CN112346177A - Light path display and assembling method thereof - Google Patents

Abstract

The invention discloses a light path display and an assembling method thereof, wherein the light path display comprises an adapter shell and a light guide part, and the light guide part is arranged on the adapter shell and conducts overflowed light outwards. The assembling method of the light path display can solve the problems of multiple production processes and low assembling efficiency of the existing equipment by arranging the flexible reversing part. The device adopts the flexible reversing part of the bent light guide rod, and the light path display has high assembly efficiency and low manufacturing cost through the self flexible deformation and resilience, and the mechanism is simpler; the energy loss of the detection light propagating in the light-taking component can be reduced, and the light intensity of the detection light emitted from the outer end of the light-taking component is improved, so that the derived detection light is better and is easier for a linesman to observe.

Description

Light path display and assembling method thereof

Technical Field

The invention relates to the technical field of maintenance of optical fiber communication systems, in particular to an optical path display and an assembling method thereof.

Background

With the improvement of the requirement of high-speed information transmission, optical fibers are increasingly widely used as high-speed information carriers, and the agenda is gradually increased for monitoring optical fiber connection points, especially in the 5G era, the application of optical fiber circuits is increasingly wide, the number of the optical fiber connection points is rapidly increased in a geometric progression level, and the routing management and connection quality management of the optical fiber connection points are increasingly important, so that a method for detecting the overflow light at the optical fiber connection points by photosensitive elements or light-taking components is developed. And the optical fiber adapter is mostly installed in the tray on ODF (optical fiber distribution frame), the mounting means is various, the installation space is limited, how convenient, compact, low cost, install the part of getting light reliably into the optical fiber adapter, the detection light that spills the tie point is derived, help constructor to find optical fiber circuit route information, become the key technical problem that this field needs to solve, and the leaded light spare in the current light path display all adopts rigid material, very inconvenient when installing the endotheca, often can produce with the leaded light spare and interfere.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the conventional optical path display.

Therefore, the invention aims to solve the problems of more production processes and low assembly efficiency of the existing equipment.

In order to solve the technical problems, the invention provides the following technical scheme: an optical path display comprising, an adapter housing; the light guide piece is matched with the adapter shell and comprises a flexible reversing part and a light taking surface, wherein the flexible reversing part is a bent light guide rod, and the light taking surface points to a coupling point of the adapter shell through self flexible deformation resilience.

As a preferable aspect of the optical path display of the present invention, wherein: the light guide part further comprises a first extension section connected with the flexible reversing part, the first extension section is arranged in the adapter shell and corresponds to a coupling point of the adapter shell, and the light taking surface is the end surface of the first extension section.

As a preferable aspect of the optical path display of the present invention, wherein: the light guide piece further comprises a light emitting surface, and the light emitting surface is arranged in the outer space of the adapter shell.

As a preferable aspect of the optical path display of the present invention, wherein: the light guide piece further comprises a second extension section connected with the flexible reversing part, the second extension section is arranged on the upper surface or the side surface of the adapter shell, and the light emitting surface is the end surface of the second extension section.

As a preferable aspect of the optical path display of the present invention, wherein: the adapter shell comprises a placing portion and a clamping portion connected with the placing portion, a first groove is formed in the connecting end of the placing portion, a first boss matched with the first groove is arranged on the connecting end of the clamping portion, and a first arc-shaped groove is formed in the bottom face of the first boss.

As a preferable aspect of the optical path display of the present invention, wherein: the optical fiber adapter is characterized by further comprising an inner sleeve, wherein the inner sleeve is arranged in the adapter shell, a ceramic sleeve is arranged in the inner sleeve, a light taking groove is formed in the ceramic sleeve, a light taking opening corresponding to the light taking groove is formed in the inner sleeve, and a light taking surface is arranged in the light taking opening and located above the coupling point.

