JP4173249B2 - Optical connector and key - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical connector for inserting and fitting a built-in optical connector ferrule with an optical connector ferrule on the female housing side by being inserted into the female housing, and in particular, a latch that is detachably engaged with the female housing. It is related with an optical connector provided with.
[0002]
[Prior art]
For example, an optical connector 1 as shown in FIG. 13 is provided as an optical connector that can be simply connected to the optical connector adapter.
This optical connector 1 is a so-called MTRJ type optical connector, and has a mechanism similar to the MPO type optical connector (Multifiber Push On) established in JIS C 5982, that is, a tensile body exposed to the optical cord 2 terminal. A caulking member that holds (Kevlar), an optical connector ferrule 3 that terminates the optical fiber drawn from the end of the optical cord 2 so as to be butt-connected, and an urging force that urges the optical connector ferrule 3 forward in the butt connection direction Means are provided inside the housing 5.
When the optical connector 1 is inserted from both sides of the optical connector adapter 6, the optical connector ferrules 3 of the optical connectors 1 are abutted with each other, and the optical fibers that are internally fixed to these optical connector ferrules 3 are optically connected.
In this connected state, guide pins (not shown) projecting from the other optical connector ferrule 3 in guide pin holes 3b drilled on both sides of the joining end surface 3a of the optical connector ferrule 3 on the one optical connector 1 side. 2) is precisely positioned between the optical connector ferrules 3, and the optical fibers 2a exposed on the joining end face 3a of the optical connector ferrule 3 of each optical connector 1 are also precisely positioned and butt-connected. The
[0003]
The optical connector 1 inserted into the optical connector adapter 6 has an engagement protrusion 7b at the tip of the latch 7 projecting forward in the insertion direction from the housing 5 to the optical connector adapter 6. Pulling out is regulated by being engaged with 8 in a detachable manner.
In order to pull out the optical connector 1 from the optical connector adapter 6, the operation portion 7 a of the latch 7 exposed to the outside of the optical connector adapter 6 is pushed in the direction of the housing 5 to engage the engaging portion 8 of the optical connector adapter 6. The mating protrusion 7b is released to release the engagement, and then the drawing is performed.
[0004]
[Problems to be solved by the invention]
However, in the optical connector 1 as described above, since the engagement state between the engagement protrusion 7b at the tip of the latch 7 and the engagement portion 8 is maintained by the elastic force of the latch 7, the operation portion 7a is not supported. Even when the contact is made in preparation, the operating portion 7 a is pushed into the housing 5, the engaging protrusion 7 b is detached from the engaging portion 8, and the optical connector 1 is sometimes detached from the optical connector adapter 6.
In view of the above problem, for example, a slidable key is inserted between the latch 7 and the housing 5 to prevent the latch 7 from being pushed into the housing 5, thereby preventing the optical connector 1 from coming off. However, in this case, a structure in which the key is inserted beyond the latch from the rear to the front in the housing insertion direction is unavoidable, which requires a significant design change in the housing or the latch. There was an inconvenience.
The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an optical connector that does not require a significant design change and can reliably maintain a connection state. .
[0005]
[Means for Solving the Problems]
  The optical connector of the present invention is provided in a cylindrical housing that houses and holds an optical connector ferrule that positions and holds an optical fiber so that the optical fiber can be abutted and connected, and the housing.AboveAlong the housingThatAn elastically deformable latch extending toward the distal end portion and a key for restricting deformation of the latch, and the housing is inserted into the female housing from the distal end portion, so that the optical connector ferrule is The latch is configured to butt-connect with another optical connector ferrule housed in the female-side housing, and the latch engages with the engaging portion of the female-side housing in the butt-connected state of the optical connector ferrule. The engagement protrusion is separated from the engagement portion by being displaced toward the housing by elastic deformation of the latch, and the key is provided on the rear end side of the housing. A main body that is attached to the guide part and is movable forward and backward in the direction of the front end of the housing, and is connected to the main body at the side of the latch. And the stopper does not restrict deformation of the latch in the retracted state, and restricts deformation of the latch in the housing direction in the advanced state. .
  In this optical connector, deformation of the latch in the housing direction is restricted by the stopper, and the engagement state between the engagement portion of the female housing and the engagement protrusion provided on the latch can be stably maintained.
  In addition, since the stopper of the key is connected to the main body at the side of the latch, it can be manufactured by assembling the key to an existing optical connector.
  The engagement protrusion may be formed at the tip of the latch.
  The stopper may be formed so as to be positioned in a gap between the contact portion provided in the vicinity of the extending base end portion of the latch and the housing in the forward movement state.
  By configuring the stopper in this way, even when the deformation of the latch is restricted by the key, the optical connector can be inserted without damaging the latch due to the displacement of the latch on the distal end side from the base end portion of the extending portion. Can be done.
