CN111342298A

CN111342298A - Network plug

Info

Publication number: CN111342298A
Application number: CN201911308891.6A
Authority: CN
Inventors: 曾伟嘉
Original assignee: Dan Chief Technology Co ltd
Current assignee: Dan Chief Technology Co ltd
Priority date: 2018-12-18
Filing date: 2019-12-18
Publication date: 2020-06-26
Anticipated expiration: 2039-12-18
Also published as: CN111342298B; TW202025570A; TWI682599B

Abstract

A network plug (1) comprising: the cable connector comprises a body (11), an upper cover (12) which is pivoted to the body (11) and is provided with a first connecting part (123), a wire holder (13) which is connected to the body (11) and is provided with a second connecting part (131), wherein the first connecting part (123) and the second connecting part (131) form a hollow tube body (10) for a network cable (2) to pass through, a terminal holder (14) which is arranged in the body (11) and is provided with a positioning structure (142), when the upper cover (12) is opened outwards from the body (11) to an included angle formed between the upper cover and the body (11) exceeds a preset angle, the upper cover (12) is positioned, and a nut (101) is provided with a convergence surface (1014) at the end (1013) of the nut.

Description

Network plug

Technical Field

The present invention relates to a network plug, and more particularly, to a terminating network plug including a nut having a converging surface at an end of the nut.

Background

With the prevalence of networks, in order to meet the current scientific and technological requirements of the internet of things, the demand of network plugs (for example, terminating network plugs) is increasing. How to improve the functions of the existing network plug, so that the network plug has a simple structure and is convenient to use, is a problem worthy of thinking.

Therefore, the inventor considers the deficiency of the prior art and the idea of the improved invention, and finally invented the "network plug" of the present invention.

Disclosure of Invention

The main objective of the present invention is to provide a network plug, which includes a nut having a converging surface at an end thereof, and a clamping member having a plurality of clamping jaws, wherein the clamping jaws are deformed by the converging surface to clamp a network cable.

Another objective of the present invention is to provide a network plug 1, which includes a body 11 having two first protrusions 111, two second protrusions 112 and a first end 113, an upper cover 12 having two first pivot holes 121, a joint 122, a first connecting portion 123 and a second end 124, wherein the two first pivot holes 121 are respectively pivoted to the two first protrusions 111, a wire holder 13 connected to the first end 113 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for passing a network cable 2, a terminal holder 14 having an upper surface 141 and two positioning structures 142 extending outward from the upper surface 141, an upper spring 125 having a third end 1251 and a fourth end 1252, wherein the third end 1251 is connected to the joint 122, a lower spring 114 having two second pivot holes 1141 and a fifth end 1142, wherein the two second pivot holes 1141 are respectively connected to the two second protrusions 112, the fourth end 1252 is in contact with the fifth end 1142, when the upper cover 12 is opened from the body 11 to form a predetermined angle with the body 11, the second end 124 will interfere with and pass over the two locating structures 142, and the fourth end 1252 and the fifth end 1142 interfere with each other to position the upper cover 12, the nut 101 has two sliding grooves 1011, and a clamping member 102 having two third projections 1021 and a plurality of jaws 1022, when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, so that the two third protrusions 1021 slide along the two sliding grooves 1011, and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

Another objective of the present invention is to provide a network plug 1, which includes a body 11, an upper cover 12 pivotally connected to the body 11 and having a first connection portion 123, a wire holder 13 connected to the body 11 and having a second connection portion 131, wherein the first connection portion 123 and the second connection portion 131 form a hollow tube 10 for passing a network cable 2, a terminal holder 14 disposed in the body 11 and having a positioning structure 142 for positioning the upper cover 12 when the upper cover 12 is opened outward from the body 11 until an included angle formed between the upper cover and the body 11 exceeds a predetermined angle, and a nut 101 having a converging surface 1014 at an end 1013 thereof.

The next main objective of the present invention is to provide a network plug 1, which includes a body 11, an upper cover 12 pivotally connected to the body 11 and having a first connection portion 123, a wire holder 13 connected to the body 11 and having a second connection portion 131, wherein the first connection portion 123 has a first spring opening 1231 and a first pre-engaging structure 1232, the second connection portion 131 has a second spring opening 1231 and a second pre-engaging structure 1232, the first connection portion 123 and the second connection portion 131 form a hollow tube 10 for a network cable 2 to pass through, a first grounding spring 103 has a first grounding portion 1031 and a first engaging portion 1032, a second grounding spring 103 has a second grounding portion 1031 and a second engaging portion 1032, wherein the first grounding portion 1031 passes through the first spring opening 1231, the second grounding portion 1031 passes through the second spring opening 1231, the network cable 2 has a grounding network 21, when the upper cover 12 is pressed on the body 11, the first engaging portion 1032 is engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is engaged with the second pre-engaging structure 1232, the first ground portion 1031 and the second ground portion 1031 apply pressure to the grounding grid 21 to achieve the effect of stable grounding, the nut 101 has two sliding slots 1011, and the clamping member 102 has two protruding portions 1021 and a plurality of clamping jaws 1022, wherein when the nut 101 is locked on the hollow tube 10, the nut 101 pushes the clamping member 102 by the hollow tube 10, so that the two protruding portions 1021 slide along the two sliding slots 1011 respectively and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

Another objective of the present invention is to provide a network plug 1, which includes a body 11, an upper cover 12 pivotally connected to the body 11 and having a first connecting portion 123, a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for a network cable 2 to pass through, wherein the network cable 2 has a grounding net 21, a first grounding elastic piece 103 disposed on the upper cover 12, and a second grounding elastic piece 103 disposed on the wire holder 13, so that when the hollow tube 10 is formed, the first grounding elastic piece 103 and the second grounding elastic piece 103 apply pressure to the grounding net 21 to achieve a stable grounding effect, and a nut 101 having a converging surface 1014 at its end 1013.

