JP2004226565A - Optical connector demounting tool with data reading function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique which makes it easy and secure to collate an optical connector to be attached and detached and has superior operability. <P>SOLUTION: The optical connector demounting tool 20 with a data reading function is equipped with a tool main body 21, a handle 25 coupled with the tool main body 21, and a grip part 22 which grips an optical connector with a fixed part 30 fixed to the tool main body 21 and a movable part 33 disposed movably to the fixed part 30, and is such that a data read part 23 which reads data out of a data recording part 15 fitted to the optical connector or at a specified position nearby the optical connector is fitted to the tool main body 21 or the fixed part 30 of the grip part 22. An operating mechanism 24 for operating the grip part 22 is disposed and the grip part 22 is preferably movable between a state wherein the optical connector is gripped and a state wherein the grip part 22 separates from the optical connector by the operation of the operating mechanism 24. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a technique for managing an optical connector to be optically connected by inserting an optical connector plug into an optical connector housing.
[0002]
[Prior art]
FIG. 8 is a diagram illustrating an example of a conventional optical connector. In FIG. 8, reference numeral 101 denotes an optical connector plug, and reference numeral 110 denotes an optical connector housing (here, an adapter is shown). The illustrated optical connector 101 and optical connector housing 110 are SC type optical connectors (SC: Single fiber Coupling) defined in JIS C 5973 and the like.
[0003]
The optical connector 101 accommodates in a housing 102 a ferrule 103 for fixing and holding a bare optical fiber (not shown) protruding from the tip of an optical fiber 104, and an optical fiber exposed at the rear end of the housing 102. The configuration is such that the 104 is protected by an elastomer (rubber or the like) boot 105 attached to the rear end of the housing 102.
The optical connector housing 110 has an optical connector accommodating hole 111 for detachably accommodating the front end of the optical connector 1, and the optical fiber 104 can be connected by inserting the optical connector 1 into the optical connector accommodating hole 111. It has become.
[0004]
For example, when optical fibers are switchably connected using a large number of optical connectors in an optical termination frame, an optical termination box, or the like, an identification code is attached by printing or the like as a method of identifying and managing each optical fiber 104. When the data tag 106 is attached to the optical fiber 104 and the wiring of the optical fiber 104 is switched, there is a method in which the identification code of the data tag 106 is read by a reading device such as a code reader to identify the optical fiber 104.
As tags used for such identification, for example, there are tags described in Patent Documents 1 to 5.
[0005]
[Patent Document 1]
JP-A-63-102119 [Patent Document 2]
Japanese Patent Publication No. 64-005723 [Patent Document 3]
JP 05-101718 A [Patent Document 4]
JP-A-10-308115 [Patent Document 5]
JP 2001-154581 A
[Problems to be solved by the invention]
However, in the wiring management method using such a data tag 106, since the distance between the data tag 106 attached to the optical fiber 104 and the optical connector 101 is considerably large, the reading of the data tag 106 causes the wiring switching operation. Even if the optical fiber 104 to be performed can be identified, the optical connector 101 to which the optical fiber 104 is connected cannot be easily found and collated. Can not. It takes time to find the target optical connector 101 by following the wiring path of the optical fiber 104 from the data tag 106 to the optical connector 101.
Even if the optical connector 101 was collated, it was necessary to switch the reading device aside to an optical connector removal tool for removing the optical connector 101, which was inconvenient because of poor workability.
[0007]
Also, in an optical termination frame or the like, a large number of optical connector housings 110 are arranged on a panel or the like, and the optical fiber 104 is drawn out from the rear end of the optical connector 101 inserted and connected to each optical connector housing 110. Since this is a general situation, if the correspondence between the optical fiber 104 and the optical connector 101 is mistaken, there is a possibility that the optical connector 101 irrelevant to the optical fiber 104 whose wiring is to be switched is operated and the connection is mistakenly performed. Improvement was required.
[0008]
Accordingly, an object of the present invention is to provide a technique that can easily and reliably perform collation of an optical connector to be subjected to an attaching / detaching operation, and is excellent in workability.
