CN212062783U - Connector and connecting seat - Google Patents

Abstract

The utility model relates to a connector and a connecting seat, which comprises a connecting seat, a cable connecting component and a pin inserting component, wherein the connecting seat comprises a first base body, a second base body and a connecting piece; first base member is provided with first guide structure, be provided with second guide structure and third guide structure on the second base member, third guide structure is spiral setting around second guide structure's extending direction, first guide structure slides and sets up on third guide structure, be provided with fourth guide structure on the connecting piece, fourth guide structure slides and sets up on second guide structure, first base member and connecting piece activity butt, cable coupling assembling is connected with one in connecting piece and the second base member, the contact pin subassembly is connected with another in connecting piece and the second base member, cable coupling assembling and contact pin subassembly activity butt, thus, just can not need the instrument to connect cable coupling assembling and contact pin subassembly, the instrument-free equipment of connector has been realized.

Description

Connector and connecting seat

Technical Field

The utility model relates to a communication jointing equipment technical field especially relates to connector and connecting seat.

Background

The connector comprises plug and socket, and the plug also can be called quartzy head, and wherein including the wire, the socket includes pedestal and the contact pin module of setting on the pedestal, and the contact pin module is used for connecting wire and another quartzy head in the connector, and at present, in the in-process of production connector, need make the wire of plug set up on the pedestal and be connected with the contact pin module through the instrument for production efficiency is lower.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a connector and a connection socket.

A connector comprises a connecting seat, a cable connecting assembly and a contact pin assembly, wherein the connecting seat comprises a first base body, a second base body and a connecting piece; first base member is provided with first guide structure, the second base member is provided with second guide structure and third guide structure, the third guide structure wind second guide structure's extending direction is the spiral setting, first guide structure slide set up in on the third guide structure, the connecting piece is provided with fourth guide structure, fourth guide structure slide set up in on the second guide structure, the connecting piece set up in first base member with between the second base member, just first base member with connecting piece activity butt, cable coupling assembling with the connecting piece and one in the second base member is connected, the contact pin subassembly with the connecting piece and another in the second base member is connected, cable coupling assembling with contact pin subassembly activity butt.

Foretell connector, first base member is followed through first guide structure third guide structure slides for first base member and second base member relative rotation, and make first base member towards the direction motion of being close to or keeping away from the second base member, when first base member along the direction motion of being close to the second base member, promote the connecting piece is towards the direction motion of being close to the second base member, at this moment, cable coupling assembling and plug-in components are close to each other, then realize cable coupling assembling and contact pin subassembly butt, and then make cable coupling assembling and contact pin subassembly electricity be connected, like this, just can connect cable coupling assembling and contact pin subassembly without the instrument, realized the instrument-free equipment of connector.

In one embodiment, a guide portion is convexly disposed on the second base body, a mounting groove is disposed in the guide portion, the second guide structure is disposed on a wall portion of the mounting groove, the connecting member is movably disposed in the mounting groove, the third guide structure is disposed on an outer side surface of the guide portion, a splicing groove is disposed on the first base body, the first guide structure is disposed on the wall portion of the splicing groove, the first base body is sleeved on an outer side of the guide portion through the splicing groove, a first insertion hole is disposed on the first base body, the first insertion hole is communicated with the splicing groove, the cable connecting assembly penetrates through the first insertion hole and is connected with the connecting member, a second insertion hole is disposed on the second base body, and the second insertion hole is disposed corresponding to the pin inserting assembly.

In one embodiment, the guide portion is cylindrical, the second guide structure extends along the axial direction of the mounting groove, and the third guide structure is spirally arranged around the axial direction of the guide portion.

In one embodiment, the shape of the connecting piece is matched with the shape of the guide groove.

In one embodiment, the shape of the sleeve groove is matched with the shape of the outer side surface of the guide part.

