CN117276942A - DP head high frequency data connector - Google Patents

Abstract

The invention relates to the technical field of connectors, in particular to a DP head high frequency data connector. The DP head high-frequency data connector comprises a port shell assembly, an insulating rubber core, a terminal module, two clamping hook assemblies, a grounding spring piece assembly and a PCB assembly, wherein each clamping hook assembly comprises a clamping hook piece, an expansion piece and a clamping and fixing converter piece, and each clamping and fixing converter piece comprises a converter column and a clamping block. The port shell assembly is used for including the inside device of connector, insulating rubber core is arranged in separating port shell assembly and terminal module, the pothook spare of pothook assembly is arranged in the card locates port shell assembly and insulating rubber core, make port shell assembly and insulating rubber core more firm, the expansion member is used for expanding when being heated, make port shell assembly and insulating rubber core more firm, the card solid conversion piece is used for fixed insulating rubber core and port shell assembly, and when the expansion member is heated and expanded, the inside and external of intercommunication connector, reduce the inside temperature of connector, and then the life of extension connector, the earthing shell fragment subassembly is used for purifying high frequency signal, promote the ground connection function.

Description

DP head high frequency data connector

Technical Field

The invention relates to the technical field of connectors, in particular to a DP head high frequency data connector.

Background

A high frequency data connector is a device or interface for transmitting data, and may connect different devices or systems to enable them to exchange data or share information, and the data connector is generally used for data transmission between devices such as a computer, a mobile phone, a camera, and a printer. The connector connects data transmission lines between different devices through a specific plug and socket to realize data transmission and communication, and a user can transmit data from one device to another device or connect the devices to the Internet or other external networks through the data connector. The high-frequency data connector at the present stage is not firmly connected and is easy to cause high temperature when in use, thereby reducing the service life of the high-frequency data connector.

Disclosure of Invention

Based on this, it is necessary to provide a DP header high frequency data connector to solve at least one of the above technical problems.

The utility model provides a DP head high frequency data connector, including port shell subassembly, insulating rubber core, the terminal module subassembly, two pothook subassemblies, earthing clip subassembly and PCB board subassembly, insulating rubber core installs in port shell subassembly's inside, terminal module installs in insulating rubber core's inside, two pothook subassemblies are installed respectively in insulating rubber core's both sides, earthing clip subassembly installs in terminal module's inside, PCB board subassembly fixed mounting is in terminal module's one end, every pothook subassembly includes the pothook spare, expansion member and card solid converter, the pothook spare is installed in insulating rubber core's lateral wall, expansion member fixed mounting is in the inside of pothook spare, card solid converter is installed in the bottom of pothook spare, and card solid converter is located the below of expansion member, card solid converter includes the converter post and fixture block, the top of fixture block links to each other with the bottom of converter post, the bottom area of converter post is less than the bottom area of fixture block.

The port shell assembly is used for including the inside device of connector, insulating rubber core is arranged in separating port shell assembly and terminal module, the pothook spare of pothook assembly is arranged in the card locates port shell assembly and insulating rubber core, make port shell assembly and insulating rubber core more firm, the expansion member is used for expanding when being heated, make port shell assembly and insulating rubber core more firm, the card solid conversion piece is used for fixed insulating rubber core and port shell assembly, and when the expansion member is heated and expanded, the inside and external of intercommunication connector, reduce the inside temperature of connector, and then the life of extension connector, the earthing shell fragment subassembly is used for purifying high frequency signal, promote the ground connection function.

Preferably, the port housing assembly comprises a port housing, a side bevel edge, an upper overturning block and a lower overturning block, wherein the side bevel edge is fixedly arranged on the side wall of the port housing, the upper overturning block and the lower overturning block are both arranged at one end part of the port housing assembly adjacent to the PCB assembly, and the upper overturning block is positioned above the lower overturning block.

Preferably, the port housing assembly is adjacent to one end top of the PCB assembly and is provided with a first clamping groove, the bottom of the port housing assembly is also provided with two second clamping grooves and two clamping grooves, the two second clamping grooves are positioned in the middle of one end of the port housing assembly adjacent to the PCB assembly, and the two clamping grooves are respectively positioned at two corners of one end of the port housing assembly adjacent to the PCB assembly.

Preferably, the top of insulating rubber core is offered and is glued the core groove with the top of first buckle groove to the intercommunication, and two intercommunication grooves have been seted up to the bottom of insulating rubber core, and two intercommunication grooves are linked together with two second buckle grooves respectively, and the pothook groove is offered respectively to the both sides wall of insulating rubber core, and the screens groove has been offered to the one end both sides wall that the insulating rubber core was adjacent PCB board subassembly, and the screens groove communicates with each other with the pothook groove.

Preferably, the terminal module comprises a terminal module upper layer member and a terminal module lower layer member, wherein the terminal module upper layer member and the terminal module lower layer member are both arranged in the insulating rubber core, and the terminal module upper layer member is positioned above the terminal module lower layer member.

Preferably, the upper layer member of the terminal die comprises an upper layer body of the terminal die, two first buckles, a welding block, a first buckling block, a second buckling block and an upper terminal, wherein the upper layer body of the terminal die is arranged in the insulating rubber core, the two first buckles and the welding block are fixedly arranged at the top of the upper layer body of the terminal die, the welding block is positioned at one end adjacent to the PCB assembly, the first buckling block and the second buckling block are arranged on one side wall of the upper layer body of the terminal die, an interval space is formed between the first buckling block and the second buckling block, a third buckling groove, a plurality of upper hollowed-out grooves and a fourth buckling groove are formed in the bottom of the upper layer body of the terminal die, the third buckling groove is positioned at one end adjacent to the PCB assembly, the plurality of upper hollowed-out grooves are formed in the bottom central position of the upper layer body of the terminal die, the fourth buckling groove is positioned at one end far away from the PCB assembly, a fifth buckling groove and a sixth buckling groove are formed in the other side wall of the upper layer body of the terminal die, the two first buckling blocks are arranged in the two communicating grooves, and the upper terminal is inserted into the upper layer body of the terminal die.