As a preferable aspect of the optical path display of the present invention, wherein: the inner sleeve comprises a first connecting portion matched with the placing portion and a second connecting portion matched with the clamping portion, the first connecting portion is matched with the second connecting portion, a second arc-shaped groove is formed in the first connecting portion, a third arc-shaped groove corresponding to the second arc-shaped groove is formed in the second connecting portion, and the light taking port is formed by the second arc-shaped groove and the third arc-shaped groove.

As a preferable aspect of the optical path display of the present invention, wherein: the placing part is provided with a second groove, and the light guide piece is arranged in the second groove.

As a preferable aspect of the optical path display of the present invention, wherein: the flexible reversing part is made of flexible light-transmitting plastic materials; the light guide piece is fixed on the adapter shell through integral injection molding or combination.

As a preferable aspect of the optical path display of the present invention, wherein: the adapter housing exterior also includes a securing ear.

As a preferable aspect of the optical path display of the present invention, wherein: the connecting end of the placing part is provided with a welding table, and the connecting end of the clamping part is provided with a welding groove; the welding table corresponds to the welding groove in shape and position.

Another object of the present invention is to provide an assembling method of an optical path display based on a flexible reversing portion, which can solve the problems of multiple production processes and low assembling efficiency of the existing equipment by providing the flexible reversing portion.

In order to solve the technical problems, the invention provides the following technical scheme: the method comprises the following steps: the light guide piece is connected in the second groove, and the flexible reversing part is arranged in the first groove; straightening the flexible reversing part and installing the inner sleeve; and loosening the flexible reversing part to enable the placing part to be gradually attached to the clamping part, so that the flexible reversing part extends into the light taking opening along the first arc-shaped groove.

As a preferable aspect of the assembling method of the optical path display of the present invention, wherein: when the inner sleeve is installed, the first connecting part is inserted into the placing part, and then the second connecting part is inserted into the clamping part.

The invention has the advantages that the flexible reversing part of the bent light guide rod is adopted, the light path display has high assembly efficiency and low manufacturing cost through the self flexible deformation and resilience, and the mechanism is simpler; the energy loss of the detection light propagating in the light-taking component can be reduced, and the light intensity of the detection light emitted from the outer end of the light-taking component is improved, so that the derived detection light is better and is easier for a linesman to observe.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, 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 based on these drawings without inventive exercise. Wherein:

fig. 1 is a schematic structural diagram of an optical path display in example 1.

Fig. 2 is a cross-sectional view of the optical path display of example 1.

FIG. 3 is a schematic view of a light guide of the optical path display in example 1.

FIGS. 4-7 are schematic diagrams of four embodiments of light guides of the optical path display in example 1.

Fig. 8 is a schematic view of the placement portion and inner case structure of the optical path display in example 1.

Fig. 9 is a configuration diagram of an engaging portion of the optical path display in example 1.

Fig. 10 is a schematic structural diagram of the optical path display in example 1, in which the fixing lug is a small lug.

Fig. 11 is a schematic structural diagram of the optical path display in example 1 when the fixing lug is a big lug.

Fig. 12 is a structure diagram of a combined inner sleeve of the optical path display in example 1.

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 and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 12, a first embodiment of the present invention provides a light path display, which includes an adapter housing 100 and a light guide 200, wherein the light guide 200 is disposed on the adapter housing 100 and guides overflow light to the outside.

Specifically, the adapter housing 100 includes a placing portion 101 and a fastening portion 102 connected to the placing portion 101, a first groove 101a is provided at a connecting end of the placing portion 101, a first boss 102a matched with the first groove 101a is provided at a connecting end of the fastening portion 102, and a first arc-shaped groove 102a-1 is provided at a bottom surface of the first boss 102 a. The first arc-shaped groove 102a-1 is preferably arc-shaped, and the arc surface is coated with a reflective material or provided with a reflective layer coated with a reflective material, and the reflective material can be vacuum aluminized or silvered, so that the first arc-shaped groove 102a-1 can also play a role in reflecting light and preventing light leakage, and the light guiding efficiency of the light guiding member 200 is increased.