Another objective of the present invention is to provide a network plug 1, which includes a body 11, an upper cover 12 pivotally connected to the body 11 and having a first connecting portion 123, a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for passing a network wire 2, a wire clip 18 including an upper layer 181 having two separating portions 1812 surrounded by two grooves 1811 adjacent to each other, and each of the grooves 1811 has a first lead hole 1813 on each side adjacent to each of the separating portions 1812, and a lower layer 182 having four first pre-snaps 1821 and four second pre-snaps 1821, wherein the network wire 2 includes first to fourth pairs of wires 22 each having first and second strands 221 commonly wrapped therein by an aluminum foil 23, the first and second pairs of wires 22 start to remove the aluminum foil 23 when they respectively approach the two separating portions 1812, and each of the first and second strands 221 of the first and second pairs of wires 22 is inserted into the four first wire holes 1813, and the first and second strands 221 passing through the four first lead holes 1813 are respectively and correspondingly connected to the four first pre-bites 1821, so that the first and second pairs of wires 22 are prevented from interfering with each other, and each of the first and second strands 221 of the third and fourth pairs of wires 22 is correspondingly connected to the four second pre-bites 1821, the nut 101 having two sliding grooves 1011, and the clamping member 102 having two protrusions 1021 and a plurality of clamping jaws 1022, when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, so that the clamping member 102 slides along the two sliding grooves 1011 and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

The next objective of the present invention is to provide a network plug 1, which includes a body 11, an upper cover 12 pivotally connected to the body 11 and having a first connecting portion 123, a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for passing a network cable 2, a wire clamp 18 having an upper surface 181 and a lower surface 182, wherein the upper surface 181 has two main recesses 1811, each main recess 1811 has a separating portion 1812, and both sides of each separating portion 1812 have a wire hole 1813, and a nut 101 having a converging surface 1014 at an end 1013 thereof.

Another objective of the present invention is to provide a network plug 1, which includes a body 11, a top cover 12 pivotally connected to the body 11 and having a first connecting portion 123, a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for passing a network wire 2, a nut 101 having a converging surface 1014 at an end 1013 thereof, and a clamping member 102 having a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 by the hollow tube 10, so that the plurality of clamping jaws 1022 are deformed by the converging surface 1014 to clamp the network wire 2.

Drawings

FIG. 1: a perspective view of a network plug according to a preferred embodiment of the present invention is shown.

FIG. 2: there is shown a cross-sectional view of a network plug in accordance with a preferred embodiment of the present invention.

Fig. 3 (a): there is shown a perspective view of the upper layer of a clip of a network plug according to a preferred embodiment of the present invention.

Fig. 3 (b): there is shown a perspective view of the bottom layer of a clip of a network plug according to a preferred embodiment of the present invention.

FIG. 4: there is shown a perspective view of a network plug according to a preferred embodiment of the present invention with its wire clip connected to a network wire.

FIG. 5: a perspective view of a wire clip lower layer of a network plug having a plurality of wire breaks according to a preferred embodiment of the present invention is shown.

FIG. 6: there is shown a perspective view of the network plug according to the preferred embodiment of the invention with the top cover opened from the body and the network cable connected to the cable clamp.

FIG. 7: a three-dimensional schematic view of the network plug according to the preferred embodiment of the invention is shown when the upper cover is closed on the body, the first and second grounding elastic pieces are not clamped on the first and second pre-clamping structures, and the nut is not locked on the network cable.

FIG. 8: a three-dimensional schematic view of the network plug according to the preferred embodiment of the invention is shown, wherein the upper cover of the network plug is closed on the body, the first and second grounding elastic pieces are clamped on the first and second pre-clamping structures, and the nut is not locked on the network cable.

FIG. 9: it is a schematic diagram showing an internal state of the hollow tube when the upper cover of the network plug according to the preferred embodiment of the present invention is closed on the body, the first and second grounding elastic pieces are engaged with the first and second pre-engaging structures, and the network cable is not inserted yet.

FIG. 10: there is shown a schematic view of a network plug according to a preferred embodiment of the present invention with the clamping member of the network plug engaging the nut.

Fig. 11 (a): a three-dimensional schematic view of the network plug according to the preferred embodiment of the present invention is shown, wherein the upper cover of the network plug is closed to the body, the first and second grounding elastic pieces are engaged with the first and second pre-engaging structures, and the nut starts to be locked to the network cable.

Fig. 11 (b): a three-dimensional schematic view of the network plug according to the preferred embodiment of the invention is shown, wherein the upper cover of the network plug is closed on the body, the first and second grounding elastic pieces are clamped on the first and second pre-clamping structures, and the nut is locked on the network cable.

FIG. 12: there is shown an exploded view of a network plug according to a preferred embodiment of the present invention.

Detailed Description

Fig. 1 is a perspective view illustrating a network plug according to a preferred embodiment of the present invention. The network plug 1 is a field termination network plug, which includes a body 11 having two first protrusions 111, two second protrusions 112 (see fig. 12) and a first end 113, an upper cover 12 having two first pivot holes 121, a joint 122, a first connecting portion 123 (see fig. 2) and a second end 124, wherein the two first pivot holes 121 are respectively pivoted to the two first protrusions 111, a wire holder 13 (see fig. 2) connected to the first end 113 and having a second connecting portion 131 (see fig. 2), wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 (see fig. 8) for passing a network wire 2, a terminal holder 14 (see fig. 2) having an upper surface 141 (see fig. 12) and two positioning structures 142 extending outwardly from the upper surface 141, an upper spring 125 having a third end 1251 (see fig. 2) and a fourth end 1252 (see fig. 2), wherein the third end 1251 is connected to the connecting portion 122, the lower resilient tab 114 has two second pivot holes 1141 (see fig. 12) and a fifth end 1142, wherein the two second pivot holes 1141 are respectively connected to the two second protrusions 112, the fourth end 1252 is contacted to the fifth end 1142, when the upper cover 12 is opened outwards from the body 11 to form a predetermined angle θ (see fig. 2) with the body 11, the second end 124 interferes with the two positioning structures 142 and passes over the two positioning structures 142, and the upper cover 12 is positioned by the interference of the fourth end 1252 and the fifth end 1142 (see fig. 2), the nut 101 has two sliding grooves 1011 (see fig. 10) and two openings 1012, and the clamping member 102 (see fig. 10) has two third protrusions 1021 and a plurality of clamping jaws 1022 (see fig. 7), wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, so that the two third protrusions 1021 slide along the two sliding grooves 1011, respectively, and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2. The two locating structures 142 each have a fourth protrusion 1421.