Preferably, the terminal die lower layer piece includes terminal die lower layer body, PCB board connecting portion, the third buckle body, the fourth buckle body, the third buckling piece, the fourth buckling piece, two ground connection fixture blocks, second buckling body and lower terminal, terminal die lower layer body installs in the inside of insulating rubber core, and be located the below of terminal die upper layer body, PCB board connecting portion installs in terminal die lower layer body near the one end tip of PCB board subassembly, the top of terminal die lower layer body is all installed to the third buckle body and the fourth buckle body, and the third buckle body is located one side near PCB board subassembly, the third buckle body card is located in the third buckle groove, the fourth buckle body card is located in the fourth buckle groove, all install in terminal die lower layer body's one side lateral wall third buckling piece and fourth buckling piece, and be formed with the buckle space between third buckling piece, two ground connection fixture blocks and second buckling body are all installed in terminal die lower layer body's bottom, and two ground connection fixture blocks are located one side near board connecting portion, the second buckle body is located the cavity of terminal die lower layer body, the other side near the terminal die lower layer is located at the side of terminal die lower layer, the side wall is located to the fourth buckle body, the hollow-down side wall is located at the side of terminal die lower layer is located to the fourth buckle body, the side is located at the side of the terminal die lower layer, the hollow down is located at the side of the terminal die lower layer is located at the side.

Preferably, the grounding spring piece assembly comprises a grounding spring piece body, a plurality of upper spring pieces and a plurality of lower spring pieces, wherein the grounding spring piece body is clamped between the upper layer body of the terminal die and the lower layer body of the terminal die, the plurality of upper spring pieces are arranged at the top of the grounding spring piece body, the plurality of lower spring pieces are arranged at the bottom of the grounding spring piece body, two grounding clamping block grooves are formed in the top of one end, adjacent to the PCB connecting portion, of the grounding spring piece body, two grounding clamping block clamps are arranged in the two grounding clamping block grooves, the PCB assembly comprises a PCB body, a terminal clamping portion and a welding portion, the PCB body is inserted into the upper layer body of the terminal die and the lower layer body of the terminal die, the terminal clamping portion and the welding portion are located on one side, adjacent to the grounding spring piece body, the terminal clamping portion is in butt joint with the PCB connecting portion, and the welding portion is connected with the welding block.

Preferably, the hook piece includes hook section, arc section and lower hook section, and the one end card of hook section is located in the screens groove, and the one end of arc section links to each other with the other end fixed of hook section, and the other end of hook section links to each other with arc section is fixed down, and the one end top of keeping away from arc section of hook section on is protruding to be equipped with the pothook, and the push button is installed to the one end that the hook section is adjacent to arc section on with push the inclined plane, pushes down the button and installs in the top of hook section on, pushes up the inclined plane and installs in the bottom of hook section.

Preferably, the expansion piece comprises a clamping hook expansion block and a terminal module expansion block, wherein the top of the clamping hook expansion block is abutted against the middle of the inclined plane of the pushing inclined plane, the bottom of the clamping hook expansion block is connected with the top of the lower clamping hook section, the terminal module expansion block is positioned above the upper layer body of the terminal module, the terminal module expansion block is fixedly connected with the clamping hook expansion block, the top of the terminal module expansion block is abutted against the inner wall of the insulating rubber core, the bottom of the terminal module expansion block is abutted against the top of the upper layer body of the terminal module, and the clamping block is slidably clamped in the clamping groove.

According to the invention, the port shell is used for protecting the connection of the inner terminal module, the insulating rubber core is used for separating the upper terminal from the lower terminal, the upper overturning block and the lower overturning block are provided with flanging processes for better guiding wiring, the first buckling groove of the port shell is buckled with the first buckling groove of the insulating rubber core, the second buckling groove of the port shell is buckled with the communication groove of the insulating rubber core, the port shell and the side bevel edge are combined with the clamping hook groove of the insulating rubber core, and the port shell is compact in structure and prevented from being separated from the port shell. Through setting up first buckling piece, the complete lock of first buckling piece of terminal die upper layer spare is in the fourth buckling groove of terminal die lower floor body, the complete lock of second buckling piece of terminal die upper layer spare is in the third buckling groove of terminal die lower floor body, the complete lock of third buckling piece of terminal die lower floor body is in the sixth buckling groove of terminal die upper layer spare, the complete lock of fourth buckling piece of terminal die lower floor body is in the fifth buckling groove of terminal die upper layer spare, can make the better combination of terminal die upper layer spare and terminal die lower floor spare, prevent terminal die upper layer spare and terminal die lower floor spare separation. The upper hollow grooves and the lower hollow grooves are arranged, so that the pipe position protection can be provided for the upper spring plates and the lower spring plates of the grounding spring plate assembly, the problem that the upper terminal and the lower terminal cannot be contacted due to the deviation of the positions of the joint spring plate bodies is prevented, the first buckle is buckled with the communication groove, the second buckling body is buckled with the top rubber core groove, the connection between the terminal module and the insulating rubber core is reinforced, the terminal module is prevented from falling out of the insulating rubber core, a limit baffle is arranged at one end, adjacent to the PCB (printed Circuit Board) module, of the terminal module, the terminal clamping part is combined with the connecting part of the PCB, the movement of the PCB module can be controlled, the connector can well protect high frequency and high speed, and signal attenuation is prevented. Through setting up the ground connection bullet lamellar body, the last shell fragment of ground connection bullet lamellar body and lower shell fragment are switched on each other, form ground connection integration, can purify the high frequency signal, promote the ground connection function, the last shell fragment of ground connection bullet lamellar body and the positive and negative two-sided shell fragment of lower shell fragment are constituteed, open and arrange ground connection terminal and switch on each other the effect about, go up shell fragment and lower shell fragment and be the PIN ground connection around, play multiple insurance effect, the welding piece is in the same place with the welding, the connection between terminal module and the PCB board subassembly has been consolidated. Through setting up card solid converter, when the connector during operation, the circuit switches on, the inside heat that will produce of connector, the inside expansion member of pothook subassembly will be heated the inflation, pothook expansion block is towards the inflation all around, the top of pothook expansion block is slided on the pushing up inclined plane of last pothook section, the arc section is upwards crooked, two spacing grooves have been seted up at one side top that the welding portion was kept away from to the port shell, the pothook of going up the pothook section is inseparabler with the spacing groove butt of port shell, and then make the port shell fixed more firm with insulating rubber core. The space between the current converting column and the clamping groove is provided with a current converting space, meanwhile, the clamping hook expansion block expands towards the periphery, the lower clamping hook section of the clamping hook piece expands downwards, the clamping block moves downwards to penetrate through the clamping groove, the current converting space is communicated with the outside, high-temperature air flow inside the connector can exchange with ambient temperature air flow, and the temperature inside the connector is reduced. The expansion piece inside the clamping hook component expands due to heating, the terminal module expansion block expands due to heating, the upper layer body of the terminal module is pushed to move downwards, the upper layer body of the terminal module is connected with the lower layer body of the terminal module more tightly, and data transmission is more stable. The connector has ingenious structure, the parts are tightly combined, and the front PIN and the rear PIN are grounded, so that the clamping hook component of the connector can be heated and expanded when the connector works to generate a large amount of heat, the internal connection of the connector is tighter, the data transmission is maintained, and meanwhile, the internal part of the connector can be communicated with the outside when the clamping hook component is heated and expanded, thereby reducing the internal temperature of the connector and prolonging the service life of the connector.

