CN203387023U - SD card adapter - Google Patents

Abstract

The utility model discloses a SD card adapter. The SD card adapter comprises a converter main body and a terminal assembly arranged in the converter main body, wherein the front end of the converter main body is equipped with an inserting and embedding cavity in which a miniature storage card can be inserted, and the back end is equipped with an exposing window from which a second contact part of a terminal in the terminal assembly can be exposed. The terminal assembly comprises an insulator and a terminal fixed in the insulator, wherein a first contact part and a second contact part in the terminal are exposed out of the inserting and embedding cavity and the exposing window respectively, a third contact point used for grounding and a sixth contact point in the second contact part and a third contact point used for grounding in the first contact part are conducted via a metal sheet bar to be grounded, and the metal sheet bar is located below the whole terminal assembly, so that all the contact points of the second contact part are flat and are in equal altitude distribution. The SD card adapter of the utility model has a simple structure, a good shielding function and a high-speed transmission speed, and is easy to assemble.

Description

A kind of SD card adapter

Technical field:

The utility model relates to the storage card product technical field, refer in particular to a kind of simple in structure, assemble simple and easy, and the SD card adapter with high-speed transfer speed and good shielding.

Background technology:

Along with the continuous renewal of digital product, with the development of computer technology, the development trend of each electronic product has started towards volume less, and processing speed is faster, uses direction more easily to stride forward.In realizing the process that this technology innovation is regenerated, TF card (TransFlash) and miniSD card have appearred, allow electronics savings technology that significant change has occurred, while has also obtained significantly expansion for the capacity of the portable mobile apparatus such as mobile phone, therefore, TF card and miniSD card have become the main flow storage card of public use.

But, the card type that the card reader that at present notebook refers to carry can be identified is SD(Secure Digital Memory Card) block, and the storage card used in digital camera is also SD card or MMC(MultiMedia Card) card, the size of current SD card is 24mm x32mm x2.1mm(width x length x thickness), mmc card, it is multimedia card, its size is 24mm x32mm x1.4mm(width x length x thickness), and the size of TF card and miniSD card is respectively: 11mm x15mm x1mm(width x length x thickness) and 20mm x21.5mm x1.4mm(width x length x thickness), therefore under many circumstances, TF card and miniSD card as the main flow storage card all can't be used on notebook computer and digital camera, therefore, the SD card adapter has appearred.

The SD card adapter occurred at present generally comprises: switch main body, the terminal assemblies that is installed in switch main body and is electrically connected for the card connector of using with mini memory card and large-scale storage card, wherein, the switch main body front end is formed with the slotting embedding cavity for inserting for mini memory card, this switch main body rear end is formed with the window that exposes appeared for the second contact site for the terminal assemblies terminal, see Fig. 1, shown in 2, for the terminal 4 in terminal assemblies, the second contact site 41 of this terminal 4 includes nine contact points, wherein, the 3rd contact point 413 in the second contact site 41 and the 6th contact point 416 are for ground connection, the end of the 3rd contact point 413 and the 6th contact point 416 is all to downward-extension and be bent to form kink 401, 402, between the kink 401 of the 3rd contact point 413 and the kink 402 of the 6th contact point 416, one is fixed with a connector 403, make the 3rd contact point 413 and the 6th contact point 416 conductings.Because kink and the 6th contact point of the 3rd contact point all has outwardly kink, make the terminal assemblies out-of-flatness, cause terminal assemblies larger installing space of needs when assembling, in addition, due to the thickness of switch main body again in certain scope, so need to consider more factor at above-mentioned terminal when assembling, therefore can greatly improve the assembly difficulty of whole SD card adapter.

The utility model content:

The purpose of this utility model is to overcome the deficiencies in the prior art, provide a kind of simple in structure, assemble simple and easy, and the SD card adapter with high-speed transfer speed and good shielding.

In order to solve the problems of the technologies described above, the utility model has adopted following technical proposals: this SD card adapter comprises: switch main body, be installed on the terminal assemblies that the card connector in switch main body is electrically connected, wherein, the switch main body front end is formed with the slotting embedding cavity for inserting for mini memory card, this switch main body rear end is formed with the window that exposes appeared for the second contact site for the terminal assemblies terminal, described terminal assemblies comprises: an insulator and one are fixed in the terminal in insulator, wherein, the first contact site in this terminal and the second contact site are revealed in respectively described slotting embedding cavity and expose in window, in the second contact site for the 3rd contact point of ground connection, in the 6th contact point and the first contact site for ground connection the 3rd contact point by a metal sheet conducting to form ground connection, and metal sheet is positioned at whole terminal assemblies below, make the smooth and contour distribution that has point of contact of the second contact site.

