CN111969351B - Reinforced ultrahigh-speed high-density high-reliability connector - Google Patents
Reinforced ultrahigh-speed high-density high-reliability connector Download PDFInfo
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- CN111969351B CN111969351B CN202010644712.2A CN202010644712A CN111969351B CN 111969351 B CN111969351 B CN 111969351B CN 202010644712 A CN202010644712 A CN 202010644712A CN 111969351 B CN111969351 B CN 111969351B
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- plug bush
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/02—Contact members
- H01R13/15—Pins, blades or sockets having separate spring member for producing or increasing contact pressure
- H01R13/187—Pins, blades or sockets having separate spring member for producing or increasing contact pressure with spring member in the socket
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/02—Contact members
- H01R13/04—Pins or blades for co-operation with sockets
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/40—Securing contact members in or to a base or case; Insulating of contact members
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/502—Bases; Cases composed of different pieces
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/514—Bases; Cases composed as a modular blocks or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/646—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/646—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
- H01R13/6461—Means for preventing cross-talk
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/646—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00 specially adapted for high-frequency, e.g. structures providing an impedance match or phase match
- H01R13/6473—Impedance matching
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R24/00—Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
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Abstract
A reinforced ultra-high-speed high-density high-reliability connector comprises a plug and a socket; the plug comprises a plurality of punch-formed A-type pin groups and B-type pin groups, the sections of the microstrip lines of the A-type pin groups and the B-type pin groups are rectangular, and the A-type pin groups and the B-type pin groups are provided with a plurality of round extruding pins A and round extruding pins B; the socket comprises a plug bush, the uppermost end of the plug bush is provided with a plug bush hole, and an elastic contact body is arranged in the plug bush hole; when the plug and the socket are matched and oppositely inserted, the round extruding contact pin A and the round extruding contact pin B are inserted into the plug bush hole of the plug bush and reliably contacted with the plug bush through the elastic contact body; through the innovative structural design, the reinforced ultrahigh-speed high-density high-reliability connector has the advantages of high assembly efficiency, low cost, stable impedance characteristic, good differential signal transmission coupling, small time delay difference, small signal transmission reflection, small differential signal crosstalk and reliable contact between a contact pin and a contact pin sleeve, so that the connector with low cost, ultrahigh speed, high density and high reliability is realized.
Description
Technical Field
The invention relates to the technical field of design of ultrahigh-speed high-density connectors, in particular to a reinforced ultrahigh-speed high-density high-reliability connector.
Background
The existing ultra-high speed connector is designed based on the civil field, and is basically in a static state in the working process; the ultrahigh-speed connector used in the military field is influenced by high vibration and high impact load in the working process, and the working environment is abnormal and severe, so that the ultrahigh-speed connector in the civil field can obviously not be applied to the military field; at present, no ultrahigh-speed connector product applied to the military field exists in China.
The traditional military high-speed connector is formed by loading independent machined circular pins into fixing holes of an insulator one by one, and the pin of the high-speed connector plug with the structure is an independent part and has a circular integral structure, is matched with a matched pin sleeve, has high contact reliability, is suitable for occasions with high communication reliability, and has the following problems: 1. the contact pins need to be arranged in the insulators one by one, and the assembly efficiency is extremely low; 2. the contact pins and the insulator holes are in clearance fit, so that the distance between the contact pins is unstable, and the impedance characteristic is unstable; 3. the cross section of the contact pin is circular, which is not beneficial to the coupling of differential signal transmission; 4. the contact pin is a machined part, so that the cost is high; 5. the time delay difference is too large when the same differential pair is a bent pin, so that the communication speed cannot be further improved; 6. the consistency of the same batch of products after assembly is poor, and the product performance is unstable; therefore, the existing machined pin structure is generally suitable for communication occasions with communication speed of less than 3.125 Gbps.
The contact pin of the existing civil ultrahigh-speed connector adopts a sheet type structure, and the contact element matched with the contact pin adopts a sheet type elastic unilateral contact structure, so that the structure has the advantage of easily realizing ultrahigh-speed data transmission, but because the matched contact element is unilateral contact, the instant separation problem of the contact element is easily generated when the connector is applied to high-vibration and high-impact environments, and the signal transmission failure is caused.
Therefore, in order to realize a military connector with low cost, high speed, high density and high reliability, the existing connector structure must be newly developed and designed.
Disclosure of Invention
In order to overcome the defects in the background art, the invention discloses a reinforced ultrahigh-speed high-density high-reliability connector; the connector comprises a plug and a socket, wherein the plug and the socket are matched and oppositely inserted to form a complete ultrahigh-speed high-density high-reliability connector; the plug comprises a plug shell and a plug module, and the plug module is fixedly arranged in a plug module mounting hole of the plug shell; the plug module comprises a plug module, a plug base and a plug upper fixing plate; the plug module comprises a plurality of punch-formed A-type pin groups and B-type pin groups, and is fixedly arranged on the upper part of the plug base; the plug upper fixing plate is fixedly arranged at the upper part of the plug module; the bottom of the plug module is provided with a plurality of round extruding contact pins A and round extruding contact pins B, the plug base is provided with a plurality of penetrating contact pin holes, and the round extruding contact pins A and the round extruding contact pins B are fixedly arranged in the contact pin holes; the socket comprises a socket shell and a socket module, wherein the socket module is arranged in a socket module mounting hole from the lower part of the socket shell; the socket module comprises a socket body and a plug bush; the socket body is provided with a plurality of penetrating plug bush mounting holes; the plug bush is in a thin stepped shaft shape, the uppermost end of the plug bush is provided with a plug bush hole, and the upper end of the plug bush hole is provided with an anti-falling step; an elastic contact body is arranged in the plug bush hole; the plug bush is fixedly arranged in the plug bush mounting hole; when the plug and the socket are matched and oppositely inserted, the round extruding contact pin A and the round extruding contact pin B are inserted into the plug bush hole of the plug bush and reliably contacted with the plug bush through the elastic contact body; compared with the prior connector structure, the reinforced ultrahigh-speed high-density high-reliability connector has the following advantages: 1. the assembly is a modular structure, so the assembly efficiency is extremely high; 2. the contact pins and the insulator holes are connected through injection molding, so that the distance between the contact pins is stable, and the stability of impedance characteristics is ensured; 3. the section of the contact pin microstrip line is of a non-circular structure, so that coupling of differential signal transmission is facilitated; 4. the contact pin is processed by stamping, so that the production efficiency is high and the cost is low; 5. microstrip lines of the same differential pair can be subjected to dielectric constant compensation through an injection molding structure, so that the time delay difference of the same differential pair is ensured, and the communication speed is further improved; 6. the contact pins and the contact pin holes are in interference fit, the consistency of the same batch of products after assembly is good, and the product performance is stable; 7. the structural design of the stepped shaft plug bush and the stepped plug bush mounting hole is adopted, the assembly yield is high, the cost is low, and the impedance characteristic consistency is good after assembly; 8. a clearance groove is formed between the plug bush and the plug bush mounting hole, so that the problem of low plug bush impedance is solved; 9. the plug bush is in a stepped shaft shape, so that the outer diameter of the plug bush is prevented from being suddenly changed, and the reflection of signal transmission is reduced; 10. the plug bush mounting holes are arranged in a non-equidistant staggered manner, so that the problem of crosstalk of two adjacent lines of differential signal pairs is solved; 11 the matching part of the contact pin and the contact pin sleeve is circular and is reliably contacted through an elastic contact element; the reinforced ultrahigh-speed high-density high-reliability connector disclosed by the invention has the innovative structural design, so that the military connector with low cost, ultrahigh speed, high density and high reliability is realized.