Drawings

FIG. 1 is an exploded view of an embodiment as a whole.

Fig. 2 is a schematic perspective view of an embodiment of a port housing assembly.

Fig. 3 is a schematic perspective view of an insulation rubber core according to an embodiment.

Fig. 4 is a schematic perspective view of an embodiment of a top module of a terminal module.

Fig. 5 is a perspective view of another view of the upper layer of the module according to an embodiment.

Fig. 6 is a schematic perspective view of an embodiment of an end-piece lower layer.

Fig. 7 is a schematic perspective view of another view of an exemplary sub-mold assembly.

Fig. 8 is a schematic perspective view of an embodiment of a grounding spring assembly.

Fig. 9 is a perspective view of another view of the grounding spring assembly according to an embodiment.

Fig. 10 is a schematic perspective view of a hook assembly according to an embodiment.

In the figure: 10. a port housing assembly; 101. a first fastening groove; 102. a second fastening groove; 103. a clamping groove; 104. a port housing; 105. a side bevel; 106. an upper overturning block; 107. a lower overturning block; 20. an insulating rubber core; 201. a top rubber core groove; 202. a hook slot; 204. a clamping groove; 205. a communication groove; 30. a terminal module; 31. a top piece of the terminal die; 310. an upper layer of the terminal die; 311. a first buckle; 312. a welding block; 313. a third snap groove; 314. a first buckling block; 315. a second buckling block; 316. a hollow groove is formed on the upper part; 317. a fourth snap groove; 318. a fifth snap groove; 319. a sixth snap groove; 320. an upper terminal; 40. a hook component; 41. a hook member; 42. an expansion member; 43. clamping and fixing the converter; 44. a converter column; 45. a clamping block; 410. an upper hook section; 411. an arc section; 412. a lower hook section; 413. a clamping hook; 414. pressing a button; 415. pushing against the inclined plane; 420. a hook expansion block; 421. a terminal die expansion block; 50. a grounding spring piece assembly; 51. a grounding spring body; 52. a spring plate is arranged; 53. a lower spring plate; 54. a grounding clamping block groove; 60. a bottom piece of the terminal die; 61. a lower layer of terminal die; 600. a PCB board connecting part; 611. a third buckle body; 612. a third buckling block; 613. a fourth buckling block; 614. a fourth buckle body; 615. a lower hollow groove; 616. a third buckling groove; 617. a fourth buckling groove; 618. a grounding clamping block; 619. a second buckling body; 620. a lower terminal; 70. a PCB assembly; 700. a PCB body; 701. a terminal clamping part; 702. and a welding part.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

An embodiment of the present invention is shown in fig. 1 to 10, and is a DP header high frequency data connector, which includes a port housing assembly 10, an insulating rubber core 20, a terminal module assembly 30, two hook assemblies 40, a grounding spring assembly 50 and a PCB board assembly 70, wherein the insulating rubber core 20 is mounted inside the port housing assembly 10, the terminal module assembly 30 is mounted inside the insulating rubber core 20, the two hook assemblies 40 are respectively mounted at two sides of the insulating rubber core 20, the grounding spring assembly 50 is mounted inside the terminal module assembly 30, the PCB board assembly 70 is fixedly mounted at one end of the terminal module assembly 30, each hook assembly 40 includes a hook member 41, an expansion member 42 and a clamping and converting member 43, the hook member 41 is mounted at a side wall of the insulating rubber core 20, the expansion member 42 is fixedly mounted inside the hook member 41, the clamping and converting member 43 is mounted at a bottom of the hook member 41, the clamping and converting member 43 is located below the expansion member 42, the clamping and converting member 43 includes a converting column 44 and a clamping block 45, the top of the converting column 44 is connected to the bottom of the clamping and converting column 45, and the bottom of the clamping column 44 is connected to the bottom of the clamping column 44.

