CN214225490U - Buckle-mounted light path display - Google Patents
Buckle-mounted light path display Download PDFInfo
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- CN214225490U CN214225490U CN202022523111.4U CN202022523111U CN214225490U CN 214225490 U CN214225490 U CN 214225490U CN 202022523111 U CN202022523111 U CN 202022523111U CN 214225490 U CN214225490 U CN 214225490U
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- light guide
- adapter
- path display
- display
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Abstract
The utility model discloses a fastening type light path display, wherein one fastening type light path display comprises an adapter shell, one side of which is provided with a light-taking port corresponding to the coupling point of the adapter shell; the light guide assembly comprises a body, and a light receiving end and a display end which are arranged at two ends of the body, wherein a buckling cavity is arranged on the body, a fixing plate is arranged on the adapter shell, the fixing plate is embedded in the buckling cavity to be fixed, the light receiving end is correspondingly arranged in the light taking port, and the display end is positioned outside the adapter shell; the utility model discloses need not mounting and mounting tool such as screw, rivet and can swiftly install leaded light subassembly and adapter casing conveniently, the packaging efficiency is high.
Description
Technical Field
The utility model relates to an optical fiber communication system's maintenance technical field, especially a spiral-lock formula light path display.
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. Most of the optical fiber adapters are installed in trays on an Optical Distribution Frame (ODF), so that the optical fiber adapters are various in installation modes, limited in installation space, convenient, compact, low-cost and reliable in installing the light-taking component into the optical fiber adapter, guiding out detection light leaked from a connection point, and helping constructors find optical fiber circuit routing information, and the optical fiber adapters become key technical problems to be solved in the field.
SUMMERY OF THE UTILITY MODEL
This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.
In view of the problems existing in the prior art, the utility model discloses a.
Therefore, the utility model discloses the technical problem that will solve is how to assemble the technical problem on the optical fiber adapter fast, compactly with getting the light part.
In order to solve the technical problem, the utility model provides a following technical scheme: a fastening type light path display comprises,
the adapter comprises an adapter shell, a light-taking port and a light-emitting diode, wherein one side of the adapter shell is provided with the light-taking port which is arranged corresponding to a coupling point of the adapter shell;
light guide assembly, be in including body and setting the receipts light end and the display end at body both ends, the body on be provided with the lock chamber, be provided with the fixed plate on the adapter casing, the fixed plate inlay in the lock intracavity is fixed, it is in to receive the light end correspondence setting get in the light mouth, the display end is located the outside of adapter casing.
As a preferred scheme of spiral-lock formula light path display, wherein: the fixed plate is provided with a light guide groove, and the position of the light guide groove corresponds to the light taking port.
As a preferred scheme of spiral-lock formula light path display, wherein: the body comprises a light guide seat and a light guide column, the buckling cavity is arranged on the light guide seat, and the light receiving end and the display end are arranged on two end faces of the light guide column;
the light guide seat and the light guide column are integrally formed or welded, glued and embedded together.
As a preferred scheme of spiral-lock formula light path display, wherein: the light guide seat comprises a seat body and a mounting arm arranged on the seat body, and the light guide seat is buckled on the fixing plate through the buckling cavity;
the light guide column is clamped between the light guide seat and the adapter shell.
As a preferred scheme of spiral-lock formula light path display, wherein: the light guide seat is also provided with a light-transmitting slot hole, and the light guide column is embedded in the light-transmitting slot hole;
and the light-transmitting slotted hole is internally provided with a binding surface which is bound with the shape of the light guide column.
As a preferred scheme of spiral-lock formula light path display, wherein: the side surface of the light guide column is provided with a positioning rod, the mounting arm is provided with a positioning cavity groove, and the positioning rod is embedded in the positioning cavity groove.
As a preferred scheme of spiral-lock formula light path display, wherein: the light guide column is a high-light-transmission material piece, and is glued, embedded or secondarily injection-molded in the light-transmission slotted hole.
As a preferred scheme of spiral-lock formula light path display, wherein: the adapter shell is provided with a mounting boss;
the mounting boss and the light guide seat are provided with fixing holes A.