Fig. 2 is a cross-sectional view of a network plug according to a preferred embodiment of the present invention. The nut 101 and the clamping member 102 and the network cable 2 are not shown in fig. 2. When the upper cover 12 is opened for wiring, the upper cover 12 needs to be fixed so as not to interfere with the construction of constructors, in order to facilitate the construction of constructors. As shown in fig. 2, after the upper cover 12 is opened outward from the body 11 to form a predetermined angle θ with the body 11, the second end 124 interferes with the two positioning structures 142 and passes over the two positioning structures 142, and the fourth end 1252 interferes with the fifth end 1142, the two fourth protrusions 1421 prop the second end 124, so that the upper cover 12 is positioned at the predetermined angle.

As shown in fig. 2, the network plug 1 further includes a contact wafer support 15, a contact wafer 16 (see fig. 12), a circuit board 17, a wire clamp 18 and two grounding spring pieces 103, wherein the body 11 further includes a body bottom plate 116, the contact wafer support 15 is disposed on the body bottom plate 116, the contact wafer 16 is disposed on the contact wafer support 15, the circuit board 17 is disposed on the contact wafer 16, the terminal block 14 is disposed on the circuit board 17, the wire clamp 18 is disposed on the terminal block 14, the upper cover 12 is disposed on the wire clamp 18, when the clamping member 102 slides along the two sliding grooves 1011, the clamping member 102 will not fall out of the nut 101 (see fig. 10) because the two third protrusions 1021 slide along the two sliding grooves 1011 respectively, and when the nut 101 is locked to the hollow tube 10, the two third protruding portions 1021 are fastened to the two openings 1012 (see fig. 1).

The terminal block 14 shown in fig. 2 is a piercing terminal block 14 (see fig. 12), and when the second end 124 interferes with the two positioning structures 142 and passes over the two positioning structures 142, and the fourth end 1252 interferes with the fifth end 1142, the two fourth protrusions 1421 cause the second end 124 to be pulled against the top, so as to position the cover 12 at the predetermined included angle. As shown in fig. 1, the body 11 further has two third pivot holes 115. The wire holder 13 shown in fig. 2 further has two fifth protrusions 132 pivotally connected to the two third pivot holes 115 (see fig. 1).

Fig. 3(a) is a perspective view showing an upper layer of a clip of a network plug according to a preferred embodiment of the inventive concept. Fig. 3(b) is a perspective view showing the lower layer of the clip of the network plug according to the preferred embodiment of the invention. As shown in fig. 3(a) and 3(b), the clip 18 of the network plug 1 according to the preferred embodiment of the present invention includes an upper layer 181 having two partitions 1812 surrounded by two grooves 1811 adjacent to each other, and each of the grooves 1811 has first lead holes 1813 on both sides adjacent to each of the partitions 1812, and a lower layer 182 having four first pre-snaps 1821 and four second pre-snaps 1821. In FIG. 3(a), the upper layer 181 further has first to

fifth sidewalls

1814 and 1818, the first sidewall 1814, the second sidewall 1815 and the fourth sidewall 1817 surround one of the two recesses 1811, and the second sidewall 1815, the third sidewall 1816 and the fifth sidewall 1818 surround the other of the two recesses 1811; the fourth side wall 1817 abuts one of the two dividing portions 1812, and the fifth side wall 1818 abuts the other of the two dividing portions 1812.

Fig. 4 is a perspective view illustrating a wire clip of a network plug according to a preferred embodiment of the present invention connected to a network wire. Wherein the network wire 2 includes first to fourth pairs of wires 22 each having first and second strands 221 collectively encased therein by a layer of aluminum foil 23, the first and the second pairs of wires 22 begin to remove the layer of aluminum foil 23 as they approach the two separating portions 1812 respectively, and each of the first and second strands 221 of the first and second pairs of wires 22 is respectively inserted into the four first lead holes 1813 (see fig. 3(b)), and the first and second strands 221 passing through the four first lead holes 1813 are respectively and correspondingly connected to the four first pre-bites 1821, so that the first and second pairs of wires 22 avoid interfering with each other, and each of the first and second strands 221 of the third and fourth pairs of wires 22 is also connected to the four second pre-bites 1821, wherein each of the first and second strands 221 has a plastic skin 2211. In addition, after the plastic skin of the network cable 2 is stripped, the network cable 2 is provided with a wire netting 21 wrapped on the periphery of the aluminum foil 23, and the wire netting 21 is turned outwards to wrap the periphery of the network cable 2.

Fig. 5 is a perspective view of a cable clamp lower layer of a network plug having a plurality of cable breaks according to a preferred embodiment of the present invention. As shown in fig. 5, the lower layer 182 further has eight pairs of protrusion structures 1822 and four second wire holes 1823, wherein four pairs of protrusion structures 1822 are located between the four first wire holes 1813 penetrating from the lower layer 182 and the four first pre-bites 1821, four pairs of protrusion structures 1822 are located between the four second pre-bites 1821 and the four second wire holes 1823, and a wire break 1824 is located in the middle of each pair of protrusion structures 1822.

