TWM324877U - Stacked SIM card connector - Google Patents

Description

‘ M324877 VIII. New Description: [New Technology #r field] This creation is about a kind of electronic card connector, especially about the cascading user identification card connector. [Prior Art] With the development of mobile communication technology, mobile phones have become a communication tool that people are increasingly relying on. More and more people are starting to have multiple phone numbers to meet their social needs, which has led to the development of technology for card-to-multiple or one-camera multi-card. In the case of a multi-card, it is possible to use more than two SIM cards at the same time. To achieve the above objectives, conventional manufacturers mostly arrange two SIM card connectors side by side on a circuit board, which is similar in structure to a combined electronic card connector 8 as shown in the figure. The conventional combined electronic card connector 8 is used for a SIM card and an SD card (not shown), and comprises a housing 80 made of insulating plastic and a plurality of units mounted on the housing. A terminal (not shown) and a second terminal 81, and a mask 82 for masking external signal interference. The mask body 82 is fastened to the casing 80 and cooperates with the casing 8 to form an accommodation space at the front end opening. A middle portion 83 extends vertically from the middle of the casing 80, and the intermediate wall 83 divides the accommodating space into a first accommodating space 84 and a accommodating space 85 which are juxtaposed. The first terminal is engageable with an SD card inserted into the first accommodating space 84, and the second terminal 81 is splicable with a SIM card inserted into the second accommodating space 85. Since the combined electronic card connector has two electronic card connectors arranged side by side on a circuit board, which occupies more board space, the size of the product increases, and it is difficult to adapt to the miniaturization of the product. Therefore, it is necessary to improve the M324877 step, instead of just satisfying the functional requirements. [New content] This creation mainly provides a cascading user identification card connector, which can connect multiple thin cards at the same time without occupying too many boards. space. -

The present invention provides the following (4): a stacked (10) household identification card connector, which includes a first insulating body, a second insulating body, and a plurality of first and second insulating bodies respectively received in the first and second insulating bodies. And two shielding terminals, and a shielding housing that shields the first and second insulating bodies. The first insulating body is disposed above the second insulating body and defines a first card space. The second insulating body defines a second card space. The first and second insulating bodies are provided with a plurality of card blocks, and the corresponding shielding holes are provided with a plurality of corresponding card holes. In one embodiment, the first insulative housing includes a first base portion and a first mounting portion disposed at a four-end corner of the first base portion; the second insulative housing includes a second base portion and is disposed on the second base portion a second fitting portion of the corner. Each of the blocks is disposed on an outer side of the opposite side walls of the first and second base portions, and the shielding body has an upper cover and a side wall extending from both sides of the width direction of the upper cover. The side wall of the housing is shielded. In another embodiment, the shield housing further includes a plurality of securing portions extending from the sidewall thereof. The distance between the inner sides of the corresponding first fitting portions in the two width directions of the first insulative housing is greater than the width of the base portion of the first insulative housing; and the widths of the first base portion and the second base portion are smaller than the width of the shielding housing. The length of the outer side of the two corresponding first fitting portions in the longitudinal direction of the first insulating body is smaller than the distance between the inner sides of the two corresponding second fitting portions in the longitudinal direction of the second insulating body; and the length of the first insulating body M324877 is upwardly corresponding The distance between the inner sides of the first fitting portion is greater than the length of each side wall of the shielding housing. The side walls of the first and second base portions of the first and second base portions respectively protrude outwardly, and the mounting portions on the same side are received between the second assembly portions on the same side, The assembly portion and the second assembly portion are assembled to have a bottom surface located in the same plane. The first and second conductive terminals respectively include a contact portion, a soldering portion, and a connecting portion connecting the contact portion and the soldering portion, wherein the contact portions of the first conductive terminals protrude in the first card space. The soldering portion extends at a rear end of the first base portion, and the contact portions of the second conductive terminals protrude in the second card space, and the solder portions extend outside the front and rear ends of the second base portion, respectively. Compared with the prior art, the SIM card connector of the present invention adopts a cascading structure; while achieving simultaneous connection of multiple SIM cards, it does not occupy too much space of the circuit board, which is advantageous for miniaturization of the product; The mutual snapping action between the plurality of card blocks on the first and second insulative housings and the corresponding card holes provided on the shielding housing makes the connector easier to assemble. [Embodiment] In order to facilitate a better understanding of the present invention, a preferred embodiment of the present invention will now be described in detail. As shown in FIG. 2 and FIG. 3, a stacked SIM card connector 1 according to an embodiment of the present invention includes a first insulative housing 2 and a second insulative housing 3 disposed under the first insulative housing 2, respectively. The first and second conductive terminals 4 and 5 of the first and second insulative housings 2, 3 and the shielding case 6 shielding the first and second insulative housings 2, 3. The first and second insulating bodies 2, 3 respectively M324877

