CN111276826B - Network communication connector - Google Patents

Abstract

The invention discloses a network communication connector, which comprises a crystal head body, wherein the crystal head body is used for being installed at the end part of a communication line, eight conducting strips distributed from front to back penetrate through the crystal head body, and a groove which is respectively arranged corresponding to one conducting strip is formed in the bottom of the left end of the crystal head body; the tail part of the crystal head body is vertically connected with a sliding block in a sliding mode, eight jacks distributed from front to back are arranged in the sliding block, eight wire cores in the communication line are respectively inserted into one jack, convex teeth are integrally formed on the upper surface of the tail end of each conducting strip, and an opening is formed in the sliding block below each jack; the tail part of the crystal head body is rotatably connected with a pressing plate, convex ribs are integrally formed on the lower surface of the pressing plate, and a locking structure is arranged between the pressing plate and the crystal head body; a driving structure is arranged between the sliding block and the crystal head body; the invention can bring convenience to the connection between the communication line and the network communication connector and can achieve the aim of reutilization of the network communication connector.

Description

Network communication connector

Technical Field

The invention relates to the technical field of network connection devices, in particular to a network communication connector.

Background

The network communication connector is a device used for connecting with a network terminal and network communication equipment, and after the network communication connector is connected with a communication line, the network communication connector at one end of the communication line is connected with the network terminal, and the network communication connector at the other end of the communication line is connected with the network communication equipment, communication can be realized between the network terminal and the network communication equipment; for example, a network communication connector at one end of a communication line is connected with a computer, and a network communication connector at the other end of the communication line is connected with a router, so that the computer and the router can communicate with each other; the network communication connector on the market at present is mainly a crystal head, which is connected to the end of a communication line, namely a network line, when in use, and aims to realize the electric connection between the communication line and a network terminal and network communication equipment; when the existing communication line is connected with a network communication connector, namely a crystal head, a wire core in the communication line is firstly inserted into the network communication connector, namely the crystal head, and then a network wire clamp is adopted to press a conducting plate in the network communication connector, namely the crystal head, so that the conducting plate is compressed and electrically connected with the wire core in the communication line; in addition, after the conductive sheet in the current network communication connector compresses the wire core in the communication wire, the conductive sheet cannot be separated from the wire core in the communication wire, so that when the communication wire is damaged and needs to be replaced, the defect that the network communication connector cannot be reused exists.

Disclosure of Invention

In addition, after a sliding block in the network communication connector moves upwards, the wire core in the communication line can be automatically separated from the conducting plate, and the aim of reusing the network communication connector can be fulfilled.

The network communication connector comprises a crystal head body which is used for being installed on the end part of a communication line, eight conducting strips which are distributed from front to back penetrate through the crystal head body, each conducting strip is tightly matched with the crystal head body, the left end of each conducting strip extends to the left end part of the crystal head body, grooves which are respectively arranged corresponding to one of the conducting strips are formed in the bottom of the left end of the crystal head body, and the grooves are used for being embedded by conducting pins in a network socket so that each conducting pin in the network socket is electrically connected with one of the conducting strips; the tail part of the crystal head body is vertically connected with a sliding block in a sliding mode, eight insertion holes distributed from front to back are formed in the sliding block, each insertion hole extends from left to right, each insertion hole is arranged corresponding to one conducting strip, eight wire cores in the communication line are inserted into one insertion hole respectively, convex teeth which are used for being penetrated into one wire core respectively and electrically connected with the wire cores are integrally formed on the upper surface of the tail end of each conducting strip, and openings for the convex teeth to penetrate through are formed in the sliding block below each insertion hole when the sliding block moves downwards; the tail part of the crystal head body is rotatably connected with a pressing plate used for pushing the sliding block to enable the sliding block to move downwards, a convex rib used for pushing the sliding block is integrally formed on the lower surface of the pressing plate, and a locking structure used for locking the pressing plate after the pressing plate pushes the sliding block is arranged between the pressing plate and the crystal head body; a driving structure used for driving the sliding block to reset upwards when the pressing plate releases the pressing on the sliding block is arranged between the sliding block and the crystal head body.

The network communication connector comprises a sliding block, a sliding block and a crystal head body, wherein sliding tables are integrally formed on the outer walls of the front end and the rear end of the sliding block; limiting blocks for blocking the sliding blocks to prevent the sliding blocks from being separated from the crystal head body are integrally formed on the inner wall of the crystal head body on the left side and the right side of each sliding groove, and each limiting block is positioned on one side of the upper end of one sliding groove; through the arrangement of the sliding table and the sliding groove, the sliding block can be reliably connected with the crystal head body in a vertical sliding manner; through the setting of stopper, when the clamp plate relieved compressing tightly the slider, and under drive structure's effect, can avoid the slider to appear breaking away from the phenomenon of quartzy head body.