The light guide piece 200 is fixed on the adapter shell 100 through integral injection molding or combination and comprises a flexible reversing part 201 and a light-taking surface A, wherein the flexible reversing part 201 is a bent light guide rod, and the light-taking surface A points to a coupling point of the adapter shell 100 through self flexible deformation and rebound. The light guide assembly 200 is preferably made of a high light-transmitting material, and the flexible reversing portion 201 is made of a flexible light-transmitting plastic material and has certain elasticity. The coupling point of the adapter housing 100 is an optical fiber connection point where detection light leaks, and the coupling point of the adapter housing 100 is a contact point when the two ends of the adapter housing 100 are respectively plugged with optical fiber connectors and when the end faces of the ceramic ferrules at the two ends are aligned. The light guide 200 further includes a light emitting surface B disposed in the outer space of the adapter housing 100.

In the present invention, the specific structure of the light guide 200 includes the following five embodiments:

first, as shown in fig. 4, the light guiding path of the light guiding assembly 200 only includes the flexible direction changing portion 201, and at this time, the light extraction surface a and the light extraction surface B are two end surfaces of the flexible direction changing portion 201.

Secondly, as shown in fig. 5, the light guide path of the light guide assembly 200 includes a flexible direction changing portion 201 and a first extending section 202 connected to the flexible direction changing portion 201, the first extending section 202 is disposed in the adapter housing 100 and corresponds to a coupling point of the adapter housing 100, and the light fetching surface 202 is an end surface of the first extending section 202. The first extension section 202 is a straight rod structure, and a linear light guiding path is formed inside the first extension section 202, at this time, one end of the flexible reversing portion 201 is connected with the first extension section 202, and the other end face is a light emitting face B.

Third, as shown in fig. 6, the light guiding path of the light guiding assembly 200 includes a flexible direction changing portion 201 and a second extending section 203 connected to the flexible direction changing portion 201, the second extending section 203 is disposed on the upper surface or the side surface of the adapter housing 100, and the light emitting surface B is an end surface of the second extending section 203. The second extension segment 203 is a straight rod structure, and a linear light guide path is formed inside the second extension segment, at this time, one end of the flexible reversing portion 201 is connected with the first extension segment 202, and the other end face is a light-extracting face a.

As shown in fig. 7, the light guiding path of the light guiding assembly 200 includes a flexible direction changing portion 201, and a first extending section 202 and a second extending section 203 connected to the flexible direction changing portion 201, where the light fetching surface a is an end surface of the first extending section 202, and the light emitting surface B is an end surface of the second extending section 203.

It should be noted that the material of the first extension 202 and the second extension 203 may also be a flexible light-transmitting plastic material, and may also be a rigid light-transmitting plastic material. The differences are as follows: if the first extension 202 and the second extension 203 are made of flexible transparent plastic material, the whole light guide member 200 can be integrally formed, and the manufacturing method is more convenient and simpler. If the first extension 202 and the second extension 203 are made of rigid transparent plastic material, the light guide member 200 has a stronger pressure-bearing capacity and is not easily deformed

Further, the adapter comprises an inner sleeve 300 arranged in the adapter shell 100, a ceramic sleeve 301 is arranged in the inner sleeve 300, a light-taking groove 301a is arranged on the ceramic sleeve 301, a light-taking port 302 corresponding to the light-taking groove 301a is arranged on the inner sleeve 300, and the light-taking surface a is arranged in the light-taking port 302 and located above the coupling point.

It should be noted that the inner sleeve 101 may be an integral structure (as shown in fig. 8), or may be formed by combining two parts (as shown in fig. 12), when the inner sleeve 101 is formed by combining two parts, the inner sleeve 300 includes a first connecting portion 303 cooperating with the placing portion 101, and a second connecting portion 304 cooperating with the engaging portion 102, the first connecting portion 303 cooperates with the second connecting portion 304, a second arc-shaped groove 303a is disposed on the first connecting portion 303, the second connecting portion 304 is provided with a third arc-shaped groove 304a corresponding to the second arc-shaped groove 303a, and the second arc-shaped groove 303a and the third arc-shaped groove 304a constitute the light-extracting port 302.