Furthermore, in technique scheme, described terminal comprises: main part and take shape in respectively the first contact site and second contact site of main part rear and front end, wherein, the 6th contact point in the second contact site is an individual components, and connects with described metal sheet.

Furthermore, in technique scheme, described metal sheet is positioned at insulator below, and the metal sheet surface is provided with for the isolated dielectric film of terminal and highlight outside this dielectric film and be respectively used to the first resilient contact, the second resilient contact and the 3rd resilient contact that the 3rd contact point with the 6th contact point of the second contact site and the 3rd contact point and the first contact site connects.

Furthermore, in technique scheme, be formed with interval between described terminal, between its main part, by the first brace is stable, connect, between the front end had point of contact of the second contact site, by the second brace is stable, connect, corresponding, described insulator to should the first brace and the position of the second brace be formed with first, two hole punchings, after making the terminal one be fixed in insulator, by Die cutting tool pass this first, two hole punchings cut off the first brace and the second brace respectively, make between terminal and not connecting, the 6th contact point in the second contact site is independent.

Furthermore, in technique scheme, described switch main body comprises: matrix and the lid be fastened on matrix, form described slotting embedding cavity between this matrix and lid and be positioned at and insert embedding cavity rear and, for assembling the first cavity of described terminal assemblies, described metal sheet inlay card is in this first cavity.

Furthermore, in technique scheme, described the first cavity front end is formed with for described terminal is carried out to spacing stopper slot.

Furthermore, in technique scheme, be provided with a switch lock component between described matrix and lid, make matrix and lid form firm assembling, and make the 6th contact point in the second contact site and the 3rd contact point and the first resilient contact in described metal sheet, the second resilient contact and the 3rd resilient contact conflict conducting of the 3rd contact point and the first contact site.

Furthermore, in technique scheme, described matrix one side is formed with the first recess, in this first recess side, is provided with one first chute, and this first chute is formed with a projection towards the sidewall of the first recess; In the corresponding matrix of described lid, the position of the first recess is formed with the second recess.

Furthermore, in technique scheme, described switch lock component is a slide block, and this upper end of slide block is formed with one for first groove inconsistent with lid the second recess, and its lower end is formed with the second groove; On the slide rail that this second groove buckle closure consists of the first chute and the first recess in matrix, make the switch lock component slide in slide rail, when the second groove of switch lock component is placed in described the first chute wall protruding, tighten sealed between matrix and lid.

After adopting technique scheme, the utility model has following beneficial effect compared with prior art:

1, because the 3rd contact point and the 6th contact point for ground connection in the second contact site passes through ground connection on a metal sheet, make the institute of the second contact site have point of contact smooth and contour, installing space required while making the second contact site assembling is less, assembles up very easy.

2, in the utility model, between terminal, by first and second brace one, fix, form a firm integral body, make terminal with the fixing process of insulator in keep moulding, can not be out of shape or crooked, fixedly be mounted with in order to form one with insulator, be conducive to improve efficiency of assembling.After with insulator, forming the fixing assembling of one, disposable first and second brace that blocks, swift to operate, easy.

3, the metal sheet of installing in the utility model can play good shielding (EMA) function, in addition, make the 6th contact point in the second contact site and the 3rd contact point electrical contact of the 3rd contact point and the first contact site by metal sheet, such structure can improve the transmission speed of whole adapter, through test, draw, than the high 10%-15% of transmission speed of the SD card adapter formed, the utlity model has transmission speed at a high speed.

The accompanying drawing explanation:

Fig. 1 is the front view of terminal in existing SD card adapter;

Fig. 2 is the vertical view of terminal in existing SD card adapter;

Fig. 3 is stereogram of the present utility model;

Fig. 4 is the stereogram at another visual angle of the utility model;

Fig. 5 is three-dimensional exploded view of the present utility model;

Fig. 6 is the stereogram of matrix in the utility model;

Fig. 7 is the assembling schematic diagram (after removing insulator) of metal sheet and terminal in the utility model;

Fig. 8 is schematic diagram when in the utility model, terminal does not assemble with insulator;

Fig. 9 is the stereogram of switch lock component in the utility model;

Description of reference numerals:

1 switch main body 100 is inserted embedding cavity 101 and is exposed window 102 first cavitys