The network communication connector comprises a driving structure and a sliding block, wherein the driving structure comprises two springs, blind holes which are provided with lower end openings and are respectively used for inserting the upper end part of one of the springs are formed in the front end and the rear end of the sliding block, and the lower end of each spring is tightly propped against a crystal head body; after adopting this kind of drive structure, when the clamp plate relieved compressing tightly to the slider, the spring can upwards push away the slider, so, the slider can drive the sinle silk in the communication line and shift up, and the sinle silk can break away from the dogtooth on the conducting strip this moment, and after the dogtooth breaks away from the sinle silk, the dogtooth in this network communication connector can realize compressing tightly the sinle silk in the other communication line to can reach network communication connector reuse's purpose.

The network communication connector comprises a pressing plate, a first bending edge, a pin hole, a pin shaft, a second bending edge, a first connecting piece and a second connecting piece, wherein the front end and the rear end of the pressing plate are integrally formed with the first bending edge which is bent downwards; by adopting the structure, the pressing plate can be reliably and rotatably connected with the crystal head body.

The network communication connector comprises a locking structure and a locking structure, wherein the locking structure comprises a locking hole arranged in each first bent edge, locking blocks used for being locked with one of the locking holes are uniformly formed on the front end surface and the rear end surface of a crystal head body in a integrated mode, and each locking block is locked with one of the locking holes after a pressing plate rotates and pushes a sliding block downwards; by adopting the structure, after the pressing plate pushes the sliding block, the locking block can be locked with the locking hole, so that the pressing plate can be locked.

The network communication connector comprises a pressing plate, a first bending edge, a second bending edge, a wire groove and a connecting wire, wherein the pressing plate is integrally formed at the right end of the pressing plate; after adopting this kind of structure, after clamp plate and quartzy first body locking, the wire casing can supply the communication line part embedding, and the second is bent the limit and can be compressed tightly the communication line, can effectively avoid the communication line phenomenon that breaks away from quartzy first body promptly to appear.

The network communication connector of the invention, wherein, the inner top of the wire casing is integrally formed with a plurality of anti-slip grooves distributed from left to right; through the setting in antiskid groove, can increase the frictional force between wire casing and the communication line, so, the second is bent the limit and can be realized compressing tightly the communication line more reliably, can further avoid the communication line phenomenon that breaks away from the quartzy first body to appear promptly.

When the invention is connected with the communication line, the conducting strip is not required to be pressed onto the wire core of the communication line by using a network cable clamp, thereby bringing convenience to the connection of the communication line and the network communication connector.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention with the platen removed;

FIG. 4 is a cross-sectional view of the assembled slider, crystal head body, conductive plate and spring;

FIG. 5 is a right side view of the slider;

FIG. 6 is a schematic diagram of a right-side view of the platen;

FIG. 7 is an enlarged view of the structure at A in FIG. 2;

fig. 8 is an enlarged schematic view of a portion B in fig. 2.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the invention. That is, in some embodiments of the invention, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The network communication connector comprises a crystal head body 1 arranged at the end part of a communication line 2, wherein eight conducting strips 3 distributed from front to back penetrate through the crystal head body 1, each conducting strip 3 is tightly matched with the crystal head body 1, the left end of each conducting strip 3 extends to the left end part of the crystal head body 1, a groove 11 which is respectively arranged corresponding to one conducting strip 3 is arranged at the bottom of the left end of the crystal head body 1, and the groove 11 is used for being embedded by a conducting pin in a network socket so that each conducting pin in the network socket is electrically connected with one conducting strip 3; the tail part of the crystal head body 1 is vertically and slidably connected with a sliding block 4, eight insertion holes 41 distributed from front to back are arranged in the sliding block 4, each insertion hole 41 extends from left to right, each insertion hole 41 is respectively arranged corresponding to one conducting strip 3, eight wire cores 21 in the communication wire 2 are respectively inserted into one insertion hole 41, convex teeth 31 which are respectively used for being penetrated into one wire core 21 and electrically connected with the wire core 21 are integrally formed on the upper surface of the tail end of each conducting strip 3, and an opening 42 through which the convex teeth 31 pass is arranged in the sliding block 4 below each insertion hole 41 when the sliding block 4 moves downwards; a pressing plate 5 used for pushing the sliding block 4 to enable the sliding block 4 to move downwards is rotatably connected to the tail of the crystal head body 1, a convex rib 51 used for pushing the sliding block 4 is integrally formed on the lower surface of the pressing plate 5, and a locking structure used for locking the pressing plate 5 after the pressing plate 5 pushes the sliding block 4 is arranged between the pressing plate 5 and the crystal head body 1; a driving structure for driving the sliding block 4 to reset upwards when the pressing plate 5 releases the pressing on the sliding block 4 is arranged between the sliding block 4 and the crystal head body 1; when the invention is connected with the communication line, the conducting strip is not required to be pressed onto the wire core of the communication line by using a network cable clamp, thereby bringing convenience to the connection of the communication line and the network communication connector.