In one embodiment, a clamping structure is further arranged on the second base body, the clamping structure is connected with the third guide structure, the extending direction of the clamping structure is different from the extending direction of the third guide structure, and the first guide structure is slidably arranged on the third guide structure or the clamping structure.

In one embodiment, the extending direction of the clamping structure is perpendicular to the axial direction of the third guiding structure which is spirally arranged.

In one embodiment, the first guiding structure is a sliding rail protruding from the first base, the third guiding structure is a sliding groove opened in the second base, and the sliding rail is slidably disposed in the sliding groove.

In one embodiment, the second guiding structure is a guiding groove opened in the second base, the fourth guiding structure protrudes from a guiding rail arranged on the first base, and the guiding rail is slidably arranged in the guiding groove.

A connecting seat comprises a first base body, a second base body and a connecting piece; first base member is provided with first guide structure, the second base member is provided with second guide structure and third guide structure, the third guide structure wind second guide structure's extending direction is the spiral setting, first guide structure slide set up in on the third guide structure, the connecting piece is provided with fourth guide structure, fourth guide structure slide set up in on the second guide structure, first base member with connecting piece activity butt, the connecting piece be arranged in being connected with one in cable coupling assembling and the contact pin subassembly, the second base member be arranged in with cable coupling assembling and the contact pin subassembly in another be connected.

Drawings

Fig. 1 is a schematic perspective view of a connector according to an embodiment.

Fig. 2 is a schematic perspective view of a first substrate according to an embodiment.

Fig. 3 is a schematic view of an installation process of the connector according to an embodiment.

Fig. 4 is a schematic view of an installation process of the connector according to an embodiment.

100 in each figure, a first substrate; 101. a first insertion hole; 102. a sleeving groove; 110. a first guide structure; 111. a slide rail; 200. a second substrate; 210. a second guide structure; 211. a chute; 220. a third guide structure; 221. a guide groove; 230. a guide portion; 231. mounting grooves; 201. a second insertion hole; 240. a clamping structure; 241. a clamping groove; 300. a connecting member; 310. a fourth guide structure; 311. a guide rail; 301. a third insertion hole; 302. a clamping groove; 400. a pin assembly; 410. inserting a pin; 420. a main body; 430. inserting sheets; 500. a contact pin fixing block; 501. a through hole; 411. a conductive slot; 600. a shielding sheet; 700. a housing; 800. a cable connection assembly; 810. an electrical cable.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The 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.

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 in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, in one embodiment, there is provided a connector including a connector housing including a first base 100, a second base 200, and a connector 300, a cable connecting assembly (not shown), and a pin assembly 400; the first base body 100 is provided with a first guiding structure 110, the second base body 200 is provided with a second guiding structure 210 and a third guiding structure 220, the third guiding structure 220 is spirally arranged around the extending direction of the second guiding structure 210, that is, the spiral central axis of the third guiding structure 220 is parallel to the extending direction of the second guiding structure 210, the first guiding structure 110 is slidably arranged on the third guiding structure 220, the connecting member 300 is provided with a fourth guiding structure 310, the fourth guiding structure 310 is slidably arranged on the second guiding structure 210, the connecting member 300 is arranged between the first base body 100 and the second base body 200, the first base body 100 is movably abutted against the connecting member 300, the cable connecting assembly is connected with one of the connecting member 300 and the second base body 200, the pin assembly 400 is connected with the other of the connecting member 300 and the second base body 200, in this embodiment, the first base 100 is configured to push the connecting member 300 to move toward a direction close to the second base 200 when the first guiding structure 110 slides along the third guiding structure 220, and enable the cable connecting member to abut against the pin assembly when the connecting member moves to a predetermined position relative to the second base. In one embodiment, the cable connecting assembly is connected to the connector 300, and the pin assembly 400 is connected to the second base 200. In one embodiment, the cable connecting assembly is connected with the second base body, and the pin assembly is connected with the connecting piece.

