TWM412489U - Dual card connector - Google Patents

Description

M412489 V. New Description: [New Technology Field] This creation relates to an electronic device connector, and more particularly to a dual card connector. [Previous technology] Mobile phones are now an indispensable communication tool. With the fierce competition and the development of technology, the performance of mobile phones has been rapidly developed, such as dual card dual standby. The dual card dual standby of the current mobile phone is implemented by a dual card connector having two card slots. However, the two card slots on the dual-card connector are generally disposed at two different longitudinal positions of the insulating body, and the total lateral space is large, which is disadvantageous for the refinement of the mobile phone. In view of the above problems, it is urgent to use a dual-card connector with a small horizontal space to make the mobile phone more beautiful and convenient to carry. [New Content] The purpose of this creation is to provide a dual-card connector with a small horizontal space occupation in view of the above-mentioned deficiencies of the prior art. In order to achieve the above object, the present invention provides a dual card connector including an upper case, a lower case, an insulative housing, a tray, a plurality of conductive terminals, a first switch terminal, and a second switch terminal, an upper surface of the insulative housing and The lower surface is respectively provided with a terminal accommodating area, and the terminal accommodating area is correspondingly provided with a terminal slot for accommodating the conductive terminal, and the terminal groove is symmetrically arranged at the front end and the rear end of the terminal accommodating area, the terminal groove is oriented forward and backward and the opening is outward, and the insulating body The upper surface corresponding to the terminal receiving area is provided with a switch terminal slot, the first switch terminal is received in the switch terminal slot, the lower part of the insulating body is corresponding to the switch terminal slot, and the switch terminal mounting hole is opened, the switch terminal mounting hole and the switch terminal slot The second switch terminal is inserted into the switch terminal mounting hole and is in operative contact with the first switch terminal, and the upper casing and the lower 3 M412489 shell are respectively fixed on the upper end and the lower end of the insulating body, and the upper casing and the insulation are respectively insulated. Forming an opening between the bodies toward the front of the first card slot, forming a second opening toward the rear between the lower housing and the insulative housing The card slot has a double card placement space on the upper surface of the tray, and the tray is inserted into the second card slot from the opening of the second card slot. As described above, the upper surface and the lower surface of the insulative housing of the present dual-card connector respectively form first and second card slots between the upper and lower housings to realize the dual card dual standby function' The first and second card slots are located at the same longitudinal position, thereby saving the lateral space occupied by the connector; in addition, the openings of the first and second card slots are respectively located at the front end and the rear end, and the card insertion direction can be flexibly selected. [Embodiment] The technical contents, structural features, and effects achieved by the present invention will be described in detail below with reference to the embodiments and the accompanying drawings. Referring to the first to fourth figures, the creation of the dual card connector 1 includes an insulative housing 10, a plurality of conductive terminals, a pair of switch terminals, a tray 40, an upper housing 50, and a lower housing 60. Referring to the third and fourth figures, the upper surface and the lower surface of the insulative housing 1 are respectively provided with an upper terminal receiving region 11 and a lower terminal receiving region 12. The upper terminal receiving area 11 is provided with a plurality of upper terminal slots in which the upper terminal slots η are symmetrically arranged at the front end and the rear end of the upper receiving area 11, the upper terminal slots U1 are oriented forward and backward and the openings are outward; the lower terminal receiving area 12 is provided The lower terminal slots 121 are symmetrically arranged at the front end and the rear end of the lower terminal receiving area 12, and the lower terminal slots 121 are oriented forward and backward with the opening facing outward. In the present embodiment, the number of the upper terminal groove 111 and the lower terminal groove 121 is eight. The outer end of the upper terminal groove ill is recessed inwardly along its side wall to form an upper mounting fixing groove 1111; the outer end of the lower terminal groove 121 is recessed inwardly along the side wall thereof to form a lower mounting fixing groove 1211. A switch terminal slot 13 is provided on one side of the upper terminal accommodating area U, and a lower end of the insulative housing 10 is provided with a switch terminal mounting hole 14 corresponding to the switch terminal slot 13. Mounting side walls 15 are respectively disposed on two sides of the insulating body 1 , and a card slot 151 and a bayonet 152 are disposed on the outer side of the mounting side wall u. The card slot 151 is located above the bayonet 152 . The conductive terminal includes an upper conductive terminal 2〇1 and a lower conductive terminal 202. The upper conductive terminal 