CN201212917Y

CN201212917Y - Plastic and rubber optical fiber connector construction

Info

Publication number: CN201212917Y
Application number: CNU2008201269369U
Authority: CN
Inventors: 蔡易达
Original assignee: COMOSS Electronic Co Ltd
Current assignee: COMOSS Electronic Co Ltd
Priority date: 2008-06-26
Filing date: 2008-06-26
Publication date: 2009-03-25
Anticipated expiration: 2018-06-26

Abstract

The utility model provides a plastics fibre optic butting connector structure which mainly comprises two symmetrical butting pieces that are butted and combined. Each butting piece comprises a female external member and a male external member, two sides of the female external member are respectively provided with a fixture block and a flange, and the male external member is internally provided with two subulate fibre channels. Two sides of the male external member are respectively provided with a connecting hole, two sides of the inner side of the female external member are respectively provided with a lump, the female external member is internally provided with two fibre channels, at least two claw bodies outwards extend from the inner side of one fibre channel, and a butting hole is concavely arranged on the outer side of the fibre channel. A guide face is formed on the inner side of the other fibre channel, at least two claw bodies outwards extend from the inner side of the fibre channel, a butting end outwards extends from the outer side, and a guide face is formed in the butting end. Meanwhile, one end of the male external member is inserted into the female external member to form one butting piece. At last, the two symmetrical butting pieces are butted each other, and are combined together by a bonding piece.

Description

Fiber optic fibers, plastic docking adapter structure

Technical field

The utility model relates to a kind of fiber alignment device structure, relates in particular to a kind of fiber optic fibers, plastic docking adapter structure.

Background technology

People are more and more higher at least two Channel Bandwidth demands reportedly defeated and signal now, therefore, develop an optical fiber technology, by this technology allow have low loss, broadband in the transmission, non-conductive, do not respond to, size is little, bending radius is little and advantage such as in light weight, allows optical-fibre communications become the main media of Network Transmission gradually.

Though optical fiber is widely used on the Network Transmission by masses, yet, because the optical fiber limited length that can be provided with, therefore, need to connect corresponding another fiber optic fibers, plastic again if when having length not enough, increase fiber lengths with connection, can reach the position of required setting.

But the mode of general fiber optic fibers, plastic butt joint is not popularized, and two fiber optic fibers, plastics butt joints is integral quite difficultly, even if the mode that fuses with optical fiber is docked, is fusing on the execute-in-place but very inconveniently, and joining equipment is also very complicated, expensive.

This shows that above-mentioned existing mode still has many shortcomings, real non-one good design remains improvement.

Summary of the invention

The purpose of this utility model is to provide a kind of fiber optic fibers, plastic docking adapter structure, and by docking adapter, can rapidly two fiber optic fibers, plastics be connected is integral, functions such as construction is quick to reach, facility, and in construction, will not be subject to any place or space.

A time purpose of the present utility model be to provide a kind of simple in structure, operation is simple and easy and the fiber optic fibers, plastic docking adapter structure of low-cost production.

Can reach above-mentioned purpose, the utility model provides a kind of fiber optic fibers, plastic docking adapter structure, and it comprises first interfacing part and second interfacing part at least; Described first interfacing part comprises public external member and female external member, and described second interfacing part comprises public external member and female external member, wherein:

Described public external member, its both sides are provided with fixture block and flange respectively, have optical-fibre channel in described public external member; Described public external member is sheathed on the corpus unguis of described female external member by described optical-fibre channel;

Described female external member, its both sides are provided with a connecting hole respectively, one button piece is set respectively in the both sides of described female external member medial surface, in described female external member, have two optical-fibre channels, extend outward plural at least corpus unguis at an optical-fibre channel medial surface, at this optical-fibre channel lateral surface butt hole that sets to the concave; Form a guiding face at another optical-fibre channel medial surface, and extend outward at least two corpus unguis, extend outward a butt end, the same guiding face that forms in described butt end at this optical-fibre channel lateral surface; Described female external member plugs mutually for described public external member, and the button piece of described female external member and the fixture block of described public external member be buckle mutually, the corresponding setting with the optical-fibre channel of public external member of the optical-fibre channel of described female external member.

Compared with prior art, the fiber optic fibers, plastic docking adapter structure that the utility model provides, can be rapidly with two fiber optic fibers, plastics mutually to being connected into an optical fibre channel, utilize this docking mode, the functions such as construction is quick except reaching, facility, in construction, can not be subject to any place or space yet.