Referring to fig. 1 and 2, in the connector, the first base 100 slides along the third guide structure 220 through the first guide structure 110, so that the first base 100 and the second base 200 rotate relatively, and the first base 100 moves toward the direction close to or away from the second base 200, when the first base 100 moves toward the direction close to the second base 200, the connecting member 300 is pushed to move toward the direction close to the second base 200, at this time, the cable connecting assembly and the plug-in assembly approach each other, and then the cable connecting assembly abuts against the pin assembly 400, so that the cable connecting assembly is electrically connected with the pin assembly 400, so that a tool is not needed to connect the cable connecting assembly and the pin assembly 400, and tool-free assembly of the connector is achieved, and meanwhile, the connector is convenient to disassemble and convenient to disassemble without a tool. It should be understood that, tools are needed for assembling the connector, and in the present application, the pushing is achieved by rotating the first base 100 relative to the second base 200, so that the force for pushing the connecting element 300 can be converted into the force for rotating the first base 100, and when the first base 100 rotates relative to the second base 200, the rotating distance of the first base 100 is longer than the linear walking distance of the connecting element 300, so that the force application distance of the user can be increased by rotating the first base 100, which helps to increase the pushing force of the first base 100, so that the user can push the connecting element 300 to the second base 200 more easily through the first base 100, thereby conveniently achieving the tool-free installation of the connector.

In this embodiment, the lift angle of the third guiding structure is between 0 ° and 90 ° to realize a spiral arrangement, and the first base body rotates relative to the second base body and simultaneously approaches or departs from the second base body, that is, the first base body moves towards or departs from the second base body when rotating relative to the second base body, so that when the first base body rotates relative to the second base body in a certain direction, the first base body rotates relative to the second base body to realize pushing the connecting piece to slide along the third guiding structure towards the direction approaching the second base body. In one embodiment, the lift angle of the third guide structure is between 20 ° and 80 °. In one embodiment, the lift angle of the third guiding structure is between 30 ° and 50 ° to avoid the too long rotating distance of the first base body relative to the second base body, so as to save the installation time, and meanwhile, in the lift angle range, the connection between the first base body and the second base body is more stable, so as to avoid the phenomenon that the first base body is easy to reversely disengage just after being screwed into the second base body. In one embodiment, the number of the third guiding structures is multiple, and the third guiding structures are arranged on the second base body around the second guiding structure in a circular array at intervals, so that the first base body can be screwed into the second base body more stably. In one embodiment, the lead angle of the third guiding structure is 40 °, and when the lead angle of the third guiding structure is 40 °, the first substrate can not be rotated too far relative to the second substrate, and the first substrate can not be easily detached from the second substrate in the opposite direction.

It will be appreciated that the shape of the second substrate is not limiting to the shape of the third guide formation, i.e. the third guide formation may be provided directly as a helically shaped track, without having to rely on the specific configuration of the second substrate. In order to facilitate understanding of the present application, in one embodiment, the second base body is provided with at least two walls which are mutually inclined and are connected in series, and the third guiding structure is provided on each wall, so that the third guiding structure can be arranged in a spiral shape. In one embodiment, the wall surfaces are infinite to form an arc surface, that is, each wall surface forms an arc surface, and the third guiding structure is disposed on the arc surface and spirally disposed, so that the third guiding structure can be disposed well.

In one embodiment, the cross section of the first substrate is rectangular, that is, the outer contour of the first substrate is rectangular, and the rectangular shape has flat side faces, so that a user can conveniently grasp the first substrate by fingers, and the first substrate is rotated more easily. In one embodiment, the cross section of the second substrate is rectangular, that is, the outer contour of the second substrate is rectangular, and the rectangular shape has flat side faces, so that a user can conveniently grasp the second substrate by fingers, and the second substrate is rotated more easily. In the two embodiments, the first substrate with the rectangular parallelepiped outer contour and the second substrate with the rectangular parallelepiped outer contour are installed in a matching manner, so that the assembly is more labor-saving.