The card slot space 20 and the second card slot space 30 are provided for the two SIM cards 7 to be simultaneously inserted into the SIM card connector port, and the card connector is soldered to the circuit board P. As shown in FIGS. 4 and 5, the first insulative housing 2 includes a first base portion and a first mounting portion 22 that is recognizable at the four end corners of the first base portion 21 and protrudes outwardly from the first side wall 24, respectively. . The first base portion 21 is formed with a plurality of first terminal receiving grooves extending in the insertion direction A (longitudinal direction) of the SIM card 7, and the first φ# card space 20 is formed to be recessed downward from the upper surface thereof. The second insulative housing 3 also includes a second base portion 31, and a second mounting portion 32 disposed at the four end corners of the second base portion 31 and projecting outwardly from the second side wall 34, respectively. The second base portion 31 is formed with a plurality of second terminal receiving grooves μ extending in the longitudinal direction, and the first card space 30 is formed to be recessed downward from the upper surface thereof. The first and second base portions 21, 31 are opposite to the outer sides of the first side wall 24 and the second side wall 34, respectively, without a plurality of blocks 10, and the first fitting portion 22 and the second fitting portion 32 each have a bottom surface 25 35, the bottom surfaces 25, 35 face the connected circuit board p. The first and second conductive terminals 4 and 5 of the edging and the like respectively comprise a contact portion 4, 50, a soldering portion 41, 51, and a connecting portion 42 connecting the contact portion 40, 50 and the soldering portion 41, 51, 52. The contact portion 40 of the first conductive terminals 4 protrudes into the first card space 20. The solder portion 41 extends outside the rear end 11 of the first base portion 21 (with the insertion end 12 of the SIM card connector 1 as the front end). The contact portions 50 of the second conductive terminals 5 protrude into the second card space 3A, and the solder portions 51 extend outside the front and rear ends 12, u of the second base portion 31, respectively. The shield case 6 has an upper cover 60 and side walls 61 which are bent and extended from both sides of the upper cover 6''. Each of the side walls 61 is provided with a plurality of card holes 62 corresponding to the blocks 10 of the first and second insulative housings 2, 3, M324877, and the lower side of the side walls 61 is bent outwardly from the side walls 61. Each of the fixing portions 63 has a bottom surface 63 1 facing the circuit board p. Referring to FIGS. 2, 3, and 4, when assembled, the first mounting portions 22 of the first insulative housing 2 are first corresponding to the four second mounting portions 32. The position is placed directly on the second insulative housing 3. At this time, the four first mounting portions 22 are valleyd in the card insertion direction a between the second mounting portions 32 of the second insulative housing 3, and the bottom surfaces are 35 Both are in the same plane at the same time, due to the special size design between the first and second fitting portions 22, 32 (described in detail below), the two are fixed in the card insertion direction A, and the two insulating bodies 2, 3 The cooperation can position the Μ% card 7 in the second card space 3〇; then the shielding case 6 is vertically inserted through the card hole 62 and the card block 1 ,, in the vertical direction The two insulating bodies 2, 3 are fixed, and the upper cover 6 of the shielding case 6 cooperates with the first base 21 of the first insulative housing 2 to position a SIM card 7 in the first card space 20. At this time, the bottom surface 2S, % of the first fitting portion 22 and the second fitting portion 32 and the bottom surface 631 of the fixing portion 63 of the insulating body 6 are simultaneously in one plane. Therefore, the fixing portion 63 is finally soldered to the circuit board p to achieve a fixing function, and the soldering portion 上述 of the first conductive terminal 4 and the soldering portion 51 of the second conductive terminal 5 are soldered on the circuit board p, and finally the cascading is achieved. The purpose of the SIM card connector 1 is fixed to the circuit board P. Further, in conjunction with FIGS. 6(a) to (c), since the first and second insulating bodies 2, 3 and the shielding case 6 of the laminated SIM card connector 1 are assembled later, the dimensional cooperation therebetween especially important. As shown in FIG. 6(b), the distance W1 between the inner sides of the respective first first fitting portions 22 in the width direction of the first insulative housing 2, M324877, is slightly larger than the width W2 of the second base portion 31 of the second insulative housing 3. And the width W3 of the first base portion 21 and the second base portion 31 is slightly smaller than the width W4 of the shielding case 6. As shown in FIG. 6(d), the length L1 of the outer side of the two corresponding first fitting portions 22 in the longitudinal direction of the first insulative housing 2 is slightly smaller than the inner side of the two corresponding second fitting portions 32 in the longitudinal direction of the second insulative housing 3. The distance L2 between the two sides of the respective first mounting portions 22 in the longitudinal direction is slightly larger than the length L4 of the side walls 61 of the shielding housing 6, so that the shielding housing 6 can be secured. Covering the first insulative housing 2; and the first insulative housing 2 is spanned over the second insulative housing 3 to reduce the height of the SIM card connector 1 as much as possible. Referring to FIG. 7, the first and second conductive terminals 4, 5 are soldered to the corresponding pads PI, P2 on the circuit board p, and the fixing portion 63 of the shielding case 6 is further fixed to the circuit board p. In the embodiment, the soldering is performed, and the laminated SIM card connector 1 can be firmly fixed to the circuit board p for the corresponding S] [M card 7 interposed. The SIM card connector of the present invention adopts a cascading structure, and changes the pattern in which a plurality of electronic card connectors are juxtaposed in the prior art, thereby reducing the space occupied on the circuit board, thereby facilitating product miniaturization and assembling. In this case, it is only necessary to assemble the insulating body and the shielding case by directly snapping the card block to the card hole provided on the shielding case. The technical content and technical features of the present invention have been disclosed as above, but those skilled in the art may still make various substitutions and modifications without departing from the spirit of the present invention based on the teachings and disclosures of the present invention. Therefore, the scope of protection of this creation should not be limited to the contents disclosed in the examples, but should include various substitutions and modifications that do not depart from the creation of this M324877 and are covered by this patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a conventional modular electronic card connector; FIG. 2 is a perspective view of a SIM card connector according to the present invention; FIG. 3 is a SIM card connector setting according to the present invention. 3 is a perspective view of a SIM card connector according to the present invention; FIG. 4(a) is a top view of a SIM card connector according to the present invention; 6(b), 6(c), and 6(d) are cross-sectional views taken along lines AA, BB, and CC of Fig. 6(a), respectively; and Fig. 7 is a sim card connector according to the present invention. A perspective view of a circuit board when two SIM cards are housed. [Main component symbol description] 1 SIM card connector 2 First insulative housing 3 Second insulative housing 4 First conductive terminal 5 Second conductive terminal 6 Shading housing 7 SIM card 8 Combined electronic card connector 10 After block 11 End 12 Front end 20 First card space 21 First base 22 First mounting portion 23 First terminal receiving groove 24 First side wall 25 bottom surface 30 Second card space 31 Second base 32 Second mounting portion 33 Second terminal Storage slot 34 Second side wall -11- • M324877 35 bottom surface 40 41 soldering portion 42 50 contact portion 51 52 connecting portion 60 61 side wall 62 63 fixing portion 631 P circuit board P1, contact portion connecting portion soldering portion upper cover card hole bottom surface P2 pad