[0009]
[Means for Solving the Problems]
In order to solve the above problem, the present invention provides a tool body, a handle connected to the tool body, a fixed portion fixed to the tool body, and a movable portion with respect to the fixed portion. A gripper for gripping an optical connector by a movable part, and a data reader for reading data from the optical connector or a data recorder attached to a predetermined position near the optical connector, the tool body or the gripper. Provided is an optical connector removal tool with a data reading function, wherein the tool is attached to a fixed portion of the section.
[0010]
In such an optical connector removal tool with a data reading function, an operation mechanism for operating the grip section is provided on the tool main body, and the state of the grip section gripping the optical connector and the grip section are operated by operating the operation mechanism. It is preferable to be able to move between a state of being separated from the optical connector.
Further, it is preferable that the orientation of the grip portion with respect to the handle is variable.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail based on embodiments.
FIG. 3 is a schematic diagram showing an example of the optical connector 1 to which the optical connector removal tool with data reading function 20 of the present invention is applied and the optical connector housing 10 into which the optical connector 1 is inserted and connected.
[0012]
Here, the optical connector 1 is an optical connector plug of a well-known SC type optical connector (SC: Single fiber Coupling) specified in JIS C 5973 or the like.
The optical connector 1 accommodates a ferrule 3 for fixing and holding a bare optical fiber (not shown) protruded from a tip end of an optical fiber 4 in a housing 2, and an optical fiber exposed at a rear end side of the housing 2. 4 is protected by an elastomer (rubber or the like) boot 5 attached to the rear end of the housing 2.
[0013]
The optical connector housing 10 has an optical connector accommodating hole 11 for detachably accommodating the front end of the optical connector 1, and the optical fiber 4 can be connected by inserting the optical connector 1 into the optical connector accommodating hole 11. It has become.
The optical connector 1 inserted into the optical connector housing 10 is configured such that a pair of engaging portions 2a and 2b provided on the side of the housing 2 are sandwiched between fingers and a tool or the like and pulled toward the rear end side. 10 is to be removed.
Here, a data recording unit 15 in which data such as line information is recorded is provided on one side surface of the optical connector housing 10.
[0014]
The data recording section 15 is not particularly limited, but is preferably formed by a recording method capable of recording data of a sufficient amount of information in a small space at a high density and recording. For example, a printing unit in which an identification code represented by a two-dimensional code such as a QR code (QR: Quick Response) specified in JIS X 0510 or ISO / IEC 18004 is formed by a method such as printing, or a known RF- An example is an IC chip of an ID system (RF: Radio-frequency, ID: Identification).
[0015]
FIGS. 1A, 1B and 2A and 2B show an embodiment of an optical connector removal tool 20 having a data reading function according to the present invention (hereinafter, may be abbreviated as an optical connector removal tool). FIG. The optical connector removal tool 20 has a short-gun-like shape, and has a tool body 21, a grip portion 22 for gripping the optical connector 1, and a vertically extending downward (FIG. 1B) downward from the tool body 21. And a handle 25. As will be described in detail later, the grip 22 can be operated by an operation mechanism 24 incorporated in the tool body 21. Further, the optical connector removal tool 20 is provided with a data reading section 23 for reading data recorded by the data recording section 15 attached to the optical connector 1 or a predetermined position near the optical connector 1 as described later in detail. I have.
[0016]
The grip portion 22 is provided in an elongated shape protruding from the tool body 21 toward the tip of the tool (to the right in FIGS. 1A and 1B), and is provided through a gap 32 that accommodates the rear end of the optical connector 1. The fixing portion 30 is formed by branching in the direction in which the grip portion 22 protrudes from the tool body 21, and the protrusion 31 protrudes from the tool body 21 along the fixing portion 30 in the tool tip direction. The lever 31 has a lever-shaped movable portion 33 which is supported by a bearing 31a provided on the outer surface of the portion 31 via a shaft 33a. The fixed portion 30 and the protruding portion 31 are formed integrally with the tool body 21, and the lever 33 is provided so as to be movable with respect to the fixed portion 30 and the protruding portion 31.