In one embodiment, the cable connection assembly is provided as a conductive structure, and the cable connection assembly is used for transmitting signals so as to realize the abutting and electrical connection between the cable connection assembly and the pin assembly and the signal connection between the cable connection assembly and the pin assembly. In one embodiment, the cable connection assembly includes a plurality of cables, and in this embodiment, the pin assembly includes a plurality of pins, each of the cables is respectively used for corresponding to one pin, and each of the pins is used for corresponding to one signal channel on the crystal head, that is, each of the cables is used for corresponding to one signal channel. In one embodiment, the cable connection assembly includes a wrapping layer and a plurality of cables, at least a portion of each cable is disposed in the wrapping layer, each cable includes a conductive core and an insulating layer, at least a portion of the conductive core wraps the insulating layer, in this embodiment, the wrapping layer integrates the plurality of cables, and in this embodiment, the conductive core is further disposed in the clamping groove and electrically connected to the contact pin, that is, the cable in the clamping groove does not wrap the insulating layer, that is, the conductive core is located in the clamping groove, so that the conductive core is abutted to the contact pin.

As shown in fig. 1 and 2, in one embodiment, a guide portion 230 is convexly disposed on the second base 200, a mounting groove 231 is disposed in the guide portion 230, the second guide structure 210 is disposed on a wall portion of the mounting groove 231, the connecting element 300 is movably disposed in the mounting groove 231, the third guide structure 220 is disposed on an outer side surface of the guide portion 230, the first base 100 defines a receiving groove 102, the first guide structure 110 is disposed on a wall portion of the receiving groove 102, the first base 100 is received outside the guide portion 230 through the receiving groove 102, the first base 100 defines a first insertion hole 101, the first insertion hole 101 is communicated with the receiving groove 102, the cable connecting assembly penetrates through the first insertion hole 101 and is connected with the connecting element 300, the second base 200 defines a second insertion hole 201, the second insertion hole 201 is provided corresponding to the pin assembly 400. Like this, the connecting piece 300 is set up in mounting groove 231, cable coupling assembling and contact pin subassembly 400 butt in mounting groove 231, when making cable coupling assembling and contact pin subassembly 400 electricity be connected, avoid the hookup location to expose, thereby avoid this hookup location electric leakage, simultaneously, the outside of guide part 230 is located through cover groove 102 cover to first base member 100, first base member 100 has been realized promptly and has been rotatory for second base member 200, the function that promotes the removal of connecting piece 300 has been realized, including the parcel of connecting piece 300 simultaneously, thereby better protection connecting piece 300, the service life of connecting piece 300 is improved. In this embodiment, because cable coupling assembling's structure generally is cylindric and be convenient for buckle, it is comparatively convenient that cable coupling assembling is connected with connecting piece 300 between first base member 100 and the second base member 200, and the shape of contact pin subassembly 400 is comparatively irregular, consequently fixes it on second base member 200, like this, adopts the mode that cable coupling assembling installed to contact pin subassembly 400 to enable the installation more portably.

In one embodiment, the pin assembly penetrates through the first insertion hole and is connected with the connecting piece, the pin assembly is arranged corresponding to the first insertion hole, and the cable connecting assembly penetrates through the second insertion hole. Therefore, the contact between the pin assembly and the cable connecting assembly can be realized through the connecting seat.

To facilitate the arrangement of the second guide structure 210 and the third guide structure 220, as shown in fig. 1, in one embodiment, the guide part 230 is cylindrical, the second guide structure 210 is arranged to extend along the axial direction of the mounting groove 231, and the third guide structure 220 is spirally arranged around the axial direction of the guide part 230, it should be understood that the guide part is arranged on the second base body, and thus the second guide structure and the third guide structure are arranged on the second base body through the guide part. The structure of the cylindrical guide part 230 is regular, the third guide structure 220 is more easily arranged on the outer side surface of the guide part 230, and meanwhile, the thickness of the outer edge of the third guide structure 220 to the outer side surface of the guide part 230 is more uniform, so that the stability of the third guide structure 220 is better. The second guide structure 210 can be directly disposed on the inner surface of the cylindrical guide portion 230 along the axial direction, and the process is simple. Thus, when the second base 200 is injection molded, the structure of the guide portion 230 is regular, so that the mold can be more conveniently demolded at the position of the guide portion 230, and the production efficiency is effectively improved.