The one-piece inner sleeve 101 has the advantages that the inner sleeve 101 is integrally formed, and the manufacturing process is simple. The combined inner case 101 has an advantage in that an assembly process is simpler.

Further, the placing portion 101 is provided with a second groove 101b, and the light guide member 200 is disposed in the second groove 101 b. Part of the light guide member 200 may be disposed in the second groove 101b, reducing the occupied space of the light path display.

Further, the adapter housing 100 includes a fixing lug 103 on the outside, and the fixing lug 103 is used for fixing the optical path display. The fixing lugs 103 may have two forms of a large fixing lug 103 (see fig. 11) and a small fixing lug 103 (see fig. 11).

Further, a welding table 101c is arranged at the connecting end of the placing part 101, and a welding groove 102b is arranged at the connecting end of the clamping part 102; the welding land 101c corresponds to the welding groove 102b in shape and position. The function of the welding stage 101c is to facilitate welding of the adapter housing 100.

The flexible reversing part 201 enables the light taking surface A to point to the coupling point of the adapter shell 100 through self flexible deformation resilience, light leaked from optical fiber connection is transmitted to the light taking surface A of the light guide piece 200 through the light taking port 302, and the light is transmitted out of the adapter shell 100 through the light guide piece 200, so that people can observe the light directly.

The invention also relates to an assembling method of the light path display, which comprises the following steps:

s1: firstly, the light guide member 200 is fixed in the second groove 101b through integral injection molding or combination, and the flexible reversing part 201 is arranged in the first groove 101 a;

s2: straightening the flexible reversing part 201, and installing the inner sleeve 300;

s3: loosening the flexible reversing part 201, enabling the placing part 101 and the clamping part 102 to be gradually attached to each other, and enabling the flexible reversing part 201 to extend into the light taking port 302 along the first arc-shaped groove 102 a-1;

s4: the placement portion 101 and the engagement portion 102 are welded and fixed by welding.

In the present invention, since the inner sleeve 300 has two types of integrated or combined type, the inner sleeve 300 has the following two installation methods:

firstly, the method comprises the following steps: when the inner sleeve 300 has the integrated structure, the flexible direction changing portion 201 of the light guide member 200 is straightened by external force, the inner sleeve 300 is integrally inserted into the placing portion 101, the flexible direction changing portion 201 is released to be naturally bent and rebounded, and then the step S4 is performed.

Firstly, the method comprises the following steps: when the inner sleeve 300 is of the combined structure, the flexible direction-changing portion 201 of the light guide member 200 is straightened by external force, the first connection portion 303 of the inner sleeve 300 is inserted into the placing portion 101, the flexible direction-changing portion 201 is released to be naturally bent and rebounded, the second connection portion 304 is inserted into the engaging portion 102, glue can be applied to the connection end portion of the first connection portion 303 and the second connection portion 304 in advance, the first connection portion 303 and the second connection portion 304 can be fixed by gluing when step S3 is performed, or the first connection portion 303 and the second connection portion 304 can be fixed by welding when step S4 is performed.

Through the two assembling methods, the positioning and packaging of the optical fiber adapter are realized, the structure is compact, the assembly is convenient, and the production efficiency is high. Wherein, the leaded light spare 200 of high luminousness can show outside the adapter casing with the light that overflows of fiber coupling point department, and leaded light is efficient, and the light path display effect is good, is convenient for linesman to look for the route, and the flexible switching-over portion 201 that the bending can kick-back makes the whole assembly process of fiber adapter simpler.

Since the main body of the adaptor housing 100, the rest of the structure and structure of the inner sleeve 300 and the ceramic sleeve 301 inside the main body, and the mutual position relationship and connection relationship among the three are mature prior arts, they are not described herein again.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (13)

1. An optical path display, comprising: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

an adapter housing (100);

the light guide piece (200) is matched with the adapter shell (100) and comprises a flexible reversing part (201) and a light taking surface (A), wherein the flexible reversing part (201) is a bent light guide rod, and the light taking surface (A) points to a coupling point of the adapter shell (100) through self flexible deformation and rebound.