Sliding tables 43 are integrally formed on the outer walls of the front end and the rear end of the sliding block 4, and sliding grooves 12 for one of the sliding tables 43 to slide up and down are respectively formed on the inner wall of the front side and the inner wall of the rear side of the crystal head body 1; limiting blocks 13 for blocking the sliding blocks 4 to prevent the sliding blocks 4 from being separated from the crystal head body 1 are integrally formed on the inner wall of the crystal head body 1 on the left side and the right side of each sliding groove 12, and each limiting block 13 is positioned on one side of the upper end of one sliding groove 12; through the arrangement of the sliding table and the sliding groove, the sliding block can be reliably connected with the crystal head body in a vertical sliding manner; through the setting of stopper, when the clamp plate relieved compressing tightly the slider, and under drive structure's effect, can avoid the slider to appear breaking away from the phenomenon of quartzy head body.

The driving structure comprises two springs 6, blind holes 44 with openings at the lower ends and used for inserting the upper end part of one of the springs 6 are formed in the front end and the rear end of the sliding block 4, and the lower end of each spring 6 is tightly propped against the crystal head body 1; after adopting this kind of drive structure, when the clamp plate relieved compressing tightly to the slider, the spring can upwards push away the slider, so, the slider can drive the sinle silk in the communication line and shift up, and the sinle silk can break away from the dogtooth on the conducting strip this moment, and after the dogtooth breaks away from the sinle silk, the dogtooth in this network communication connector can realize compressing tightly the sinle silk in the other communication line to can reach network communication connector reuse's purpose.

The front end and the rear end of the pressing plate 5 are integrally formed with first bending edges 52 which are bent downwards, pin holes 53 are formed in the first bending edges 52, pin shafts 14 which are respectively inserted into one of the pin holes 53 are integrally formed on the front end surface and the rear end surface of the crystal head body 1, and the pin holes 53 are rotatably connected with the pin shafts 14; by adopting the structure, the pressing plate can be reliably and rotatably connected with the crystal head body.

The locking structure comprises locking holes 54 arranged in each first bending edge 52, locking blocks 15 used for being locked with one of the locking holes 54 are integrally formed on the front end face and the rear end face of the crystal head body 1 respectively, and each locking block 15 is locked with one of the locking holes 54 after the pressing plate 5 rotates and pushes the sliding block 4 downwards; by adopting the structure, after the pressing plate pushes the sliding block, the locking block can be locked with the locking hole, so that the pressing plate can be locked.

A second bending edge 55 which is bent downwards and used for compressing the communication wire 2 is integrally formed at the right end of the pressing plate 5, and a wire groove 56 for partially embedding the communication wire 2 is formed in the lower end face of the second bending edge 55; after adopting this kind of structure, after clamp plate and quartzy first body locking, the wire casing can supply the communication line part embedding, and the second is bent the limit and can be compressed tightly the communication line, can effectively avoid the communication line phenomenon that breaks away from quartzy first body promptly to appear.

A plurality of anti-skid grooves 57 distributed from left to right are integrally formed on the inner top of the wire groove 56; through the setting in antiskid groove, can increase the frictional force between wire casing and the communication line, so, the second is bent the limit and can be realized compressing tightly the communication line more reliably, can further avoid the communication line phenomenon that breaks away from the quartzy first body to appear promptly.

