CN211180296U - Flip type guiding push-pull melting-free physical connector - Google Patents

Abstract

The utility model relates to a flip type guide push-and-pull exempts from to melt physical connector, its characterized in that includes main part spare, V bank subassembly and tail cover, the anterior end that forms location V bank subassembly of main part spare, the rear portion sets up a double-layered cable ejector pad rather than matching, the end outside sets up the pot head, V bank subassembly include optic fibre outer accuse butt joint switch and pre-buried optic fibre, the outside of double-layered cable ejector pad forms the guide block, main part spare form the guide way in both sides, double-layered cable ejector pad when inwards impelling the inner limit position of guide way, double-layered cable ejector pad on place optic fibre with pre-buried optic fibre butt joint, main part spare both sides set up the pivot, the pivot connect flip. The utility model provides the high precision that optic fibre penetrated the butt joint subassembly has avoided the touching of optic fibre and spare part, has improved the equipment qualification rate greatly, and it is more convenient to operate.

Description

Flip type guiding push-pull melting-free physical connector

Technical Field

The utility model relates to a flip type guide push-and-pull exempts from to melt physical connector.

Background

At present, the conventional field optical fiber connector needs to manually control and align the optical fiber, due to the structure and manufacturing technical reasons, the reset spring and the V-groove component positioning structure can only be arranged at the rear part of the device, so that the optical fiber leading-in hole can only be very small and is difficult to control, when the ambient light is dark or the eyesight of an operator is poor, the optical fiber is difficult to penetrate into the V-groove, the optical fiber is difficult to penetrate into the butt joint component without damage, the optical fiber can be touched with parts, the end face of the optical fiber is easy to damage, the field assembly failure or the connection failure is caused, and the problem is more prominent along with the gradual aging of social labor force.

In addition, this kind of product can only adapt to a cable specification, and the cable of different specifications can't realize in same product, and the connection problem of solving different cable environment needs a plurality of products to coexist, because the product structure causes in addition, can't ensure that optic fibre 100% physical stability docks.

SUMMERY OF THE UTILITY MODEL

The utility model discloses shortcoming to prior art exists provides a flip type guide push-and-pull exempts from to melt physical connector, through pressing from both sides the supplementary butt joint optic fibre of cable ejector pad, has improved optic fibre and has penetrated the precision of butt joint subassembly, has avoided the touching of optic fibre and spare part, has improved the equipment qualification rate greatly, and it is more convenient to operate.

Therefore, the utility model adopts the following technical proposal: a flip type guiding push-pull melting-free physical connector is characterized by comprising a main body part, a V-groove component and a tail sleeve, wherein the front part of the main body part forms an end head for positioning the V-groove component, the rear part of the main body part is provided with a cable clamping push block matched with the V-groove component, an end sleeve is arranged outside the end head, the V-groove component comprises an optical fiber external control butt joint switch and pre-embedded optical fibers, a guide block is formed outside the cable clamping push block, guide grooves are formed in two sides of the main body part, when the cable clamping push block is pushed inwards to the inner limit position of the guide grooves, the optical fibers placed on the cable clamping push block are in butt joint with the pre-embedded optical fibers, rotating shafts are arranged on two sides of the main body part, and the rotating shafts are connected with a.

The cable clamping push block is provided with a limiting block at the bottom, and the main body part forms a hollow groove matched with the limiting block at the bottom end.

The flip cover forms two symmetrical barbs at the lower part of the rear end, and the main body part forms a clamping groove matched with the barbs at the lower part of the rear end.

The flip cover forms two symmetrical extrusion blocks at the rear end of the inner side of the top plate, and the symmetrical extrusion blocks clamp two side surfaces of the cable-clamping push block.

And a cable pressing block is arranged between the two symmetrical extrusion blocks.

The top of the cable clamping push block is provided with a top cover, positioning blocks are arranged on two sides of the rear end of the top cover, and a clamping groove matched with the positioning blocks is formed in the rear end of the bottom of the flip cover.

The cable clamping push block is characterized in that a plurality of positioning clamping blocks are formed on the inner side of the rear end of the cable clamping push block, and the positioning clamping blocks clamp the cable.

The V-groove component comprises a V-groove main body, a front positioning structure is formed in the front of the V-groove main body, a large-aperture introducing port is formed in the rear of the V-groove main body, and a front reset spring is arranged between the optical fiber external control butt joint switch and the front positioning structure.

The utility model discloses a press from both sides cable ejector pad when inwards advancing limiting position, accomplish the butt joint of optic fibre through outer accuse optic fibre butt joint subassembly just, no matter in what kind of environment, can both be quick, accurate, penetrate the butt joint subassembly to optic fibre simply, greatly reduced to the operating requirement of people, especially to the requirement greatly reduced of operating personnel eyesight, not only can enlarge the current crowd's of enterprise utilization ratio, simultaneously also enlarged the latitude volume that can produce the personnel in society, the precision that optic fibre penetrated the butt joint subassembly has been improved, the touching of optic fibre with spare part has been avoided, the equipment qualification rate has been improved greatly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a structural schematic view of the cable clamping push block separated from the main body piece.

