CN105633732A

CN105633732A - Type-C anti-EMI plug connector

Info

Publication number: CN105633732A
Application number: CN201610108987.8A
Authority: CN
Inventors: 孙开宝
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-02-29
Filing date: 2016-02-29
Publication date: 2016-06-01

Abstract

The invention discloses a Type-C anti-EMI plug connector, which comprises an upper terminal module, a lower terminal module, an insulating body and a shielding housing, wherein the upper terminal module comprises an upper terminal base and a plurality of first conductive terminals; the lower terminal module comprises a lower terminal base and a plurality of second conductive terminals; the insulating body comprises an upper shell and a lower shell; the upper shell is combined with the lower shell to form an insertion space; a plurality of through holes are arranged at the front ends of the upper shell and the lower shell at intervals; a two-way elastic contact arm is inlaid in the edge of each through hole and comprises a fixed end and a free end; each fixed end is inlaid in the edge of the corresponding through hole; each free end comprises a first contact part and a second contact part; and the shielding housing sleeves the outside of the insulating body. Therefore, a plurality of two-way elastic contact arms are inlaid into the front ends of the upper shell and the lower shell; the two-way contact design can guide noise at the shortest distance; an efficient anti-electromagnetic interference effect is obtained; furthermore, the structure is simple; and automatic integral molding and assembling are facilitated.

Description

A kind of Type-C EMI suppression pin connector

Technical field

The present invention relates to field of connectors technology, refer in particular to a kind of Type-C EMI suppression pin connector.

Background technology

USBType-C is that one can be extended to power supply/USB transmission/VGA or HDMI tri-interface, pass through adapter, the new interface of the previous generation interfaces such as all right compatible USB3.0, USB2.0, namely USBType-C socket connector is a kind of input/output interface that can carry out data transmission and be connected with external equipment, power for equipment, and supports positive anti-plug. Owing to USBType-C has high-frequency transmission performance, therefore the requirement for capability of electromagnetic shielding is higher, otherwise surrounding devices can be produced electromagnetic interference. The electromagnetic shielding problem of USBType-C is that industry needs emphasis one of to solve the technical problem that. Existing USBType-C adapter is typically with shielding sheet and realizes the EMI suppression effect of adapter, but such connector construction is complicated, assemble difficulty, cost is high, and the insulating body of existing USBType-C adapter is provided with for the conducting terminal resigning hole when grafting, adapter is when grafting, conducting terminal front end is squeezed and can draw close to shielding shell, exist and occur cusp electric discharge to cause short-circuit risks, traditional solution is at shielding outer casing inner wall patch insulating cement, structure is complicated, and cost is high, assembles difficulty. In view of problem above, tackle existing USBType-C adapter and improve, to solve the problems referred to above.

Summary of the invention

In view of this, the present invention is directed to the disappearance of prior art existence, its main purpose is to provide a kind of Type-C EMI suppression pin connector, by inlaying a plurality of bidirectional elastic contact arm respectively in upper shell and lower house front end, the design of this Bidirectional contact can lead away noise with the shortest distance, reduces interference, obtain efficient anti-electromagnetic interference effect, further, this bidirectional elastic contact arm simple in construction, facilitate automation integrated molding and assembling.

For achieving the above object, the present invention adopts such as purgation technical scheme:

A kind of Type-C EMI suppression pin connector, it includes upper terminal module, lower terminal module, the insulating body being coated on upper terminal module and lower terminal module-external and shielding shell, and this upper terminal module includes upper end Stroma and a plurality of first conducting terminals being arranged on the Stroma of upper end; This lower terminal module includes lower end Stroma and a plurality of second conducting terminals being arranged on the Stroma of lower end; This insulating body includes upper shell and lower house, this upper shell and lower house combination constitute an insertion space, upper shell and lower house front interval are provided with plurality of through holes, it is inlaid with a two-way elastic contact arm in each through hole edge, this bidirectional elastic contact arm has fixing end and one bending is arranged at the free end on fixing end, this fixing end is embedded on through hole edge, and this free end has in the middle part of insertion space in the first contact site of the shape that arches upward and elastic can stretch out in the second contact site outside through hole; This shielding shell is placed on outside insulating body, and when this pin connector and socket connector grafting, the first contact site abuts with the shielding outer shell outer wall of socket connector, and the second contact site stretches out on the shielding outer casing inner wall being connected to pin connector outside through hole.

As a kind of preferred version: on described upper shell, a plurality of bidirectional elastic contact arm formulas of being connected as a single entity are embedded in upper shell front end; On lower house, a plurality of bidirectional elastic contact arm formulas of being connected as a single entity are embedded in lower house front end.

