CN214754365U - Network cable module connector - Google Patents

Abstract

The utility model discloses a network cable module connector, which comprises a module male plug body and a module female plug body which are matched with each other, wherein a network wire which is matched and connected with the module male plug body is arranged in the module female plug body; the network lead is installed in the module female plug through an adapting element; wherein the network wire and the adapter element are detachably connected, the adapter element has a network wire accommodating cavity for accommodating the network wire, and the network wire accommodating cavity is provided with a limiting part for limiting the network wire. The utility model discloses design into the network wire and the adaptation component can dismantle the connection, can select the network wire of adaptation according to the demand, and can the conventional net twine on the adaptation market, simple structure, easy dismounting, installation back stability is high, is difficult for breaking away from, realizes quick wiring and gets the line function.

Description

Network cable module connector

Technical Field

The utility model relates to a technical field of connector especially relates to a net twine module connector.

Background

The existing network module connector is basically an RJ45 connector and is widely applied to the technical field of manufacturing various industrial connecting devices. RJ45 is made up of male and female modules, and the connectors made up of these two components are connected between wires to achieve electrical continuity of the wires. In the prior art, the network lead is installed on the female module through the adapter, but because the adapter and the network cable joint are integrally arranged, the flexibility is poor, the length cannot be determined according to a construction site, the connector cannot be compatible with the conventional network cable on the market, and the use limitation and range of the connector are caused.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The to-be-solved technical problem of the utility model is to provide a network module connector designs into network wire and adaptation component and can dismantle the connection, can select the network wire of adaptation according to the demand, and can the conventional net twine on the adaptation market, simple structure, easy dismounting, installation back stability is high, is difficult for breaking away from.

(II) technical scheme

The utility model provides a solution to the above technical problem is a network cable module connector, which comprises a module male plug body and a module female plug body which are matched with each other, wherein a network wire which is matched and connected with the module male plug body is arranged in the module female plug body; the network lead is installed in the module female plug through an adapting element; wherein the network wire and the adapter element are detachably connected, the adapter element has a network wire accommodating cavity for accommodating the network wire, and the network wire accommodating cavity is provided with a limiting part for limiting the network wire.

Specifically, the network wire is installed in the network wire accommodating cavity of the adapter element in a matching manner, the detachment of the network wire is limited by the limiting part, then the network wire is installed in the module female plug body in an overall matching manner, and the module female plug body is inserted into the module male plug body to realize the connection of the network wire and the module male plug body.

Preferably, an opening is arranged at one end of the network wire accommodating cavity, so that the network wire is convenient to detach and mount.

Preferably, the adapter element is detachably mounted on the module female insert body in a snap-fit connection manner.

By adopting the scheme, the network wire and the adaptive element are designed to be detachably connected, the adaptive network wire can be selected according to requirements, and can be adapted to the conventional network cable on the market, the structure is simple, the dismounting is convenient, the stability is high after the mounting, and the separation is not easy.

Further, the network wire comprises a wire part and a terminal for connecting the module male plug body.

Further, the network wire accommodating cavity comprises a wire part accommodating cavity for accommodating the wire part and a tip accommodating cavity for accommodating the tip.

Further, the wire portion accommodating chamber is provided with the limiting portion for limiting the wire portion.

Preferably, the limiting part comprises fixing clamps arranged at two sides of the wire part accommodating cavity, the wire part is fixed in the wire part accommodating cavity by the fixing clamps, looseness is not easy to occur, the structure is simple, and the disassembly is also convenient.

Further, the adapter element is provided with a cable holder for supporting the wire guide, the cable holder having the wire guide receiving chamber.