The optical connector removal tool 20 is configured such that the optical fiber 4 exposed from the rear end of the optical connector 1 leaves room for hanging downward from the gap 32. It is suppressed that the optical fiber 4 is bent or damaged due to interference such as being caught.
[0017]
As shown in FIG. 2B and the like, a protruding locking portion 30 a protruding in opposition to the protruding portion 31 is formed near the distal end of the fixing portion 30. The lever 33 is rotatable in both directions about a shaft 33a. At the tip of the lever 33, a hook-shaped locking portion 33b protruding in a direction facing the fixing portion 30 is formed. The locking portion 33b is attached to the locking portion 30a by the rotation of the lever 33. It can move in the direction of approaching and moving away.
[0018]
In the vicinity of the tip of the protruding portion 31, a through hole 31b through which the tip of the locking portion 33b can be inserted is provided. The lever 33 is urged by a compression spring 34 attached between the lever 33 and the protrusion 31 in a direction in which the locking portion 33b moves away from the locking portion 30a on the fixed portion 30 side.
The grip portion 22 is configured such that the fixing portion 30 is moved closer to the rear end side of the optical connector 1 so that the grip portion 22 can be positioned closer to the optical connector 1 while being positioned. Further, the optical connector 1 can be gripped by narrowing the distance between the locking portions 30a and 33b at the tip of the gripping portion 22.
An operation mechanism 24 is provided on the tool body 21 to operate the rotation of the lever 33.
[0019]
As shown in FIGS. 4B and 5B, the operation mechanism 24 is provided at one end of the operation shaft 41 housed in a slide hole 42 formed in the tool body 21 and one end of the operation shaft 41. A button-shaped trigger 40, a compression spring 43 that takes a reaction force against the bottom surface of the slide hole 42 and urges a flange 41 a formed on the operation shaft 41 in a tool tip direction (right side in FIG. 4); And an operating rod 44 extending to the side of the shaft 41. The trigger 40, the operating shaft 41, the flange 41a, and the operating rod 44 are integrally formed or connected to each other to form a driving body 45.
The other end of the lever 33 opposite to the tool tip is a bent portion 35 bent in the same direction (upward in FIGS. 5 and 6) as the projection direction of the locking portion 33b with respect to the longitudinal direction of the lever 33. The side surface of the operating rod 44 is in contact with the slope 35 a of the portion 35.
[0020]
As shown in FIGS. 4A and 4B, when no external force is applied to the trigger 40, the driving body 45 is urged by the compression spring 34, and the operating rod 44 moves toward the tip of the tool. ing. As a result, the lever 33 is tilted in a direction in which the locking portion 33b is separated from the locking portion 30a by the urging force of the compression spring 34, and the tip of the locking portion 33b is retracted from the through hole 31b. As a result, the state in which the locking portion 33b is separated from the engaging portion 2b of the connector 1 by the protruding portion 31 is maintained. In this state, the optical connector 1 is not gripped by the grip portion 22.
[0021]
As shown in FIGS. 5A and 5B, when the trigger 40 is pushed by a finger or the like against the elastic force of the compression spring 34, the driving body 45 slides in the sliding hole 42 and the operating rod is moved. 44 moves toward the rear end of the tool, and presses the slope 35 a of the bent portion 35 of the lever 33. As a result, the lever 33 is inclined in the direction against the elastic force of the compression spring 34, and the locking portion 33b on the lever 33 side approaches the locking portion 30a on the fixed portion 30 side. As a result, the locking portions 30a and 33b engage with the engaging portions 2a and 2b of the optical connector 1, and the rear end of the optical connector 1 is gripped between the locking portions 30a and 33b.
In this state, the optical connector 1 can be pulled out of the optical connector housing 10 by pulling the optical connector removal tool 20 backward. After the removal, the pressing force on the trigger 40 is released, so that the optical connector 1 can be separated from the grip portion 22 of the optical connector removal tool 20.