Fig. 6 is a perspective view showing that the upper cover of the network plug is opened from the body and the network cable is connected to the cable clamp according to the preferred embodiment of the present invention. As shown in fig. 6, the first connecting portion 123 has a first spring opening 1231 and a first pre-fastening structure 1232, and the second connecting portion 131 has a second spring opening 1231 and a second pre-fastening structure 1232. The network plug 1 further has a first grounding elastic sheet 103 having a first grounding portion 1031 and a first engaging portion 1032, a second grounding elastic sheet 103 having a second grounding portion 1031 and a second engaging portion 1032, wherein the first grounding portion 1031 passes through the first elastic sheet opening 1231, the second grounding portion 1031 passes through the second elastic sheet opening 1231, the network cable 2 has a grounding net 21, and when the upper cover 12 is pressed on the body 11, the first engaging portion 1032 is engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is engaged with the second pre-engaging structure 1232, the first grounding portion 1031 and the second grounding portion 1031 apply pressure to the grounding net 21, so as to achieve the effect of stabilizing grounding.

Fig. 7 is a perspective view illustrating the upper cover of the network plug closed on the body, the first and second grounding resilient pieces not yet engaged with the first and second pre-engagement structures, and the nut not yet locked on the network cable according to the preferred embodiment of the present invention. At this time, although the top cover 12 is pressed onto the body 11, the first engaging portion 1032 is not engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is not engaged with the second pre-engaging structure 1232. Therefore, the first and

second grounding portions

1031 and 1031 do not apply pressure to the grounding grid 21, and thus a stable grounding effect is not achieved.

Fig. 8 is a perspective view illustrating the upper cover of the network plug closed on the body, the first and second grounding resilient tabs engaged with the first and second pre-engagement structures, and the nut not locked on the network cable according to the preferred embodiment of the present invention. At this time, the upper cover 12 is pressed on the body 11, the first engaging portion 1032 is pressed and engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is also pressed and engaged with the second pre-engaging structure 1232. Therefore, the first and

second grounding parts

1031 and 1031 apply pressure to the grounding grid 21 to achieve a stable grounding effect.

Fig. 9 is a schematic view showing an internal state of the hollow tube when the upper cover of the network plug according to the preferred embodiment of the present invention is closed on the body, the first and second grounding elastic pieces are engaged with the first and second pre-engagement structures, and the network cable is not inserted. However, when the network cable 2 is connected to the cable clamp 18 through the hollow tube 10, the upper cover 12 is pressed on the body 11, the first engaging portion 1032 is engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is engaged with the second pre-engaging structure 1232, the first engaging portion 1032 is engaged with the first connecting portion 123 in an arc shape, the second engaging portion 1032 is engaged with the second connecting portion 131 in an arc shape, the first grounding portion 1031 is engaged with the grounding grid 21 in an arc shape, and the second grounding portion 1031 is engaged with the grounding grid 21 in an arc shape.

Fig. 10 is a schematic view showing a nut being sleeved with a clamping member of a network plug according to a preferred embodiment of the present invention. The clamping member 102 has two third protrusions 1021 and a plurality of clamping jaws 1022, and when the clamping member 102 is to be sleeved on the nut 101, the clamping member 102 is sleeved on the nut along the two sliding grooves 1011.

Fig. 11(a) is a schematic perspective view illustrating a preferred embodiment of the network plug according to the present invention, in which the upper cover is closed on the body, the first and second grounding elastic pieces are engaged with the first and second pre-engagement structures, and the nut starts to be locked to the network cable. In fig. 11(a), 1015 is the nut tightening direction and 10221 is the deformation direction of the plurality of jaws 1022, and as the nut 101 continues to tighten, the plurality of jaws 1022 are forced along the converging surface 1014 to begin to deform.

Fig. 11(b) is a schematic perspective view illustrating the upper cover of the network plug being closed to the body, the first and second grounding spring pieces being engaged with the first and second pre-engagement structures, and the nut being locked to the network cable according to the preferred embodiment of the present invention. In fig. 11(b), the nut 101 is locked, the plurality of jaws 1022 are deformed by being pressed along the converging surface 1014, and the distal ends of the plurality of jaws 1022 protrude out of the nut 101 and are locked to the network wire 2.

Fig. 12 is an exploded view showing a network plug according to a preferred embodiment of the inventive concept. In addition to some of the shielded elements of the second layer of wire clips 18, each of the aforementioned elements (e.g., the second protrusion 112, the second pivot hole 1141, the plurality of wire-broken terminals 171, the contact wafer 16, etc.) included in the network plug 1 according to the preferred embodiment of the present invention can be observed in fig. 12.

Example (b):

1. a network plug 1 comprising:

a body 11 having two first protrusions 111, two second protrusions 112 and a first end 113;

an upper cover 12 having two first pivot holes 121, a connecting portion 122, a first connecting portion 123 and a second end 124, wherein the two first pivot holes 121 are respectively pivoted to the two first protrusions 111;

a wire holder 13 connected to the first end 113 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for passing a network cable 2;

the terminal base 14 has an upper surface 141 and two positioning structures 142 extending outward from the upper surface 141;

an upper spring plate 125 having a third end 1251 and a fourth end 1252, wherein the third end 1251 is connected to the joint 122;

a lower resilient plate 114 having two second pivot holes 1141 and a fifth end 1142, wherein the two second pivot holes 1141 are respectively connected to the two second protrusions 112, the fourth end 1252 contacts the fifth end 1142, when the upper cover 12 is opened outward from the body 11 to form a predetermined angle with the body 11, the second end 124 interferes with the two positioning structures 142 and passes over the two positioning structures 142, and the upper cover 12 is positioned by the interference between the fourth end 1252 and the fifth end 1142;

a nut 101 having two runners 1011; and

and a clamping member 102 having two third protrusions 1021 and a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 by the hollow tube 10, so that the two third protrusions 1021 slide along the two sliding grooves 1011, respectively, and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