Preferably, the cable holder has an arc-shaped recess portion matched with the wire portion, and two sides of the arc-shaped recess portion extend upwards to form straight walls, the straight walls are oppositely arranged at two ends of the arc-shaped recess portion, and at least one limiting portion is respectively arranged on the straight walls; the limiting part prevents the wire part from being separated from the opening at the upper end of the cable bracket and is firmly fixed in the wire part accommodating cavity of the cable bracket. More preferably, one end of the cable support exceeds the adapter element, and the section is provided with an R angle, so that the cable support is prevented from cracking due to stress concentration, and the service life of the adapter element is prolonged. The end, close to the cable support, of each of the two straight walls, which exceeds the corresponding adapter element, is provided with an arc surface, so that the wire portion is prevented from being damaged and the use of the wire portion is prevented from being influenced when the network wire is disassembled and assembled.

Further, the tip accommodating cavity comprises a sliding groove for the tip to slide, and a tip limiting part for limiting the tip.

Furthermore, the end limiting part is formed at one end of the sliding groove close to the wire part accommodating cavity and is used for limiting an end limiting surface at one end of the end close to the wire part.

Preferably, the tip accommodating cavity comprises a bottom surface and two fixing surfaces arranged at two ends of the bottom surface; one ends of the two fixing surfaces, which are far away from the bottom surface, extend towards the mutual approaching direction to form extension walls, and the extension walls, the fixing surfaces and the bottom surface form sliding grooves for the end heads to slide. More preferably, the two fixing surfaces extend towards the direction approaching each other near the cable bracket to form a head limiting part, and one end of the head limiting part far away from the cable bracket forms a limiting surface for limiting the head; when the end head enters from one end of the sliding groove and slides along one end of the sliding groove close to the cable bracket until the end head abuts against the limiting surface of the end head limiting part; at the moment, the left end and the right end of the end head are limited on the fixing surface, and left-right shaking cannot occur; the top end of the tip is limited on the extension wall, so that the tip cannot be separated from the tip accommodating cavity upwards; the end head limiting surface of the end head close to the wire guiding part is limited on the limiting surface of the end head limiting part, so that the end head limiting surface cannot loosen and move towards the direction close to the cable bracket.

Furthermore, the end limiting part comprises a limiting surface abutting against the end limiting surface, and an accommodating cavity is formed between the limiting surface and the accommodating cavity of the wire part.

Preferably, the accommodating cavity is arranged, so that the interference prevention function can be realized when the end head limiting surface of the end head is connected with the wire part.

Further, the end is provided with the end draw-in groove, and what correspond, the end holds the chamber and is provided with the end draw-in groove matches is used for restricting the anticreep buckle of end.

Preferably, the bottom end of the tip extends outwards near the wire part to form an extension part provided with the tip clamping groove; the anti-falling buckle is arranged on the bottom surface of the end containing cavity.

By adopting the scheme, the anti-falling buckle is matched with the end clamping groove for installation, so that the end can be firmly fixed in the end accommodating cavity, the structure is simple, and the disassembly is also convenient.

Further, the adapter element is provided with a mistake-proof structure.

Preferably, the mistake proofing structure includes the mistake proofing reference column that the top of adaptation component extends the formation upwards, just the quantity of mistake proofing reference column is two, sets up respectively the network wire holds the both ends in chamber.

By adopting the scheme, the arrangement of the error-proof structure can prevent the adapter element from being installed in the female module plug body and being incorrectly assembled, and the male module plug body cannot be correctly matched with the female module plug body.

Specifically, the wire portion of the network wire is arranged in the wire accommodating cavity of the cable support of the adaptive element, the wire portion is fixed in the wire accommodating cavity of the adaptive element by the limiting portion, the end is pushed backwards in parallel into the end accommodating cavity, the limiting surface of the end limiting portion is matched and positioned with the limiting surface of the end limiting portion, (wherein, the accommodating cavity can enable the end limiting surface to be connected with the wire portion to prevent interference effect) the end is fixed by the fixing surface in the end accommodating cavity without swinging left and right, and then the end is matched with the end clamping groove by the anti-disengaging buckle to enable the end not to fall off easily, and then the adaptive element is matched with the female plug body of the module and then is connected with the male plug body of the module in an opposite insertion manner, so that the installation efficiency is improved, the structure is simple, the installation is convenient, and the quick wiring and wire taking functions are realized.