Description of drawings

Fig. 1 is the isometric exploded view of the described fiber optic fibers, plastic docking adapter of the utility model embodiment structure;

Fig. 2 is that the solid of the described fiber optic fibers, plastic docking adapter of the utility model embodiment structure is in conjunction with view;

Fig. 3 A, Fig. 3 B are that synoptic diagram is implemented in the fiber optic fibers, plastic butt joint of fiber optic fibers, plastic docking adapter structure described in the utility model.

Description of reference numerals: 1-first interfacing part; The public external member of 11-; The 111-fixture block; The 112-flange; The 113-optical-fibre channel; The female external member of 12-; The 121-connecting hole; 122-detains piece; The 123-optical-fibre channel; The 1231-corpus unguis; The 1232-butt hole; The 124-optical-fibre channel; The 1241-guiding face; The 1242-corpus unguis; The 1243-butt end; 2-second interfacing part; The public external member of 21-; The 211-fixture block; The 212-flange; The 213-optical-fibre channel; The female external member of 22-; The 221-connecting hole; 222-detains piece; The 223-optical-fibre channel; The 2231-corpus unguis; The 2232-butt hole; The 224-optical-fibre channel; The 2241-guiding face; The 2242-corpus unguis; The 2243-butt end; The 3-consolidated articles; The 4-fiber optic fibers, plastic; The 41-optical fiber.

Embodiment

Below in conjunction with accompanying drawing, be described in more detail with other technical characterictic and advantage the utility model is above-mentioned.

Seeing also Fig. 1 and Fig. 2, is the three-dimensional exploded view of fiber optic fibers, plastic docking adapter structure provided by the utility model and three-dimensional in conjunction with view, and it comprises at least:

First interfacing part 1, described first interfacing part 1 comprises public external member 11 and female external member 12:

Described public external member 11, the both sides of described public external member 11 are respectively arranged with fixture block 111 and flange 112, have the taper optical-fibre channel 113 that two internal diameters are little, external diameter is big in described public external member 11, plug for described fiber optic fibers, plastic 4; Described public external member 11 is sheathed on the

corpus unguis

1231,1242 of described female external member 12 by described optical-fibre channel 113;

Described female external member 12, the both sides of described female external member 12 are respectively arranged with a connecting hole 121, be respectively arranged with a button piece 122 in the both sides of described female external member 12 medial surfaces, in described female external member 12, have optical-fibre channel 123, optical-fibre channel 124 again, extend outward at least two corpus unguis 1231 at an optical-fibre channel 123 medial surfaces, at the described optical-fibre channel 123 lateral surfaces butt hole 1232 that sets to the concave; And form a guiding face 1241, and extend outward at least two corpus unguis 1242 at another optical-fibre channel 124 medial surfaces; Extend outward a butt end 1243 at described optical-fibre channel 124 lateral surfaces, in described butt end 1243, be formed with a guiding face 1241 equally; Described female external member 12 plugs mutually for described public external member 11, and the fixture block 111 of the button piece 122 of described female external member 12 and described public external member 11 buckle mutually, and the optical-fibre channel 113 corresponding settings of the optical-fibre channel 123,124 of described female external member 12 and described public external member 11; The optical fiber of described guiding face 1241 bootable fiber optic fibers, plastics precisely inserts in the optical-fibre channel 123,124 of described female external member 12;

Second interfacing part 2, described second interfacing part 2 comprises public external member 21 and female external member 22:

Described public external member 11, the both sides of described public external member 21 are respectively arranged with a fixture block 211 and a flange 212, and have the taper optical-fibre channel 213 that two internal diameters are little, external diameter is big in described public external member 21, plug for fiber optic fibers, plastic 4; Described public external member 21 is sheathed on the

corpus unguis

2231,2242 of female external member 22 by described optical-fibre channel 213;

Described female external member 22, the both sides of described female external member 22 are respectively arranged with a connecting hole 221, are respectively arranged with a button piece 222 in the both sides of described female external member 22 medial surfaces, have optical-fibre channel 223, optical-fibre channel 224 in described female external member 22; Extend outward number at least two corpus unguis 2231 at described optical-fibre channel 223 medial surfaces, in the butt hole 2232 that sets to the concave at described optical-fibre channel 223 lateral surfaces; Form a guiding face 2241 at described optical-fibre channel 224 medial surfaces, and extend outward number at least two corpus unguis 2242; Extend outward a butt end 2243 at described optical-fibre channel 224 lateral surfaces, in described butt end 2243, be formed with a guiding face 2241 equally; Described female external member 22 plugs mutually for public external member 21, and the button piece 222 of described female external member 22 and the fixture block 211 of described public external member 21 be buckle mutually, the optical-fibre channel 213 corresponding settings of the optical-fibre channel 223,224 of described female external member 22 and described public external member 21; The optical fiber of described guiding face 2241 bootable fiber optic fibers, plastics precisely inserts in the optical-fibre channel 223,224 of described female external member 22;