In order to realize the purpose, the invention adopts the following technical scheme: a reinforced ultrahigh-speed high-density high-reliability connector comprises a plug and a socket, wherein the plug and the socket are matched and oppositely inserted to form a complete ultrahigh-speed high-density high-reliability connector;
the plug comprises a plug shell and a plug module; the plug shell is rectangular plate-shaped and is provided with a plurality of penetrating plug module mounting holes; the upper plate surface is provided with a plurality of plug fixing lugs, the plug fixing lugs are provided with fixing holes, and the plug fixing lugs are used for reinforcing the connection between the fixed plug and the circuit board so as to improve the connection reliability; the lower plate surface is provided with plug guide surrounding bones around the plug module mounting hole, the peripheral surfaces of the plug guide surrounding bones are provided with sealing rings, both ends of the lower plate surface are fixedly provided with an identification guide pin A and a plugging guide pin, wherein the plugging guide pin is matched with the plugging guide hole for primary plugging guide when a plug and a socket are plugged, the plug guide surrounding bones are matched with the socket module mounting hole for secondary plugging guide when the plug and the socket are plugged, and the identification guide pin A is matched with the identification guide pin B for correct plugging of a matched plug and a matched socket, so that the problem of successful plugging of a non-matched plug and socket is prevented; the plug module is fixedly arranged in a plug module mounting hole of the plug shell;
the socket comprises a socket shell and a socket module; the socket shell is rectangular and provided with a plurality of through socket module mounting holes, and the inner side surfaces of the socket module mounting holes are provided with socket module flanges; inserting guide holes are formed in two ends of the upper end face of the socket shell, and identification guide pins B are fixedly arranged adjacent inserting guide holes; the socket module is arranged in the socket module mounting hole from the lower part of the socket shell;
the plug module comprises a plug module, a plug base and a plug upper fixing plate; the plug module comprises a plurality of punch-formed A-type pin groups and B-type pin groups, the sections of microstrip lines of the A-type pin groups and the B-type pin groups are rectangular so as to utilize transmission coupling of differential signal pairs, and the plug module is fixedly arranged on the upper part of the plug base; the plug upper fixing plate is fixedly arranged at the upper part of the plug module; the bottom of the plug module is provided with a plurality of round extruding contact pins A and round extruding contact pins B, the plug base is provided with a plurality of penetrating contact pin holes, and the round extruding contact pins A and the round extruding contact pins B are fixedly arranged in the contact pin holes;
the socket module comprises a socket body and a plug bush; the socket body is rectangular and blocky, a plurality of inserting sleeve mounting holes which penetrate through the socket body are formed in the upper surface and the lower surface of the socket body, the inserting sleeve mounting holes are stepped holes, and the hole diameter of the lower part of the inserting sleeve mounting holes is larger than that of the upper part of the inserting sleeve mounting holes; the plug bush is in a thin stepped shaft shape, the uppermost end of the plug bush is provided with a plug bush hole, and the upper end of the plug bush hole is provided with an anti-falling step; an elastic contact body is arranged in the plug bush hole; the plug bush is fixedly arranged in the plug bush mounting hole;
when the plug and the socket are matched and oppositely inserted, the round extruding contact pin A and the round extruding contact pin B are inserted into the plug bush hole of the plug bush and reliably contacted with the plug bush through the elastic contact body.
Furthermore, the plug module comprises a plurality of pin parts A and pin parts B which are of thin plate structures; the pin components A and the pin components B are arranged in a staggered and contact mode to form a plug module; the pin component A and the pin component B are of a modular structure, and the prior independent pins are replaced for assembly, so that the assembly efficiency is greatly improved;
the pin component A comprises an A-type pin group; the pin component B comprises a B-type pin group; the A-type contact pin group and the B-type contact pin group respectively comprise a plurality of signal contact pins and grounding contact pins; two adjacent signal contact pins are set as a group to form a differential signal contact pin pair, and a grounding contact pin is arranged between the adjacent differential signal contact pin pairs; the differential signal pin pairs of the A-type pin group and the B-type pin group and the grounding pins are arranged in a staggered mode, so that signal crosstalk between the differential signal pin pairs is prevented, and the communication rate is improved;
the left side of the A-type contact pin group is initially provided with a pair of differential signal contact pin pairs, and the rightmost side of the A-type contact pin group is provided with a grounding contact pin; the left side of the B-type pin group is initially provided with a grounding pin, and the rightmost side of the B-type pin group is provided with a differential signal pin pair;
the signal contact pin comprises a round-extruding contact pin A, a square-extruding connecting block A, a micro-strip connecting line A and a fisheye plug A, wherein the round-extruding contact pin A is in a thin needle shape, and the lower part of the round-extruding contact pin A is provided with a conical head; the square extrusion connecting block A is a cuboid and is arranged at the upper part of the round extrusion contact pin A, and the thickness of the square extrusion connecting block A is equal to the diameter of the round extrusion contact pin A; the square extrusion connecting block A is in interference fit with the pin hole of the plug base, so that the distance between round extrusion pins A can be ensured to be more stable, and the impedance characteristic of the signal pin can be ensured to be more stable; the microstrip connecting line A is in a thin line shape, the cross section of the microstrip connecting line A is rectangular, and the rectangular cross section is favorable for transmission coupling of a differential signal insertion point so as to ensure the stability and the anti-interference performance of high-speed signal transmission; the thickness of the microstrip connecting line A is smaller than that of the square extrusion connecting block A, the lower end part of the microstrip connecting line A is connected with the upper part of the square extrusion connecting block A, a fisheye plug A is fixedly arranged at the left end part of the microstrip connecting line A and is used for being connected with a printed circuit board, and short pile radiation generated by welding connection is prevented, so that the stability and the anti-interference performance of high-speed signal transmission are further improved;
the grounding contact pin comprises a round extruding contact pin B, a square extruding connecting block B, a micro-strip connecting line B and a fisheye plug B, and the connecting structure of the grounding contact pin is the same as that of the signal contact pin; the length of the round extruding contact pin B is greater than that of the round extruding contact pin A, when the contact pin is in plug connection with the plug bush, the long pin is used for grounding, the short pin transmits signals, the long pin preferentially contacts with static electricity, and the static electricity is prevented from puncturing system components through the short signal pin; in addition, the long pin can be connected with a power supply, the short pin transmits signals, and the signal transmission mode can support hot plug of the connector; the width of the microstrip connecting line B is larger than that of the microstrip connecting line A, and by increasing the width of the microstrip connecting line B, the signal crosstalk between adjacent differential signal pair plugs can be further reduced, so that the communication speed is improved; the square extrusion connecting block A and the square extrusion connecting block B are identical in size and structure; the fisheye plug A and the fisheye plug B are identical in size and structure;
a type contact pin group, B type contact pin group are respectively through moulding plastics with a plurality of signal contact pins, ground contact pin fixed connection, form contact pin part A, contact pin part B, and contact pin part A, contact pin part B are modular structure for improve assembly efficiency.
