industrial computer 40 to work as machine, and can reach and keep the stable effect of industrial computer running.

In sum; But the difference between knowledge capital invention and the prior art is to have a support portion and an extension; See through the hook-holding part hook that extension extended and hold flash memory; And support flash memory with the support portion, and can be when the enterprising capable flash memory plug of the fast-flash memory card slot of industrial computer, can plug more quickly and easily and fixing flash memory.

Can solve by this technological means and to substitute flash memory inconvenience and flash memory in the existing industrial computer of prior art and get loose easily and cause industrial computer to work as the problem of machine, and then reach and conveniently substitute flash memory and keep the stable technological effect of industrial computer running.

Though the disclosed execution mode of the present invention as above, only described content is not in order to direct qualification scope of patent protection of the present invention.Technical staff in the technical field under any the present invention under the prerequisite that does not break away from disclosed spirit of the present invention and scope, can do a little change what implement in form and on the details.Scope of patent protection of the present invention, still must with appended claim the person of being defined be as the criterion.

Claims (18)

1. a flash memory card hooking structure is used for hook and holds a flash memory, and this fast-flash memory is arranged with a protuberance, and this flash memory card hooking structure comprises:

One substrate, these substrate both sides are respectively equipped with a retaining element, and this retaining element is located at external of this substrate, is defined as a datum level with respect to this another side of external; And

One extension board is fixed on this datum level of this substrate, and extends at least one hook-holding part in this extension board upper side perpendicular to the direction of this datum level, and this hook-holding part is held this protuberance of this flash memory in order to hook; Extend a support portion in this extension board lower side perpendicular to the direction of this datum level, when this protuberance of this flash memory is held in this hook-holding part hook in this support portion, be used to support this flash memory.

2. flash memory card hooking structure as claimed in claim 1, wherein this extension board more comprises perpendicular to this datum level and extends at least one withstanding part.

3. flash memory card hooking structure as claimed in claim 1, wherein this substrate, this extension board or this support portion more comprise at least one limiting section.

4. flash memory card hooking structure as claimed in claim 2, wherein this substrate, this extension board or this support portion more comprise at least one limiting section.

5. flash memory card hooking structure as claimed in claim 1, wherein this external face of this substrate more is provided with a Handheld Division.

6. flash memory card hooking structure as claimed in claim 1; Wherein this support portion length is between this flash memory length between half the and this flash memory length, and this support portion width is between this flash memory width between half the and this flash memory width.

7. a flash memory card hooking structure is used for hook and holds a flash memory, and this fast-flash memory is arranged with a protuberance, and this flash memory card hooking structure comprises:

One substrate, these substrate both sides are respectively equipped with a retaining element, and this retaining element is located at external of this substrate, is defined as a datum level with respect to this another side of external, extends a support portion in this substrate lower side perpendicular to the direction of this datum level; And

One extension board; Be fixed on this datum level of this substrate; And extend at least one hook-holding part perpendicular to the direction of this datum level in this extension board upper side; This hook-holding part is held this protuberance of this flash memory in order to hook, and this support portion is used to support this flash memory when this hook-holding part hook is held this protuberance of this flash memory.

8. flash memory card hooking structure as claimed in claim 7, wherein this extension board more comprises perpendicular to this datum level and extends at least one withstanding part.

9. flash memory card hooking structure as claimed in claim 7, wherein this substrate, this extension board or this support portion more comprise at least one limiting section.

10. flash memory card hooking structure as claimed in claim 8, wherein this substrate, this extension board or this support portion more comprise at least one limiting section.

11. flash memory card hooking structure as claimed in claim 7, wherein this external face of this substrate more is provided with a Handheld Division.

12. flash memory card hooking structure as claimed in claim 7; Wherein this support portion length is between this flash memory length between half the and this flash memory length, and this support portion width is between this flash memory width between half the and this flash memory width.

13. a flash memory card hooking structure is used for hook and holds a flash memory, this fast-flash memory is arranged with a protuberance, and this flash memory card hooking structure comprises:

One substrate; These substrate both sides are respectively equipped with a retaining element; This retaining element is located at external of this substrate; Be defined as a datum level with respect to this another side of external, extend at least one hook-holding part perpendicular to the direction of this datum level in this substrate upper side, this hook-holding part in order to hook hold this flash memory this protuberance; Extend a support portion in this substrate lower side perpendicular to the direction of this datum level, when this protuberance of this flash memory is held in this hook-holding part hook in this support portion, be used to support this flash memory.

14. flash memory card hooking structure as claimed in claim 13, wherein this substrate more comprises perpendicular to this datum level and extends at least one withstanding part.

15. flash memory card hooking structure as claimed in claim 13, wherein this substrate or this support portion more comprise at least one limiting section.

16. flash memory card hooking structure as claimed in claim 14, wherein this substrate or this support portion more comprise at least one limiting section.

17. flash memory card hooking structure as claimed in claim 13, wherein this external face of this substrate more is provided with a Handheld Division.

18. flash memory card hooking structure as claimed in claim 13; Wherein this support portion length is between this flash memory length between half the and this flash memory length, and this support portion width is between this flash memory width between half the and this flash memory width.

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