[0022]
Here, the data reading unit 23 is attached to the fixing unit 30 of the grip unit 22. As a specific configuration, a well-known appropriate reading unit according to the recording method of the data recording unit 15 may be employed. it can. For example, if the data recording unit 15 records data using a two-dimensional code, an image fiber 23a for transmitting an image and an optical signal attached to the tip of the image fiber 23a and received from the image are input to the image fiber 23a. And the head portion 23b for performing the operation. In this case, when the grip portion 22 is brought close to the optical connector 1 and the position of the distal end of the optical connector removal tool 20 is adjusted so that the optical connector 1 can be gripped, the data of the data recording portion 15 is read. Is arranged at a position facing the data recording unit 15 so that the data can be read.
[0023]
An example of a preferred method of using the optical connector removal tool 20 of the present invention will be described.
As shown in FIG. 4A, the leading end of the optical connector removal tool 20 is positioned such that the rear end of the optical connector 1 is disposed in the gap 32 between the fixing portion 30 and the projecting portion 31. As a result, the head section 23b at the tip of the data reading section 23 is arranged to face the data recording section 15 arranged on the side of the optical connector housing 10, and the data of the data recording section 15 is read. Since the data reading section 23 is attached to the fixed section 30 fixed to the tool body 21, the data can be read accurately without the head section 23b shaking during reading.
[0024]
The optical fiber 4 is identified on the basis of the read data, whereby it is determined whether or not the optical connector 1 is unplugged as in the conventional case.
Here, by operating the trigger 40 of the operation mechanism 24, the optical connector 1 is gripped by the grip portion 22. In this state, the optical connector 1 can be pulled out of the optical connector housing 10 by pulling the optical connector removal tool 20 backward. After the removal, the pressing force on the trigger 40 is released, and the optical connector 1 is removed from the grip portion 22.
[0025]
As described above, according to the optical connector removal tool 20 of the present embodiment, the optical connector 1 is held in a state where the grip portion 22 of the optical connector removal tool 20 is close to the optical connector 1 and is separated from the optical connector 1. Alternatively, the data reading unit 23 can read data of the data recording unit 15 that records wiring information and the like arranged in the vicinity thereof.
As a result of the determination of the read data, when the optical connector 1 is removed, the locking portions 30a and 33b of the grip portion 22 are engaged with the engaging portions 2a and 2b of the optical connector 1 only by operating the operation mechanism 24. It can be grasped. That is, it is possible to immediately shift to the operation of removing the optical connector 1 without checking the optical fiber and the optical connector that terminates the optical fiber. Therefore, there is no risk of removing the optical connector unrelated to the identified optical fiber, and the identified optical connector can be reliably removed.
Conversely, if it is determined that the optical connector 1 should not be removed (wrong), the optical connector removal tool 20 may be retracted. When data is read by the data reading unit 23, there is no need to grip the optical connector 1 with the gripping unit 22, so there is no possibility that an erroneous optical connector 1 will be pulled out contrary to the determination result.
[0026]
Next, a second embodiment of the optical connector removing tool according to the present invention will be described with reference to FIGS.
6 and 7, the same reference numerals as those used in FIGS. 1 to 5 indicate the same or similar configuration, and duplicate description may be omitted.
FIG. 6 shows a state in which the optical connector housing 10 is attached to a plate (not shown) such that the engaging portions 2a and 2b of the optical connector 1 are arranged in a horizontal direction (horizontal direction). FIG. 7 shows a state in which the optical connector housing 10 is mounted such that the engaging portions 2a and 2b of the optical connector 1 are arranged in a vertical direction (vertical direction).
[0027]
The optical connector removal tool 50 has a short gun-like shape, like the optical connector removal tool 20 of the first embodiment, and is formed into a tool body 21, a handle 25, and an elongated shape. It has a grip part 22 for gripping the connector 1 and a data reading part 23 for reading data recorded in the data recording part 15.
[0028]
The gap between the fixed part 30 and the movable part 33 can be operated by the operation mechanism 52 incorporated in the tool body 21 in the grip part 22. Here, the operation mechanism 52 is operable by a knob 53 inserted into a long hole 54 formed on a side surface of the tool body 21.
Specifically, for example, a mechanism in which the bending portion 35 (see FIGS. 4B and 5B) of the lever 33 described above in the first embodiment is operated by the operating rod 44 connected to the knob 53. Can be adopted. In addition, a known mechanism having a similar function can be appropriately used.