The port housing assembly 10 is used for including the inside device of connector, insulating rubber core 20 is arranged in separating port housing assembly 10 and terminal module 30, the pothook 41 of pothook assembly 40 is arranged in the card locates port housing assembly 10 and insulating rubber core 20 for port housing assembly 10 is more firm with insulating rubber core 20, the expansion member 42 is used for expanding when being heated, make port housing assembly 10 and insulating rubber core 20 more firm, card solid converter 43 is used for fixed insulating rubber core 20 and port housing assembly 10, and when expansion member 42 thermal expansion, communicate inside the connector and outside, reduce the inside temperature of connector, and then prolong the life of connector, the earthing shell fragment assembly 50 is used for purifying the high frequency signal, promote the ground connection function.

As shown in fig. 1 and 2, the port housing assembly 10 includes a port housing 104, a side bevel 105, an upper flip block 106 and a lower flip block 107, the side bevel 105 is fixedly mounted on a side wall of the port housing 104, the upper flip block 106 and the lower flip block 107 are mounted on an end portion of the port housing assembly 10 adjacent to the PCB board assembly 70, and the upper flip block 106 is located above the lower flip block 107.

As shown in fig. 1 to 3, a first fastening groove 101 is formed at the top of one end of the port housing assembly 10 adjacent to the PCB assembly 70, two second fastening grooves 102 and two fastening grooves 103 are formed at the bottom of the port housing assembly 10, the two second fastening grooves 102 are located at the middle of one end of the port housing assembly 10 adjacent to the PCB assembly 70, and the two fastening grooves 103 are located at two corners of one end of the port housing assembly 10 adjacent to the PCB assembly 70.

As shown in fig. 1 to 3, a top rubber core groove 201 which is communicated with the first fastening groove 101 is formed in the top of the insulating rubber core 20, two communicating grooves 205 are formed in the bottom of the insulating rubber core 20, the two communicating grooves 205 are respectively communicated with the two second fastening grooves 102, two side walls of the insulating rubber core 20 are respectively provided with a clamping hook groove 202, two side walls of one end, adjacent to the PCB board assembly 70, of the insulating rubber core 20 are provided with clamping position grooves 204, and the clamping position grooves 204 are communicated with the clamping hook grooves 202.

As shown in fig. 1, 4 and 5, the terminal module 30 includes a terminal upper layer member 31 and a terminal lower layer member 60, the terminal upper layer member 31 and the terminal lower layer member 60 are both mounted inside the insulating core 20, and the terminal upper layer member 31 is located above the terminal lower layer member 60.

As shown in fig. 4 and 5, the upper member 31 of the terminal module includes an upper member 310 of the terminal module, two first fastening blocks 311, a welding block 312, a first fastening block 314, a second fastening block 315 and an upper terminal 320, the upper member 310 of the terminal module is mounted inside the insulating rubber core 20, two first fastening blocks 311 and the welding block 312 are fixedly mounted at the top of the upper member 310 of the terminal module, the welding block 312 is located at one end adjacent to the PCB assembly 70, the first fastening block 314 and the second fastening block 315 are mounted at one side wall of the upper member 310 of the terminal module, a space (not shown) is formed between the first fastening block 314 and the second fastening block 315, a third fastening groove 313, a plurality of upper hollow grooves 316 and a fourth fastening groove 317 are formed at the bottom of the upper member 310, the third fastening groove 313 is located at one end adjacent to the PCB assembly 70, the plurality of upper hollow grooves 316 are formed at the bottom center of the upper member 310, the fourth fastening groove 317 is located at the other side wall of the end far from the PCB assembly 70, the upper member 205 is provided with a fifth fastening groove 318, and the sixth fastening groove 320 is formed in the upper member 310 of the terminal module.

As shown in fig. 6 and 7, the lower terminal mold member 60 includes a lower terminal mold member 61, a PCB board connecting portion 600, a third fastening body 611, a fourth fastening body 614, a third fastening block 612, a fourth fastening block 613, two grounding blocks 618, a second fastening body 619, and a lower terminal 620, the lower terminal mold member 61 is mounted inside the insulating core 20 and below the upper terminal mold member 310, the PCB board connecting portion 600 is mounted on an end portion of the lower terminal mold member 61 adjacent to the PCB board assembly 70, the third fastening body 611 and the fourth fastening body 614 are mounted on the top of the lower terminal mold member 61, the third fastening body 611 is located on a side adjacent to the PCB board assembly 70, the third fastening body 611 is fastened in the third fastening groove 313, the fourth fastening body 614 is fastened in the fourth fastening groove 317, the third fastening block 612 and the fourth fastening block 613 are both installed on a side wall of the lower terminal mold layer 61, a fastening space (not shown) is formed between the third fastening block 612 and the fourth fastening block 613, two grounding clamping blocks 618 and the second fastening block 619 are both installed at the bottom of the lower terminal mold layer 61, the two grounding clamping blocks 618 are located at one side adjacent to the PCB board connecting portion 600, the second fastening block 619 is clamped in the top rubber core groove 201, a plurality of lower hollow grooves 615 are formed in the top of the lower terminal mold layer 61, a third fastening groove 616 and a fourth fastening groove 617 are formed in a side wall of the other side of the lower terminal mold layer 61, the fourth fastening groove 617 is located at one side adjacent to the PCB board connecting portion 600, and the lower terminal 620 is inserted in the lower terminal mold layer 61.