Furthermore, two side surfaces of the upper part of the pin component A are respectively provided with a symmetrical upper positioning groove A and a symmetrical upper positioning block A, the upper part close to the side edge is provided with a symmetrical side positioning block A, the plate surface is provided with an air groove A, and the two side edges close to the lower part are provided with lower clamping hooks A; the two side surfaces of the upper part of the pin component B are provided with symmetrical upper positioning blocks B and upper positioning grooves B, the upper part close to the side edges is provided with symmetrical side positioning blocks B, the plate surface is provided with air grooves B, and the two side edges close to the lower part are provided with lower clamping hooks B; the air slot A and the air slot B compensate and adjust the time delay difference of the same pair of differential signal contact pins by changing the local dielectric constant of the microstrip connecting line A, so that the time delays of the same pair of differential signal contact pins are kept consistent, and the stability of high-speed signal transmission is improved;
when the plug module is assembled, the upper positioning groove A of the pin component A corresponds to the upper positioning block B of the pin component B in position, and the upper positioning block A of the pin component A corresponds to the upper positioning groove B of the pin component B in position and is used for positioning the pin component A and the pin component B in the horizontal direction; the side edge positioning block A of the pin component A corresponds to the side edge positioning block B of the pin component B in an up-and-down staggered manner and is used for positioning the pin component A and the pin component B in the vertical direction; the positioning grooves and the positioning blocks of the pin component A and the pin component B are structurally designed, so that the problem that the same pin component is wrongly installed between the adjacent pin components is solved while the assembling precision is ensured.
Furthermore, the upper part of the pin component A is provided with an upper clamping hook A; the upper part of the pin component B is provided with an upper clamping hook B; the plug upper fixing plate is plate-shaped, a gourd groove and a comb tooth groove are arranged on the plate surface of the plug upper fixing plate, the gourd groove is two grooves wide in size, and one end of the comb tooth groove is open;
the plurality of pin components A and the pin components B are arranged in a staggered and contacting manner, after the plug module is formed, the upper fixing plate of the plug is fixedly arranged at the lower sides of the upper clamping hook A and the upper clamping hook B through the gourd groove and the comb tooth groove, and the plurality of pin components A and the pin components B are fixedly connected together; when the upper fixing plate of the plug is assembled, the comb tooth grooves are directly clamped at the lower parts of the left clamping hooks of the upper clamping hook A and the upper clamping hook B, the right clamping hooks of the upper clamping hook A and the upper clamping hook B penetrate through the wide grooves of the gourd grooves, and then the upper fixing plate of the plug is pushed leftwards, so that the plurality of pin components A and the pin components B can be fixedly connected together; a self-locking structure is arranged between the plug upper fixing plate and the upper clamping hook A and between the plug upper fixing plate and the upper clamping hook B, so that the plug upper fixing plate is prevented from falling off when being vibrated.
Furthermore, the plug base comprises a base body, a plurality of pairs of clamping plates are arranged on the front side surface and the rear side surface of the upper part of the base body, and clamping grooves are formed in the clamping plates; the lower clamping hook A of the pin component A and the lower clamping hook B of the pin component B are fixedly arranged in the clamping grooves; the plug module and the plug base are fixedly connected through the matching of the lower clamping hook A and the lower clamping hook B with the clamping groove.
Furthermore, the upper end surface of the base body is provided with a plurality of pin component alignment grooves which are used for guiding the assembly of the lower parts of the pin component A and the pin component B of the pin module when the pin module and the pin base are assembled; the bottom of the pin component aligning groove is provided with a plurality of penetrating pin holes, and the diameter of each pin hole is larger than that of the round extruding pin A and that of the round extruding pin B; crowded circle contact pin A, crowded circle contact pin B are through crowded square connecting block A, crowded square connecting block B and the interference fit of contact pin hole, and fixed the setting is in the contact pin hole, and crowded square connecting block A, crowded square connecting block B and contact pin hole cooperation are rectangle and circular shape cooperation, consequently only have local interference between the four corners of rectangle and round hole, and this kind of structural design still can prevent to assemble the resistance too big when guaranteeing to have certain magnitude of interference, location accuracy.
Further, a plurality of base air grooves are formed in the bottom of the base body; the base air groove is communicated with all round extruding contact pins A and all round extruding contact pins B of the same contact pin component A or the same contact pin component B; the base air groove enables more air media with low dielectric constants to be arranged around the round extruding contact pin A and the round extruding contact pin B by removing local insulating materials of the plug base, so that the impedance of the differential pair is improved; the base air groove is provided with a plug bush hole concentric with the pin hole, and the plug bush hole is used for playing a role in inserting and guiding when the connector plug and the socket are oppositely inserted.
Furthermore, the plug bush is sequentially provided with a plug bush tail section, a transition section A, an anti-loosening conical section, a transition section B, an anti-loosening tooth section, an expansion conical section, a transition section C and a fisheye plug from top to bottom, the plug bush is gradually transited in a stepped shaft shape, the diameter difference between the upper part of the plug bush and the fisheye plug at the lower end is prevented from generating sudden change, and the reflection of signal transmission is reduced; the anti-loosening conical section is an inverted cone, and the diameter of the large end of the anti-loosening conical section is larger than the upper aperture of the mounting hole; the anti-falling tooth section is a step shaft shoulder, the diameter of the anti-falling tooth section is larger than the upper aperture of the mounting hole and is equal to the lower aperture of the mounting hole; the distance from the step surface at the lower part of the transition section A to the shaft shoulder surface at the upper part of the anti-falling tooth section is equal to the depth of the hole at the upper part of the mounting hole; when the plug bush is assembled in the plug bush mounting hole, forced assembly is adopted; when the anti-loosening taper section and the transition section B are arranged in the upper hole of the plug bush mounting hole in a plug bush manner, the shaft shoulder surface of the anti-loosening tooth section is in contact with the step surfaces of the upper hole and the lower hole of the plug bush mounting hole; in the assembly process of the plug bush, only the anti-falling tooth section and the expansion conical section are subjected to interference with the upper hole of the plug bush mounting hole all the time, so that the assembly pressure of the plug bush is basically kept stable all the time, and the problems of bending damage of the plug bush, low product yield and high cost caused by rapid rise of the assembly pressure along with increase of the depth of the plug bush inserted into the plug bush mounting hole in the prior art are solved; in the assembling process of the plug bush, the hole diameter of the upper part of the plug bush mounting hole is forcibly expanded by the anti-loosening conical section for the second time, and because the hole diameter of the upper part of the plug bush mounting hole is expanded for the first time by the anti-loosening tooth section and the expansion conical section, although the hole diameter of the upper part of the plug bush mounting hole is elastically retracted after the anti-loosening tooth section and the expansion conical section pass, the hole diameter of the upper part of the plug bush mounting hole is forcibly expanded by the anti-loosening conical section for the second time, the assembling pressure cannot be increased rapidly; the anti-loosening conical section forcibly enlarges the upper hole of the plug bush mounting hole for the second time to enable interference fit between the anti-loosening conical section and the plug bush mounting hole, so that radial gaps of the plug bush in the plug bush mounting hole are completely eliminated, the distance between the plug bushes of the connector socket after assembly is stable, and the impedance characteristic consistency after assembly is good; the contact arrangement of the shaft shoulder surface of the anti-falling tooth section and the step surface between the upper hole and the lower hole of the plug bush mounting hole completely eliminates the axial clearance of the plug bush in the plug bush mounting hole and prevents the plug bush from falling out of the plug bush mounting hole; the equal diameter design of the anti-drop tooth section and the lower hole of the mounting hole completely eliminates the radial deflection between the plug bush and the plug bush mounting hole.