(III) advantageous effects

Compared with the prior art, the utility model relates to a net twine module connector designs into network wire and adaptation component and can dismantle the connection, can select the network wire of adaptation according to the demand, and can the conventional net twine on the adaptation market, simple structure, easy dismounting, installation back stability is high, is difficult for breaking away from, realizes leading quick wiring and gets the line function.

Drawings

Fig. 1 is an exploded view of a network cable module connector of the present embodiment;

FIG. 2 is a schematic view of an adapter element of the present embodiment;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is a schematic diagram of a network wire according to the present embodiment;

fig. 5 is a schematic view (perspective view) of the adaptation element of the present embodiment;

fig. 6 is a schematic view of the network wire and adapter element assembly of the present embodiment.

Description of reference numerals: 1. a network cable module connector; 11. a modular male insert body; 12. a module female insert; 13. a network wire; 131. a wire portion; 132. a tip; 132-1, an end limiting surface; 132-2, an end socket; 14. an adapter element; 141. a network wire receiving cavity; 141-1, a wire part accommodating chamber; 141-11, a restriction part; 141-11a, a fixing clip; 141-12, cambered surface; 141-2, a tip containing cavity; 141-21, a chute; 141-22, an end limiting part; 141-22a, a limiting surface; 141-23, an anti-falling buckle; 141-3, a containing cavity; 142. a cable holder; 142-1, angle R; 143. mistake proofing reference column.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically connected or connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In this embodiment:

as shown in fig. 1-3, a network module connector of the present embodiment, the network module connector 1 includes a module male plug body 11 and a module female plug body 12 which are matched with each other, and a network wire 13 which is matched and connected with the module male plug body 11 is installed in the module female plug body 12; the network conductors 13 are mounted in the modular female insert body 12 by means of adapter elements 14; wherein the network wire 13 and the adapting element 14 are detachably connected, the adapting element 14 has a network wire accommodating cavity 141 for accommodating the network wire 13, and the network wire accommodating cavity 141 is provided with a limiting part 141-11 for limiting the network wire 13. Specifically, the network wire 13 is fittingly installed in the network wire accommodating cavity 141 of the adapting element 14, and is restricted from being detached by the restricting portion 141-11, and then is fittingly installed in the module female plug body 12 as a whole, and the module female plug body 12 is inserted into the module male plug body 11 again, so that the connection between the network wire 13 and the module male plug body 11 is realized. Preferably, an opening is provided at one end of the network wire accommodating chamber 141 to facilitate the detachment and installation of the network wire 13. Preferably, the adapter element 14 is detachably mounted on the modular female insert body 12 by means of a snap connection. By adopting the scheme, the network wire 13 and the adaptive element 14 are designed to be detachably connected, the adaptive network wire 13 can be selected according to requirements, and can be adapted to the conventional network cable on the market, and the network cable is simple in structure, convenient to disassemble and assemble, high in stability after installation and not easy to separate.