As shown in fig. 1, 8 and 9, the grounding spring assembly 50 includes a grounding spring body 51, a plurality of upper spring plates 52 and a plurality of lower spring plates 53, the grounding spring body 51 is clamped between the upper terminal die layer 310 and the lower terminal die layer 61, the plurality of upper spring plates 52 are mounted on the top of the grounding spring body 51, the plurality of lower spring plates 53 are mounted on the bottom of the grounding spring body 51, two grounding clamping block grooves 54 are formed in the top of one end of the grounding spring body 51 adjacent to the PCB board connecting portion 600, two grounding clamping blocks 618 are clamped in the two grounding clamping block grooves 54, the PCB board assembly 70 includes a PCB board body 700, a terminal clamping portion 701 and a welding portion 702, the PCB board body 700 is inserted into the upper terminal die layer 310 and the lower terminal die layer 61, the terminal clamping portion 701 and the welding portion 702 are located on one side adjacent to the grounding spring body 51, the terminal clamping portion 701 is abutted against the PCB board connecting portion 600, and the welding portion 702 is connected with the welding block 312.

As shown in fig. 10, the hook member 41 includes an upper hook section 410, an arc section 411 and a lower hook section 412, one end of the upper hook section 410 is clamped in the clamping slot 204, one end of the arc section 411 is fixedly connected with the other end of the upper hook section 410, the other end of the lower hook section 412 is fixedly connected with the arc section 411, a hook 413 is convexly arranged at the top of one end of the upper hook section 410, which is far away from the arc section 411, a push button 414 and a push inclined plane 415 are arranged at one end of the upper hook section 410, which is adjacent to the arc section 411, the push button 414 is arranged at the top of the upper hook section 410, and the push inclined plane 415 is arranged at the bottom of the upper hook section 410.

As shown in fig. 10, the expansion member 42 includes a hook expansion block 420 and a terminal expansion block 421, wherein the top of the hook expansion block 420 is abutted against the middle of the pushing inclined plane 415, the bottom of the hook expansion block 420 is connected with the top of the lower hook section 412, the terminal expansion block 421 is located above the upper layer 310 of the terminal die, the terminal expansion block 421 is fixedly connected with the hook expansion block 420, the top of the terminal expansion block 421 is abutted against the inner wall of the insulating rubber core 20, the bottom of the terminal expansion block 421 is abutted against the top of the upper layer 310 of the terminal die, and the clamping block 45 is slidably clamped in the clamping groove 103.

When in installation: the insulating rubber core 20 is arranged in the port housing assembly 10, the terminal module assembly 30 is arranged in the insulating rubber core 20, the two clamping hook assemblies 40 are respectively arranged at two sides of the insulating rubber core 20, the grounding spring plate assembly 50 is arranged in the terminal module assembly 30, the PCB board assembly 70 is fixedly arranged at one end of the terminal module assembly 30, the clamping hook member 41 is arranged on the side wall of the insulating rubber core 20, the expansion member 42 is fixedly arranged in the clamping hook member 41, the clamping and fixing current conversion member 43 is arranged at the bottom of the clamping hook member 41, the side inclined edge 105 is fixedly arranged on the side wall of the port housing 104, the upper overturning block 106 and the lower overturning block 107 are respectively arranged at one end part of the port housing assembly 10 adjacent to the PCB board assembly 70, the upper end mold member 31 and the lower end mold member 60 are respectively arranged in the insulating rubber core 20, the upper end mold member 310 is arranged in the insulating rubber core 20, the two first fastening blocks 311 and the welding blocks 312 are fixedly installed at the top of the upper terminal die body 310, the first fastening blocks 314 and the second fastening blocks 315 are installed at one side wall of the upper terminal die body 310, the lower terminal die body 61 is installed inside the insulating rubber core 20, the PCB board connecting portion 600 is installed at one end portion of the lower terminal die body 61 adjacent to the PCB board assembly 70, the third fastening blocks 611 and the fourth fastening blocks 614 are installed at the top of the lower terminal die body 61, the third fastening blocks 612 and the fourth fastening blocks 613 are installed at one side wall of the lower terminal die body 61, the two grounding fastening blocks 618 and the second fastening blocks 619 are installed at the bottom of the lower terminal die body 61, the plurality of upper elastic pieces 52 are installed at the top of the grounding elastic pieces 51, and the plurality of lower elastic pieces 53 are installed at the bottom of the grounding elastic pieces 51.

When in use, the utility model is characterized in that: 1. the insulating rubber core 20 is sleeved in the port shell 104, the port shell 104 is used for protecting the connection of the inner terminal module 30, the insulating rubber core 20 is used for separating the upper terminal 320 from the lower terminal 620, the upper overturning block 106 and the lower overturning block 107 are provided with flanging processes for better guiding wiring, the first buckling groove 101 of the port shell 104 is buckled with the first buckling groove 101 of the insulating rubber core 20, the second buckling groove 102 of the port shell 104 is buckled with the communicating groove 205 of the insulating rubber core 20, the port shell 104 and the side bevel edge 105 are combined with the clamping hook groove 202 of the insulating rubber core 20, and the structure is compact, so that the insulating rubber core 20 is prevented from being separated from the port shell 104.

2. The terminal module 30 is an integrated terminal module, and is formed by combining the upper terminal module 31 and the lower terminal module 60, wherein the first fastening block 314 of the upper terminal module 31 is completely fastened in the fourth fastening groove 617 of the lower terminal module 61, the second fastening block 315 of the upper terminal module 31 is completely fastened in the third fastening groove 616 of the lower terminal module 61, the third fastening block 612 of the lower terminal module 61 is completely fastened in the sixth fastening groove 319 of the upper terminal module 31, and the fourth fastening block 613 of the lower terminal module 61 is completely fastened in the fifth fastening groove 318 of the upper terminal module 31, so that the upper terminal module 31 and the lower terminal module 60 can be better combined, and the upper terminal module 31 and the lower terminal module 60 can be prevented from being separated. The upper hollow grooves 316 and the lower hollow grooves 615 can provide tube position protection for the upper spring plates 52 and the lower spring plates 53 of the grounding spring plate assembly 50, so as to prevent the connector spring plate 51 from deviating to cause the problem that the connector spring plate cannot contact with the upper terminal 320 and the lower terminal 620.