Furthermore, the expansion taper section and the transition section C are arranged in the large hole at the lower part of the plug bush mounting hole, and the diameter of the transition section C is smaller than that of the large hole at the lower part of the plug bush mounting hole, so that clearance grooves are formed among the expansion taper section, the transition section C and the large hole at the lower part of the plug bush mounting hole, and the problem of low impedance of the plug bush is solved by utilizing the low dielectric constant of air in the clearance grooves.
Furthermore, the mounting holes of the two adjacent columns of plug bushes are arranged in a staggered manner in a non-equidistant manner, so that the problem of crosstalk between two adjacent columns of differential signal pairs is solved.
Due to the adoption of the technical scheme, the invention has the following beneficial effects: the invention discloses a reinforced ultrahigh-speed high-density high-reliability connector; the connector comprises a plug and a socket, wherein the plug and the socket are matched and oppositely inserted to form a complete ultrahigh-speed high-density high-reliability connector; the plug comprises a plug shell and a plug module, and the plug module is fixedly arranged in a plug module mounting hole of the plug shell; the plug module comprises a plug module, a plug base and a plug upper fixing plate; the plug module comprises a plurality of punch-formed A-type pin groups and B-type pin groups, and is fixedly arranged on the upper part of the plug base; the plug upper fixing plate is fixedly arranged at the upper part of the plug module; the bottom of the plug module is provided with a plurality of round extruding contact pins A and round extruding contact pins B, the plug base is provided with a plurality of penetrating contact pin holes, and the round extruding contact pins A and the round extruding contact pins B are fixedly arranged in the contact pin holes; the socket comprises a socket shell and a socket module, wherein the socket module is arranged in a socket module mounting hole from the lower part of the socket shell; the socket module comprises a socket body and a plug bush; the socket body is provided with a plurality of penetrating plug bush mounting holes; the plug bush is in a thin stepped shaft shape, the uppermost end of the plug bush is provided with a plug bush hole, and the upper end of the plug bush hole is provided with an anti-falling step; an elastic contact body is arranged in the plug bush hole; the plug bush is fixedly arranged in the plug bush mounting hole; when the plug and the socket are matched and oppositely inserted, the round extruding contact pin A and the round extruding contact pin B are inserted into the plug bush hole of the plug bush and reliably contacted with the plug bush through the elastic contact body; compared with the prior connector structure, the reinforced ultrahigh-speed high-density high-reliability connector has the following advantages: 1. the assembly is a modular structure, so the assembly efficiency is extremely high; 2. the contact pins and the insulator holes are connected through injection molding, so that the distance between the contact pins is stable, and the stability of impedance characteristics is ensured; 3. the section of the contact pin microstrip line is of a non-circular structure, so that coupling of differential signal transmission is facilitated; 4. the contact pin is processed by stamping, so that the production efficiency is high and the cost is low; 5. microstrip lines of the same differential pair can be subjected to dielectric constant compensation through an injection molding structure, so that the time delay difference of the same differential pair is ensured, and the communication speed is further improved; 6. the contact pins and the contact pin holes are in interference fit, the consistency of the same batch of products after assembly is good, and the product performance is stable; 7. the structural design of the stepped shaft plug bush and the stepped plug bush mounting hole is adopted, the assembly yield is high, the cost is low, and the impedance characteristic consistency is good after assembly; 8. a clearance groove is formed between the plug bush and the plug bush mounting hole, so that the problem of low plug bush impedance is solved; 9. the plug bush is in a stepped shaft shape, so that the outer diameter of the plug bush is prevented from being suddenly changed, and the reflection of signal transmission is reduced; 10. the plug bush mounting holes are arranged in a non-equidistant staggered manner, so that the problem of crosstalk of two adjacent lines of differential signal pairs is solved; 11 the matching part of the contact pin and the contact pin sleeve is circular and is reliably contacted through an elastic contact element; the reinforced ultrahigh-speed high-density high-reliability connector realizes the connector with low cost, ultrahigh speed, high density and high reliability through the innovative structural design, and realizes the high-reliability signal transmission of 25Gbps communication speed under the environment with high vibration and high impact.
Drawings
FIG. 1 is a schematic diagram of an external view of a reinforced ultra-high speed high density high reliability connector;
FIG. 2 is a schematic external view of the plug;
FIG. 3 is a schematic external view of a plug housing;
FIG. 4 is an external view of the plug module;
FIG. 5 is an exploded view of the plug module;
FIG. 6 is a first schematic view of the plug module;
FIG. 7 is a second schematic view of the plug module;
FIG. 8 is an external view of the pin member A;
FIG. 9 is an external view of the pin member B;
FIG. 10 is an external view of the type A pin set;
FIG. 11 is an external view of a B-pin set;
FIG. 12 is an external view of a fixing plate on the plug;
FIG. 13 is a schematic external view of a plug base;
FIG. 14 is a bottom view of the plug base;
FIG. 15 is an enlarged view of a portion A of the bottom of the plug base
FIG. 16 is a schematic view showing the fitting state of the square extrusion connecting block A, the square extrusion connecting block B and the pin hole
FIG. 17 is a schematic external view of the socket;
FIG. 18 is a schematic external view of a socket housing;
FIG. 19 is an external view of the socket module;
FIG. 20 is a partial cross-sectional view of the socket body;
FIG. 21 is a schematic view of the construction of the insert sleeve;
FIG. 22 is an enlarged view of a portion A of the insert;
FIG. 23 is a schematic view of an assembly structure of the plug bush and the socket body;
FIG. 24 is a schematic view showing the arrangement of the mounting holes of the plug bush;
in the figure: 1. a plug; 1.1, a plug shell; 1.1.1, plug module mounting holes; 1.1.2, fixing lugs of the plug; 1.1.3, guiding the plug to surround the bone; 1.1.4, sealing rings; 1.1.5, identifying a guide pin A; 1.1.6, inserting and combining a guide pin; 1.2, a plug module; 1.2.1, a plug module; 1.2.1.1, pin component A; 1.2.1.1.1, an upper positioning groove A; 1.2.1.1.2, an upper positioning block A; 1.2.1.1.3, side edge positioning block A; 1.2.1.1.4, air tank A; 1.2.1.1.5, a lower hook A; 1.2.1.1.6, an upper hook A; 1.2.1.1.8, extruding round pin A; 1.2.1.1.9, extruding a square connecting block A; 1.2.1.1.10, microstrip connecting line A; 1.2.1.1.11, fish eye plug A; 1.2.1.2, pin component B; 1.2.1.2.1, an upper positioning block B; 1.2.1.2.2, an upper positioning groove B; 1.2.1.2.3, side edge positioning block B; 1.2.1.2.4, air tank B; 1.2.1.2.5, a lower hook B; 1.2.1.2.6, an upper hook B; 1.2.1.2.8, extruding round pin B; 1.2.1.2.9, extruding a square connecting block B; 1.2.1.1.10, microstrip connecting line B; 1.2.1.1.11, fish eye plug B; 1.2.2, a plug base; 1.2.2.1, a base body; 1.2.2.2, pin component alignment groove; 1.2.2.3, clamping and connecting plates; 1.2.2.3.1, a clamping groove; 1.2.2.4, pin holes; 1.2.2.5, a base air slot; 1.2.2.6, a plug bush hole; 1.2.3, fixing a plate on the plug; 1.2.3.1, a gourd groove; 1.2.3.2, comb tooth grooves; 2. a socket; 2.1, a socket shell; 2.1.1, socket module mounting holes; 2.1.2, inserting and combining the guide holes; 2.1.3, identifying a guide pin B; 2.1.4, a socket module flange; 2.2, a socket module; 2.2.1, a socket body; 2.2.1.1, inserting sleeve mounting holes; 2.2.2, inserting sleeves; 2.2.2.1, inserting and sleeving the tail section; 2.2.2.1.1, inserting sleeve holes; 2.2.2.1.2, anti-drop step; 2.2.2.1.3, a resilient contact body; 2.2.2.2, transition section A; 2.2.2.3, anti-loose cone section; 2.2.2.4, transition section B; 2.2.2.5, anti-falling tooth section; 2.2.2.6, expanding the cone section; 2.2.2.7, transition section C; 2.2.2.8, fish eye plug C.