[0029]
The handle 25 is provided so as to extend laterally (below the tool body 21 in FIG. 1B) with respect to the axis in the direction in which the grip portion 22 protrudes from the tool body 21 (to the right in FIG. 1B). .
Further, the space between the tool body 21 and the handle 25 is divided, and is rotatably connected by a rotation connecting portion 51. The rotary connecting portion 51 may be capable of rotating while the tool main body 21 and the handle 25 are connected, or the tool main body 21 and the handle 25 may be once separated and then reconnected by changing the direction of the grip portion 22. It may be configured as described above. In the present embodiment, the direction of the grip portion 22 is defined as the direction in which the locking portions 30a and 33b of the fixed portion 30 and the movable portion 33 are arranged.
The rotation connecting portion 51 is fixed so that the rotation thereof can be stopped by using, for example, a screw or an engagement so that the grip portion 22 and the data reading portion 23 do not shake against the handle 25 during the operation. Has become.
[0030]
The rotation center axis 51 a of the rotation connecting portion 51 extends along the longitudinal direction of the grip portion 22 protruding from the tool body 21. By rotating the handle 25 around the rotation center axis 51a with respect to the tool main body 21, the orientation of the grip portion 22 with respect to the extension direction of the tool main body 21 of the handle 25 can be changed in two or more ways. ing.
Specifically, as shown in FIGS. 6 and 7, when the optical connector removal tool 50 is arranged so that the handle 25 is located below the tool body 21, as shown in FIG. The stopping portion 33b is located to the right of the locking portion 30a on the fixed portion 30 side, and the holding portion 22 is turned sideways, and as shown in FIG. 7, the locking portion 33b on the movable portion 33 side is fixed to the fixed portion. It is located above the locking portion 30a on the 30 side, and can take two states, that is, a state in which the grip portion 22 is oriented vertically.
[0031]
According to such an optical connector removal tool 50, the same operation and effect as those of the optical connector removal tool 20 of the first embodiment can be obtained.
Further, as shown in FIG. 6, even if the mounting direction of the optical connector housing 10 is different, the rotation of the rotary connection portion 51 changes the direction in which the locking portions 30 a and 33 b of the grip portion 22 are aligned with respect to the handle 25. It can be changed according to the direction in which the one engaging portions 2a and 2b are arranged. Therefore, it is possible to use the grip portion 22 corresponding to a plurality of mounting directions of the optical connector housing 10 while maintaining the orientation of the handle 25 so that the optical connector removal tool 50 can be easily held. Is secured.
[0032]
As described above, the present invention has been described based on the preferred embodiments, but the present invention is not limited to only the embodiments, and various modifications can be made without departing from the gist of the present invention.
In the above-described embodiment, an example in which the present invention is applied to an optical connector removal tool that handles an SC optical connector has been described. However, the present invention is not limited to this. For example, an FC optical connector (Fiber transmission system optical Connector, JIS C 5970) is used. ), MT type optical connector (MT: Mechanically Transferable, JIS C 5981, etc.), MPO type optical connector (MPO: Multifiber Push-On, JIS C 5982, etc.), MU Type connector (MU: Miniature-Unit coupling, specified in JIS C5983, etc.), Mini-MPO type optical connector (MPO: Multifiber Push-On, JIS C5) 84 the provision of those, or the like) can be applied to an optical connector removal tool for removing the various optical connectors.
[0033]
Further, in the above description, the case where the data recording unit 15 is attached to the side surface of the optical connector housing 10 is exemplified. However, the present invention is not particularly limited, and the data recording unit 15 may be provided in the optical connector 1 or the like. The data reading unit 23 is attached at a position where data in the data recording unit 15 can be read.
[0034]
As an optical connector removal tool with a data reading function in which the orientation of the grip with respect to the handle is variable, it is possible to operate the grip with a trigger. In this case, a mechanism rotatable between the trigger and the grip is used as the operation mechanism so that the direction of the trigger with respect to the handle is constant.