As shown in fig. 4-6, the network wires 13 further include wire portions 131 and terminals 132 for connecting the module male plug bodies 11. Further, the network wire accommodating chamber 141 includes a wire part accommodating chamber 141-1 for accommodating the wire part 131 and a tip accommodating chamber 141-2 for accommodating the tip 132. Further, the wire part accommodating chamber 141-1 is provided with the restricting part 141-11 for restricting the wire part 131. Preferably, the limiting portion 141-11 includes fixing clips 141-11a disposed at two sides of the wire portion accommodating cavity 141-1, and the fixing clips 141-11a fix the wire portion 131 in the wire portion accommodating cavity 141-1, so that the wire portion is not easily loosened, and has a simple structure and is convenient to disassemble. Further, the adapter element 14 is provided with a cable holder 142 for supporting the wire part 131, and the cable holder 142 has the wire part accommodating cavity 141-1. Preferably, the cable holder 142 has an arc-shaped recess portion matching with the wire portion 131, and two sides of the arc-shaped recess portion extend upward to form straight walls, the straight walls are oppositely disposed at two ends of the arc-shaped recess portion, and at least one of the limiting portions 141-11 is disposed respectively; the restricting portion 141-11 prevents the wire portion 131 from being separated from the upper opening of the cable holder 142, and is firmly fixed in the wire portion accommodating chamber 141-1 of the cable holder 142. More preferably, one end of the cable support 142 extends beyond the adapter element 14, and the section is provided with an R-angle 142-1, so as to prevent the cable support 142 from cracking due to stress concentration, thereby prolonging the service life of the adapter element 14. The two straight walls are provided with arc surfaces at the ends, close to the cable bracket 142, exceeding the adapter element 14, so that the wire portion 131 is prevented from being damaged and the use of the network wire 13 is prevented from being influenced when the network wire is disassembled and assembled.

As shown in fig. 4-6, the tip accommodating cavity 141-2 further includes a sliding groove 141-21 for sliding the tip 132, and a tip limiting portion 141-22 for limiting the tip 132. Further, the tip limiting portion 141-22 is formed at one end of the sliding groove 141-21 close to the wire guide portion accommodating cavity 141-1, and is used for limiting the tip 132 to the tip limiting surface 132-1 at one end close to the wire guide portion 131. Preferably, the tip accommodating cavity 141-2 includes a bottom surface and two fixing surfaces disposed at two ends of the bottom surface; one ends of the two fixing surfaces far away from the bottom surface extend towards the mutually approaching direction to form extending walls, and the extending walls, the fixing surfaces and the bottom surface form sliding grooves 141-21 for the end heads 132 to slide. More preferably, the two fixing surfaces near the cable holder 142 extend in a direction toward each other to form a head limiting portion 141-22, and one end of the head limiting portion 141-22 away from the cable holder 142 forms a limiting surface 141-22a for limiting the head 132; when the tip 132 enters from one end of the sliding groove 141-21 and slides along one end of the sliding groove 141-21 close to the cable bracket 142 until the tip 132 abuts against the limiting surface 141-22a of the tip limiting part 141-22; at this time, the left and right ends of the end head 132 are limited on the fixing surface, and the left and right shaking cannot occur; the tip end of the tip 132 is restrained on the extension wall so as not to be upwardly separated from the tip accommodating chamber 141-2; the head limiting surface 132-1 of the head 132 close to the wire guiding portion 131 is limited on the limiting surface 141-22a of the head limiting portion 141-22, so that the head limiting surface can not be loosened and move towards the direction close to the cable bracket 142. Further, the terminal limiting portion 141-22 includes a limiting surface 141-22a abutting against the terminal limiting surface 132-1, and a receiving cavity 141-3 is formed between the limiting surface 141-22a and the wire portion receiving cavity 141-1. Preferably, the accommodating cavity 141-3 is configured to prevent interference when the tip limiting surface 132-1 of the tip 132 is connected to the wire portion 131. Further, the end head 132 is provided with an end head clamping groove 132-2, and correspondingly, the end head accommodating cavity 141-2 is provided with an anti-falling buckle 141-23 which is matched with the end head clamping groove 132-2 and used for limiting the end head 132. Preferably, the bottom end of the tip 132 extends outward near the wire portion 131 to form an extension portion provided with the tip slot 132-2; the anti-falling buckle 141-23 is arranged on the bottom surface of the end head accommodating cavity 141-2. By adopting the scheme, the anti-falling buckle 141-23 is matched with the end head clamping groove 132-2 for installation, so that the end head 132 can be firmly fixed in the end head accommodating cavity 141-2, and the anti-falling buckle is simple in structure and convenient to disassemble.