3. The first buckle 311 is buckled with the communication groove 205, the second buckling body 619 is buckled with the top rubber core groove 201, connection between the terminal module 30 and the insulating rubber core 20 is reinforced, the terminal module 30 is prevented from falling out of the insulating rubber core 20, a limit baffle is arranged at one end, adjacent to the PCB board assembly 70, of the terminal module 30, the terminal clamping part 701 is combined with the PCB board connecting part 600, the movement of the PCB board assembly 70 can be controlled, and the connector can well protect high frequency and high speed and prevent signal attenuation.

4. The upper spring plate 52 and the lower spring plate 53 of the grounding spring plate body 51 are mutually conducted to form a grounding integrated structure, high-frequency signals can be purified, the grounding function is improved, the upper spring plate 52 and the front and back surfaces of the lower spring plate 53 of the grounding spring plate body 51 are formed, the upper and lower rows of grounding terminals are mutually conducted, the upper spring plate 52 and the lower spring plate 53 are grounded through a front PIN and a rear PIN, multiple insurance effects are achieved, the welding block 312 and the welding part 702 are welded together, and the connection between the terminal module assembly 30 and the PCB assembly 70 is reinforced.

5. The clamping hook assembly 40 is clamped in the clamping hook groove 202 and the clamping groove 204, so that the port shell 104 and the insulating rubber core 20 are fixed more firmly, the clamping and fixing converter 43 is clamped in the clamping and fixing groove 103, when the connector works, a circuit is conducted, heat is generated in the connector, the expansion piece 42 in the clamping hook assembly 40 expands due to heating, the clamping hook expansion block 420 expands towards the periphery, the top of the clamping hook expansion block 420 slides on the pushing inclined plane 415 of the upper clamping hook section 410, the arc-shaped section 411 bends upwards, two limiting grooves (not labeled in the drawing) are formed in the top of one side of the port shell 104, which is far away from the welding part 702, so that the clamping hook 413 of the upper clamping hook section 410 is abutted with the limiting grooves of the port shell 104 more tightly, and the port shell 104 and the insulating rubber core 20 are fixed more firmly. The space between the converter column 44 and the clamping groove 103 is provided with a converter space (not shown), meanwhile, the hook expansion block 420 expands towards the periphery, so that the lower hook section 412 of the hook piece 41 expands downwards, the clamping block 45 moves downwards to penetrate through the clamping groove 103, the converter space is communicated with the outside, high-temperature airflow inside the connector can exchange with ambient temperature airflow, and the temperature inside the connector is reduced. The expansion member 42 inside the hook assembly 40 expands due to heat, and the terminal module expansion module 421 expands due to heat, so as to push the upper layer 310 of the terminal module to move downward, so that the upper layer 310 of the terminal module is more tightly connected with the lower layer 61 of the terminal module, and the data transmission is more stable. When the port housing 104 needs to be pulled out, the two push buttons 414 and the lower part of the arc-shaped section 411 are pressed, the pushing inclined plane 415 of the upper hook section 410 moves downwards in a friction manner at the top of the hook expansion block 420, the arc-shaped section 411 contracts, the hook 413 of the upper hook section 410 is pulled out from the port housing 104, the lower hook section 412 of the hook piece 41 moves upwards, the clamping block 45 is separated from the clamping groove 103, and the port housing 104 can be pulled out.