As a kind of preferred version: being provided with the snap close piece for snap close butt connector between described upper terminal module and lower terminal module, this snap close piece includes base portion and two lock catch arms extended to form forward by these base portion both sides.

As a kind of preferred version: described snap close piece base portion is provided with two holes, location, on upper end Stroma and lower end Stroma, corresponding two holes, location are respectively equipped with a projection and a recess, this upper end Stroma upper protruding block passes through in a Stroma fovea superior position, embedding lower end, hole, location, and this lower end Stroma upper protruding block is in the recess of another embedding upper end, hole, location Stroma.

As a kind of preferred version: being provided with for the first stopper slot that the first conducting terminal is spacing on the Stroma of described upper end, the first conducting terminal front end puts in this first stopper slot; Being provided with on the Stroma of lower end for the second stopper slot that the second conducting terminal is spacing, the second conducting terminal front end puts in the second stopper slot.

As a kind of preferred version: described first conducting terminal and the second conducting terminal are respectively provided with contact site, extension and leg portion, the contact site of this first conducting terminal stretches in the first stopper slot in the shape that arches upward, the contact site of this second conducting terminal stretches in the second stopper slot in the shape that arches upward, it is non-porous structure bottom case top and lower house on above-mentioned insulating body, the contact site front end elasticity of the first conducting terminal is connected in the first stopper slot top inner wall, and the contact site front end elasticity of the second conducting terminal is connected in the second stopper slot bottom interior wall.

As a kind of preferred version: being provided for setting the first terminal groove of the first conducting terminal on described upper shell, this first terminal groove is connected with above-mentioned first stopper slot, and the extension of above-mentioned first conducting terminal is embedded in the first terminal groove; Being provided for setting the second terminal groove of the second conducting terminal on lower house, this second terminal groove is connected with above-mentioned second stopper slot, and the extension of above-mentioned second conducting terminal is embedded in the second terminal groove.

As a kind of preferred version: described first conducting terminal produced by insert molding is in the Stroma of upper end, and the second conducting terminal produced by insert molding is in the Stroma of lower end.

The present invention compared with prior art has clear advantage and beneficial effect, specifically, as shown from the above technical solution, by inlaying a plurality of bidirectional elastic contact arm respectively in upper shell and lower house front end, first contact site of this bidirectional elastic contact arm contacts with socket connector, the shielding housing contacts of the second contact site and pin connector, this Bidirectional contact designs, noise can be led away with the shortest distance, reduce interference, it is thus achieved that efficient anti-electromagnetic interference effect, and, this bidirectional elastic contact arm simple in construction, facilitates automation integrated molding and assembling; Additionally, bidirectional elastic contact arm is one-body molded with insulating body, and insulating body designs for atresia, cost, ease of assembly can be reduced and can effectively prevent between conducting terminal and shield shell that to cover shell nearer because of terminal head portion off screen, occur cusp electric discharge to cause short circuit generation, improve adapter job stability.

For more clearly setting forth architectural feature and effect of the present invention, it is described in detail below in conjunction with accompanying drawing and specific embodiment.

Accompanying drawing explanation

Fig. 1 is the assembling schematic perspective view of the present invention;

Fig. 2 is the broken section schematic perspective view of the present invention;

Fig. 3 is sectional structure schematic diagram after the pin connector of the present invention and socket connector docking;

Fig. 4 is the pin connector decomposing schematic representation of the present invention;

Fig. 5 is the further decomposing schematic representation of pin connector of the present invention;

The upper shell that Fig. 6 is the present invention inlays EMI spring slice material strip schematic perspective view;

The lower house that Fig. 7 is the present invention inlays EMI spring slice material strip schematic perspective view;

Fig. 8 is EMI contact chip and the bidirectional elastic contact arm schematic perspective view of the present invention.

Accompanying drawing identifier declaration:

10, upper terminal module 11, upper end Stroma

111, the first stopper slot 112, projection

113, recess the 12, first conducting terminal

121, contact site 122, extension

123, leg portion 20, lower terminal module

21, lower end Stroma the 211, second stopper slot

212, projection 213, recess

22, the second conducting terminal 221, contact site

222, extension 223, leg portion

30, insulating body 31, upper shell

311, through hole 312, the first terminal groove

32, lower house 321, through hole

322, the second terminal groove 33, insertion space

34, bidirectional elastic contact arm 341, fixing end

342, free end the 3421, first contact site

3422, the second contact site 35, EMI spring slice material strip

40, shielding shell 50, snap close piece

51, base portion 511, location hole

52, lock catch arm 60, socket connector.