As a preferred scheme of spiral-lock formula light path display, wherein: the adapter shell is provided with a positioning platform, the fixing plate is arranged on the positioning platform, and the light-taking port is arranged on the positioning platform.
The utility model also provides an optical fiber adapter, including foretell spiral-lock formula light path display, still include first casing and second casing, adapter casing both ends are provided with the screwed pipe, first casing and second casing with the screwed pipe cooperation is connected.
The utility model has the advantages that: the utility model discloses need not mounting and mounting tool such as screw, rivet and can swiftly install leaded light subassembly and adapter casing conveniently, the packaging efficiency is high.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required 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 that other drawings can be obtained according to these drawings without inventive labor. Wherein:
fig. 1 is a schematic structural view of a display fixing plate and a fastening cavity in a fastening type optical path display according to an embodiment of the present invention;
fig. 2 is a schematic diagram of an overall explosion structure of a fastening type optical path display according to an embodiment of the present invention;
fig. 3 is a schematic view of a butt structure of a light guiding pillar and a light guiding seat in a fastening type light path display according to an embodiment of the present invention;
fig. 4 is a schematic structural view of a positioning cavity groove in a fastening type optical path display according to another embodiment of the present invention;
fig. 5 is a schematic structural diagram of an optical fiber adapter according to an embodiment of the present invention;
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.
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 implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.
Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be 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 4, the present embodiment provides a fastening type optical path display, including,
an adapter case 100 having a light extraction port 101 formed at one side thereof, the light extraction port 101 being provided corresponding to a coupling point of the adapter case 100;
The fixing plate 102 is provided with a light guide groove 102a, and the position of the light guide groove 102a corresponds to the light extraction opening 101.
It should be noted that the snap cavity 201c is in interference fit with the fixing plate 102.
The body 201 comprises a light guide seat 201a and a light guide column 201b, the buckling cavity 201c is arranged on the light guide seat 201a, and the light receiving end 202 and the display end 203 are arranged on two end faces of the light guide column 201 b;
the light guide seat 201a and the light guide column 201b are integrally formed or welded, glued and embedded together.
The light guide seat 201a comprises a seat body 201a-1 and a mounting arm 201a-2 arranged on the seat body, and the light guide seat 201a is buckled on the fixing plate 102 through a buckling cavity 201 c;
the light guide 201b is sandwiched between the light guide holder 201a and the adapter housing 100.
The light guide seat 201a is also provided with a light-transmitting slot 201a-3, and the light guide column 201b is embedded in the light-transmitting slot 201 a-3;
the light-transmitting slot 201a-3 is internally provided with a binding surface 201a-4 which is bound with the shape of the light guide column 201 b.
The side surface of the light guide column 201b is provided with a positioning rod 201b-1, the mounting arm 201a-2 is provided with a positioning cavity groove 201a-5, and the positioning rod 201b-1 is embedded in the positioning cavity groove 201 a-5.
The positioning cavity groove 201a-5 is arranged at two sides of the light-transmitting slotted hole 201a-3, the light guide column 201b is arranged in the light-transmitting slotted hole 201a-3, and the positioning rod 201b-1 is embedded in the positioning cavity groove 201 a-5.
The light guide 201b is a high light-transmitting material, and the light guide 201b is glued, embedded or injection-molded in the light-transmitting slot 201 a-3.
The adapter housing 100 is provided with a mounting boss 103;
the mounting boss 103 and the light guide base 201a are provided with fixing holes a.
The adapter housing 100 is provided with a positioning platform 104, the fixing plate 102 is provided on the positioning platform 104, and the light-extracting opening 101 is opened on the positioning platform 104.
Referring to fig. 2, one side of the adapter housing 100 of the snap-on optical path display is provided with a mounting boss 103, and the other side of the adapter housing 100 is provided with a positioning platform 104 and a light extraction port 101, wherein the light extraction port 101 is arranged corresponding to a coupling point of the adapter housing 100. The fastening type light path display further comprises an inner sleeve and a sleeve which are respectively installed in the adapter shell 100, and the light path display can be fixed on the working panel through the installation hole A on the installation boss 103 of the adapter shell 100 by using a screw or can be directly inserted into the working panel by using a snap spring for fixing. The composition, structure, mutual position relationship and connection relationship of other parts of the optical path display are mature prior art, so that no further description is needed here, and only the optical path display of the present invention will be described in detail below.