According to the invention, the insulating rubber core 20 is arranged, the port shell 104 is used for protecting the connection of the inner terminal module 30, the insulating rubber core 20 is used for separating the upper terminal 320 from the lower terminal 620, the upper overturning block 106 and the lower overturning block 107 are provided with flanging processes for better guiding wiring, the first buckling groove 101 of the port shell 104 is buckled with the first buckling groove 101 of the insulating rubber core 20, the second buckling groove 102 of the port shell 104 is buckled with the communication groove 205 of the insulating rubber core 20, and the port shell 104 and the side bevel 105 are combined with the clamping hook groove 202 of the insulating rubber core 20, so that the structure is compact, and the insulating rubber core 20 is prevented from being separated from the port shell 104. By arranging the first fastening block 314, the first fastening block 314 of the upper terminal module member 31 is completely fastened in the fourth fastening groove 617 of the lower terminal module member 61, the second fastening block 315 of the upper terminal module member 31 is completely fastened in the third fastening groove 616 of the lower terminal module member 61, the third fastening block 612 of the lower terminal module member 61 is completely fastened in the sixth fastening groove 319 of the upper terminal module member 31, and the fourth fastening block 613 of the lower terminal module member 61 is completely fastened in the fifth fastening groove 318 of the upper terminal module member 31, so that the upper terminal module member 31 and the lower terminal module member 60 can be better combined to prevent the upper terminal module member 31 from being separated from the lower terminal module member 60. The plurality of upper hollow grooves 316 and the plurality of lower hollow grooves 615 are arranged, so that pipe position protection can be provided for the plurality of upper spring plates 52 and the plurality of lower spring plates 53 of the grounding spring plate assembly 50, the problem that the connector spring plate body 51 deviates in position to cause the contact with the upper terminal 320 and the lower terminal 620 cannot be achieved is solved, the first buckle 311 is buckled with the communication groove 205, the second buckle 619 is buckled with the top rubber core groove 201, the connection between the terminal module 30 and the insulating rubber core 20 is reinforced, the terminal module 30 is prevented from falling out of the insulating rubber core 20, a limit baffle is arranged at one end of the terminal module 30 adjacent to the PCB assembly 70, the terminal clamping part 701 is combined with the PCB connecting part 600, the movement of the PCB assembly 70 can be controlled, the connector can well protect high frequency and high speed, and signal attenuation is prevented. By arranging the grounding spring piece body 51, the upper spring piece 52 and the lower spring piece 53 of the grounding spring piece body 51 are mutually conducted to form a grounding integration, high-frequency signals can be purified, the grounding function is improved, the upper spring piece 52 and the front and back surfaces of the lower spring piece 53 of the grounding spring piece body 51 are formed, the mutual conduction of the grounding terminals of the upper row and the lower row is achieved, the upper spring piece 52 and the lower spring piece 53 are grounded through the front PIN and the rear PIN, multiple insurance effects are achieved, the welding block 312 and the welding part 702 are welded together, and the connection between the terminal module assembly 30 and the PCB assembly 70 is reinforced. Through setting up card solid converter 43, when the connector during operation, the circuit switches on, the inside heat that will produce of connector, the inside expansion member 42 of pothook subassembly 40 will be heated to expand, pothook expansion piece 420 is towards expansion all around, the top of pothook expansion piece 420 slides on the pushing up inclined plane 415 of last pothook section 410, arc section 411 is crooked upwards, two spacing grooves (not labeled in the drawing) have been seted up at one side top that weld 702 was kept away from to port shell 104, the pothook 413 of last pothook section 410 is inseparabler with the spacing groove butt of port shell 104, and then make port shell 104 and insulating rubber core 20 fixed more firm. The space between the converter column 44 and the clamping groove 103 is provided with a converter space (not shown), meanwhile, the hook expansion block 420 expands towards the periphery, so that the lower hook section 412 of the hook piece 41 expands downwards, the clamping block 45 moves downwards to penetrate through the clamping groove 103, the converter space is communicated with the outside, high-temperature airflow inside the connector can exchange with ambient temperature airflow, and the temperature inside the connector is reduced. The expansion member 42 inside the hook assembly 40 expands due to heat, and the terminal module expansion module 421 expands due to heat, so as to push the upper layer 310 of the terminal module to move downward, so that the upper layer 310 of the terminal module is more tightly connected with the lower layer 61 of the terminal module, and the data transmission is more stable. The connector has ingenious structure, the parts are tightly combined, and the front PIN grounding function and the rear PIN grounding function are adopted, so that the clamping hook component 40 of the connector can be heated and expanded when the connector works to generate a large amount of heat, the internal connection of the connector is tighter, the data transmission is maintained, and meanwhile, the internal part of the connector can be communicated with the outside when the clamping hook component 40 is heated and expanded, the internal temperature of the connector is further reduced, and the service life of the connector is prolonged.

All possible combinations of the technical features in the above embodiments are described, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above embodiments represent only a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the present invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The utility model provides a DP head high frequency data connector which is characterized in that, including port shell subassembly (10), insulating rubber core (20), terminal module (30), two pothook subassemblies (40), ground connection shell fragment subassembly (50) and PCB board subassembly (70), insulating rubber core (20) are installed in the inside of port shell subassembly (10), terminal module (30) are installed in the inside of insulating rubber core (20), two pothook subassemblies (40) are installed respectively in the both sides of insulating rubber core (20), ground connection shell fragment subassembly (50) are installed in the inside of terminal module (30), PCB board subassembly (70) are fixed mounting in the one end of terminal module (30), every pothook subassembly (40) include pothook spare (41), expansion member (42) and clamping piece (43), pothook spare (41) are installed in the lateral wall of insulating rubber core (20), expansion member (42) are fixed mounting in the inside of pothook spare (41), clamping piece (43) are installed in the bottom of pothook spare (41), and clamping piece (43) are located under clamping piece (42) and clamping piece (44) and are connected with the bottom of clamping piece (44) and clamping piece (44) of clamping piece (44) and top of clamping piece (44) and clamping piece (44) are connected with the bottom of clamping piece (44), the bottom area of the converter column (44) is smaller than the bottom area of the clamping block (45).

2. The DP head high frequency data connector according to claim 1, characterized in that: the port housing assembly (10) comprises a port housing (104), a side inclined edge (105), an upper overturning block (106) and a lower overturning block (107), wherein the side inclined edge (105) is fixedly arranged on the side wall of the port housing (104), the upper overturning block (106) and the lower overturning block (107) are arranged at one end part of the port housing assembly (10) adjacent to the PCB assembly (70), and the upper overturning block (106) is arranged above the lower overturning block (107).

3. The DP head high frequency data connector according to claim 2, characterized in that: the port shell assembly (10) is adjacent to one end top of the PCB assembly (70) and is provided with a first clamping groove (101), the bottom of the port shell assembly (10) is also provided with two second clamping grooves (102) and two clamping grooves (103), the two second clamping grooves (102) are located in the middle of one end of the port shell assembly (10) adjacent to the PCB assembly (70), and the two clamping grooves (103) are located in two corners of one end of the port shell assembly (10) adjacent to the PCB assembly (70).

4. A DP header high frequency data connector according to claim 3, characterized in that: the top of insulating rubber core (20) is offered and is glued core groove (201) to the top of intercommunication with first buckle groove (101), two intercommunication grooves (205) have been seted up to the bottom of insulating rubber core (20), two intercommunication grooves (205) are linked together with two second buckle grooves (102) respectively, pothook groove (202) are offered respectively to the both sides wall of insulating rubber core (20), clamping groove (204) have been seted up to the one end both sides wall that insulating rubber core (20) were adjacent PCB board subassembly (70), and clamping groove (204) communicate with each other with pothook groove (202).

5. The DP head high frequency data connector according to claim 4, wherein: the terminal module (30) comprises a terminal module upper layer piece (31) and a terminal module lower layer piece (60), wherein the terminal module upper layer piece (31) and the terminal module lower layer piece (60) are both arranged in the insulating rubber core (20), and the terminal module upper layer piece (31) is positioned above the terminal module lower layer piece (60).