2. An optical path display as claimed in claim 1, wherein: the light guide piece (200) further comprises a first extension section (202) connected with the flexible reversing part (201), the first extension section (202) is arranged in the adapter shell (100) and corresponds to a coupling point of the adapter shell (100), and the light taking surface (202) is the end surface of the first extension section (202).

3. An optical path display as claimed in claim 1 or 2, wherein: the light guide (200) further comprises a light emitting surface (B), and the light emitting surface (B) is arranged in the outer space of the adapter shell (100).

4. An optical path display as claimed in claim 3, wherein: the light guide piece (200) further comprises a second extension section (203) connected with the flexible reversing part (201), the second extension section (203) is arranged on the upper surface or the side surface of the adapter shell (100), and the light emitting surface (B) is the end surface of the second extension section (203).

5. An optical path display as claimed in any one of claims 1, 2 or 4, wherein: the adapter shell (100) comprises a placing part (101) and a clamping part (102) connected with the placing part (101), a first groove (101a) is formed in the connecting end of the placing part (101), a first boss (102a) matched with the first groove (101a) is arranged on the connecting end of the clamping part (102), and a first arc-shaped groove (102a-1) is formed in the bottom surface of the first boss (102 a).

6. An optical path display as claimed in claim 5, wherein: the adapter is characterized by further comprising an inner sleeve (300) arranged in the adapter shell (100), a ceramic sleeve (301) is arranged in the inner sleeve (300), a light taking groove (301a) is formed in the ceramic sleeve (301), a light taking opening (302) corresponding to the light taking groove (301a) is formed in the inner sleeve (300), and a light taking surface (A) is arranged in the light taking opening (302) and located above the coupling point.

7. An optical path display as claimed in claim 6, wherein: the inner sleeve (300) comprises a first connecting portion (303) matched with the placing portion (101) and a second connecting portion (304) matched with the clamping portion (102), the first connecting portion (303) is matched with the second connecting portion (304), a second arc-shaped groove (303a) is formed in the first connecting portion (303), a third arc-shaped groove (304a) corresponding to the second arc-shaped groove (303a) is formed in the second connecting portion (304), and the light-taking port (302) is formed by the second arc-shaped groove (303a) and the third arc-shaped groove (304 a).

8. An optical path display as claimed in claim 6 or 7, wherein: the placement section (101) is provided with a second groove (101b), and the light guide member (200) is disposed in the second groove (101 b).

9. An optical path display as claimed in claim 8, wherein: the flexible reversing part (201) is made of flexible light-transmitting plastic materials; the light guide member (200) is fixed on the adapter housing (100) by integral injection molding or combination.

10. An optical path display as claimed in any one of claims 1, 2, 4, 6, 7 or 9, wherein: the adapter housing (100) also comprises a fixing lug (103) on the outside.

11. An optical path display as claimed in any one of claims 6, 7 or 9, wherein: a welding table (101c) is arranged at the connecting end of the placing part (101), and a welding groove (102b) is arranged at the connecting end of the clamping part (102);

the welding table (101c) and the welding groove (102b) correspond in shape and position.

12. An assembly method using the optical path display according to claims 6 to 11, wherein: the method comprises the following steps:

the light guide (200) is connected in the second groove (101b), and the flexible diverter (201) is disposed within the first groove (101 a);

straightening the flexible reversing part (201), and installing the inner sleeve (300);

and loosening the flexible reversing part (201), enabling the placing part (101) to be gradually attached to the clamping part (102), and enabling the flexible reversing part (201) to extend into the light taking port (302) along the first arc-shaped groove (102 a-1).

13. A method of assembling an optical path display according to claim 12, wherein: when the inner sleeve (300) is installed, the first connecting part (303) is firstly inserted into the placing part (101), the flexible reversing part (201) is loosened, and the second connecting part (304) is inserted into the clamping part (102).

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