Detailed Description
The present invention will be explained in detail by the following examples, which are disclosed for the purpose of protecting all technical improvements within the scope of the present invention.
A reinforced ultrahigh-speed high-density high-reliability connector comprises a plug 1 and a socket 2, wherein the plug 1 and the socket 2 are matched and oppositely inserted to form a complete ultrahigh-speed high-density high-reliability connector;
the plug 1 comprises a plug shell 1.1 and a plug module 1.2; the plug shell 1.1 is rectangular plate-shaped and is provided with a plurality of penetrating plug module mounting holes 1.1.1; the upper plate surface is provided with a plurality of plug fixing lugs 1.1.2, and the plug fixing lugs 1.1.2 are provided with fixing holes; a plug guide surrounding bone 1.1.3 is arranged on the lower plate surface around the plug module mounting hole 1.1.1, a sealing ring 1.1.4 is arranged on the outer peripheral surface of the plug guide surrounding bone 1.1.3, and an identification guide pin A1.1.5 and an insertion guide pin 1.1.6 are fixedly arranged at the two ends of the lower plate surface; the plug module 1.2 is fixedly arranged in a plug module mounting hole 1.1.1 of the plug shell 1.1;
the socket 2 comprises a socket shell 2.1 and a socket module 2.2; the socket shell 2.1 is rectangular block-shaped and is provided with a plurality of socket module mounting holes 2.1.1 which penetrate through the socket shell, and the inner side surfaces of the socket module mounting holes 2.1.1 are provided with socket module flanges 2.1.4; the two ends of the upper end surface of the socket shell 2.1 are provided with inserting guide holes 2.1.2, and the adjacent inserting guide holes 2.1.2 are fixedly provided with identification guide pins B2.1.3; the socket module 2.2 is arranged in the socket module mounting hole 2.1.1 from the lower part of the socket housing 2.1;
the plug module 1.2 comprises a plug module 1.2.1, a plug base 1.2.2 and a plug upper fixing plate 1.2.3; the plug module 1.2.1 comprises a plurality of punch-formed A-type pin groups and B-type pin groups, and the plug module 1.2.1 is fixedly arranged on the upper part of the plug base 1.2.2; the plug upper fixing plate 1.2.3 is fixedly arranged on the upper part of the plug module 1.2.1; the bottom of the plug module 1.2.1 is provided with a plurality of rounding pins A1.2.1.1.8 and a rounding pin B1.2.1.2.8, the plug base 1.2.2 is provided with a plurality of penetrating pin holes 1.2.2.4, and the rounding pins A1.2.1.1.8 and the rounding pin B1.2.1.2.8 are fixedly arranged in the pin holes 1.2.2.4;
the socket module 2.2 comprises a socket body 2.2.1 and an insert sleeve 2.2.2; the socket body 2.2.1 is rectangular block-shaped, the upper surface and the lower surface of the socket body are provided with a plurality of penetrating plug bush mounting holes 2.2.1.1, the plug bush mounting holes 2.2.1.1 are step holes, and the aperture of the lower part of the plug bush mounting hole is larger than that of the upper part of the plug bush mounting hole; the plug bush 2.2.2 is in a thin stepped shaft shape, the uppermost end of the plug bush is provided with a plug bush hole 2.2.2.1.1, and the upper end of the plug bush hole 2.2.2.1.1 is provided with an anti-falling step 2.2.2.1.2; an elastic contact body 2.2.2.1.3 is arranged in the plug-in sleeve hole 2.2.2.1.1; the plug bush 2.2.2 is fixedly arranged in the plug bush mounting hole 2.2.1.1;
when the plug 1 and the socket 2 are matched and oppositely inserted, the round extruding contact pin A1.2.1.1.8 and the round extruding contact pin B1.2.1.2.8 are inserted into the plug bush hole 2.2.2.1.1 of the plug bush 2.2.2 and reliably contacted with the plug bush 2.2.2 through the elastic contact body 2.2.2.1.3;
the plug module 1.2.1 comprises a plurality of pin components A1.2.1.1, B1.2.1.2, which are thin plate-like structures; the pin components A1.2.1.1 and the pin components B1.2.1.2 are arranged in a staggered and contact manner to form a plug module 1.2.1;
the pin member A1.2.1.1 includes an a-type pin set; the pin member B1.2.1.2 includes a type B pin set; the A-type pin group and the B-type pin group comprise a plurality of signal pins and grounding pins; two adjacent signal contact pins are set as a group to form a differential signal contact pin pair, and a grounding contact pin is arranged between the adjacent differential signal contact pin pairs;
the left side of the A-type contact pin group is initially provided with a pair of differential signal contact pin pairs, and the rightmost side of the A-type contact pin group is provided with a grounding contact pin; the left side of the B-type pin group is initially provided with a grounding pin, and the rightmost side of the B-type pin group is provided with a differential signal pin pair;
the signal pins comprise a round extruding pin A1.2.1.1.8, a square extruding connecting block A1.2.1.1.9, a microstrip connecting line A1.2.1.1.10 and a fish eye plug A1.2.1.1.11, wherein the round extruding pin A1.2.1.1.8 is in the shape of a thin needle, and the lower part of the round extruding pin is provided with a conical head; the square extrusion connecting block A1.2.1.1.9 is a cuboid and is arranged at the upper part of the round extrusion contact pin A1.2.1.1.8, and the thickness of the square extrusion connecting block A1.2.1.1.9 is equal to the diameter of the round extrusion contact pin A1.2.1.1.8; the microstrip connecting line A1.2.1.1.10 is a thin line, the section of the microstrip connecting line is rectangular, the thickness of the microstrip connecting line is smaller than that of the square extrusion connecting block A1.2.1.1.9, the lower end part of the microstrip connecting line is connected with the upper part of the square extrusion connecting block A1.2.1.1.9, and the left end part of the microstrip connecting line is fixedly provided with a fisheye plug A1.2.1.1.11;
the grounding contact pins comprise round extruding contact pins B1.2.1.2.8, square extruding connecting blocks B1.2.1.2.9, microstrip connecting lines B1.2.1.1.10 and fisheye plugs B1.2.1.1.11, and the connecting structure of the grounding contact pins is the same as that of the signal contact pins; wherein the length of the rounding pin B1.2.1.2.8 is greater than that of the rounding pin A1.2.1.1.8; wherein the width of the microstrip link line B1.2.1.1.10 is greater than the microstrip link line A1.2.1.1.10;
the A-type contact pin group and the B-type contact pin group are respectively fixedly connected with a plurality of signal contact pins and grounding contact pins through injection molding to form a contact pin component A and a contact pin component B;
