CN112611544A - Novel optical fiber breakpoint positioning test equipment - Google Patents

Abstract

The invention discloses novel optical fiber breakpoint positioning test equipment, which comprises a supporting component, a base plate, a vertical plate frame and an installation port, wherein the base plate is horizontally arranged, the vertical plate frame is fixed on the surface of the base plate, the installation port is arranged in the middle of the vertical plate frame, the optical fiber component comprises a through hole formed in the surface of the vertical plate frame and an optical fiber body penetrating through the through hole, a disc frame component, a detection component and an adjusting component.

Description

Novel optical fiber breakpoint positioning test equipment

Technical Field

The invention relates to the technical field of light breakpoint testing, in particular to novel optical fiber breakpoint positioning testing equipment.

Background

The optical fiber is made of glass or plastic and can be used as a light conduction tool, the transmission principle is 'total reflection' of light, along with the continuous development of the Internet, the application of the optical fiber is more and more, the yield requirement is greatly increased, the optical fiber needs to be subjected to sampling inspection after production is finished, the quality of the whole batch of optical fiber is controlled, and a breakpoint tester is used for carrying out independent test during testing.

Disclosure of Invention

Therefore, the invention aims to provide novel optical fiber breakpoint positioning test equipment, the whole tester is driven to perform circular motion through the mutual matching of a disc frame structure and an adjusting structure, manual operation is not needed, the tester performs circular test continuously, the structural design is suitable for large-scale detection, the detection speed is high, continuous detection can be performed, the distance between a detection head and an optical fiber can be adjusted conveniently through the adjusting structure, and the stability and the accuracy of the whole test are ensured.

To solve the above technical problem, according to an aspect of the present invention, the present invention provides the following technical solutions:

a novel optical fiber breakpoint positioning test device comprises:

the supporting assembly comprises a base plate, a vertical plate frame and an installation port, wherein the base plate is horizontally arranged, the vertical plate frame is fixed on the surface of the base plate, and the installation port is arranged in the middle of the vertical plate frame;

the optical fiber assembly comprises a through hole formed in the surface of the vertical plate frame and an optical fiber body penetrating through the through hole;

the disc frame assembly comprises a disc fixing frame arranged on the side face of the vertical plate frame, a rotating rod fixed on the side wall of the disc fixing frame and penetrating through the mounting port, a notch mounting groove formed in the other side wall of the disc fixing frame, a connecting port formed in the inner side wall of the notch mounting groove and a penetrating interface formed on the surface of the disc fixing frame;

the detection assembly comprises an end point positioning tester arranged in the notch mounting groove and a detection head which penetrates through the penetrating interface and is connected with the end point positioning tester;

the adjusting component comprises a fixed disc fixed on the end side of the rotating rod, a fixed transverse plate fixed on the side wall of the vertical plate frame, a fixed vertical plate fixed on the bottom surface of the fixed transverse plate and a hydraulic rod connected to the inner side of the fixed vertical plate and the surface of the fixed disc.

As a preferred embodiment of the novel optical fiber breakpoint positioning test device, a plurality of through holes are provided, the through holes are distributed in a circular shape, and a plurality of optical fiber bodies are provided, and the plurality of optical fiber bodies respectively penetrate through the plurality of through holes.

The optical fiber breakpoint positioning test equipment further comprises a protection installation component, wherein the protection installation component comprises an installation plate fixed on one side of the vertical plate frame, a rectangular port formed in the top surface of the installation plate and a limiting hole formed in the surface of the rectangular port.

As a preferable scheme of the novel optical fiber breakpoint positioning test device, the device further comprises a protection component, wherein the protection component comprises a protection plate block penetrating through the rectangular port, a top plate fixed on the top surface of the protection plate block, and a limiting rod fixed on the lower surface of the top plate and clamped with the limiting hole.