As shown in fig. 5-6, further, the adapter element 14 is provided with a mistake-proof structure. Preferably, the error-proofing structure includes two error-proofing positioning posts 143 formed by extending the top end of the adapting element 14 upward, and the number of the error-proofing positioning posts 143 is two and is respectively disposed at two ends of the network wire accommodating cavity 141. With the adoption of the scheme, the arrangement of the error-proof structure can prevent the adapter element 14 from being installed in the module female plug body 12 to cause error installation and can not be correctly matched with the module male plug body 11.

As shown in fig. 6, the working principle of the network module connector of this embodiment is as follows:

the wire portion 131 of the network wire 13 is installed in the wire accommodating cavity of the cable bracket 142 of the adapting element 14, the limiting portion 141-11 fixes the wire portion 131 in the wire accommodating cavity of the adapting element 14, the terminal 132 is pushed into the terminal accommodating cavity 141-2 in parallel and backwards, the terminal limiting surface 132-1 and the limiting surface 141-22a of the terminal limiting portion 141-22 are positioned in a matching way, wherein the accommodating cavity 141-3 can prevent interference when the terminal limiting surface 132-1 is connected with the wire portion 131, the terminal 132 is fixed in the terminal accommodating cavity 141-2 by the fixing surface without swinging left and right, and then the anti-falling buckle 141-23 is matched with the terminal clamping groove 132-2 to prevent the terminal 132 from falling off, and then the adapting element 14 is matched with the module female plug-in body 12 and then is connected with the module male plug-in body 11 in a butt-plug-in way, the installation efficiency is improved, the structure is simple, the installation is convenient, and the functions of quick wiring and wire taking are realized.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A network cable module connector, characterized in that: the network cable module connector (1) comprises a module male plug body (11) and a module female plug body (12) which are matched with each other, and a network cable (13) which is matched and connected with the module male plug body (11) is installed in the module female plug body (12); the network conductor (13) is mounted into the modular female insert body (12) by means of an adapter element (14); wherein the network wire (13) and the adapter element (14) are detachably connected, the adapter element (14) has a network wire accommodating cavity (141) for accommodating the network wire (13), and the network wire accommodating cavity (141) is provided with a limiting part (141-11) for limiting the network wire (13).

2. The network module connector of claim 1, wherein: the network lead (13) comprises a lead part (131) and a terminal (132) for connecting the module male plug-in body (11).

3. The network module connector of claim 2, wherein: the network wire accommodating cavity (141) comprises a wire part accommodating cavity (141-1) for accommodating the wire part (131) and a terminal accommodating cavity (141-2) for accommodating the terminal (132).

4. The network module connector of claim 3, wherein: the wire part accommodating chamber (141-1) is provided with the restricting part (141-11) for restricting the wire part (131).

5. The network module connector of claim 3, wherein: the adapter element (14) is provided with a cable holder (142) for supporting the line guide (131), the cable holder (142) having the line guide receiving space (141-1).

6. The network module connector of claim 3, wherein: the tip accommodating cavity (141-2) comprises a sliding groove (141-21) for sliding the tip (132) and a tip limiting part (141-22) for limiting the tip (132).

7. The network module connector of claim 6, wherein: the end limiting part (141-22) is formed at one end of the sliding groove (141-21) close to the wire guide part accommodating cavity (141-1), and is used for limiting an end limiting surface (132-1) of one end of the end head (132) close to the wire guide part (131).

8. The network module connector of claim 7, wherein: the end limiting part (141-22) comprises a limiting surface (141-22a) abutting against the end limiting surface (132-1), and an accommodating cavity (141-3) is formed between the limiting surface (141-22a) and the wire part accommodating cavity (141-1).

9. The network module connector of claim 3, wherein: the end head (132) is provided with an end head clamping groove (132-2), and correspondingly, the end head accommodating cavity (141-2) is provided with an anti-falling buckle (141-23) which is matched with the end head clamping groove (132-2) and used for limiting the end head (132).

10. The network module connector of claim 1, wherein: the adapter element (14) is provided with a mistake-proofing structure.

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