the two side surfaces of the upper part of the pin inserting component A1.2.1.1 are provided with symmetrical upper positioning grooves A1.2.1.1.1 and upper positioning blocks A1.2.1.1.2, the upper part close to the side edge is provided with symmetrical side edge positioning blocks A1.2.1.1.3, the plate surface is provided with air grooves A1.2.1.1.4, and the two side edges close to the lower part are provided with lower clamping hooks A1.2.1.1.5; the two side surfaces of the upper part of the pin inserting component B1.2.1.2 are provided with symmetrical upper positioning blocks B1.2.1.2.1 and upper positioning grooves B1.2.1.2.2, the upper part close to the side edge is provided with symmetrical side positioning blocks B1.2.1.2.3, the plate surface is provided with air grooves B1.2.1.2.4, and the two side edges close to the lower part are provided with lower clamping hooks B1.2.1.2.5;
when the plug module 1.2.1 is assembled, the upper positioning groove A1.2.1.1.1 of the pin component A1.2.1.1 corresponds to the upper positioning block B1.2.1.2.1 of the pin component B1.2.1.2, and the upper positioning block A1.2.1.1.2 of the pin component A1.2.1.1 corresponds to the upper positioning groove B1.2.1.2.2 of the pin component B1.2.1.2, so that the pin component A1.2.1.1 and the pin component B1.2.1.2 are positioned in the horizontal direction; side positioning blocks A1.2.1.1.3 of the pin component A1.2.1.1 correspond to side positioning blocks B1.2.1.2.3 of the pin component B1.2.1.2 in an up-and-down staggered manner, and are used for positioning the pin component A1.2.1.1 and the pin component B1.2.1.2 in the vertical direction;
the upper part of the pin component A1.2.1.1 is provided with an upper clamping hook A1.2.1.1.6; the upper part of the pin component B1.2.1.2 is provided with an upper clamping hook B1.2.1.2.6; the upper fixing plate 1.2.3 of the plug is plate-shaped, and the plate surface of the upper fixing plate is provided with a gourd groove 1.2.3.1 and a comb groove 1.2.3.2;
after the pin components A1.2.1.1 and the pin components B1.2.1.2 are arranged in a staggered and contacting manner to form a plug module 1.2.1, an upper plug fixing plate 1.2.3 is fixedly arranged at the lower sides of an upper clamping hook A1.2.1.1.6 and an upper clamping hook B1.2.1.2.6 through a gourd groove 1.2.3.1 and a comb groove 1.2.3.2, and the pin components A1.2.1.1 and B1.2.1.2 are fixedly connected together;
the plug base 1.2.2 comprises a base body 1.2.2.1, a plurality of pairs of clamping plates 1.2.2.3 are arranged on the front side surface and the rear side surface of the upper part of the base body 1.2.2.1, and clamping grooves 1.2.2.3.1 are arranged on the clamping plates 1.2.2.3; the lower hook A1.2.1.1.5 and the lower hook B1.2.1.2.5 are fixedly arranged in the clamping groove 1.2.2.3.1;
the upper end surface of the base body 1.2.2.1 is provided with a plurality of pin component alignment grooves 1.2.2, and the bottoms of the pin component alignment grooves 1.2.2.2 are provided with a plurality of penetrating pin holes 1.2.2.4; the round extruding contact pin A1.2.1.1.8 and the round extruding contact pin B1.2.1.2.8 are fixedly arranged in the contact pin hole 1.2.2.4 through interference fit of the square extruding connecting block A1.2.1.1.9 and the square extruding connecting block B1.2.1.2.9 with the contact pin hole 1.2.2.4;
the bottom of the base body 1.2.2.1 is provided with a plurality of base air grooves 1.2.2.5; the base air groove 1.2.2.5 is communicated with all rounding pins A1.2.1.1.8 and B1.2.1.2.8 of the same pin component A1.2.1.1 or the same pin component B1.2.1.2; the base air groove 1.2.2.5 is provided with a plug bush hole 1.2.2.6 concentric with the plug pin hole 1.2.2.4;
the plug bush 2.2.2 is sequentially provided with a plug bush tail section 2.2.1, a transition section A2.2.2.2, an anti-loosening conical section 2.2.2.3, a transition section B2.2.2.4, an anti-loosening tooth section 2.2.2.5, an expansion conical section 2.2.2.6, a transition section C2.2.2.7 and a fisheye plug C2.2.2.8 from top to bottom; the anti-loosening conical section 2.2.2.3 is an inverted cone, and the diameter of the large end of the anti-loosening conical section 2.2.2.3 is larger than the upper aperture of the mounting hole 2.2.1.1; the anti-falling tooth section 2.2.2.5 is a step shaft shoulder, the diameter of which is larger than the upper aperture of the mounting hole 2.2.1.1 and is equal to the lower aperture of the mounting hole 2.2.1.1; the distance from the step surface at the lower part of the transition section A2.2.2.2 to the shaft shoulder surface at the upper part of the anti-falling tooth section 2.2.2.5 is equal to the depth of the upper hole of the mounting hole 2.2.1.1; the middle of the plug bush tail section 2.2.2.1 is provided with a plug bush hole 2.2.2.1.1;
the expansion conical section 2.2.2.6 and the transition section C2.2.2.7 are arranged in a large hole at the lower part of the plug bush mounting hole 2.2.1.1, and the diameter of the transition section C2.2.2.7 is smaller than that of the large hole at the lower part of the plug bush mounting hole 2.2.1.1;
two adjacent rows of plug bush mounting holes 2.2.1.1 are arranged in a non-equidistant staggered manner.
When the reinforced ultrahigh-speed high-density high-reliability connector is used, the plug 1 is plugged on the circuit board A through the fisheye plug A1.2.1.1.11 and the fisheye plug B1.2.1.1.11 and is fixedly connected with the circuit board A through the plug fixing lug 1.1.2 of the plug shell 1.1; the socket module 2.2 is inserted on the circuit board B through the fisheye plug C2.2.2.8, the socket housing 2.1 is buckled on the socket module 2.2 through the socket module mounting hole 2.1.1, the socket module rib 2.1.4 compresses the socket module 2.2, and the socket housing 2.1 is fixed on the circuit board B through a screw;
when the plug 1 and the socket 2 are oppositely inserted, the inserting guide pins are matched with the inserting guide holes to guide the plug and the socket to be inserted at a first stage, the plug guide surrounding ribs are matched with the mounting holes of the socket module to guide the plug and the socket to be inserted at a second stage, finally, the round extruding contact pins A1.2.1.1.8 and the round extruding contact pins B1.2.1.2.8 are accurately inserted into the plug sleeve holes 2.2.2.1.1 under the guiding action of the two-stage inserting, and the round extruding contact pins A1.2.1.1.8 and the round extruding contact pins B1.2.1.2.8 are in prepressing contact with the elastic contact body 2.2.2.1.3; the identification guide pin A is matched with the identification guide pin B, so that the plug and the socket which are not matched are prevented from being successfully plugged; when the plug 1 and the socket 2 are inserted, the blind plugging function can be realized under the guidance of the first level and the second level.