As a preferable aspect of the novel optical fiber breakpoint positioning test device of the present invention, the limiting rod is locked with the limiting hole by a fastening bolt, and the surface area of the protection plate is greater than the surface area of the notch mounting groove.

As a preferable embodiment of the novel optical fiber breakpoint positioning test device, the penetration interface is aligned with the through hole in a forward direction and is located in the same diameter range.

As a preferable scheme of the novel optical fiber breakpoint positioning test device, two limiting holes are provided, and the two limiting holes are symmetrically arranged on the center line of the mounting plate.

As a preferable embodiment of the novel optical fiber breakpoint positioning test device, an opening position of the connection port is communicated with the through interface.

Compared with the prior art, the invention has the beneficial effects that: the circular motion of the whole tester is driven by the mutual matching of the disc frame structure and the adjusting structure without manual operation, the circular motion of the tester is continuously carried out, the structural design is suitable for large-scale detection, the detection speed is high, uninterrupted detection can be carried out, the distance between the detection head and the optical fiber is conveniently adjusted by the adjusting structure, the stability and the accuracy of the whole test are ensured, when the circular motion tester is used specifically, a user respectively penetrates a plurality of optical fiber bodies into different through holes to expose the optical fiber ports, the rotating rod is driven by a driving motor (not marked in the drawing), the disc fixing frame is driven to rotate in the rotating process, so as to drive the detection head to rotate, the breakpoint detection is carried out when the detection head is contacted with the optical fiber bodies in the rotating process, the detection head is rotated and moved to another optical fiber position for butt detection after the detection, and the user directly extracts the optical fiber to, the structure design has high detection speed and is suitable for large-scale detection.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a first view structure diagram of a novel optical fiber breakpoint positioning test device according to the present invention;

FIG. 2 is a second view structure diagram of the novel optical fiber breakpoint positioning test device according to the present invention;

FIG. 3 is a schematic diagram of protection of a novel optical fiber breakpoint positioning test device according to the present invention;

fig. 4 is a structural diagram of a third view angle of the novel optical fiber breakpoint positioning test device according to the present invention.

In the figure: 100. A support assembly; 110. a base plate; 120. a vertical plate frame; 130. installing a port; 200. an optical fiber assembly; 210. an optical fiber body; 220. a through hole; 300. a disc frame assembly; 310. a disc fixing frame; 320. rotating the rod; 330. a notch mounting groove; 340. a connection port; 350. a penetration interface; 400. a detection component; 410. an end point positioning tester; 420. a detection head; 500. an adjustment assembly; 510. fixing the disc; 520. fixing the transverse plate; 530. fixing a vertical plate; 540. a hydraulic lever; 600. a protective mounting assembly; 610. mounting a plate; 620. a rectangular port; 630. a limiting hole; 700. a guard assembly; 710. a protective plate; 720. a top plate; 730. a limiting rod.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Next, the present invention will be described in detail with reference to the drawings, and in the detailed description of the embodiments of the present invention, the cross-sectional views illustrating the structure of the device are not enlarged partially according to the general scale for convenience of illustration, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention provides novel optical fiber breakpoint positioning test equipment, which drives the whole tester to perform circular motion through the mutual matching of a disc frame structure and an adjusting structure, does not need manual operation, and performs circular test continuously by the tester.

Fig. 1 to 4 are schematic overall structural diagrams illustrating an embodiment of the novel optical fiber breakpoint positioning test device of the present invention, and referring to fig. 1 to 4, a main body of the novel optical fiber breakpoint positioning test device of the present embodiment includes: support assembly 100, fiber optic assembly 200, puck assembly 300, detection assembly 400, and adjustment assembly 500.

The supporting assembly 100 is used for supporting and constructing the whole device, specifically, the supporting assembly 100 comprises a base plate 110 horizontally arranged, a vertical plate frame 120 fixed on the surface of the base plate 110 and a mounting port 130 arranged in the middle of the vertical plate frame 120, and when in specific use, the disc frame assembly 300, the detecting assembly 400 and the adjusting assembly 500 are respectively mounted on two sides of the vertical plate frame 120 for detecting use.