The optical path display of this embodiment is installed on the fiber adapter, the optical path display includes: the light guide seat 201a comprises a seat body 201a-3 and a mounting arm 201a-2 arranged on the seat body 201a-3, the light guide seat 201a is arranged on the positioning platform 104, and the mounting arm 201a-2 extends along the length direction of the adapter housing 100; the light guide column 201b, and the light receiving end 202 and the display end 203 which are arranged at two ends of the light guide column 201b, the light guide column 201b is installed on the installation arm 201a-2, the light receiving end 202 is correspondingly arranged in the light taking port 101, and the display end 203 is located at one end of the adapter housing 100. The positioning platform 104 is preferably a pair of posts disposed near two edges of the adapter housing 100, and the posts are formed by a light guide groove 102a disposed in the middle.
Referring to fig. 4, fig. 4 is a schematic structural diagram of a light guide seat 201a according to an embodiment of the present invention, in this embodiment, a light-transmitting slot 201a-3 is disposed on the mounting arm 201a-2, the light-transmitting slot 201a-3 extends along a length direction of the mounting arm 201a-2, and the light guide pillar 201b is mounted in the light-transmitting slot 201 a-3. The adapter housing 100 is provided with a positioning cavity groove 201a-5 corresponding to the light-transmitting groove hole 201a-3, the light guide column 201b is provided with a positioning rod 201b-1 corresponding to the light-transmitting groove hole 201a-3 and the positioning cavity groove 201a-5, and the positioning rod 201b-1 is clamped in the positioning cavity groove 201 a-5. The adapter housing 100 may further include a light guide groove 13, the light guide column 201b is located on the light guide groove 13, and an end surface of the display end 203 is flush with one end of the adapter housing 100. The base 201a-3 of this embodiment may further have a fixing hole a for installing a screw.
Preferably, a process groove is further formed on the side of the mounting arm 201a-2 corresponding to the fixing hole a, and the process groove 28 is used for avoiding a screw during mounting.
Preferably, the positioning platform 104 and the mounting boss 103 are symmetrically disposed on two sides of the adapter housing 100, and when in use, a screw can pass through the fixing hole a to fix the light path display on a working panel, that is, the light guide seat 201a can be matched with the mounting boss 103 and simultaneously used as a fixing structure of the light path display, and a screw passes through the fixing hole a of the light guide seat 201a and the fixing hole on the mounting boss 103 respectively to fix the light path display on the working panel.
The light guide pillar 201b of the present embodiment is preferably made of a highly transparent material, and the light guide pillar 201b may be glued, embedded, or injection molded in the transparent slot 201a-3 for the second time, or may be connected by interference fit between the light guide pillar 201b and the transparent slot 201a-3, as long as the fixed connection therebetween is not easily released. An included angle is formed between the central line of the light receiving end 202 and the axis of the light guide column 201b, the surface of the light receiving end 202 is downwards inserted into the light taking port 101 of the adapter shell 100 and extends into the adapter shell 100 and is positioned at a position close to the coupling point of the adapter, the leaked light of the coupling point of the adapter shell 100 is guided into the light guide column 201b through the light receiving end 202, and the display end 203 of the light guide column 201b emits light for display, so that a waiter can conveniently find a route.
The light-receiving end 202 may further be provided with a similar convex lens, and the similar convex lens is attached to the end surface of the light-receiving end 202. Or, the light receiving end 202 may also be an arc surface with a smooth and light-transmitting surface, the light guiding pillar 201b has a curved arc near the light receiving end 202, and the surface of the light receiving end 202 is inserted into the light extraction port 101 and is located near the coupling point of the adapter. The display end 203 is preferably a surface-roughened plane, which is located on the end surface of the light guide 201b and perpendicular to the axis of the light guide 201 b.