103 stopper slot 11 matrix 111 first recess 112 first chutes

113 projection 114 first tank 115 axis 116 card convexs

12 lid 121 second recess 122 hole clipping 123 draw-in grooves

124 second tank 125 breach 13 switch lock component 131 first grooves

132 second groove 2 terminal assemblies 20 insulator 200 terminals

201 first hole punching 202 second hole punching 21 first contact site 211 first make contacts

212 second contact point 213 the 3rd contact point 214 the 4th contact point 215 the 5th contact points

216 the 6th contact point 217 the 7th contact point 218 the 8th contact point 22 second contact sites

221 first make contact 222 second contact point 223 the 3rd contact point 224 the 4th contact points

225 the 5th contact point 226 the 6th contact point 227 the 7th contact point 228 the 8th contact points,

229 the 9th contact point 23 main part 24 first brace 25 second braces

3 metal sheet 31 first resilient contact 32 second resilient contact 33 the 3rd resilient contacts

4 terminal 401 kink 402 kink 403 connectors

41 second contact site 413 the 3rd contact point 416 the 6th contact points

Embodiment:

Below in conjunction with specific embodiments and the drawings, the utility model is further illustrated.

Shown in Fig. 3-5, a kind of SD card adapter, it comprises: switch main body 1, be installed on the terminal assemblies 2 in switch main body 1, wherein, switch main body 1 front end is formed with the slotting embedding cavity 100 for inserting for mini memory card, this switch main body 1 rear end be formed with for the second contact site 22 for terminal assemblies 2 terminals 200, appear expose window 101.

Described mini memory card is TF card or miniSD card, and described large-scale storage card is SD card or mmc card.

Particularly, described switch main body 1 comprises: matrix 11 and the lid 12 be fastened on matrix 11 form described slotting embedding cavity 100 and are positioned at and insert embedding cavity 100 rears and for assembling the first cavity 102 of described terminal assemblies 2 between this matrix 11 and lid 12.

Shown in Fig. 6, described the first cavity 102 front ends are formed with for described terminal 200 is carried out to spacing stopper slot 103.

Be provided with a switch lock component 13 between described matrix 11 and lid 12, make matrix 11 and lid 21 form firm assembling.

Described matrix 11 1 sides are formed with the first recess 111, in these the first recess 111 sides, are provided with one first chute 112, and this first chute 112 is formed with a projection 113 towards the sidewall of the first recess 111.Be formed with described window 101 and the first tank 114 of exposing in described matrix 11.

In the corresponding matrix 11 of described lid 12, the position of the first recess 111 is formed with the second recess 121, be formed with the second tank 124 matched with described the first tank 114 in this lid 12, this first tank 114 and the second tank 124 coordinate the described slotting embedding cavity 100 of formation, wherein, these the second tank 124 front ends are formed with a breach 125, in order to extract, inject the mini memory card of inserting in embedding cavity 100.

Shown in Fig. 7, described switch lock component 13 is a slide block, and this upper end of slide block is formed with one for first groove 131 inconsistent with lid 12 second recess 121, and its lower end is formed with the second groove 132; On the slide rail 114 that these the second groove 132 buckle closures consist of the first chute 112 and the first recess 111 in matrix 11, make switch lock component 13 slide in slide rail 114, when the second groove 132 of switch lock component 13 is placed in the projection 113 of described the first chute 112 sidewalls, between matrix 11 and lid 12, tighten sealed.

Again in conjunction with shown in Fig. 5 and Fig. 6, the card convex 116 that is formed with a plurality of axis 115 and is positioned at marginal portion in described matrix 11, the draw-in groove 123 that is formed with a plurality of hole clippings 122 and is positioned at marginal portion in corresponding described lid 12 with it.When described matrix 11 assembles with lid 12, in matrix 11, axis 115 inlay cards are in the hole clipping 122 of lid 12, and card convex 116 inlay cards of matrix 11 marginal portions are in the draw-in groove 123 of lid 12 marginal portions, and it is sealed fixing to pass through described switch lock component 13.

In conjunction with Fig. 5 and Fig. 8, shown in 9, described terminal assemblies 2 comprises: an insulator 20 and one are fixed in the terminal 200 in insulator 20, wherein, the first contact site 21 in this terminal 200 and the second contact site 22 are revealed in respectively described slotting embedding cavity 100 and expose in window 101, in the second contact site 22 for the 3rd contact point 223 of ground connection, in the 6th contact point 226 and the first contact site 21 for ground connection the 3rd contact point 213 by metal sheet 3 conductings to form ground connection, and metal sheet 3 is positioned at whole terminal assemblies 2 belows, make the smooth and contour distribution that has point of contact of the second contact site 22.