2. The network plug 1 according to embodiment 1 further comprises a contact wafer support 15, a contact wafer 16, a circuit board 17, a wire clamp 18 and two grounding spring pieces 103, wherein the body 11 further comprises a body bottom plate 116, the nut 101 further comprises two openings 1012, the contact wafer support 15 is disposed on the body bottom plate 116, the contact wafer 16 is disposed on the contact wafer support 15, the circuit board 17 is disposed on the contact wafer 16, the terminal block 14 is disposed on the circuit board 17, the wire clamp 18 is disposed on the terminal block 14, the upper cover 12 is disposed on the wire clamp 18, when the clamping member 102 slides along the two sliding grooves 1011, the clamping member 102 will not fall out of the nut 101 because the two third protrusions 1021 slide along the two sliding grooves 1011 respectively, and when the nut 101 is locked to the hollow tube 10, the two third protruding portions 1021 are clamped in the two openings 1012.

3. The network plug 1 according to

embodiment

1 or 2, wherein the network plug 1 is a field termination network plug 1, the terminal base 14 is a piercing terminal base 14, the two positioning structures 142 each have a fourth protrusion 1421, when the second end 124 interferes with the two positioning structures 142 and passes over the two positioning structures 142, and the fourth end 1252 and the fifth end 1142 interfere with each other, the two fourth protrusions 1421 cause the second end 124 to be jacked so as to position the upper cover 12 at the predetermined included angle, the body 11 further has two third pivot holes 115, the wire base 13 further has two fifth protrusions 132, and the two fifth protrusions 132 are respectively pivoted to the two third pivot holes 115.

4. A network plug 1 comprising:

a body 11;

an upper cover 12 pivotally connected to the body 11 and having a first connecting portion 123;

a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for the network cable 2 to pass through;

the terminal base 14 is arranged in the body 11 and provided with a positioning structure 142, and when the upper cover 12 is opened outwards from the body 11 until an included angle formed between the upper cover 12 and the body 11 exceeds a preset angle, the upper cover 12 is positioned; and

nut 101 has a converging surface 1014 at its end 1013.

5. A network plug 1 comprising:

a body 11;

a wire holder 13 connected to the body 11 and having a second connection portion 131, wherein the first connection portion 123 has a first elastic piece opening 1231 and a first pre-engaging structure 1232, the second connection portion 131 has a second elastic piece opening 1231 and a second pre-engaging structure 1232, and the first connection portion 123 and the second connection portion 131 form a hollow tube 10 for the network cable 2 to pass through;

a first grounding elastic sheet 103 having a first grounding portion 1031 and a first engaging portion 1032;

the second grounding elastic sheet 103 has a second grounding portion 1031 and a second engaging portion 1032, wherein the first grounding portion 1031 passes through the first elastic sheet opening 1231, the second grounding portion 1031 passes through the second elastic sheet opening 1231, the network cable 2 has a grounding network 21, and when the upper cover 12 is pressed on the body 11, the first engaging portion 1032 is engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is engaged with the second pre-engaging structure 1232, the first grounding portion 1031 and the second grounding portion 1031 apply pressure to the grounding network 21, so as to achieve the effect of stable grounding;

a nut 101 having two runners 1011; and

and a clamping member 102 having two protrusions 1021 and a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, so that the two protrusions 1021 slide along the two sliding grooves 1011 respectively and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

6. The network plug 1 according to embodiment 5, wherein when the top cover 12 is press-fitted to the body 11, the first engaging portion 1032 is engaged with the first pre-engaging structure 1232, and the second engaging portion 1032 is engaged with the second pre-engaging structure 1232, the first engaging portion 1032 is arc-shaped and attached to the first connecting portion 123, the second engaging portion 1032 is arc-shaped and attached to the second connecting portion 131, the first grounding portion 1031 is arc-shaped and attached to the grounding grid 21, and the second grounding portion 1031 is arc-shaped and attached to the grounding grid 21.

7. The network plug 1 according to embodiment 5 or 6, wherein the grounding grid 21 is a wire mesh 21 wrapped around the network cable 2, the nut 101 has two openings 1012, and when the nut 101 is fastened to the hollow tube 10, the two protrusions 1021 are fastened to the two openings 1012.

8. A network plug 1 comprising:

a body 11;

a wire holder 13 connected to the body 11 and having a second connecting portion 131, wherein the first connecting portion 123 and the second connecting portion 131 form a hollow tube 10 for the network wire 2 to pass through, and the network wire 2 has a grounding grid 21;

the first grounding elastic sheet 103 is arranged on the upper cover 12;

a second grounding elastic sheet 103 disposed on the wire seat 13, so that when the hollow tube 10 is formed, the first grounding elastic sheet 103 and the second grounding elastic sheet 103 apply pressure to the grounding grid 21, thereby achieving a stable grounding effect; and

nut 101 has a converging surface 1014 at its end 1013.

9. A network plug 1 comprising:

a body 11;

a wire clamp 18, comprising:

an upper layer 181 having two dividing portions 1812 surrounded by two adjacent recesses 1811, and each recess 1811 having a first wire hole 1813 adjacent to each of the two sides of the dividing portion 1812; and

a lower layer 182 having:

four first pre-bites 1821; and

four second pre-bites 1821, wherein the network wire 2 includes first to fourth pairs of wires 22 each having first and second strands 221 collectively covered therein by a layer of aluminum foil 23, the first and second pairs of wires 22 begin removing the layer of aluminum foil 23 when approaching the two separating portions 1812, respectively, and the first and second strands 221 of the first and second pairs of wires 22 enter the four first lead holes 1813, respectively, and the first and second strands 221 penetrating the four first lead holes 1813 are connected to the four first pre-bites 1821, respectively, so that the first and second pairs of wires 22 avoid mutual interference, and the first and second strands 221 of the third and fourth pairs of wires 22 are also connected to the four second pre-bites 1821, respectively;

a nut 101 having two runners 1011; and

a clamping member 102 having two protrusions 1021 and a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 by the hollow tube 10, so that the clamping member 102 slides along the two sliding grooves 1011 and the plurality of clamping jaws 1022 are deformed to clamp the network cable 2.

