CN211402836U - Combined type field optical fiber connector with low technical operation requirement and variable cable specification - Google Patents

Abstract

The utility model relates to a changeable combination formula on-spot fiber splice of low technical operation requirement cable specification, including main part spare, variable clamp cable part, optic fibre external control butt joint subassembly and tail cover, the inside U-shaped groove that sets up location optic fibre direction of variable clamp cable part, the both sides of variable clamp cable part form respectively and guide spacing lug, guide spacing lug and variable clamp cable part constitute holistic odd-shaped structure, main part spare in form the dysmorphism cavity with the dysmorphism agrees with, variable clamp cable part can be relative main part spare back-and-forth movement, the inside optic fibre external control butt joint subassembly that sets up of main part spare, the tail cover touch optic fibre external control butt joint switch and realize the optical fibre butt joint in fixed cable. The utility model discloses a structure to main part spare and variable clamp cable part improves, makes both through the firm cooperation of dysmorphism structure, has simplified the operation requirement of butt joint, has promoted the success rate of on-the-spot butt joint.

Description

Combined type field optical fiber connector with low technical operation requirement and variable cable specification

Technical Field

The utility model relates to a changeable combination formula on-spot fiber splice of low technical operation requirement cable specification.

Background

At present, the conventional field optical fiber connector needs to manually control and align an optical fiber to penetrate into an optical fiber butt joint component, because a V-groove lead-in hole is very small, 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 in a perfect and undamaged way, the optical fiber can touch with parts and components, the end face of the optical fiber is easy to damage, the field assembly failure or the connection failure is caused, the problem is more prominent along with the gradual aging of social labor force, meanwhile, one product of the product can only adapt to one cable specification, cables with different specifications cannot be realized in the same product, and the problem of connection of different cable environments needs to coexist a plurality of products.

SUMMERY OF THE UTILITY MODEL

The utility model discloses shortcoming to prior art exists provides a changeable combination formula on-the-spot fiber splice of low technical operation requirement cable specification, 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. The cable clamping structure of the variable cable clamping component is changed, so that cables with different specifications can be clamped, and the cables with different specifications can be assembled by using the same product.

Therefore, the utility model adopts the following technical proposal: a combined type field optical fiber connector with a variable cable specification and low technical operation requirements is characterized by comprising a combined type optical fiber quick connector, wherein the combined type optical fiber quick connector comprises a main body part, a variable cable clamping part, an optical fiber external control butt joint component and a tail sleeve, a U-shaped groove for positioning the direction of an optical fiber is arranged in the variable cable clamping part, guide limiting convex blocks are respectively formed on two sides of the variable cable clamping part, the guide limiting convex blocks and the variable cable clamping part form an integral special-shaped structure, a special-shaped cavity is formed in the main body part and is matched with the special-shaped structure, the variable cable clamping part can move back and forth relative to the main body part, the optical fiber external control butt joint component is arranged in the main body part, and the tail sleeve touches an optical fiber external control butt joint switch to realize optical fiber butt joint while fixing a cable.

The utility model discloses in, variable clamp cable part exterior structure is confirmed, and its inner structure can be adjusted according to the cable specification, just so can the cable assembly of the multiple different specifications of adaptation. The optical fiber can be controlled at a proper position by an assembler only by putting the cable into the variable cable clamping part in advance, manual control alignment of the optical fiber is not needed, the variable cable clamping part is pushed into the main body inwards, the optical fiber can be quickly, accurately and simply penetrated into the butt joint assembly no matter what environment, the operation requirement on people is greatly reduced, particularly, the requirement on the eyesight of the operator is greatly reduced, the utilization rate of the existing groups of enterprises can be increased, the tolerance of the personnel capable of producing the optical fiber in the society is also increased, the precision of penetrating the optical fiber into the butt joint assembly is improved by utilizing the matching precision between the variable cable clamping part and the main body part, the contact between the optical fiber and the parts is avoided, and the assembly qualification rate is greatly improved.

The variable cable clamping component and the main body component form a staggered fit.

The front end of the guide limit lug is provided with a locking block, two sides of the main body part are provided with clearance grooves matched with the locking block, and elastic release buttons capable of unlocking the locking block and connected with the clearance grooves are further arranged in the clearance grooves.

The rear end of the variable cable clamping component is a cable clamping part, and the inner side wall of the variable cable clamping component is provided with convex teeth for clamping a cable.

And a cable pressing block is arranged on the outer side wall of the cable clamping part.

The main body part is also provided with a viewing port.

The utility model discloses a structure to main part spare and variable clamp cable part improves, makes both through the firm cooperation of dysmorphism structure, has simplified the operation requirement of butt joint, has improved the butt joint precision of optic fibre, has promoted the success rate of on-the-spot butt joint. The inner structure of the variable cable clamping component is improved, so that the variable cable clamping component can be adapted to cables with different specifications.