Detailed description of the invention

The present invention as shown in Figures 1 to 8, a kind of Type-C EMI suppression pin connector, include upper terminal module 10, lower terminal module 20, be coated on the insulating body 30 upper terminal module 10 and lower terminal module 20 outside and shield shell 40, wherein:

This upper terminal module 10 includes upper end Stroma 11 and produced by insert molding a plurality of first conducting terminals 12 on upper end Stroma 11, it is provided with for the first stopper slot 111 that the first conducting terminal 12 is spacing on upper end Stroma 11, this first conducting terminal 12 has contact site 121, extension 122 and leg portion 123, and the contact site 121 of this first conducting terminal 12 stretches in the first stopper slot 111 in the shape that arches upward.

This lower terminal module 20 includes lower end Stroma 21 and produced by insert molding a plurality of second conducting terminals 22 on lower end Stroma 21, it is provided with for the second stopper slot 211 that the second conducting terminal 22 is spacing on lower end Stroma 21, this second conducting terminal 22 has contact site 221, extension 222 and leg portion 223, and the contact site 221 of this second conducting terminal 22 stretches in the second stopper slot 211 in the shape that arches upward.

Being provided with the snap close piece 50 for snap close butt connector between this upper terminal module 10 and lower terminal module 20, this snap close piece 50 includes base portion 51 and two lock catch arms 52 extended to form forward by these base portion 51 both sides; Two holes, location 511 it are provided with on snap close piece 50 base portion 51, on upper end Stroma 11 and lower end Stroma 21, corresponding two holes 511, location are respectively equipped with a projection and a recess, this upper end Stroma upper protruding block 112 passes through a hole, location 511 and embeds on lower end Stroma 21 in recess 113, and this lower end Stroma 21 upper protruding block 212 embeds in the recess 113 of upper end Stroma 11 through another hole 511, location.

This insulating body 30 includes upper shell 31 and lower house 32, this upper shell 31 and lower house 32 combination constitute an insertion space 33, upper shell 31 and lower house 32 front interval are provided with plurality of through holes 321, it is inlaid with a two-way elastic contact arm 34 in each through hole 321 edge, this bidirectional elastic contact arm 34 has fixing end 341 and one bending is arranged at the free end 342 on fixing end 341, this fixing end 341 is embedded on through hole 321 edge, this free end 342 has in the middle part of insertion space 33 the first contact site 3421 in the shape that arches upward and elastic can stretch out in the second contact site 3422 outside through hole 321, on this upper shell 31, a plurality of bidirectional elastic contact arm 34 formulas of being connected as a single entity are embedded in upper shell 31 front end, on lower house 32, a plurality of bidirectional elastic contact arm 34 formulas of being connected as a single entity are embedded in lower house 32 front end. when bidirectional elastic contact arm 34 is specifically set, it is inlay an EMI spring slice material strip 35 respectively in upper shell 31 and lower house 32 front end, on upper shell 31, on a plurality of bidirectional elastic contact arms 34 and lower house 32, a plurality of bidirectional elastic contact arms 34 are integrally connected on EMI spring slice material strip 35 respectively, two EMI spring slice material strips 35 are first embedded in respectively upper shell 31 and lower house 32 front end, as shown in Figure 6,7, then by EMI spring slice material strip 35 stretch out in upper shell 31 and lower house 32 part cuts, being provided for setting the first terminal groove 312 of the first conducting terminal 12 on this upper shell 31, this first terminal groove 312 is connected with above-mentioned first stopper slot 111, and the extension 122 of above-mentioned first conducting terminal 12 is embedded in the first terminal groove 111, being provided for setting the second terminal groove 322 of the second conducting terminal 22 on lower house 21, this second terminal groove 322 is connected with above-mentioned second stopper slot 211, and the extension 222 of above-mentioned second conducting terminal 22 is embedded in the second terminal groove 322. it is non-porous structure bottom upper shell 31 top of above-mentioned insulating body 30 and lower house 32, the contact site 121 front end elasticity of the first conducting terminal 12 is connected in the first stopper slot 111 top inner wall, and the contact site 221 front end elasticity of the second conducting terminal 22 is connected in the second stopper slot 211 bottom interior wall. it should be noted that upper shell 31 is all identical with recess and terminal groove with the projection of lower house 32, accompanying drawing is distinguished with bracket.

It is outside that this shielding shell 40 is placed on insulating body 30, when this pin connector and socket connector 60 grafting, first contact site 3421 abuts with the shielding outer shell outer wall of socket connector 60, and the second contact site 3422 stretches out on shielding shell 40 inwall being connected to pin connector outside through hole 311/321.