In order to make the connection between the connector 300 and the second base 200 more stable, as shown in fig. 1, in one embodiment, the shape of the connector 300 is matched with the shape of the guide groove 221, specifically, the cross-sectional shape of the connector 300 is similar to the cross-sectional shape of the guide groove 221, that is, the connector 300 can only be inserted into the guide groove 221 from the opening direction of the guide groove 221, so that the connection between the connector 300 and the second base 200 is more stable, and at the same time, the relative positions of the cable connection assembly and the pin assembly 400 can be more conveniently located, so that the cable connection assembly and the pin assembly 400 can be more precisely abutted.

In order to improve the connection stability of the first and second base bodies 100 and 200, as shown in fig. 1, in one embodiment, the shape of the coupling groove 102 is configured to match the shape of the outer side surface of the guide part 230. In this way, when the first base body 100 is sleeved on the outer side surface of the guide portion 230 through the sleeving groove 102, the sleeving groove 102 can be attached to the outer side surface of the guide portion 230, so that the first base body 100 is prevented from shaking on the guide portion 230, and the relative stability of the first base body 100 and the second base body 200 is improved.

In one embodiment, as shown in fig. 1 and fig. 2, a clamping structure 240 is further disposed on the second base 200, the clamping structure 240 is connected to the third guide structure 220, an extending direction of the clamping structure 240 is different from an extending direction of the third guide structure 220, and the first guide structure 110 is slidably disposed on the third guide structure 220 or the clamping structure 240. In this embodiment, joint structure 240 is extended to different directions by third guide structure 220 tip and forms, just first guide structure 110 is used for following third guide structure 220 slides after sliding to joint structure 240 on, in order to restrict first guide structure 110 is along the reverse roll-off of third guide structure 220, like this, when external force is less than predetermineeing the size, can avoid first guide structure 110 from joint structure 240 toward third guide structure 220 roll-off to make the connection of first base member 100 and second base member 200 more stable. In one embodiment, the extending direction of the clamping structure 240 is perpendicular to the axial direction of the third guiding structure 220, which is spirally arranged, so that when the first base 100 slides to the clamping structure 240, the connector is used, the crystal head is inserted into the second insertion hole 201 and connected to the insert 430 assembly, when the crystal head is pulled out, the second base 200 moves relative to the first base 100, and since the extending direction of the clamping structure 240 is perpendicular to the axial direction, i.e. perpendicular to the direction of pulling out the crystal head, the first base 100 is well prevented from sliding reversely along the third guiding structure 220, so that the first base 100 and the second base 200 are relatively stable.

In order to realize that the first guiding structure is slidably disposed on the third guiding structure, as shown in fig. 1 and fig. 2, in one embodiment, the first guiding structure 110 is a sliding rail 111 protruding from the first base, the third guiding structure is a sliding groove 211 disposed on the second base, the sliding rail is slidably disposed in the sliding groove 211, and the sliding rail 111 slides along the sliding groove 211, so that the first guiding structure 110 is slidably disposed on the third guiding structure 210. As shown in fig. 1, in one embodiment, the clamping structure 240 is a clamping groove 241 provided on the second base 200, the slide rail is slidably disposed in the sliding groove 211 or the clamping groove 241, and when the slide rail is slidably disposed in the clamping groove 241, a wall portion of the clamping groove 241 abuts against the slide rail and limits the slide rail to slide reversely along the sliding groove 211. In one embodiment, the third guiding structure protrudes from the sliding rail of the first base, and the first guiding structure 110 is a sliding groove formed in the second base, so that the sliding of the first guiding structure on the third guiding structure can also be realized.