Drawings

Fig. 1 is a schematic view of an assembly structure of the present invention.

Fig. 2 is a schematic structural view of a variable clamp cable member.

Fig. 3 is a schematic side view of the present invention.

Fig. 4 is another schematic structural diagram of the present invention.

Fig. 5 is a schematic view of another structure of the present invention.

Fig. 6 is a schematic structural view of the observation port 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.

A modular field fiber optic connector for low tech operation requiring variable cable gauges, as shown in fig. 1-3, includes a modular fiber optic quick connector, the combined optical fiber quick connector comprises an end sleeve 1, a main body part 4, a variable cable clamping part 6, an optical fiber external control butt joint component 2 and a tail sleeve, the variable cable clamping component is internally provided with a U-shaped groove for positioning the direction of the optical fiber, two sides of the variable cable clamping component are respectively provided with a guiding limit lug 8, the guide limit lug and the variable cable clamping part form an integral special-shaped structure, a special-shaped cavity 5 is formed in the main body part and is matched with the special-shaped structure, the variable cable clamping component can move back and forth relative to the main body component, an optical fiber external control butt joint component 2 is arranged in the main body component, the tail sleeve fixes the cable and simultaneously triggers the optical fiber external control butt joint switch to realize optical fiber butt joint. The variable cable clamping component is in staggered fit with the main body component.

The front end of the guide limit bump 8 is provided with a locking block 7, two sides of the main body part are provided with clearance grooves matched with the locking block, and elastic release buttons 3 capable of unlocking the locking block and connected with the clearance grooves are further arranged in the clearance grooves. The rear end of the variable cable clamping component is provided with a cable clamping part 12, and the inner side wall of the cable clamping part is provided with convex teeth 11 for clamping a cable. And a cable pressing block 9 is arranged on the outer side wall of the cable clamping part. And the variable cable clamping component is also provided with an optical cable reinforcing rib winding gap.

Fig. 4-6 are schematic views of another two structures of the present invention, which are different from embodiment 1 in the end sleeve. Wherein, fig. 6 is also provided with an observation port on the main body part, which can observe whether the assembly is in place or not, and whether the light is normal or not, and can quickly judge whether the assembly is successful or not.

The utility model discloses in, variable clamp cable part exterior structure is confirmed, and its inner structure can be adjusted according to 5 specifications of cable, just so can the cable assembly of the multiple different specifications of adaptation. The optical fiber can be controlled at a proper position by an assembler only by putting the cable into the variable cable clamping part in advance, manual control alignment of the optical fiber is not needed, the variable cable clamping part is pushed into the main body inwards, the optical fiber can be quickly, accurately and simply penetrated into the butt joint assembly no matter what environment, the operation requirement on people is greatly reduced, particularly, the requirement on the eyesight of the operator is greatly reduced, the utilization rate of the existing groups of enterprises can be increased, the tolerance of the personnel capable of producing the optical fiber in the society is also increased, the precision of penetrating the optical fiber into the butt joint assembly is improved by utilizing the matching precision between the variable cable clamping part and the main body part, the contact between the optical fiber and the parts is avoided, and the assembly qualification rate is greatly improved.

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 (6)

1. A combined type field optical fiber connector with a variable cable specification and low technical operation requirements is characterized by comprising a combined type optical fiber quick connector, wherein the combined type optical fiber quick connector comprises a main body part, a variable cable clamping part, an optical fiber external control butt joint component and a tail sleeve, a U-shaped groove for positioning the direction of an optical fiber is arranged in the variable cable clamping part, guide limiting convex blocks are respectively formed on two sides of the variable cable clamping part, the guide limiting convex blocks and the variable cable clamping part form an integral special-shaped structure, a special-shaped cavity is formed in the main body part and is matched with the special-shaped structure, the variable cable clamping part can move back and forth relative to the main body part, the optical fiber external control butt joint component is arranged in the main body part, and the tail sleeve touches an optical fiber external control butt joint switch to realize optical fiber butt joint while fixing a cable.

2. The modular field fiber optic splice of claim 1, wherein said variable gripping member is formed with a misaligned engagement with said body member.

3. The combined field optical fiber connector with the variable specification of the low technical operating requirement cable as claimed in claim 2, wherein the front end of the guiding limit projection is provided with a locking block, two sides of the main body member are provided with clearance grooves matched with the locking block, and the clearance grooves are also internally provided with elastic release buttons capable of unlocking the locking block and connecting the clearance grooves.

4. The modular field optical fiber splice of claim 3, wherein the rear end of the variable gripping member is a cable gripping portion having a plurality of teeth on its inner wall for gripping the cable.

5. The modular field fiber optic splice of claim 4, wherein a cable retention block is disposed on an exterior sidewall of said cable gripping portion.

6. The modular field fiber optic splice of claim 5, wherein the body member further includes a viewing port.

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