The utility model realizes the positioning and packaging of the light-taking component on the optical fiber adapter by splicing, embedding or integrally forming the light guide column in the light guide seat and utilizing the buckling cavity on the light guide seat to be buckled with the fixed plate on the optical fiber adapter to clamp the light guide column into the light guide groove on the optical fiber adapter; the light guide post through high luminousness shows leakage light to through receiving the light surface and setting up class convex lens, the focusing leaks inside the light guide post that the light gets into, increases the light path display effect. This connected mode is through the screw of installation in the fixed orifices on the pedestal of fixed light guide seat, and the cooperation sets up the fixed of another fixed orifices on the adapter casing, and the fastening of leaded light seat and leaded light post is on the casing, need not mounting and mounting tool such as screw, rivet can swiftly conveniently install production efficiency height.
Example 2
Referring to fig. 1-5, the present embodiment provides a fiber optic adapter,
the adapter shell 100 further comprises a first shell 301 and a second shell 302, wherein the threaded pipe 105 is arranged at two ends of the adapter shell 100, and the first shell 301 and the second shell 302 are connected with the threaded pipe 105 in a matching mode.
Referring to fig. 1 to 4, the present embodiment provides a fastening type optical path display, including,
an adapter case 100 having a light extraction port 101 formed at one side thereof, the light extraction port 101 being provided corresponding to a coupling point of the adapter case 100;
The fixing plate 102 is provided with a light guide groove 102a, and the position of the light guide groove 102a corresponds to the light extraction opening 101.
It should be noted that the snap cavity 201c is in interference fit with the fixing plate 102.
The body 201 comprises a light guide seat 201a and a light guide column 201b, the buckling cavity 201c is arranged on the light guide seat 201a, and the light receiving end 202 and the display end 203 are arranged on two end faces of the light guide column 201 b;
the light guide seat 201a and the light guide column 201b are integrally formed or welded, glued and embedded together.
The light guide seat 201a comprises a seat body 201a-1 and a mounting arm 201a-2 arranged on the seat body, and the light guide seat 201a is buckled on the fixing plate 102 through a buckling cavity 201 c;
the light guide 201b is sandwiched between the light guide holder 201a and the adapter housing 100.
The light guide seat 201a is also provided with a light-transmitting slot 201a-3, and the light guide column 201b is embedded in the light-transmitting slot 201 a-3;
the light-transmitting slot 201a-3 is internally provided with a binding surface 201a-4 which is bound with the shape of the light guide column 201 b.
The side surface of the light guide column 201b is provided with a positioning rod 201b-1, the mounting arm 201a-2 is provided with a positioning cavity groove 201a-5, and the positioning rod 201b-1 is embedded in the positioning cavity groove 201 a-5.
The positioning cavity groove 201a-5 is arranged at two sides of the light-transmitting slotted hole 201a-3, the light guide column 201b is arranged in the light-transmitting slotted hole 201a-3, and the positioning rod 201b-1 is embedded in the positioning cavity groove 201 a-5.
The light guide 201b is a high light-transmitting material, and the light guide 201b is glued, embedded or injection-molded in the light-transmitting slot 201 a-3.
The adapter housing 100 is provided with a mounting boss 103;
the mounting boss 103 and the light guide base 201a are provided with fixing holes a.
The adapter housing 100 is provided with a positioning platform 104, the fixing plate 102 is provided on the positioning platform 104, and the light-extracting opening 101 is opened on the positioning platform 104.
Referring to fig. 2, one side of the adapter housing 100 of the snap-on optical path display is provided with a mounting boss 103, and the other side of the adapter housing 100 is provided with a positioning platform 104 and a light extraction port 101, wherein the light extraction port 101 is arranged corresponding to a coupling point of the adapter housing 100. The fastening type light path display further comprises an inner sleeve and a sleeve which are respectively installed in the adapter shell 100, and the light path display can be fixed on the working panel through the installation hole A on the installation boss 103 of the adapter shell 100 by using a screw or can be directly inserted into the working panel by using a snap spring for fixing. The composition, structure, mutual position relationship and connection relationship of other parts of the optical path display are mature prior art, so that no further description is needed here, and only the optical path display of the present invention will be described in detail below.