Optical fiber assembly 200 and detection structure cooperation, accomplish extensive detection, and is specific, optical fiber assembly 200 is including seting up at the through-hole 220 on riser frame 120 surface and the fiber body 210 who runs through-hole 220, and when concrete use, a plurality of fiber body 210 runs through a plurality of through-hole 220 respectively, and the change of fiber body 210 is conveniently carried out to such structural design, and a certain one detects directly after finishing to detect next, and the in-process that detects next optic fibre directly will detect the optic fibre that finishes takes off the change can.

Disc frame subassembly 300 is used for the installation and the cooperation rotation of determine module 400 to use, accomplish high-efficient the detection, it is specific, disc frame subassembly 300 is including setting up the disc mount 310 in the riser 120 side, fix the dwang 320 at disc mount 310 lateral wall and run through installation port 130, set up the breach mounting groove 330 at another lateral wall of disc mount 310, set up the connection port 340 at breach mounting groove 330 inside wall and set up the interface 350 that runs through on disc mount 310 surface, when specifically using, dwang 320 drives whole disc mount 310 and rotates, and end point location tester 410 installs in breach mounting groove 330, it detects with the optic fibre body 210 that needs to detect to contact through interface 350 to detect head 420, connection port 340's design makes things convenient for end point location tester 410 to be connected with detection head 420.

The detection assembly 400 is used for breakpoint detection, specifically, the detection assembly 400 includes an endpoint positioning tester 410 installed in the notch installation groove 330 and a detection head 420 penetrating through the interface 350 and contacting with the endpoint positioning tester 410, and when specifically used, the detection head 420 contacts with the optical fiber body 210 to perform breakpoint detection.

Adjusting part 500 is used for adjusting the distance of detecting between head 420 and the optical fiber body 210, guarantee the stability and the suitability of detection, it is specific, adjusting part 500 is including fixing fixed disk 510 at dwang 320 distolateral, fix the fixed diaphragm 520 at riser frame 120 lateral wall, fix fixed riser 530 at fixed diaphragm 520 bottom surface and connect in fixed riser 530 inboard and with the hydraulic stem 540 on fixed disk 510 surface, when specifically using, hydraulic stem 540 drives dwang 320 back-and-forth movement, thereby control detects head 420 and optical fiber body 210 contact, detect, when different optic fibre, satisfy different demands through adjusting part 500 and carry out the butt

Combine fig. 1-4, this embodiment's a novel optic fibre breakpoint positioning test equipment, when specifically using, the user runs through a plurality of optic fibre body 210 respectively to the through-hole 220 of difference in, make the optic fibre port expose outside, dwang 320 is driven by driving motor (unmarked in the drawing) this moment, it rotates to rotate in-process drive disc mount 310, thereby drive and detect head 420 and rotate, it detects to carry out the breakpoint when detecting head 420 and optic fibre body 210 contact in the rotation process, rotatory removal detects to another optic fibre department butt after detecting, the user directly extracts to change after detecting and waits to detect optic fibre can, such structural design detection rate is very fast, be fit for large-scale detection and use.

Because of the lack of the protection structure in this embodiment, the end point positioning tester 410 and the detection head 420 are easily damaged by external impact, so that the whole precision instrument of the detection structure can be conveniently covered and shielded by arranging the protection installation component 600 and the protection component 700, and the impact damage can be prevented.

Protection installation component 600 is used for the installation and the use of protection component 700, and is concrete, and protection installation component 600 is including fixing mounting panel 610 in riser frame 120 one side, seting up at the rectangle port 620 of mounting panel 610 top surface and seting up at the spacing hole 630 on rectangle port 620 surface, and when specifically using, rectangle port 620 makes things convenient for the plate to insert and protects, and the convenient design in spacing hole 630 simultaneously carries on spacing fixedly, prevents that protection plate 710 from dropping.