In order to realize that the second guiding structure 210 is slidably disposed on the fourth guiding structure 310, as shown in fig. 1, in one embodiment, the second guiding structure 210 is a guiding groove 221 opened on the second base 200, the fourth guiding structure 310 protrudes from a guiding rail 311 disposed on the first base 100, the guiding rail 311 is slidably disposed in the guiding groove 221, and the guiding rail 311 slides along the guiding groove 221 so as to realize that the second guiding structure 210 is slidably disposed on the fourth guiding structure 310. In one embodiment, the fourth guiding structure is a guiding groove formed in the second base body, and the second guiding structure protrudes from a guiding rail arranged on the first base body, so that the second guiding structure can be slidably arranged on the fourth guiding structure.

As shown in fig. 1, in one embodiment, the pin assembly 400 is provided with a conductive slot 411, the cable connecting assembly is movably disposed in the conductive slot 411, and the cable connecting assembly is abutted against the wall of the conductive slot 411, specifically, the cable connecting assembly is movably arranged in the conductive slot 411 when the connecting member 300 moves to a preset position relative to the second base 200, and at this time, the cable connection assembly abuts against the wall portion of the conductive groove 411, so that the conductive assembly is disposed in the conductive groove 411, the wall of the conductive slot 411 supports and limits the conductive component, so as to prevent the conductive component from moving freely, improve the stability of the conductive component, meanwhile, the conductive assembly and the cable connecting assembly are conveniently and quickly mounted by matching with other movable structures, and the conductive assembly is electrically connected with the cable connecting assembly.

As shown in fig. 1, in one embodiment, a guide portion 230 is convexly disposed on the second base 200, a mounting groove 231 is disposed in the guide portion 230, the second guide structure 210 is disposed on a wall portion of the mounting groove 231, the connector 300 is movably disposed in the mounting groove 231, the third guide structure 220 is disposed on an outer side surface of the guide portion 230, the first base 100 defines a receiving groove 102, the first guide structure is disposed on a wall portion of the receiving groove 102, the first base 100 is received on an outer side of the guide portion 230 through the receiving groove 102, the first base 100 defines a first insertion hole 101, the first insertion hole 101 is communicated with the receiving groove 102, the cable connecting assembly passes through the first insertion hole 101 and is connected with the connector 300, the second base 200 defines a second insertion hole 201, the second patchhole 201 with the contact pin subassembly 400 corresponds the setting, wherein, the connecting piece 300 still is provided with first fixed knot and constructs, the second base member 200 still is provided with the second fixed knot and constructs, cable coupling assembling wears to establish first patchhole 101 and with first fixed knot constructs the connection, the second patchhole 201 with the contact pin subassembly 400 corresponds the setting, the second patchhole 201 be used for wear to establish with the quartzy first subassembly that contact pin subassembly 400 is connected, just third patchhole 301 has been seted up to connecting piece 300, like this, can realize that cable coupling assembling and connecting piece 300 are connected, and contact pin subassembly 400 and second base member 200 are connected. Further, in one embodiment, the first fixing structure is a clamping groove 302 opened in the connecting member 300, wherein the clamping groove 302 is disposed toward the second base 200, one end of the cable connecting assembly penetrates through the first inserting hole 101 and the third inserting hole 301 and is disposed in the clamping groove 302, one end of the clamping groove 302 is used for communicating with the conductive groove 411, the second base 200 includes a housing and a pin fixing block 500 disposed on the housing, that is, in this embodiment, the second fixing structure is a pin fixing block 500 disposed on the housing, that is, the second base 200 includes a housing 700 and a pin fixing block 500, wherein the guiding portion 230 is disposed on a side of the pin fixing block 500 opposite to the housing, the pin fixing block 500 is provided with a through hole 501, the pin assembly 400 includes a pin 410, a main body 420 and an insert 430, the contact pin 410 with the inserted sheet 430 all set up in on the main part 420, just the contact pin 410 with the inserted sheet 430 electricity is connected, the contact pin 410 wears to establish through-hole 501, just the main part 420 with the contact pin fixed block 500 is connected, the inserted sheet 430 corresponds to the setting of second patchhole 201, like this, can realize the connection of cable coupling assembling and contact pin subassembly 400 better for the overall structure of connector is comparatively stable, is difficult for appearing the condition of cable coupling assembling and contact pin subassembly 400 disconnect coupling. Further, in one embodiment, the connector further includes a shielding plate 600, the shielding plate 600 is disposed on the second base 200, and the shielding plate 600 is disposed corresponding to the pin assembly 400, so as to prevent charges of the plug-in sheet 430 assembly and the cable connection assembly from leaking outwards and from affecting other working elements.