Described first interfacing part 1 is docked mutually with described second interfacing part 3, and the butt end 1243 of described first interfacing part 1 is inserted in the butt hole 2232 of described second interfacing part 2, and the butt end 2243 of described second interfacing part 2 is inserted in the butt hole 1232 of described first interfacing part 1, again consolidated articles 3 is arranged at connecting hole 221 places of the connecting hole 121 and second interfacing part 2 of described first interfacing part 1, can makes that just two interfacing parts are consolidated into one mutually; By the composition of above-mentioned each member, promptly form the described fiber optic fibers, plastic docking adapter of the utility model embodiment structure.

See also Fig. 3 A, Fig. 3 B, synoptic diagram is implemented in the fiber optic fibers, plastic butt joint that is fiber optic fibers, plastic docking adapter structure described in the utility model, with two fiber optic fibers, plastics 4 respectively by the optical-fibre channel 113 of the public external member 11 of described first interfacing part 1 and the public external member 11 of described second interfacing part 2, the optical-fibre channel 213 of public external member 21 insert, make the optical fiber 41 of two fiber optic fibers, plastics 4 dock mutually, described optical fiber 41 is by guiding face 1241, the setting of guiding face 2241 can allow described optical fiber 41 precisely connect, to avoid docking eccentric situation, after treating fiber optic fibers, plastic 4 location, public external member 11 with described first interfacing part 1, the public external member 21 of described second interfacing part 2 is simultaneously to described female external member 12, described female external member 22 is passed, at this moment, utilize the optical-fibre channel 113 of described public external member 11, the optical-fibre channel 213 of described public external member 21 is a taper, and collocation flange 112, the setting of flange 212, when described flange 112 slippages process button piece 122, when described flange 212 slippages process is detained piece 222, the optical-fibre channel 113 of described public external member 11, the optical-fibre channel 213 of described public external member 21 can be subjected to interior pressure, can oppress corpus unguis 1231 in described female external member 12 with the time, 1242, corpus unguis 2231 in described female

external member

22,2242, cause the crust of each corpus unguis interlock fiber optic fibers, plastic 4, cause fiber optic fibers, plastic 4 to break away from, thus location fiber optic fibers, plastic 4.

Be with, by embodiment of the present utility model, make it have quick, the facility of constructing of operation, also need not the fiber optic fibers, plastic the service of connection devices of complex and expensive, just two fiber optic fibers, plastics 4 can be located fast, but and make optical fiber 41 Dock With Precision Positions of fiber optic fibers, plastic 4, can make the utility model effectively to popularize to be used in fiber optic fibers, plastic 4 butt joints and use.

The utility model provides fiber optic fibers, plastic docking adapter structure, when comparing mutually with other prior aries, has more following advantage:

1. provide a kind of can be rapidly with two fiber optic fibers, plastics mutually to being connected into an optical fibre channel, utilize this docking mode, except not reaching construction fast, the function such as facility, in construction, also can not be subject to any place or space.

2. a kind of fiber optic fibers, plastic docking adapter structure of simple in structure, the simple and easy and low-cost production of operation is provided.

More than explanation is just illustrative for the utility model; and it is nonrestrictive; those of ordinary skills understand; under the situation of the spirit and scope that do not break away from following claims and limited; can make many modifications; change, or equivalence, but all will fall in the protection domain of the present utility model.

Claims

1. a fiber optic fibers, plastic docking adapter structure is characterized in that, it comprises first interfacing part and second interfacing part at least; Described first interfacing part comprises public external member and female external member, and described second interfacing part comprises public external member and female external member, wherein:

2. fiber optic fibers, plastic docking adapter structure as claimed in claim 1 is characterized in that the internal diameter of the optical-fibre channel of described public external member is little, external diameter is big.

3. fiber optic fibers, plastic docking adapter structure as claimed in claim 1 is characterized in that it also comprises consolidated articles, and described first interfacing part and second interfacing part are arranged at the butt hole place of described first interfacing part and second interfacing part by described consolidated articles.