The optical path display of this embodiment is installed on the fiber adapter, the optical path display includes: the light guide seat 201a comprises a seat body 201a-3 and a mounting arm 201a-2 arranged on the seat body 201a-3, the light guide seat 201a is arranged on the positioning platform 104, and the mounting arm 201a-2 extends along the length direction of the adapter housing 100; the light guide column 201b, and the light receiving end 202 and the display end 203 which are arranged at two ends of the light guide column 201b, the light guide column 201b is installed on the installation arm 201a-2, the light receiving end 202 is correspondingly arranged in the light taking port 101, and the display end 203 is located at one end of the adapter housing 100. The positioning platform 104 is preferably a pair of posts disposed near two edges of the adapter housing 100, and the posts are formed by a light guide groove 102a disposed in the middle.
Referring to fig. 4, fig. 4 is a schematic structural diagram of a light guide seat 201a according to an embodiment of the present invention, in this embodiment, a light-transmitting slot 201a-3 is disposed on the mounting arm 201a-2, the light-transmitting slot 201a-3 extends along a length direction of the mounting arm 201a-2, and the light guide pillar 201b is mounted in the light-transmitting slot 201 a-3. The adapter housing 100 is provided with a positioning cavity groove 201a-5 corresponding to the light-transmitting groove hole 201a-3, the light guide column 201b is provided with a positioning rod 201b-1 corresponding to the light-transmitting groove hole 201a-3 and the positioning cavity groove 201a-5, and the positioning rod 201b-1 is clamped in the positioning cavity groove 201 a-5. The adapter housing 100 may further include a light guide groove 13, the light guide column 201b is located on the light guide groove 13, and an end surface of the display end 203 is flush with one end of the adapter housing 100. The base 201a-3 of this embodiment may further have a fixing hole a for installing a screw.
Preferably, a process groove is further formed on the side of the mounting arm 201a-2 corresponding to the fixing hole a, and the process groove 28 is used for avoiding a screw during mounting.
Preferably, the positioning platform 104 and the mounting boss 103 are symmetrically disposed on two sides of the adapter housing 100, and when in use, a screw can pass through the fixing hole a to fix the light path display on a working panel, that is, the light guide seat 201a can be matched with the mounting boss 103 and simultaneously used as a fixing structure of the light path display, and a screw passes through the fixing hole a of the light guide seat 201a and the fixing hole on the mounting boss 103 respectively to fix the light path display on the working panel.
The light guide pillar 201b of the present embodiment is preferably made of a highly transparent material, and the light guide pillar 201b may be glued, embedded, or injection molded in the transparent slot 201a-3 for the second time, or may be connected by interference fit between the light guide pillar 201b and the transparent slot 201a-3, as long as the fixed connection therebetween is not easily released. An included angle is formed between the central line of the light receiving end 202 and the axis of the light guide column 201b, the surface of the light receiving end 202 is downwards inserted into the light taking port 101 of the adapter shell 100 and extends into the adapter shell 100 and is positioned at a position close to the coupling point of the adapter, the leaked light of the coupling point of the adapter shell 100 is guided into the light guide column 201b through the light receiving end 202, and the display end 203 of the light guide column 201b emits light for display, so that a waiter can conveniently find a route.
The light-receiving end 202 may further be provided with a similar convex lens, and the similar convex lens is attached to the end surface of the light-receiving end 202. Or, the light receiving end 202 may also be an arc surface with a smooth and light-transmitting surface, the light guiding pillar 201b has a curved arc near the light receiving end 202, and the surface of the light receiving end 202 is inserted into the light extraction port 101 and is located near the coupling point of the adapter. The display end 203 is preferably a surface-roughened plane, which is located on the end surface of the light guide 201b and perpendicular to the axis of the light guide 201 b.