As shown in fig. 1, in one embodiment, there is provided a connector holder including a first base 100, a second base 200, and a connector 300; the first base 100 is provided with a first guide structure, the second base 200 is provided with a second guide structure 210 and a third guide structure 220, the third guiding structure 220 is spirally arranged around the extending direction of the second guiding structure 210, the first guiding structure is slidably disposed on the third guiding structure 220, the connecting member 300 is provided with a fourth guiding structure 310, the fourth guiding structure 310 is slidably disposed on the second guiding structure 210, the first base 100 is movably abutted to the connecting member 300, the cable connection assembly is connected to one of the first base 100 and the second base 200, the pin assembly 400 is connected to the other of the first base 100 and the second base 200, the connector 300 is adapted to connect to one of a cable connection assembly and a pin assembly 400, the second base 200 is adapted to be connected to the other of the cable connection assembly and the pin assembly 400. The first base body 100 slides along the third guide structure 220 through the first guide structure, so that the first base body 100 and the second base body 200 relatively rotate, the first base body 100 moves towards the direction close to or away from the second base body 200, when the first base body 100 moves towards the direction close to the second base body 200, the connecting piece 300 is pushed towards the direction close to the second base body 200, at this time, the cable connecting component and the plug-in component are close to each other, then the cable connecting component is abutted to the pin component 400, and further the cable connecting component is electrically connected with the pin component 400, so that the cable connecting component and the pin component 400 can be connected without tools, and tool-free assembly of the connector can be realized through the connecting seat.

In order to facilitate understanding of the present application, in one embodiment, please refer to fig. 1 and 3, the cable connection assembly 800 is first inserted through the first insertion hole 101 of the first base 100 and through the third insertion hole 301 of the connector 300, wherein the cable connection assembly 800 includes a plurality of cables 810, the cable connection assembly 800 of fig. 3 is a cross-sectional structure, the cable connection assembly 800 includes a plurality of cables 810 therein, each cable 810 is disposed in a clamping groove 302, and the pin assembly 400 is disposed on the second base 200, so that the state shown in fig. 3 can be obtained. Referring to fig. 2 and 4, during assembly, the sliding rail 111 of the first base 100 slides in the sliding groove 211 of the second base 200, so that the first base 100 moves relative to the second base 200, meanwhile, the first base 100 pushes the connecting member 300 to extend into the mounting groove 231 while rotating relative to the second base 200, and when the connecting member 300 moves to a predetermined position relative to the second base, the cable 810 is pressed into the conductive groove 411 of the pin 410 by the connecting member 300; the sliding rail 111 of the first base 100 is slid into the locking groove 241 to prevent the sliding rail 111 of the first base 100 from sliding out along the sliding groove 211 in the opposite direction, so that the installation of the connector can be completed, and the installation state of the connector in fig. 4 is obtained. Like this, can realize the instrument-free installation of cable coupling assembling 800 and contact pin subassembly 400, thereby realized the instrument-free equipment of connector, the connector of equipment also conveniently dismantles, be convenient for dismantle the connector when no instrument, and realize promoting when first base member 100 rotates for second base member 200, like this, can increase application of force distance through rotatory first base member 100, help increasing the thrust of first base member 100, when the size of connecting piece 300 and guide way 221 closely cooperates, can help connecting piece 300 to be pressed in the guide way 221, be convenient for the installation of connector, be convenient for realize the more inseparable erector of structure.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A connector is characterized by comprising a connecting seat, a cable connecting assembly and a pin inserting assembly, wherein the connecting seat comprises a first base body, a second base body and a connecting piece;