The present invention is not described in detail in the prior art.
Claims (9)
1. A reinforced ultrahigh-speed high-density high-reliability connector is characterized in that: the connector comprises a plug (1) and a socket (2), wherein the plug (1) and the socket (2) are matched and oppositely inserted to form a complete ultrahigh-speed high-density high-reliability connector;
the plug (1) comprises a plug shell (1.1) and a plug module (1.2); the plug shell (1.1) is rectangular plate-shaped and is provided with a plurality of penetrating plug module mounting holes (1.1.1); the upper plate surface is provided with a plurality of plug fixing lugs (1.1.2), and the plug fixing lugs (1.1.2) are provided with fixing holes; a plug guide surrounding bone (1.1.3) is arranged on the lower plate surface around the plug module mounting hole (1.1.1), a sealing ring (1.1.4) is arranged on the outer peripheral surface of the plug guide surrounding bone (1.1.3), and an identification guide pin A (1.1.5) and an insertion guide pin (1.1.6) are fixedly arranged at two ends of the lower plate surface; the plug module (1.2) is fixedly arranged in a plug module mounting hole (1.1.1) of the plug shell (1.1);
the socket (2) comprises a socket shell (2.1) and a socket module (2.2); the socket shell (2.1) is rectangular and blocky, a plurality of socket module mounting holes (2.1.1) are formed in the socket shell in a penetrating mode, and socket module flanges (2.1.4) are arranged on the inner side face of each socket module mounting hole (2.1.1); the two ends of the upper end surface of the socket shell (2.1) are provided with inserting guide holes (2.1.2), and an identification guide pin B (2.1.3) is fixedly arranged adjacent to the inserting guide holes (2.1.2); the socket module (2.2) is arranged in the socket module mounting hole (2.1.1) from the lower part of the socket shell (2.1);
the plug module (1.2) comprises a plug module (1.2.1), a plug base (1.2.2) and a plug upper fixing plate (1.2.3); the plug module (1.2.1) is fixedly arranged at the upper part of the plug base (1.2.2), and the plug upper fixing plate (1.2.3) is fixedly arranged at the upper part of the plug module (1.2.1); the plug module (1.2.1) comprises a plurality of pin parts A (1.2.1.1) and pin parts B (1.2.1.2), and the pin parts A and B are of thin plate-shaped structures; the pin component A (1.2.1.1) and the pin component B (1.2.1.2) are arranged in a staggered and contact mode to form a plug module (1.2.1); the pin component A (1.2.1.1) comprises a plurality of punch-formed A-type pin groups, the pin component B (1.2.1.2) comprises a plurality of punch-formed B-type pin groups, and a plurality of rounding pins A (1.2.1.1.8) and rounding pins B (1.2.1.2.8) are arranged at the bottoms of the A-type pin groups and the B-type pin groups; the plug base (1.2.2) is provided with a plurality of penetrating pin holes (1.2.2.4), and the round extruding pin A (1.2.1.1.8) and the round extruding pin B (1.2.1.2.8) are fixedly arranged in the pin holes (1.2.2.4); the bottom of the plug base (1.2.2) is provided with a plurality of base air grooves (1.2.2.5); the base air groove (1.2.2.5) is communicated with all rounding pins A (1.2.1.1.8) and all rounding pins B (1.2.1.2.8) of the same pin component A (1.2.1.1) or the same pin component B (1.2.1.2); the base air groove (1.2.2.5) is provided with a plug bush hole (1.2.2.6) concentric with the plug pin hole (1.2.2.4);
the socket module (2.2) comprises a socket body (2.2.1) and an insert sleeve (2.2.2); the socket body (2.2.1) is rectangular block-shaped, the upper surface and the lower surface of the socket body are provided with a plurality of penetrating plug bush mounting holes (2.2.1.1), the plug bush mounting holes (2.2.1.1) are stepped holes, and the aperture of the lower part of the plug bush mounting hole is larger than that of the upper part of the plug bush mounting hole; the plug bush (2.2.2) is in a thin stepped shaft shape, the uppermost end of the plug bush is provided with a plug bush hole (2.2.2.1.1), and the upper end of the plug bush hole (2.2.2.1.1) is provided with an anti-falling step (2.2.2.1.2); an elastic contact body (2.2.2.1.3) is arranged in the plug bush hole (2.2.2.1.1); the plug bush (2.2.2) is fixedly arranged in the plug bush mounting hole (2.2.1.1);
when the plug (1) and the socket (2) are matched and oppositely plugged, the round extruding pin A (1.2.1.1.8) and the round extruding pin B (1.2.1.2.8) are plugged into a plug sleeve hole (2.2.2.1.1) of the plug sleeve (2.2.2) and reliably contacted with the plug sleeve (2.2.2) through the elastic contact body (2.2.2.1.3).
2. The reinforced ultra-high speed, high density, high reliability connector of claim 1, wherein: the A-type pin group and the B-type pin group comprise a plurality of signal pins and grounding pins; two adjacent signal contact pins are set as a group to form a differential signal contact pin pair, and a grounding contact pin is arranged between the adjacent differential signal contact pin pairs;
the left side of the A-type contact pin group is initially provided with a pair of differential signal contact pin pairs, and the rightmost side of the A-type contact pin group is provided with a grounding contact pin;
the left side of the B-type pin group is initially provided with a grounding pin, and the rightmost side of the B-type pin group is provided with a differential signal pin pair;
the signal pins comprise a round pin A (1.2.1.1.8), a square connecting block A (1.2.1.1.9), a microstrip connecting line A (1.2.1.1.10) and a fisheye plug A (1.2.1.1.11), wherein the round pin A (1.2.1.1.8) is in the shape of a thin needle, and the lower part of the round pin A is provided with a conical head; the square extrusion connecting block A (1.2.1.1.9) is a cuboid and is arranged at the upper part of the round extrusion contact pin A (1.2.1.1.8), and the thickness of the square extrusion connecting block A is equal to the diameter of the round extrusion contact pin A (1.2.1.1.8); the microstrip connecting line A (1.2.1.1.10) is in a thin line shape, the section of the microstrip connecting line A is rectangular, the thickness of the microstrip connecting line A is smaller than that of the square extrusion connecting block A (1.2.1.1.9), the lower end part of the microstrip connecting line A is connected with the upper part of the square extrusion connecting block A (1.2.1.1.9), and the left end part of the microstrip connecting line A is fixedly provided with a fisheye plug A (1.2.1.1.11);
the grounding contact pins comprise round contact pins B (1.2.1.2.8), square connecting blocks B (1.2.1.2.9), microstrip connecting lines B (1.2.1.1.10) and fisheye plugs B (1.2.1.1.11), and the connecting structure of the grounding contact pins is the same as that of the signal contact pins; wherein the length of the rounding pin B (1.2.1.2.8) is greater than that of the rounding pin A (1.2.1.1.8); wherein the microstrip link line B (1.2.1.1.10) has a width greater than the microstrip link line A (1.2.1.1.10);
the A-type contact pin group and the B-type contact pin group are respectively fixedly connected with a plurality of signal contact pins and grounding contact pins through injection molding to form a contact pin component A and a contact pin component B.