[0035]
【The invention's effect】
As described above, the optical connector removal tool with a data reading function of the present invention includes a tool body, a handle connected to the tool body, a fixed portion fixed to the tool body, and a fixed portion fixed to the tool body. A grip portion for gripping the optical connector by a movable portion provided so as to be movable to read the data from the optical connector or a data recording portion attached to a predetermined position near the optical connector. Since the part is attached to the fixed part of the tool main body or the gripping part, the relative positional relationship between the data reading part and the fixed part of the tool main body and the gripping part does not change during the operation, and the data reading part does not change. The unit can be reliably directed to the data recording unit. Therefore, the data can be reliably read, and when the optical connector is removed, the identified optical connector can be operated immediately. Data can be read and the optical connector can be unplugged with a single tool, eliminating the need to change tools and providing excellent workability.
[0036]
In such an optical connector removal tool with a data reading function, the tool main body is provided with an operation mechanism for operating the grip portion, and the operation of the operation mechanism allows the grip portion to grip the optical connector, It is preferable that the section can be moved between a state where the section is separated from the optical connector. Thus, data can be read and the optical connector can be identified before the optical connector is gripped, and the operation of gripping the optical connector can be performed after confirming that the optical connector is appropriate. Thus, even when the tool is pointed at the wrong optical connector, there is no possibility that the wrong optical connector is pulled out against the identification result, and the reliability of the operation is further improved.
[0037]
Furthermore, if the orientation of the grip portion with respect to the handle is variable, the orientation of the grip portion can be changed according to the mounting direction of the optical connector housing so that the tool can be easily held by hand.
[Brief description of the drawings]
FIG. 1A is a plan view and FIG. 1B is a front view of a first embodiment of an optical connector removal tool with a data reading function according to the present invention.
FIG. 2A is a perspective view showing the optical connector removal tool shown in FIG. 1; (B) It is a partial enlarged perspective view of the tip part of a tool.
FIG. 3 is a perspective view showing an example of an optical connector and an optical connector housing to which the optical connector removal tool of FIG. 1 is applied.
FIGS. 4A and 4B are perspective views showing a state in which the gripper is separated from the optical connector in the optical connector removal tool of FIG. 1, and FIG. 4B is a partial cross-sectional view showing a state of the operation mechanism at this time.
FIGS. 5A and 5B are a perspective view showing a state in which the gripping portion is gripping the optical connector and a partial cross-sectional view showing a state of the operation mechanism at this time in the optical connector removal tool of FIG.
FIG. 6 is a perspective view showing a second embodiment of the optical connector removal tool with a data reading function according to the present invention, showing a state in which a grip portion is in a horizontal position.
FIG. 7 is a perspective view showing a second embodiment of the optical connector removal tool with a data reading function according to the present invention, and showing a state in which a grip portion is in a vertical direction.
FIG. 8 is a perspective view showing an example of a conventional optical connector plug and an optical connector housing.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Optical connector (plug), 15 ... Data recording part, 20 ... Optical connector removal tool with data reading function (Optical connector removal tool), 21 ... Tool body, 22 ... Grip part, 23 ... Data reading part, 24 ... Operation Mechanism: 50: optical connector removal tool with data reading function (optical connector removal tool), 30: fixed part, 33: movable part (lever), 52: operating mechanism.

Claims (3)

A tool body (21), a handle (25) connected to the tool body, a fixed part (30) fixed to the tool body, and a movable part provided to be movable with respect to the fixed part. A grip portion (22) for gripping the optical connector (1) by the portion (33);
A data reading unit (23) for reading data from a data recording unit (15) attached to the optical connector or a predetermined position near the optical connector is attached to a fixed portion of the tool body or the gripping unit. An optical connector removal tool with a data reading function (20, 50). The tool main body is provided with an operation mechanism (24, 52) for operating the grip portion. By operating the operation mechanism, a state in which the grip portion grips the optical connector, and a state in which the grip portion is separated from the optical connector. 2. The optical connector removal tool with a data reading function according to claim 1, wherein the optical connector has a data reading function. The optical connector removal tool (50) with a data reading function according to claim 1 or 2, wherein an orientation of the grip portion with respect to the handle is variable.

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