The design focal point of the present invention is in that, by inlaying a plurality of bidirectional elastic contact arm respectively in upper shell and lower house front end, first contact site of this bidirectional elastic contact arm contacts with socket connector, the shielding housing contacts of the second contact site and pin connector, and this Bidirectional contact designs, noise can be led away with the shortest distance, reduce interference, it is thus achieved that efficient anti-electromagnetic interference effect, and, this bidirectional elastic contact arm simple in construction, facilitates automation integrated molding and assembling; Additionally, bidirectional elastic contact arm is one-body molded with insulating body, and insulating body designs for atresia, cost, ease of assembly can be reduced and can effectively prevent between conducting terminal and shield shell that to cover shell nearer because of terminal head portion off screen, occur cusp electric discharge to cause short circuit generation, improve adapter job stability.

The above, it it is only presently preferred embodiments of the present invention, not the technical scope of the present invention is imposed any restrictions, therefore every technical spirit according to the present invention is to any trickle amendment made for any of the above embodiments, equivalent variations and modification, all still falls within the scope of technical solution of the present invention.

Claims

1. a Type-C EMI suppression pin connector, it is characterized in that: including upper terminal module, lower terminal module, the insulating body being coated on upper terminal module and lower terminal module-external and shielding shell, this upper terminal module includes upper end Stroma and a plurality of first conducting terminals being arranged on the Stroma of upper end; This lower terminal module includes lower end Stroma and a plurality of second conducting terminals being arranged on the Stroma of lower end; This insulating body includes upper shell and lower house, this upper shell and lower house combination constitute an insertion space, upper shell and lower house front interval are provided with plurality of through holes, it is inlaid with a two-way elastic contact arm in each through hole edge, this bidirectional elastic contact arm has fixing end and one bending is arranged at the free end on fixing end, this fixing end is embedded on through hole edge, and this free end has towards the insertion space the first contact site in the shape that arches upward and elastic can stretch out in the second contact site outside through hole; This shielding shell is placed on outside insulating body; When this pin connector and respective socket adapter grafting, the first contact site abuts with the shielding outer shell outer wall of socket connector, and the second contact site stretches out on the shielding outer casing inner wall being connected to pin connector outside through hole.

2. a kind of Type-C EMI suppression pin connector according to claim 1, it is characterized in that: on described upper shell, a plurality of bidirectional elastic contact arm formulas of being connected as a single entity are embedded in upper shell front end, on lower house, a plurality of bidirectional elastic contact arm formulas of being connected as a single entity are embedded in lower house front end.

3. a kind of Type-C EMI suppression pin connector according to claim 1, it is characterized in that: be provided with the snap close piece for snap close butt connector between described upper terminal module and lower terminal module, this snap close piece includes base portion and two lock catch arms extended to form forward by these base portion both sides.

4. a kind of Type-C EMI suppression pin connector according to claim 3, it is characterized in that: described snap close piece base portion is provided with two holes, location, on upper end Stroma and lower end Stroma, corresponding two holes, location are respectively equipped with a projection and a recess, this upper end Stroma upper protruding block passes through in a Stroma fovea superior position, embedding lower end, hole, location, and this lower end Stroma upper protruding block is in the recess of another embedding upper end, hole, location Stroma.

5. a kind of Type-C EMI suppression pin connector according to claim 1, it is characterised in that: being provided with for the first stopper slot that the first conducting terminal is spacing on the Stroma of described upper end, the first conducting terminal front end puts in this first stopper slot; Being provided with on the Stroma of lower end for the second stopper slot that the second conducting terminal is spacing, the second conducting terminal front end puts in the second stopper slot.

6. a kind of Type-C EMI suppression pin connector according to claim 5, it is characterized in that: described first conducting terminal and the second conducting terminal are respectively provided with contact site, extension and leg portion, the contact site of this first conducting terminal stretches in the first stopper slot in the shape that arches upward, the contact site of this second conducting terminal stretches in the second stopper slot in the shape that arches upward, it is non-porous structure bottom case top and lower house on above-mentioned insulating body, the contact site front end elasticity of the first conducting terminal is connected in the first stopper slot top inner wall, the contact site front end elasticity of the second conducting terminal is connected in the second stopper slot bottom interior wall.

7. a kind of Type-C EMI suppression pin connector according to claim 6, it is characterized in that: described upper shell is provided for setting the first terminal groove of the first conducting terminal, this the first terminal groove is connected with above-mentioned first stopper slot, and the extension of above-mentioned first conducting terminal is embedded in the first terminal groove; Being provided for setting the second terminal groove of the second conducting terminal on lower house, this second terminal groove is connected with above-mentioned second stopper slot, and the extension of above-mentioned second conducting terminal is embedded in the second terminal groove.

8. a kind of Type-C EMI suppression pin connector according to claim 1, it is characterised in that: described first conducting terminal produced by insert molding is in the Stroma of upper end, and the second conducting terminal produced by insert molding is in the Stroma of lower end.