Protection component 700 is used for the instrument protection, prevent to receive the striking and cause the damage, specifically, protection component 700 is including running through the protection plate 710 of rectangle port 620, fix the roof 720 at protection plate 710 top surface and fix the gag lever post 730 at roof 720 lower surface and with spacing hole 630 joint, when specifically using, the user uses protection plate 710 directly to run through rectangle port 620, run through in-process gag lever post 730 and spacing hole 630 joint, and use bolt (not marked in the drawing) to screw up fixedly, prevent to become flexible, protection plate 710 covers the protection with endpoint location tester 410 completely like this.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of the invention may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The utility model provides a novel optical fiber breakpoint positioning test equipment which characterized in that includes:

the supporting component (100) comprises a base plate (110) arranged horizontally, a vertical plate frame (120) fixed on the surface of the base plate (110) and a mounting port (130) arranged in the middle of the vertical plate frame (120);

the optical fiber assembly (200) comprises a through hole (220) formed in the surface of the vertical plate frame (120) and an optical fiber body (210) penetrating through the through hole (220);

the disc frame assembly (300) comprises a disc fixing frame (310) arranged on the side face of the vertical plate frame (120), a rotating rod (320) fixed on the side wall of the disc fixing frame (310) and penetrating through the installation port (130), a notch installation groove (330) formed in the other side wall of the disc fixing frame (310), a connection port (340) formed in the inner side wall of the notch installation groove (330) and a penetrating interface (350) formed in the surface of the disc fixing frame (310);

the detection assembly (400) comprises an end point positioning tester (410) installed in the notch installation groove (330) and a detection head (420) which penetrates through the through interface (350) and is connected with the end point positioning tester (410);

adjusting part (500), including fixing fixed disk (510) that dwang (320) are distolateral, fix fixed diaphragm (520) of riser frame (120) lateral wall, fix fixed riser (530) of fixed diaphragm (520) bottom surface and connect fixed riser (530) inboard and with hydraulic stem (540) on fixed disk (510) surface.

2. The novel optical fiber breakpoint positioning test equipment according to claim 1, wherein a plurality of through holes (220) are provided, the plurality of through holes (220) are distributed in a circular shape, the plurality of optical fiber bodies (210) are provided, and the plurality of optical fiber bodies (210) respectively penetrate through the plurality of through holes (220).

3. The novel optical fiber breakpoint positioning test equipment according to claim 2, further comprising a protection installation component (600), wherein the protection installation component (600) comprises an installation plate (610) fixed on one side of the vertical plate frame (120), a rectangular port (620) formed on the top surface of the installation plate (610), and a limiting hole (630) formed on the surface of the rectangular port (620).

4. The novel optical fiber breakpoint positioning test equipment according to claim 3, further comprising a protection component (700), wherein the protection component (700) comprises a protection plate block (710) penetrating through the rectangular port (620), a top plate (720) fixed on the top surface of the protection plate block (710), and a limiting rod (730) fixed on the lower surface of the top plate (720) and clamped with the limiting hole (630).

5. The novel optical fiber breakpoint positioning test device of claim 4, wherein the limit rod (730) is locked with the limit hole (630) through a fastening bolt, and the surface area of the protection plate block (710) is larger than that of the notch installation groove (330).

6. The novel optical fiber breakpoint positioning test device according to claim 5, wherein the through interface (350) is aligned with the through hole (220) in a forward direction and is within the same diameter range.

7. The novel optical fiber breakpoint positioning test equipment according to claim 6, wherein two limiting holes (630) are provided, and the two limiting holes (630) are symmetrically arranged at a central line position of the mounting plate (610).

8. The novel optical fiber breakpoint positioning test device according to claim 7, wherein the opening position of the connection port (340) is communicated with the through interface (350).

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