The utility model realizes the positioning and packaging of the light-taking component on the optical fiber adapter by splicing, embedding or integrally forming the light guide column in the light guide seat and utilizing the buckling cavity on the light guide seat to be buckled with the fixed plate on the optical fiber adapter to clamp the light guide column into the light guide groove on the optical fiber adapter; the light guide post through high luminousness shows leakage light to through receiving the light surface and setting up class convex lens, the focusing leaks inside the light guide post that the light gets into, increases the light path display effect. This connected mode is through the screw of installation in the fixed orifices on the pedestal of fixed light guide seat, and the cooperation sets up the fixed of another fixed orifices on the adapter casing, and the fastening of leaded light seat and leaded light post is on the casing, need not mounting and mounting tool such as screw, rivet can swiftly conveniently install production efficiency height.
It should be noted that the above embodiments are only used 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, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.
Claims (9)
1. A buckled light path display is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,
an adapter housing (100) having a light extraction port (101) formed at one side thereof, the light extraction port (101) being provided corresponding to a coupling point of the adapter housing (100);
light guide assembly (200), be in including body (201) and setting receive light end (202) and display end (203) at body both ends, body (201) on be provided with lock chamber (201 c), be provided with fixed plate (102) on adapter casing (100), fixed plate (102) inlay in lock chamber (201 c) internal fixation, it is in to receive light end (202) to correspond the setting in getting light mouth (101), display end (203) are located the outside of adapter casing.
2. The snap-in optical path display of claim 1, wherein: the fixing plate (102) is provided with a light guide groove (102 a), and the position of the light guide groove (102 a) corresponds to the light extraction port (101).
3. The snap-in optical path display of claim 1 or 2, wherein: the body (201) comprises a light guide seat (201 a) and a light guide column (201 b), the buckling cavity (201 c) is arranged on the light guide seat (201 a), and the light receiving end (202) and the display end (203) are arranged on two end faces of the light guide column (201 b);
the light guide seat (201 a) and the light guide column (201 b) are integrally formed or welded, glued and embedded together.
4. The snap-in optical path display of claim 3, wherein: the light guide seat (201 a) comprises a seat body (201 a-1) and a mounting arm (201 a-2) arranged on the seat body, and the light guide seat (201 a) is buckled on the fixing plate (102) through the buckling cavity (201 c);
the light guide column (201 b) is clamped between the light guide seat (201 a) and the adapter housing (100).
5. The snap-on optical path display of claim 4, wherein: the light guide seat (201 a) is also provided with a light-transmitting slotted hole (201 a-3), and the light guide column (201 b) is embedded in the light-transmitting slotted hole (201 a-3);
a binding surface (201 a-4) which is bound with the shape of the light guide column (201 b) is arranged in the light-transmitting slotted hole (201 a-3).
6. The snap-in optical path display of claim 5, wherein: a positioning rod (201 b-1) is arranged on the side face of the light guide column (201 b), a positioning cavity groove (201 a-5) is formed in the mounting arm (201 a-2), and the positioning rod (201 b-1) is embedded in the positioning cavity groove (201 a-5).
7. The snap-on optical path display of claim 5 or 6, wherein: the light guide column (201 b) is a high-light-transmission material piece, and the light guide column (201 b) is glued, inlaid or secondarily injection-molded in the light-transmission slotted hole (201 a-3).
8. The snap-in optical path display of claim 7, wherein: the adapter shell (100) is provided with a mounting boss (103);
the mounting boss (103) and the light guide seat (201 a) are provided with fixing holes (A).
9. The snap-in optical path display of claim 8, wherein: a positioning platform (104) is arranged on the adapter shell (100), the fixing plate (102) is arranged on the positioning platform (104), and the light extraction port (101) is arranged on the positioning platform (104).
Priority Applications (1)
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CN202022523111.4U CN214225490U (en) | 2020-11-04 | 2020-11-04 | Buckle-mounted light path display |
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CN202022523111.4U CN214225490U (en) | 2020-11-04 | 2020-11-04 | Buckle-mounted light path display |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114690331A (en) * | 2022-03-08 | 2022-07-01 | 华为技术有限公司 | Optical fiber adapter, optical distribution device and optical communication system |
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2020
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114690331A (en) * | 2022-03-08 | 2022-07-01 | 华为技术有限公司 | Optical fiber adapter, optical distribution device and optical communication system |
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