10. The network plug 1 according to embodiment 9, further comprising a contact wafer holder 15, a contact wafer 16, a circuit board 17, a piercing terminal seat 14, a first grounding spring 103 and a second grounding spring 103, wherein the body 11 has a body bottom plate 116, the lower layer 182 further has eight pairs of protrusion structures 1822 and four second lead holes 1823, wherein four pairs of protrusion structures 1822 are located between the four first lead holes 1813 penetrating from the lower layer 182 and the four first pre-bites 1821, and four pairs of protrusion structures 1822 are located between the four second pre-bites 1821 and the four second lead holes 1823, a wire-breaking point 1824 is located in the middle of each pair of protrusion structures 1822, the contact wafer holder 15 is disposed on the body bottom plate 116, the contact wafer 16 is disposed on the contact wafer holder 15, the circuit board 17 is disposed on the contact wafer 16 and includes a plurality of wire-breaking terminals 171, the piercing terminal block 14 is disposed on the circuit board 17, the wire clip 18 is disposed on the piercing terminal block 14, the upper cover 12 is disposed on the wire clip 18, and each of the first and second twisted wires 221 of the first to fourth pairs of wires 22 is pierced by the corresponding wire-breaking terminals 171 at the corresponding wire-breaking positions 1824 to pierce the plastic sheaths 2211 thereof, and then is electrically connected to the corresponding wire-breaking terminals 171.

11. The network plug 1 according to embodiment 9 or 10, wherein the upper layer 181 further has first to fifth sidewalls 1814-1818, the first sidewall 1814, the third sidewall 1816 and the fourth sidewall 1817 surround one of the two recesses 1811, the second sidewall 1815, the third sidewall 1816 and the fifth sidewall 1818 surround the other one of the two recesses 1811, the fourth sidewall 1817 abuts one of the two separating portions 1812, and the fifth sidewall 1818 abuts the other one of the two separating portions 1812.

12. A network plug 1 comprising:

a body 11;

a clip 18 having upper and lower surfaces 181,182, wherein the upper surface 181 has two main recesses 1811, each main recess 1811 has a separating portion 1812, and both sides of each separating portion 1812 have a lead hole 1813; and

nut 101 has a converging surface 1014 at its end 1013.

13. The network plug 1 according to embodiment 12 further comprises a clamping member 102 having a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, so that the plurality of clamping jaws 1022 are deformed by the converging surface 1014 to clamp the network cable 2.

14. A network plug 1 comprising:

a body 11;

nut 101 having converging surface 1014 at its end 1013; and

a clamping member 102 having a plurality of clamping jaws 1022, wherein when the nut 101 is locked to the hollow tube 10, the nut 101 pushes the clamping member 102 through the hollow tube 10, causing the plurality of clamping jaws 1022 to deform by the abutment of the converging surface 1014 to tighten the network wire 2.

15. The network plug 1 according to embodiment 14, wherein the nut 101 further has two sliding grooves 1011 and two openings 1012, the clamping member 102 further has two protruding parts 1021, when the nut 101 is locked to the hollow tube 10, the two protruding parts 1021 slide along the two sliding grooves 1011, and when the nut 101 is locked to the hollow tube 10, the two protruding parts 1021 are clamped to the two openings 1012.

In summary, the present invention provides a network plug, which includes a nut having a converging surface at an end thereof, and a clamping member having a plurality of jaws, wherein the jaws are deformed by the converging surface to clamp a network cable, so that the network plug is novel and advanced.

Accordingly, even though the present invention has been described in detail with reference to the above embodiments, it can be modified by anyone skilled in the art without departing from the protection of the appended claims.

Description of the symbols

1 network plug

10 hollow tube

101 nut

1011 sliding chute

1012 opening

End 1013

1014 converging surface

1015 nut locking direction

102 clamping part

1021 projection/third projection

1022 clamping jaw

10221 jaw deformation direction

103 grounding elastic sheet/first grounding elastic sheet/second grounding elastic sheet

1031 first and second ground parts

1032 first/second engaging portion

11 main body

111 first projection

112 second projection

113 first end

114 lower spring plate

1141 second pivot hole

1142 fifth terminal

115 third pivot hole

116 body bottom plate

12 upper cover

121 first pivot hole

122 joint part

123 first connection part

1231 first/second spring plate opening

1232 first pre-clamping structure/second pre-clamping structure

124 second end

125 upper spring plate

1251 third terminal

1252 fourth end

13 wire holder

131 second connecting part

132 fifth projection

14 terminal base

141 upper surface

142 positioning structure

1421 fourth tab

15 contact wafer holder

16 contact wafer

17 circuit board

171 broken wire terminal

18 wire clamp

181 upper layer/upper surface

1811 groove/main groove

1812 separating part

1813 lead hole/first lead hole

1814 first to fifth sidewalls of 1818

182 lower layer/surface

1821 first Pre-bite/second Pre-bite

1822 protrusion structure

1823 second lead hole

1824 line breaking part

2 network line

21 ground net/wire net

22 first/second/third/fourth pairs of lines

221 first/second strand

2211 Plastic rubber crust

23 aluminum foil

Theta predetermined angle

Claims

1. A network plug (1) comprising:

a body (11) having two first protrusions (111), two second protrusions (112) and a first end (113);