Fig. 3 is a schematic view of the assembly structure without the flip cover of the present invention.

Fig. 4 is a bottom structure view of the main body member.

Fig. 5 is a schematic structural diagram of the flip cover and the cable clamping push block.

Fig. 6 is a schematic view of the structure of the flip and the base.

Fig. 7 is a structural schematic diagram of the cable clamping push block.

Fig. 8 is a structural schematic diagram of the cable clamping push block with a top cover.

Fig. 9 is another schematic structural diagram of the present invention.

Detailed Description

The present invention is described in further detail below with reference to the accompanying drawings in which a modular field fiber optic splice of the present invention is provided that requires a variable cable gauge for low technical operating requirements.

As shown in fig. 1-8, a flip-type guiding push-pull melting-free physical connector comprises a main body part 9, a V-groove part and a flip 14, wherein an end head for positioning the V-groove part is formed at the front part of the main body part, a cable clamping push block 12 matched with the main body part is arranged at the rear part of the main body part, an end sleeve 1 is arranged outside the end head, the V-groove part comprises an optical fiber external control butt joint switch 2 and pre-embedded optical fibers, a guide block 11 is formed outside the cable clamping push block, guide grooves 3 are formed on two sides of the main body part, when the cable clamping push block is pushed inwards to the limit position of the inner end of the guide groove, the optical fibers 10 placed on the cable clamping push block are in butt joint with the pre-embedded optical fibers, rotating shafts 8 are arranged on two sides of the main body part, and the rotating.

A large-aperture introducing port is formed at the rear part of the V-shaped groove body, and a positioning fixture block 7 is formed on the inner side of the rear end of the cable clamping pushing block and clamps the cable 13. The cable clamping push block forms a stop block 6 in the middle, and the stop block forms an empty groove 5 in the middle for the optical fiber to penetrate out.

The cable clamping push block is provided with a limiting block 18 at the bottom, and the main body part forms a hollow groove 15 matched with the limiting block at the bottom end. The flip cover forms two symmetrical barbs 19 at the lower part of the rear end, and the main body part forms a clamping groove 4 matched with the barbs at the lower part of the rear end. The flip forms two symmetrical extrusion blocks 20 at the rear end of the inner side of the top plate, and the symmetrical extrusion blocks clamp two side surfaces of the cable-clamping push block. A cable pressing block 21 is arranged between the two symmetrical pressing blocks. The top of the cable clamping push block can also be provided with a top cover, positioning blocks 17 are arranged on two sides of the rear end of the top cover 16, and a clamping groove 22 matched with the positioning blocks is arranged at the rear end of the bottom of the flip cover.

Fig. 9 is another schematic structural diagram of the present invention, and the main modification of the structure is that the end sleeve 1 has a different structure.

The above description is only an example of the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A flip type guiding push-pull melting-free physical connector is characterized by comprising a main body part, a V-groove component and a tail sleeve, wherein the front part of the main body part forms an end head for positioning the V-groove component, the rear part of the main body part is provided with a cable clamping push block matched with the V-groove component, an end sleeve is arranged outside the end head, the V-groove component comprises an optical fiber external control butt joint switch and pre-embedded optical fibers, a guide block is formed outside the cable clamping push block, guide grooves are formed in two sides of the main body part, when the cable clamping push block is pushed inwards to the inner limit position of the guide grooves, the optical fibers placed on the cable clamping push block are in butt joint with the pre-embedded optical fibers, rotating shafts are arranged on two sides of the main body part, and the rotating shafts are connected with a.

2. The flip-type guided push-pull melt-free physical connector according to claim 1, wherein the cable-clamping pusher has a stopper at the bottom, and the body member has a hollow groove at the bottom end thereof for engaging with the stopper.

3. The flip-type guided push-pull melt-free physical connector as claimed in claim 2, wherein said flip-top is formed with two symmetrical barbs at the lower part of the rear end, and said main body member is formed with a locking groove at the lower part of the rear end for fitting the barbs.

4. The flip-type guided push-pull melt-free physical connector of claim 3, wherein the flip forms two symmetrical pressing blocks at the rear end of the inside of the top plate, the symmetrical pressing blocks clamping both sides of the cable-clamping pushing block.

5. The flip-type guided push-pull melt-free physical connector of claim 4, wherein a cable press block is disposed between the two symmetrical press blocks.

6. The flip-type guiding push-pull melt-free physical connector as claimed in claim 5, wherein a top cover is disposed on the top of the cable-clamping push block, positioning blocks are disposed on two sides of the rear end of the top cover, and a slot matched with the positioning blocks is disposed on the rear end of the bottom of the flip.

7. The flip-type guided push-pull melt-free physical connector of claim 6, wherein the cable-clamping pusher has a plurality of positioning clips formed on an inner side of a rear end thereof, the positioning clips clamping the cable.

Images