201 and the lower conductive terminal 202 have the same shape and structure. The conductive terminal includes a terminal mounting portion 21, a terminal soldering portion 22, and a terminal elastic contact portion 23. The terminal soldering portion 22 and the terminal elastic contact portion 23 are integrally connected to both ends of the terminal mounting portion 21, respectively. The terminal mounting portion 21 of the upper conductive terminal 201 is fastened in the upper mounting fixing groove 11U, and the terminal soldering portion 22 of the upper conductive terminal 2〇1 protrudes outwardly from the corresponding upper terminal slot 111, and the terminal of the upper conductive terminal 201 The contact portion 23 of the spring 14 is bent inwardly along the direction of the corresponding upper terminal groove hi and protrudes from the corresponding upper terminal slot m: the terminal mounting portion 21 of the lower conductive terminal 2〇2 is fastened in the lower mounting fixing groove 1211, The terminal soldering portion 22 of the conductive terminal 2〇2 protrudes outwardly from the corresponding lower terminal slot 121, and the terminal latch I1 of the lower conductive terminal 2〇1 is bent inward along the direction of the corresponding lower terminal slot 121. The corresponding lower terminal receiving groove 111 is extended and extended. Referring to the third and fourth figures, a pair of switch terminals includes a first switch terminal 31 and a second switch terminal 32. The first switch terminal 31 includes a first mounting portion 311, a first soldering portion 312, and a first resilient contact portion 313. The first welded portion 312 and the first elastic contact portion 313 are integrally connected to both ends of the first mounting portion 3 ι. The first mounting portion 311 is fastened in the upper mounting fixing slot mi, and the first soldering portion 312 protrudes outwardly from the first mounting portion 311 to the upper mounting fixing slot mi; the first elastic contact portion 313 is from the first mounting portion. The 311 extends inwardly along the direction of the switch terminal slot 13 and extends out of the switch terminal slot 13. The second switch terminal 32 includes a second mounting portion 321 , a second soldering portion 322 , and a second contact portion 323 . The second soldering portion 322 and the second contact portion 323 M412489 are integrally connected to the two ends of the second mounting portion 321 . . The second mounting portion 321 is fastened in the switch terminal mounting hole 14 , and the first soldering portion 312 protrudes outwardly from the second mounting portion 321 to the switch terminal mounting hole 14 ; the second contact portion 323 is from the second mounting portion 321 . The direction of the mounting hole 14 along the switch terminal extends straight inward. The first elastic contact portion 313 is in movably elastic contact with the second contact portion 323. The terminal soldering portion 22, the first soldering portion 312, and the second soldering portion 322 located at the front end of the insulative housing 10 are located on the same plane; and the plurality of terminal soldering portions 22 at the rear end of the insulative housing 10 are located on the same plane. The corresponding soldering portions of the front and rear ends of the insulative housing 10 are located on the same plane, which facilitates soldering the corresponding terminals to the same printed circuit board, which simplifies the processing process and improves the production efficiency. Referring to the third and fourth figures, the upper casing 50 includes an upper casing body 51 and a first cantilever 52 extending downward from both sides of the upper casing body 51. The first cantilever 52 protrudes inwardly from the upper end of the insulative housing 10, and the first block 521 is inserted into the slot 151. A first card slot 70 having an opening facing forward is formed between the upper casing 50 and the insulating body 10. A rear end of the upper casing 50 extends downwardly with a stopper 53 for blocking the electronic card to prevent the electronic card from being inserted. The lower casing 60 includes a lower casing main body 61 and a second cantilever 62 extending upward from the lower casing main body 61. The second cantilever 62 protrudes inwardly with a second block 621. The lower casing 60 is fixed to the lower end of the insulative housing 10, and the second block 621 is locked in the bayonet 152. A second card slot 80 having an opening rearward is formed between the upper casing 50 and the insulative housing 10. Referring to the third and fourth figures, the tray 40 is received in the second card slot 80. A card receiving groove 41 is defined in the upper surface of the tray 40. The rear end of the tray 40 is convexly provided with ribs 42 which are more advantageous for the extraction and loading of the tray 40. It should be noted that the card accommodating slot 41 of the present dual-card connector 1 可 can be a common card slot or a micro card slot. 6 M412489 As described above, the upper surface and the lower surface of the insulative housing 10 of the present dual-card connector 100 form first and second card slots 70, 80 respectively between the upper housing 50 and the lower housing 60, achieving double The card double standby function, and the first and second card slots 70, 80 are located at the same longitudinal position, thereby saving the lateral space occupied by the connector', which is advantageous for the mobile phone to be refined, beautiful and convenient to carry. [Simple description of the diagram] The first figure is a perspective view of the angle of the created dual-card connector.