an upper cover (12) having two first pivot holes (121), a joint part (122), a first connecting part (123) and a second end (124), wherein the two first pivot holes (121) are respectively pivoted to the two first protrusions (111);

a wire holder (13) connected to the first end (113) and having a second connection portion (131), wherein the first connection portion (123) and the second connection portion (131) form a hollow tube (10) for a network wire (2) to pass through;

the terminal base (14) is provided with an upper surface (141) and two positioning structures (142) extending outwards from the upper surface (141);

an upper spring plate (125) having a third end (1251) and a fourth end (1252), wherein the third end (1251) is connected to the joint (122);

a lower resilient plate (114) having two second pivot holes (1141) and a fifth end (1142), wherein the two second pivot holes (1141) are respectively connected to the two second protrusions (112), the fourth end (1252) contacts the fifth end (1142), when the upper cover (12) is opened outward from the body (11) to form a predetermined angle with the body (11), the second end (124) interferes with the two positioning structures (142) and passes over the two positioning structures (142), and the upper cover (12) is positioned by the interference between the fourth end (1252) and the fifth end (1142);

a nut (101) having two sliding grooves (1011); and

a clamping member (102) having two third protrusions (1021) and a plurality of clamping jaws (1022), wherein when the nut (101) is locked to the hollow tube (10), the nut (101) pushes the clamping member (102) by the hollow tube (10), so that the two third protrusions (1021) slide along the two sliding grooves (1011), respectively, and the plurality of clamping jaws (1022) are deformed to clamp the network cable (2).

2. The network plug according to claim 1, further comprising a contact wafer holder (15), a contact wafer (16), a circuit board (17), a clip (18) and two grounding spring strips (103), wherein the body (11) further comprises a body bottom plate (116), the nut (101) further comprises two openings (1012), the contact wafer holder (15) is disposed on the body bottom plate (116), the contact wafer (16) is disposed on the contact wafer holder (15), the circuit board (17) is disposed on the contact wafer (16), the terminal block (14) is disposed on the circuit board (17), the wire clip (18) is disposed on the terminal block (14), the upper cover (12) is disposed on the wire clip (18), when the clamping member (102) slides along the two sliding grooves (1011), the two third protrusions (1021) slide along the two sliding grooves (1011), respectively, so that the clamping piece (102) cannot fall out of the nut (101), and when the nut (101) is locked on the hollow tube body (10), the two third protruding parts (1021) are clamped on the two openings (1012).

3. The network plug (1) according to claim 2, wherein the network plug (1) is a field termination network plug (1), the terminal seat (14) is a puncture type terminal seat (14), the two positioning structures (142) are respectively provided with a fourth protruding part (1421), when the second end (124) interferes with the two locating features (142) and passes over the two locating features (142), and the fourth end (1252) and the fifth end (1142) interfere with each other, the two fourth protrusions (1421) cause the second end (124) to be lifted, so that the upper cover (12) is positioned at the predetermined included angle, the body (11) further has two third pivot holes (115), the wire holder (13) further has two fifth protrusions (132), and the two fifth protrusions (132) are respectively pivoted to the two third pivoting holes (115).

4. A network plug (1) comprising:

a body (11);

an upper cover (12) pivoted to the body (11) and having a first connecting portion (123);

the wire base (13) is connected to the body (11) and is provided with a second connecting part (131), wherein the first connecting part (123) and the second connecting part (131) form a hollow tube body (10) for a network wire (2) to pass through;

the terminal seat (14) is arranged in the body (11) and is provided with a positioning structure (142), and when the upper cover (12) is opened outwards from the body (11) until an included angle formed between the upper cover and the body (11) exceeds a preset angle, the upper cover (12) is positioned; and

the nut (101) has a converging surface (1014) at its end (1013).

5. A network plug (1) comprising:

a body (11);

the wire base (13) is connected to the body (11) and provided with a second connecting part (131), wherein the first connecting part (123) is provided with a first elastic piece opening (1231) and a first pre-clamping structure (1232), the second connecting part (131) is provided with a second elastic piece opening (1231) and a second pre-clamping structure (1232), and the first connecting part (123) and the second connecting part (131) form a hollow pipe body (10) for a network wire (2) to pass through;

a first grounding elastic sheet (103) having a first grounding part (1031) and a first engaging part (1032);

the second grounding elastic sheet (103) is provided with a second grounding part (1031) and a second clamping part (1032), wherein the first grounding part (1031) penetrates through the first elastic sheet opening (1231), the second grounding part (1031) penetrates through the second elastic sheet opening (1231), the network cable (2) is provided with a grounding net (21), and when the upper cover (12) is pressed on the body (11), the first clamping part (1032) is clamped on the first pre-clamping structure (1232), and the second clamping part (1032) is clamped on the second pre-clamping structure (1232), the first grounding part (1031) and the second grounding part (1031) apply pressure on the grounding net (21) so as to achieve the effect of stable grounding;

a nut (101) having two sliding grooves (1011); and

the clamping piece (102) is provided with two protruding parts (1021) and a plurality of clamping jaws (1022), when the nut (101) is locked on the hollow tube body (10), the nut (101) pushes the clamping piece (102) through the hollow tube body (10), so that the two protruding parts (1021) respectively slide along the two sliding grooves (1011) and the plurality of clamping jaws (1022) are deformed to clamp the network cable (2).

6. The network plug (1) according to claim 5, wherein when the top cover (12) is pressed on the body (11), the first engaging portion (1032) is engaged with the first pre-engaging structure (1232), and the second engaging portion (1032) is engaged with the second pre-engaging structure (1232), the first engaging portion (1032) is engaged with the first connecting portion (123) in a circular arc shape, the second engaging portion (1032) is engaged with the second connecting portion (131) in a circular arc shape, the first grounding portion (1031) is engaged with the grounding grid (21) in a circular arc shape, and the second grounding portion (1031) is engaged with the grounding grid (21) in a circular arc shape.