6. The DP head high frequency data connector according to claim 5, wherein: the upper layer member (31) of the terminal die comprises an upper layer member (310) of the terminal die, two first buckles (311), a welding block (312), a first buckling block (314), a second buckling block (315) and an upper terminal (320), wherein the upper layer member (310) of the terminal die is arranged in the insulating rubber core (20), the two first buckles (311) and the welding block (312) are fixedly arranged at the top of the upper layer member (310) of the terminal die, the welding block (312) is positioned at one end adjacent to the PCB assembly (70), the first buckling block (314) and the second buckling block (315) are arranged on the side wall of one side of the upper layer member (310) of the terminal die, a spacing space is formed between the first buckling block (314) and the second buckling block (315), a third buckling groove (313), a plurality of upper hollowed-out grooves (316) and a fourth buckling groove (317) are formed at the bottom of the upper layer member (310), the third buckling groove (313) is positioned at one end adjacent to the PCB assembly (70), a plurality of upper hollowed-out grooves (316) are formed at the position of the upper layer member (318) of the upper layer (310) which is far away from the first buckling groove (310) of the other side wall of the upper layer member (310), the second buckling block (315) is communicated with the second buckling groove (310), the upper terminal (320) is inserted into the upper layer body (310) of the terminal module.

7. The DP head high frequency data connector according to claim 6, wherein: the lower terminal die part (60) comprises a lower terminal die body (61), a PCB connecting part (600), a third buckling body (611), a fourth buckling body (614), a third buckling block (612), a fourth buckling block (613), two grounding clamping blocks (618), a second buckling body (619) and a lower terminal (620), wherein the lower terminal die body (61) is arranged in the insulating rubber core (20) and below the upper terminal die body (310), the PCB connecting part (600) is arranged at the end part of the lower terminal die body (61) adjacent to the PCB board assembly (70), the third buckling body (611) and the fourth buckling body (614) are arranged at the top of the lower terminal die body (61), the third buckling body (611) is arranged at one side adjacent to the PCB board assembly (70), the third buckling body (611) is arranged in a third buckling groove (313) in a clamping manner, the fourth buckling body (614) is arranged in a fourth groove (317) in a clamping manner, the third buckling body (612) and the fourth buckling body (613) are buckled with the side wall of the lower terminal die body (61) which is arranged at one side of the lower terminal die body (61) adjacent to the lower terminal die body (613), the side wall (619) is buckled with the side wall of the third buckling body (613), and two ground connection fixture blocks (618) are located adjacent one side of PCB board connecting portion (600), second buckling body (619) is clamped in top rubber core groove (201), a plurality of lower hollow grooves (615) are formed in the top of terminal die lower layer body (61), third buckling grooves (616) and fourth buckling grooves (617) are formed in the side wall of the other side of terminal die lower layer body (61), fourth buckling grooves (617) are located adjacent one side of PCB board connecting portion (600), and lower terminals (620) are inserted in terminal die lower layer body (61).

8. The DP head high frequency data connector according to claim 7, wherein: the grounding spring piece assembly (50) comprises a grounding spring piece body (51), a plurality of upper spring pieces (52) and a plurality of lower spring pieces (53), wherein the grounding spring piece body (51) is clamped between an upper layer body (310) of a terminal die and a lower layer body (61) of the terminal die, the plurality of upper spring pieces (52) are arranged at the top of the grounding spring piece body (51), the plurality of lower spring pieces (53) are arranged at the bottom of the grounding spring piece body (51), two grounding clamping block grooves (54) are formed in the top of one end, adjacent to a PCB (600) of the grounding spring piece body (51), two grounding clamping blocks (618) are clamped in the two grounding clamping block grooves (54), the PCB (70) comprises a PCB (700), a terminal clamping part (701) and a welding part (702), the PCB (700) is inserted into the upper layer body (310) of the terminal die and the lower layer body (61), the terminal clamping part (702) is arranged at one side, adjacent to the grounding spring piece (51), and the terminal clamping part (702) is connected with the welding part (312) in a butt joint mode.

9. The DP head high frequency data connector according to claim 8, wherein: the clamping hook piece (41) comprises an upper clamping hook section (410), an arc-shaped section (411) and a lower clamping hook section (412), one end of the upper clamping hook section (410) is clamped in the clamping groove (204), one end of the arc-shaped section (411) is fixedly connected with the other end of the upper clamping hook section (410), the other end of the lower clamping hook section (412) is fixedly connected with the arc-shaped section (411), a clamping hook (413) is convexly arranged at the top of one end, far away from the arc-shaped section (411), of the upper clamping hook section (410), a push button (414) is arranged at one end, close to the arc-shaped section (411), of the upper clamping hook section (410) and is pushed against an inclined plane (415), the push button (414) is arranged at the top of the upper clamping hook section (410), and the push inclined plane (415) is arranged at the bottom of the upper clamping hook section (410).

10. The DP head high frequency data connector according to claim 9, wherein: the expansion piece (42) comprises a clamping hook expansion block (420) and a terminal module expansion block (421), the top of the clamping hook expansion block (420) is abutted against the middle of the inclined plane of the pushing inclined plane (415), the bottom of the clamping hook expansion block (420) is connected with the top of the lower clamping hook section (412), the terminal module expansion block (421) is located above the upper layer body (310) of the terminal module, the terminal module expansion block (421) is fixedly connected with the clamping hook expansion block (420), the top of the terminal module expansion block (421) is abutted against the inner wall of the insulating rubber core (20), the bottom of the terminal module expansion block (421) is abutted against the top of the upper layer body (310) of the terminal module, and the clamping block (45) is slidably clamped in the clamping groove (103).