After described matrix 11 forms firm assembling with lid 21, make the 6th contact point 226 and the 3rd contact point 213 of the 3rd contact point 223 and the first contact site 21 and the first resilient contact 31, the second resilient contact 32 and the 3rd resilient contact 33 conflict conductings in described metal sheet 3 in the second contact site 22.

Described terminal 200 comprises: main part 23 and take shape in respectively the first contact site 21 and second contact site 22 of main part 23 rear and front ends, wherein, the 6th contact point 226 in the second contact site 22 is an individual components, and with described metal sheet 3 conflict conductings.

Described metal sheet 3 is positioned at insulator 20 belows, and metal sheet 3 surfaces are provided with for the isolated dielectric film of terminal 200 and highlight outside this dielectric film and be respectively used to the first resilient contact 31, the second resilient contact 32 and the 3rd resilient contact 33 that the 3rd contact point 213 with the 6th contact point 226 of the second contact site 22 and the 3rd contact point 223 and the first contact site 21 connects.

Be formed with interval between described terminal 200, stablize and connect by the first brace 24 between its main part 23, stablize and connect by the second brace 25 between the front end had point of contact of the second contact site 22, corresponding, 20 pairs of described insulators should the first brace 24 and the position of the second brace 25 be formed with first, two hole punchings 201, 202, after making terminal 200 one be fixed in insulator 20, by Die cutting tool pass this first, two hole punchings cut off the first brace 24 and the second brace 25 respectively, make between terminal 200 and not connecting, the 6th contact point 226 in the second contact site 22 is independent.

First make contact 221 in described the second contact site 22, the second contact point 222, the 3rd contact point 223, the 4th contact point 224, the 5th contact point 225, the 7th contact point 227, the 8th contact point 228, the 9th contact point 229 respectively with described the first contact site 21 in first make contact 211, the second contact point 212, the 3rd contact point 213, the 4th contact point 214, the 5th contact point 215, the 6th contact point 216, the 7th contact point 217, the 8th contact point 218, wherein, the 3rd contact point 223 in the second contact site 22 connects with the second resilient contact 32 of metal sheet 3, and the 6th contact point 226 in the second contact site 22 connects with the first resilient contact 31 of metal sheet 3, form an independent sector, but with the 3rd contact point 223 conductings in the second contact site 22.

The 3rd contact point 213 in described the first contact site 21 connects with the 3rd resilient contact 33 of metal sheet 3.

First make contact 221 in described the second contact site 22 is that data/card detects use, the second contact point 222 is that order is used, the 3rd contact point 223 is earthy, the 4th contact point 224 is that power supply is used, the 5th contact point 225 is that clock is used, and the 6th contact point 226 is earthy, and the 7th contact point 227 is that data are used, the 8th contact point 228 data are used, and the 9th contact point 229 data are used.

When assembling metal sheet 3 and terminal assemblies 2, first by metal sheet 3 inlay cards in described the first cavity 102, finally terminal assemblies 2 is positioned in this first cavity 102 again, wherein metal sheet 3 is positioned at the positive lower end of whole terminal assemblies 2, and the dielectric film by metal sheet 3 surfaces is insulated, and the first resilient contact 31 on metal sheet 3, the second resilient contact 32 and the 3rd resilient contact 33 respectively with the second contact site 22 in the 6th contact point 226 and the 3rd contact point 213 conflict conductings of the 3rd contact point 223 and the first contact site 21, such structure can play good shielding (EMA) function, in addition, can also improve the transmission speed of whole adapter, through test, draw, the high 10%-15% of transmission speed than the SD card adapter formed.

During use, after mini memory card being inserted to the slotting embedding cavity 100 of switch main body 1 front end formation, eight conductive contacts in mini memory card respectively with described the first contact site 21 in first make contact 211, the second contact point 212, the 3rd contact point 213, the 4th contact point 214, the 5th contact point 215, the 6th contact point 216, the 7th contact point 217, the 8th contact point 218, then with described the second contact site 22 in first make contact 221, the second contact point 222, the 3rd contact point 223, the 4th contact point 224, the 5th contact point 225, the 7th contact point 227, the 8th contact point 228, the 9th contact point 229 conductings, realize that mini memory card converts the function of large-scale storage card to.