7. The network plug (1) of claim 6, wherein the grounding grid (21) is a wire mesh (21) wrapped around the network cable (2), the nut (101) has two more openings (1012), and the two protrusions (1021) are clamped into the two openings (1012) when the nut (101) is locked to the hollow tube (10).

8. A network plug (1) comprising:

a body (11);

a wire holder (13) connected to the body (11) and having a second connecting portion (131), wherein the first connecting portion (123) and the second connecting portion (131) form a hollow tube (10) for passing a network wire (2), wherein the network wire (2) has a grounding net (21);

the first grounding elastic sheet (103) is arranged on the upper cover (12);

the second grounding elastic sheet (103) is arranged on the wire seat (13), so that when the hollow pipe body (10) is formed, the first grounding elastic sheet (103) and the second grounding elastic sheet (103) exert pressure on the grounding net (21) to achieve the effect of stable grounding; and

the nut (101) has a converging surface (1014) at its end (1013).

9. A network plug (1) comprising:

a body (11);

a wire clamp (18) comprising:

the upper layer (181) is provided with two separating parts (1812) which are respectively surrounded by two adjacent grooves (1811), and the two sides of each separating part (1812) which are correspondingly adjacent to each groove (1811) are respectively provided with a first lead hole (1813); and

a lower layer (182) having:

four first pre-bites (1821); and

four second pre-bites (1821), wherein the network wire (2) comprises first to fourth pairs of wires (22) each having first and second strands (221) collectively encased therein by a layer of aluminum foil (23), said first and said second pair of lines (22) starting from the removal of said layer of aluminium foil (23) close to said two separators (1812) respectively, and each of the first and each of the second strands (221) of the first and the second pairs of wires (22) are respectively made to enter the four first lead holes (1813), and the first and second strands (221) penetrating through the four first lead holes (1813) are respectively and correspondingly connected to the four first pre-biting wires (1821), so that said first and said second pairs of wires (22) avoid interfering with each other and each of said first and each of said second strands (221) of said third and said fourth pairs of wires (22) are also connected to said four second pre-bites (1821) respectively;

a nut (101) having two sliding grooves (1011); and

a clamping member (102) having two protrusions (1021) and a plurality of clamping jaws (1022), wherein when the nut (101) is locked to the hollow tube (10), the nut (101) pushes the clamping member (102) through the hollow tube (10), so that the clamping member (102) slides along the two sliding grooves (1011) and the plurality of clamping jaws (1022) are deformed to clamp the network cable (2).

10. The network plug (1) of claim 9, further comprising a contact wafer holder (15), a contact wafer (16), a circuit board (17), a piercing terminal block (14), and first and second grounding spring strips (103), wherein the body (11) has a body floor (116), the lower layer (182) further has eight pairs of protrusion structures (1822) and four second lead holes (1823), wherein four pairs of protrusion structures (1822) are located between the four first lead holes (1813) penetrating from the lower layer (182) and the four first pre-bites (1821), and four pairs of protrusion structures (1822) are located between the four second pre-bites (1821) and the four second lead holes (1823), a wire-break is located in the middle of each pair of protrusion structures (1822), and the contact wafer holder (15) is disposed on the body floor (116), the contact wafer (16) is arranged on the contact wafer support (15), the circuit board (17) is arranged on the contact wafer (16) and comprises a plurality of broken line terminals (171), the puncture type terminal seat (14) is arranged on the circuit board (17), the wire clamp (18) is arranged on the puncture type terminal seat (14), the upper cover (12) is arranged on the wire clamp (18), and each first twisted line (221) and each second twisted line (221) of the first to fourth pair of wires (22) is punctured by each corresponding broken line terminal (171) at each corresponding broken line position (1824) to break a plastic rubber skin (2211) of the first twisted line and the second twisted line and then is electrically connected to each corresponding broken line terminal (171).

11. The network plug (1) according to claim 9, wherein the upper layer (181) further has first to fifth sidewalls (1814-1818), the first sidewall (1814), the second sidewall (1815) and the fourth sidewall (1817) surround one of the two recesses (1811), the second sidewall (1815), the third sidewall (1816) and the fifth sidewall (1818) surround the other of the two recesses (1811), the fourth sidewall (1817) abuts one of the two separating portions (1812), and the fifth sidewall (1818) abuts the other of the two separating portions (1812).

12. A network plug (1) comprising:

a body (11);

a clip (18) having upper and lower surfaces (181,182), wherein the upper surface (181) has two main recesses (1811), each main recess (1811) has a partition portion (1812), and both sides of each partition portion (1812) have a wire hole (1813); and

the nut (101) has a converging surface (1014) at its end (1013).

13. The network plug (1) of claim 12 further comprising a clamp (102) having a plurality of jaws (1022), wherein when the nut (101) is locked to the hollow tube (10), the nut (101) pushes the clamp (102) by the hollow tube (10) causing the plurality of jaws (1022) to deform by abutment of the converging surface (1014) to tighten the network wire (2).

14. A network plug (1) comprising:

a body (11);

a nut (101) having a converging surface (1014) at an end (1013) thereof; and

a clamp (102) having a plurality of jaws (1022), wherein when the nut (101) is locked to the hollow tube (10), the nut (101) pushes the clamp (102) by the hollow tube (10) causing the plurality of jaws (1022) to deform by abutment of the converging surface (1014) to tighten the network wire (2),

the nut (101) further comprises two openings (1012), the clamping piece (102) further comprises two protruding parts (1021), and when the nut (101) is fixedly locked on the hollow tube body (10), the two protruding parts (1021) are fixedly clamped on the two openings (1012).

15. The network plug (1) according to claim 14, wherein the nut (101) further has two runners (1011) along which the two projections (1021) slide when the nut (101) is locked to the hollow tube (10).