first base member is provided with first guide structure, the second base member is provided with second guide structure and third guide structure, the third guide structure wind second guide structure's extending direction is the spiral setting, first guide structure slide set up in on the third guide structure, the connecting piece is provided with fourth guide structure, fourth guide structure slide set up in on the second guide structure, the connecting piece set up in first base member with between the second base member, just first base member with connecting piece activity butt, cable coupling assembling with the connecting piece and one in the second base member is connected, the contact pin subassembly with the connecting piece and another in the second base member is connected, cable coupling assembling with contact pin subassembly activity butt.

2. The connector according to claim 1, wherein the second base is provided with a guide portion in a protruding manner, the guide part is internally provided with a mounting groove, the second guide structure is arranged on the wall part of the mounting groove, the connecting piece is movably arranged in the mounting groove, the third guide structure is arranged on the outer side surface of the guide part, the first base body is provided with a sleeving groove, the first guide structure is arranged on the wall part of the sleeving groove, the first base body is sleeved outside the guide part through the sleeving groove, the first base body is provided with a first inserting hole, the first inserting hole is communicated with the sleeving groove, and the cable connecting assembly penetrates through the first inserting hole and is connected with the connecting piece, a second inserting hole is formed in the second base body, and the second inserting hole corresponds to the pin inserting assembly.

3. The connector of claim 2, wherein the guide portion is cylindrical, the second guide structure is disposed along an axial extension of the mounting groove, and the third guide structure is disposed spirally about the axial direction of the guide portion.

4. The connector according to claim 2, wherein the second guide structure is a guide groove opened in the second base, and the shape of the connecting member is configured to match the shape of the guide groove.

5. The connector of claim 2, wherein the shape of the nesting groove is configured to match the shape of the outer surface of the guide.

6. The connector according to claim 1, wherein a clamping structure is further arranged on the second base body, the clamping structure is connected with the third guide structure, the extending direction of the clamping structure is different from that of the third guide structure, and the first guide structure is slidably arranged on the third guide structure or the clamping structure.

7. The connector of claim 6, wherein the direction of extension of the snap structure is perpendicular to the axial direction of the helically arranged third guiding structure.

8. The connector of any one of claims 1-7, wherein the first guiding structure is a sliding rail protruding from the first base, and the third guiding structure is a sliding groove opened in the second base, and the sliding rail is slidably disposed in the sliding groove.

9. The connector of any one of claims 1-7, wherein the second guiding structure is a guiding groove formed in the second base, and the fourth guiding structure protrudes from a guiding rail formed on the first base, and the guiding rail is slidably disposed in the guiding groove.

10. A connecting seat is characterized by comprising a first base body, a second base body and a connecting piece;

first base member is provided with first guide structure, the second base member is provided with second guide structure and third guide structure, the third guide structure wind second guide structure's extending direction is the spiral setting, first guide structure slide set up in on the third guide structure, the connecting piece is provided with fourth guide structure, fourth guide structure slide set up in on the second guide structure, first base member with connecting piece activity butt, the connecting piece be arranged in being connected with one in cable coupling assembling and the contact pin subassembly, the second base member be arranged in with cable coupling assembling and the contact pin subassembly in another be connected.

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