The second figure is a perspective view of another angle of the present dual card connector. The third figure is an exploded view of the angle of the created dual card connector. The fourth figure is an exploded view of another angle of the created dual card connector. [Main component symbol description] Insulation body Terminal slot Lower terminal accommodation area Lower mounting fixing groove Switch terminal mounting hole Card slot

Double-card connector 100 Upper terminal receiving area 11 Mounting fixing groove 111 Lower terminal slot 121 Switch terminal slot 13 Mounting side wall 15 Bayonet 152 Lower conductive terminal 20 Terminal soldering portion 22 First switch terminal 31 First soldering portion 312 Second switch Terminal 32 second welded portion 322 tray 40 rib 42 10 1211 12 1211 14 151 201 21 23 311 313 321 323 41 upper conductive terminal terminal mounting portion terminal elastic contact portion first mounting portion first elastic contact portion second mounting portion Two contact card receiving slot upper housing 50 7 M412489 upper housing body 51 first * block 521 lower housing 60 second cantilever 62 first slot 70 first cantilever 52 stop 53 lower housing main body 61 second card Block 621 second card slot 80 8

Claims (1)

M412489, the scope of patent application: 1. A dual-card connector, comprising: an insulative housing, the upper surface and the lower surface of the insulative housing are respectively provided with terminal receiving regions, the terminal receiving regions are provided with terminal slots, and the terminal slots are symmetrically arranged at the terminals a front end and a rear end of the receiving area, the terminal slot runs forward and backward and the opening faces outward; the upper housing is fixed to the upper end of the insulating body, and the opening between the upper housing and the insulating body forms an opening facing the first first slot; The housing is fixed to the lower end of the insulative housing, and a second slot with an opening facing backward is formed between the lower housing and the insulative housing; and a plurality of conductive terminals are respectively mounted in the terminal slots. 2. The dual-card connector according to claim 1, wherein the conductive terminal comprises a terminal mounting portion, a terminal soldering portion, and a terminal elastic contact portion, and the terminal soldering portion and the terminal elastic contact portion are integrally connected to the terminal mounting portion. The terminal mounting portion is fixed in the terminal slot at both ends of the portion, and the terminal soldering portion extends straight outward from the terminal mounting portion and protrudes from the terminal slot, and the terminal elastic contact portion is bent inward from the terminal mounting portion along the direction of the corresponding terminal slot Extend and extend the corresponding terminal slot. 3. The dual card connector of claim 2, wherein the dual card connector is further provided with a first switch terminal and a second switch terminal; an upper surface of the insulative housing corresponds to a side of the terminal receiving area a switch terminal slot is disposed, the first switch terminal is received in the switch terminal slot, and a lower end of the insulative housing is provided with a switch terminal mounting hole corresponding to the switch terminal slot, and the switch terminal mounting hole is connected to the switch terminal slot, The two switch terminals are inserted into the switch terminal mounting holes and are in operative contact with the first switch terminals. 4. The dual card connector of claim 3, wherein the first switch terminal comprises a first mounting portion, a first soldering portion, and a first resilient contact portion, the first mounting portion being fixed to the switch terminal slot The first soldering portion extends straight outward from the first mounting portion 9 M412489 and extends out of the switch terminal slot, and the p elastic contact portion extends from the first mounting portion along the direction of the opening latch slot toward the inner material; The switch terminal includes a second mounting portion, a second soldering portion and a second contact portion, and the second two mounting portions extend straight outwardly. The second contact portion extends straight inward from the first armrest portion, and the second mounting portion and the second mounting portion The second contact portion is inserted into the switch terminal mounting hole. 5. The dual-card connector of claim 4, wherein the terminal soldering portion, the first soldering portion, and the second soldering portion of the front end of the insulating body are on the same plane; the plurality of terminals are soldered at the rear end of the insulating body. The double card connector according to claim 1, wherein the dual card connector is further provided with a tray, the upper surface of the tray is provided with a card placement space, and the tray is from the second card slot. The opening is inserted into the second card slot. 7. The dual card connector of claim 6, wherein the outer end of the tray is provided with ribs. 8. The dual card connector of claim 1, wherein the rear end of the upper housing extends downwardly with a stop. 10