3. The reinforced ultra-high speed, high density, high reliability connector of claim 2, wherein: the two side faces of the upper part of the pin inserting component A (1.2.1.1) are provided with symmetrical upper positioning grooves A (1.2.1.1.1) and upper positioning blocks A (1.2.1.1.2), the upper part close to the side edge is provided with symmetrical side positioning blocks A (1.2.1.1.3), the plate surface is provided with an air groove A (1.2.1.1.4), and the two side edges close to the lower part are provided with lower clamping hooks A (1.2.1.1.5); the two side faces of the upper part of the pin inserting component B (1.2.1.2) are provided with symmetrical upper positioning blocks B (1.2.1.2.1) and upper positioning grooves B (1.2.1.2.2), the upper part close to the side edge is provided with symmetrical side positioning blocks B (1.2.1.2.3), the plate surface is provided with air grooves B (1.2.1.2.4), and the two side edges close to the lower part are provided with lower clamping hooks B (1.2.1.2.5);
when the plug module (1.2.1) is assembled, the upper positioning groove A (1.2.1.1.1) of the pin component A (1.2.1.1) corresponds to the upper positioning block B (1.2.1.2.1) of the pin component B (1.2.1.2), and the upper positioning block A (1.2.1.1.2) of the pin component A (1.2.1.1) corresponds to the upper positioning groove B (1.2.1.2.2) of the pin component B (1.2.1.2) for positioning the pin component A (1.2.1.1) and the pin component B (1.2.1.2) in the horizontal direction; the side positioning block a (1.2.1.1.3) of the pin component a (1.2.1.1) and the side positioning block B (1.2.1.2.3) of the pin component B (1.2.1.2) correspond to each other in a vertically staggered manner, and are used for positioning the pin component a (1.2.1.1) and the pin component B (1.2.1.2) in the vertical direction.
4. The reinforced ultra-high speed, high density, high reliability connector of claim 3, wherein: the upper part of the pin component A (1.2.1.1) is provided with an upper clamping hook A (1.2.1.1.6); the upper part of the pin component B (1.2.1.2) is provided with an upper clamping hook B (1.2.1.2.6); the upper fixing plate (1.2.3) of the plug is plate-shaped, and the plate surface of the upper fixing plate is provided with a gourd groove (1.2.3.1) and a comb groove (1.2.3.2);
a plurality of contact pin part A (1.2.1.1), contact pin part B (1.2.1.2) staggered arrangement, contact setting constitute plug module (1.2.1) after, plug upper fixed plate (1.2.3) is fixed to be set up at last trip A (1.2.1.1.6), go up trip B (1.2.1.2.6) downside through calabash groove (1.2.3.1), broach groove (1.2.3.2), with a plurality of contact pin part A (1.2.1.1), contact pin part B (1.2.1.2) fixed connection together.
5. The reinforced ultra-high speed, high density, high reliability connector of claim 4, wherein: the plug base (1.2.2) comprises a base body (1.2.2.1), a plurality of pairs of clamping plates (1.2.2.3) are arranged on the front side surface and the rear side surface of the upper part of the base body (1.2.2.1), and clamping grooves (1.2.2.3.1) are formed in the clamping plates (1.2.2.3); the lower clamping hook A (1.2.1.1.5) and the lower clamping hook B (1.2.1.2.5) are fixedly arranged in the clamping groove (1.2.2.3.1).
6. The reinforced ultra-high speed, high density, high reliability connector of claim 5, wherein: the upper end face of the base body (1.2.2.1) is provided with a plurality of pin component alignment grooves (1.2.2.2), and the bottoms of the pin component alignment grooves (1.2.2.2) are provided with a plurality of penetrating pin holes (1.2.2.4); the round extruding contact pin A (1.2.1.1.8) and the round extruding contact pin B (1.2.1.2.8) are fixedly arranged in the contact pin hole (1.2.2.4) through interference fit of the square extruding connecting block A (1.2.1.1.9) and the square extruding connecting block B (1.2.1.2.9) with the contact pin hole (1.2.2.4).
7. The reinforced ultra-high speed, high density, high reliability connector of claim 6, wherein: the plug bush (2.2.2) is sequentially provided with a plug bush tail section (2.2.2.1), a transition section A (2.2.2), a locking conical section (2.2.2.3), a transition section B (2.2.2.4), an anti-falling tooth section (2.2.2.5), an expansion conical section (2.2.2.6), a transition section C (2.2.2.7) and a fisheye plug C (2.2.2.8) from top to bottom; the anti-loosening conical section (2.2.2.3) is an inverted cone, and the diameter of the large end of the anti-loosening conical section is larger than the upper aperture of the mounting hole (2.2.1.1); the anti-falling tooth section (2.2.2.5) is a step shaft shoulder, the diameter of the anti-falling tooth section is larger than the upper aperture of the mounting hole (2.2.1.1) and is equal to the lower aperture of the mounting hole (2.2.1.1); the distance from the step surface at the lower part of the transition section A (2.2.2.2) to the shaft shoulder surface at the upper part of the anti-falling tooth section (2.2.2.5) is equal to the depth of the hole at the upper part of the mounting hole (2.2.1.1); the middle of the plug bush tail section (2.2.2.1) is provided with a plug bush hole (2.2.2.1.1).
8. The reinforced ultra-high speed, high density, high reliability connector of claim 7, wherein: the expansion conical section (2.2.2.6) and the transition section C (2.2.2.7) are arranged in a large hole at the lower part of the plug bush mounting hole (2.2.1.1), and the diameter of the transition section C (2.2.2.7) is smaller than that of a large hole at the lower part of the plug bush mounting hole (2.2.1.1).
9. The reinforced ultra-high speed, high density, high reliability connector of claim 8, wherein: two adjacent columns of plug bush mounting holes (2.2.1.1) are respectively arranged in A, B modes, the hole distances of A, B two columns are all non-equidistant, and the hole distance arrangement modes of A, B two columns are different.
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CN109546456A (en) * | 2019-01-18 | 2019-03-29 | 四川华丰企业集团有限公司 | The straight public pedestal of high speed connector |
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CN101779341B (en) * | 2007-06-20 | 2013-03-20 | 莫列斯公司 | High speed connector with spoked mounting frame |
CN201178192Y (en) * | 2008-04-10 | 2009-01-07 | 贵州航天电器股份有限公司 | Solderless direct-insert printed board connector socket |
CN201369434Y (en) * | 2009-01-19 | 2009-12-23 | 中航光电科技股份有限公司 | LRM electric connector, plug module and socket module thereof |
CN201781081U (en) * | 2010-07-15 | 2011-03-30 | 中航光电科技股份有限公司 | Reinforced printed board modularized plug connector and socket connector |
CN102412472B (en) * | 2011-11-21 | 2013-11-20 | 贵州航天电器股份有限公司 | Reinforced combination type connector socket |
CN203326244U (en) * | 2013-06-28 | 2013-12-04 | 沈阳兴华航空电器有限责任公司 | Printed board surface mounting welding modular electronic connector |
CN206558749U (en) * | 2017-03-13 | 2017-10-13 | 深圳市三通连接系统有限公司 | A kind of power connector of high dynamic contact |
CN107482346B (en) * | 2017-07-27 | 2019-03-12 | 四川华丰企业集团有限公司 | High-speed module connector |
US11183787B2 (en) * | 2018-09-28 | 2021-11-23 | TE Connectivity Services Gmbh | Electrical connector and connector system having plated ground shields |
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