Claims (1)

M324877 IX. Patent application scope: 1. A layer φ type user identification card connector, comprising: a first insulating body defining a first card space; a second insulating body defining a second card space a plurality of first and second conductive terminals respectively received in the first and second insulative housings; and a shielding housing that shields the first and second insulative housings; wherein the first insulative housing spans the second A plurality of card blocks are disposed on the insulative body, and the plurality of card holes are respectively disposed on the shielding body to respectively latch the corresponding card blocks. The cascading user identification card connector of claim 1, wherein the first insulative housing comprises a first base portion and a first mounting portion disposed at a four-end corner of the first base portion; the second insulative housing includes a first a second base portion and a second mounting portion disposed at a four-corner corner of the second base portion. 3. The cascading user identification card connector of claim 2, wherein the respective card blocks are respectively disposed outside of opposite side walls of the first and second base portions, the shielding λ body having an upper cymbal and the upper side The side walls of the width direction are bent to extend the side walls, and the card holes are correspondingly disposed on the side walls of the shielding shell. 4. The stacked user identification card connector of claim 3, wherein the shield housing further comprises a plurality of securing portions extending from the side wall. 5. The cascading user identification card connector of claim 3, wherein a distance between the corresponding inner sides of the first fitting portions in the width direction of the first insulative housing is greater than a width of the second base portion; and the A base and the width of the first base are smaller than a width of the shielding shell. • M324877 insulated 1 body two-layer $ user identification card connector, wherein the first is smaller than the first: two:: two corresponding lengths in the length of the outer portion of the first outer portion of the first assembly portion The second assembly, the distance between the shells 1; and the distance between the two corresponding first portions of the first portion in the longitudinal direction is greater than the length of each side wall of the shield housing. 0.7. The stacking of claim 3 a user identification card connector, wherein the first mounting portion and the second fitting portion respectively protrude outward along side walls of the first base portion and the second base portion, and the first fitting portion on the same side Between the second fitting portions on the same side, the first fitting portion and the second fitting portion are assembled to have bottom surfaces in the same plane. The cascading user identification card connector of claim 2, wherein the plurality of second conductive terminals respectively comprise a contact portion, a soldering portion, and a connecting portion connecting the contact portion and the soldering portion, the plurality of a contact portion of a conductive terminal protrudes from the first card space, the solder portion extends to a rear end of the first base portion, and a contact portion of the plurality of second conductive terminals protrudes from the second insertion In the card space, the welded portions respectively extend outside the front and rear ends of the second base.