The present invention relates to an obversely and reversely pluggable connector structure, and more particularly to an obversely and reversely pluggable connector structure, capable of clamping and fixing a connector from the upper side and lower side of a circuit board, reducing the volume after the assembly is completed, and having a noise restraining function.
The use of connectors is fully universal with respect to the current technologies. No matter what kind of connector, for example, universal serial bus (USB), micro-USB or mini-USB, it is, to avoid reverse plugging, the opposite joint direction of male and female contacts must always be affirmed before plugging, or the deformation of male and female contacts or the damage of substrates is caused easily due to the reverse plugging.
Although non-directional connectors are available in the market, they are not accepted by people or manufacturers, the reasons are approximately the followings:
The main object of the present invention is to provide an obversely and reversely pluggable connector structure, using first and second transmission conductor sets different in length respectively configured on the upper and lower sides of a circuit board together to clamping and fixing a connector thereto, configuring components such as soldering faces, through holes, a shielding shell, a capacitor unit and conduction portions correspondingly on each transmission conductor set so as to complete the obversely and reversely pluggable connector, having the advantages of easy assembly, small volume and low interference.
To achieve the above object, the present invention mainly includes a first transmission conductor set configured on one side of the circuit board, a plurality of first soldering faces defined on the circuit board correspondingly to the first transmission conductor set, a plurality of first conduction portions configured on circuit board far away from inner layers of the first soldering faces, a plurality of through holes respectively configured on one side of the circuit board far away from each first soldering face, a first shielding shell adapted to accommodate the first transmission conductor set, and at least one first capacitor unit configured on the circuit board and accepted inside the first shielding shell. Furthermore, a different length of second transmission conductor is configured on another side of the circuit board far away from the first transmission conductor set, including the second soldering faces, second through holes, a second shielding shell, a second capacitor unit and second conduction portions correspondingly to the first transmission conductor set, thereby using the first transmission conductor set and second transmission conductor set to clamp the circuit directly upon assembly, reducing the entire volume after assembly, and decreasing interference upon use.
The complicated process, larger volume and serious interference existing in conventional double-directionally pluggable connector can be broken through by means of the above technologies, achieving the above advantages.
Referring to
a circuit board 1;
a first transmission conductor set 2, configured on one side of the circuit board 1;
a plurality of soldering faces 11, defined on the circuit board 1 correspondingly to the first transmission conductor set 2;
a first shielding shell 41, adapted to accommodate the first transmission conductor set 2;
at least one first capacitor unit 15, configured on the circuit board 1 and accepted inside the first shielding shell 41, the first capacitor unit 15 being positioned on one side of the first soldering face 11;
a second transmission conductor set 3, configured on another side of the circuit board 1 far away from the first transmission conductor set 2, the second transmission conductor set 2 being smaller than the first transmission conductor set 2 in length, and the connector being clamped to the circuit board 1 through the first transmission conductor set 2 together with the second transmission conductor set 3;
a plurality of second soldering faces 12, defined on the circuit board 11, correspondingly to the second transmission conductor set 3;
a second shielding shell 42, adapted to accommodate the second transmission conductor set 3; and
at least one second capacitor unit 16, configured on the circuit board 1 and accepted inside the second shielding shell 42, the second capacitor unit 16 being positioned on one side of the second soldering faces 12.
In the present embodiment, the longer first transmission conductor set 2 positioned on the upper side of the circuit board 1 is soldered on the first soldering faces 11 at the corresponding position with a soldering portion at one end thereof, and the shorter second transmission conductor set 3 positioned on the lower side of the circuit board 1 is soldered on the second soldering faces 12 at the corresponding position with a soldering portion at one end thereof, thereby clamping the connector to the circuit board 1 to form a clamp type connector. In addition, the first capacitor unit 15 is configured on the side of the first soldering faces 11, allowing the first shielding shell 41 to accommodate the first transmission conductor set 2 and the first capacitor unit 15 inside it at one time, and at the other side of the circuit board 1, the second capacitor unit 16 is configured on the side of second soldering face 12, allowing the second shielding shell 42 to accommodated the second transmission conductor set 3 and the second capacitor unit 16 inside it at one time, thereby enabling the connector of the present invention to be assembled by means of full SMT (surface mount technique) soldering process, capable of decreasing the interference derived from DIP (Dual In Line Package) process substantially. Furthermore, the connector of the present invention is isolated from the outside by the shielding shells, facilitating the restraint of EMI (Electromagnetic interference) or RFI (radio frequency interference) considerably.
Referring to
a plurality of first through hole portions 13, respectively configured on one side of the circuit board 1 far away from each first soldering face 11;
a plurality of second through hole portions 14 respectively configured on one side of the circuit board 1 far away from each second soldering face 12;
a plurality of first conduction portions 17, configured on the circuit board 1 and far away from the inner layers of the first soldering faces 11; and
a plurality of second conduction portions 18, configured on the circuit board 1 and far away from the inner layers of the second soldering faces 12.
In the present embodiment, to strengthen the effect of restraint from noise interference once again, the first, second conduction portions 17, 18 adapted to conduct electrically the connector with circuit board 1 are respectively configured on a dielectric layer below the surface layer of the circuit board 1, and the first through hole portions 3 are in electric connection with the first soldering portions on the surface layer of the circuit board 1 and the second through hole portions 14 are in electric connection with the second soldering portions on the surface layer of the other side of the circuit board 1. In addition, because the first through portions 13 and the second through hole portions 14 are respectively configured correspondingly on the sides of to the first soldering faces 11 and second soldering faces 12, and the first soldering faces 11 and the second soldering faces 12 are then respectively configured correspondingly to the first transmission conductor set 2 and second transmission conductor set 3, the first through hole portions 13 and second through hole portions 14 are back and forth in an interlaced arrangement way to further strengthen the effect of the isolation from noisy.
Referring to
Referring to
The above is a full-featured plug pin assignment, conforming to USB Type-C interface standard and being a double-face staggered arrangement, thereby allowing the connector of the present invention to be plugged in obversely and reversely without the issue of directionality or polarity.
Furthermore, referring to
Therefore, the technical key points of the obversely and reversely pluggable connector structure according to the present invention are in that:
Number | Name | Date | Kind |
---|---|---|---|
20110217878 | Liu | Sep 2011 | A1 |
20120252278 | Chang | Oct 2012 | A1 |
20140242849 | Yamaguchi | Aug 2014 | A1 |
Number | Date | Country | |
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20160006148 A1 | Jan 2016 | US |