Certainly, the foregoing is only specific embodiment of the utility model, be not to limit the utility model practical range, all equivalences of doing according to the described structure of the utility model claim, feature and principle change or modify, and all should be included in the utility model claim.

Claims (9)

1. a SD card adapter, it comprises: switch main body (1), be installed on the terminal assemblies (2) in switch main body (1), wherein, switch main body (1) front end is formed with the slotting embedding cavity (100) for inserting for mini memory card, this switch main body (1) rear end be formed with for the second contact site (22) for terminal assemblies (2) terminal (200), appear expose window (101)

It is characterized in that: described terminal assemblies (2) comprising: an insulator (20) and one are fixed in the terminal (200) in insulator (20), wherein, the first contact site (21) in this terminal (200) and the second contact site (22) are revealed in respectively described slotting embedding cavity (100) and expose in window (101), in the second contact site (22) for the 3rd contact point (223) of ground connection, in the 6th contact point (226) and the first contact site (21) for ground connection the 3rd contact point (213) by a metal sheet (3) conducting to form ground connection, and metal sheet (3) is positioned at whole terminal assemblies (2) below, make the smooth and contour distribution that has point of contact of the second contact site (22).

2. a kind of SD card adapter according to claim 1, it is characterized in that: described terminal (200) comprising: main part (23) and take shape in respectively the first contact site (21) and second contact site (22) of main part (23) rear and front end, wherein, the 6th contact point (226) in the second contact site (22) is an individual components, and connects with described metal sheet (3).

3. a kind of SD card adapter according to claim 2, it is characterized in that: described metal sheet (3) is positioned at insulator (20) below, and metal sheet (3) surface is provided with for the isolated dielectric film of terminal (200) and highlight outside this dielectric film and be respectively used to the first resilient contact (31), the second resilient contact (32) and the 3rd resilient contact (33) that the 3rd contact point (213) with the 6th contact point (226) of the second contact site (22) and the 3rd contact point (223) and the first contact site (21) connects.

4. a kind of SD card adapter according to claim 3, it is characterized in that: described terminal is formed with interval between (200), between its main part (23), by the first brace (24) is stable, connect, between the front end had point of contact of the second contact site (22), by the second brace (25) is stable, connect, corresponding, described insulator (20) to should the first brace (24) and the position of the second brace (25) be formed with first, two hole punchings (201, 202), after making terminal (200) one be fixed in insulator (20), by Die cutting tool pass this first, two hole punchings (201, 202) respectively the first brace (24) and the second brace (25) are cut off, make between terminal (200) and not connecting, the 6th contact point (226) in the second contact site (22) is independent.

5. a kind of SD card adapter according to claim 4, it is characterized in that: described switch main body (1) comprising: matrix (11) and the lid (12) be fastened on matrix (11), form described slotting embedding cavity (100) between this matrix (11) and lid (12) and be positioned at and insert embedding cavity (100) rear and, for assembling first cavity (102) of described terminal assemblies (2), described metal sheet (3) inlay card is in this first cavity (102).

6. a kind of SD card adapter according to claim 5, it is characterized in that: described the first cavity (102) front end is formed with for described terminal (200) is carried out to spacing stopper slot (103).

7. a kind of SD card adapter according to claim 5, it is characterized in that: be provided with a switch lock component (13) between described matrix (11) and lid (12), make matrix (11) and lid (21) form firmly assembling, and make the 6th contact point (226) and the 3rd contact point (213) of the 3rd contact point (223) and the first contact site (21) and the first resilient contact (31), the second resilient contact (32) and the 3rd resilient contact (33) the conflict conducting in described metal sheet (3) in the second contact site (22).

8. a kind of SD card adapter according to claim 7, it is characterized in that: described matrix (11) one sides are formed with the first recess (111), be provided with one first chute (112) in this first recess (111) side, this first chute (112) is formed with a projection (113) towards the sidewall of the first recess (111); In the corresponding matrix of described lid (12) (11), the position of the first recess (111) is formed with the second recess (121).

9. a kind of SD card adapter according to claim 8, it is characterized in that: described switch lock component (13) is a slide block, this upper end of slide block is formed with one for first groove (131) inconsistent with lid (12) second recess (121), and its lower end is formed with the second groove (132); On the slide rail (114) that this second groove (132) buckle closure consists of the first chute (112) and the first recess (111) in matrix (11), make switch lock component (13) slide in slide rail (114), when second groove (132) of switch lock component (13) is placed in the projection (113) of described the first chute (112) sidewall, between matrix (11) and lid (12), tighten sealed.

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