When the communication line needs to be connected with the crystal head body, firstly, eight wire cores in the communication line are respectively inserted into eight jacks in the sliding block, then the pressing plate is rotated rightwards, the locking hole on the first bending edge is locked with the locking block on the crystal head body, the convex rib on the pressing plate can push the sliding block downwards, the sliding block can drive the wire cores to move downwards after being pushed downwards, the convex tooth on the conducting plate can penetrate through the opening below the sliding hole and then penetrate into the wire cores, namely, the conducting plate is electrically connected with the wire cores, meanwhile, the second bending edge on the pressing plate can press the communication line onto the crystal head body, namely, the communication line is pressed, and after the steps, the connection of the communication line and the crystal head body is realized. When the communication line is damaged and needs to be replaced, the first bending edge is pulled outwards, namely the lock hole is separated from the lock block, then the pressing plate is rotated leftwards, the pressing plate releases the compression on the sliding block after the pressing plate rotates leftwards, at the moment, the sliding block can move upwards under the action of the spring, so that the wire core inserted into the jack can be separated from the convex teeth on the conducting plate, the wire core can be pulled out of the jack, in addition, the pressing plate can release the compression on the communication line after rotating leftwards, and the wire connector is connected to the end part of the communication line after the communication line is replaced, so that the aim of recycling the wire connector is fulfilled.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (1)

1. A network communication connector comprising a crystal head body (1) for mounting on an end of a communication line (2), characterized in that: eight conducting strips (3) distributed from front to back penetrate through the crystal head body (1), each conducting strip (3) is tightly matched with the crystal head body (1), the left end of each conducting strip (3) extends to the left end of the crystal head body (1), grooves (11) which are respectively arranged corresponding to one conducting strip (3) are formed in the bottom of the left end of the crystal head body (1), and the grooves (11) are used for enabling conducting pins in a network socket to be embedded into the grooves so that each conducting pin in the network socket is electrically connected with one conducting strip (3); the tail part of the crystal head body (1) is vertically and slidably connected with a sliding block (4), eight insertion holes (41) distributed from front to back are formed in the sliding block (4), each insertion hole (41) extends from left to right, each insertion hole (41) is correspondingly arranged with one conducting strip (3), eight wire cores (21) in the communication wire (2) are respectively inserted into one insertion hole (41), convex teeth (31) which are respectively used for being inserted into one wire core (21) and electrically connected with the wire cores (21) are integrally formed on the upper surface of the tail end of each conducting strip (3), and openings (42) which are used for allowing the convex teeth (31) to penetrate through when the sliding block (4) moves downwards are formed in the sliding block (4) below each insertion hole (41); the tail of the crystal head body (1) is rotatably connected with a pressing plate (5) used for pushing the sliding block (4) to enable the sliding block (4) to move downwards, a convex rib (51) used for pushing the sliding block (4) is integrally formed on the lower surface of the pressing plate (5), and a locking structure used for locking the pressing plate (5) after the pressing plate (5) pushes the sliding block (4) is arranged between the pressing plate (5) and the crystal head body (1); a driving structure for driving the sliding block (4) to reset upwards when the pressing plate (5) releases the pressing on the sliding block (4) is arranged between the sliding block (4) and the crystal head body (1); sliding tables (43) are integrally formed on the outer walls of the front end and the rear end of the sliding block (4), and sliding grooves (12) for one of the sliding tables (43) to slide up and down are formed in the inner wall of the front side and the inner wall of the rear side of the crystal head body (1); limiting blocks (13) for blocking the sliding blocks (4) to prevent the sliding blocks (4) from being separated from the crystal head body (1) are integrally formed on the inner wall of the crystal head body (1) on the left side and the right side of each sliding groove (12), and each limiting block (13) is positioned on one side of the upper end of one sliding groove (12); the driving structure comprises two springs (6), blind holes (44) with openings at the lower ends and allowing the upper end of one of the springs (6) to be inserted into are formed in the front end and the rear end of the sliding block (4), and the lower end of each spring (6) is tightly abutted to the crystal head body (1); the front end and the rear end of the pressing plate (5) are integrally formed with first bending edges (52) which are bent downwards, pin holes (53) are formed in the first bending edges (52), pin shafts (14) which are respectively inserted into one of the pin holes (53) are integrally formed on the front end face and the rear end face of the crystal head body (1), and the pin holes (53) are rotatably connected with the pin shafts (14); the locking structure comprises locking holes (54) arranged in each first bending edge (52), locking blocks (15) used for being locked with one of the locking holes (54) are integrally formed on the front end face and the rear end face of the crystal head body (1), and each locking block (15) is locked with one of the locking holes (54) after the pressing plate (5) rotates and pushes the sliding block (4) downwards; a second bending edge (55) which is bent downwards and used for compressing the communication wire (2) is integrally formed at the right end of the pressing plate (5), and a wire groove (56) for partially embedding the communication wire (2) is formed in the lower end face of the second bending edge (55); and a plurality of anti-skid grooves (57) distributed from left to right are integrally formed on the inner top of the wire groove (56).

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