  The key of the present invention is provided in a cylindrical housing that holds and holds an optical connector ferrule that positions and holds an optical fiber so that the optical fiber can be butted and connected, and the housing,AboveAlong the housingThatAn elastically deformable latch that extends toward the distal end, and the housing is inserted into the female housing from the distal end so that the optical connector ferrule is stored in the female housing. The latch is configured to butt-connect with a connector ferrule, and the latch has an engaging protrusion that engages with an engaging portion of the female housing in the butt-connected state of the optical connector ferrule, and the engaging protrusion A key for restricting movement of the latch in the housing direction, applied to an optical connector that is separated from the engaging portion by being displaced in the housing direction by elastic deformation of the latch, By being attached to the guide part provided on the rear end side of the housing, it is provided so as to be able to advance and retract in the direction of the housing front end part. Body, and a stopper that can be inserted between the latch and the housing and connected to the body on the side of the latch, and is configured to be assembled to the optical connector. In the above, the deformation of the latch is not restricted, and the deformation of the latch in the housing direction is restricted in the advanced state.
  With this configuration, this key can be used by being assembled to an existing optical connector.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the optical connector of the present invention will be described with reference to FIGS.
The optical connector 20 shown here comprises an optical connector main body 20a and a key 30 assembled to the optical connector main body 20a.
The optical connector main body 20 a includes an optical connector ferrule 22 that positions and holds the optical fiber 21 so that the optical fiber 21 can be abutted and connected to the distal end portion 23 a. And an elastically deformable latch 24 extending toward the distal end portion 23a.
The optical connector body 20a is an optical connector having the same configuration as that of the optical connector 1 shown in FIG.
[0007]
In the housing 23, a caulking member that holds a tensile body (Kevlar) exposed to the end of the optical fiber 21 that is an optical fiber cord and an optical fiber (mainly an optical fiber core wire) drawn from the end of the optical fiber 21 are butt-connected. The optical connector ferrule 22 that can be terminated and the urging means (coil spring or the like) that urges the optical connector ferrule 22 forward in the butt connection direction are housed and held. When the optical connector 20 is inserted into each of the cylindrical portion 50b and the other cylindrical portion 50b, the guide pin holes 22b drilled on both sides of the joining end surface 22a of one optical connector ferrule 22 project from the other optical connector ferrule 22. Inserted guide pins (not shown) are inserted, and these optical connector ferrules are precisely positioned It is, so that (in the bare fiber. Illustrated example, two) one or a plurality of optical fibers 21a exposed to the joining end face 22a of optical connector ferrules is connected butt to each other be precisely positioned.
As the optical connector ferrule 22, a so-called MT type optical connector (Mecanically Transferable) established in JIS C 5981 can be adopted.
[0008]
The rear end portion 23b of the housing 23 protects and stores the optical fiber 21 drawn out from the rear end portion 23b through the inside of the housing 23, and abrupt bending that affects the optical characteristics of the optical fiber 21 acts. A flexible boot (indicated by reference numeral 21b) is attached to prevent this. As will be described later, the boot serves as a guide portion that guides the key 30 when the key 30 moves along the housing 23 (hereinafter referred to as a guide portion 21b).
[0009]
The latch 24 is formed to extend from the vicinity of the rear end 23b of the housing 23 toward the housing front end 23a, bend in the direction of the housing 23, hang down in this direction, and then extend toward the front end 23a again. Yes. The latch 24 is formed at a predetermined distance from the housing 23 over the entire length.
Hereinafter, the portion from the base end portion of the latch 24 to the bent portion is the operating portion 25, the portion hanging from the bent portion in the direction of the housing 23 is the intermediate portion 26, and the portion extending from the intermediate portion 26 toward the distal end portion 23a. It is called an extension part 27. In addition, the base end portion of the extension portion 27 is referred to as an extension base end portion 27a.
[0010]
A contact portion 29 that protrudes rearward is formed at the center in the width direction on the inner surface side of the intermediate portion 26 of the latch 24. The contact portion 29 is formed from the operation portion 25 to the extending base end portion 27a along the vertical direction. A gap between the contact portion 29 and the housing 23 is referred to as a gap 28.
As shown in FIG. 2, the latch 24 can be elastically deformed toward the housing 23 by pressing the operating portion 25 toward the housing 23.
[0011]
At the tip of the latch 24, an engaging protrusion 24a that engages with an engaging portion 50a of a female housing (in this embodiment, an optical connector adapter) 50 in a butt connection state of the optical connector ferrule 22 is formed protruding upward. Has been.
The engaging protrusion 24a is formed such that the upper surface side is inclined with respect to the horizontal plane and the thickness is gradually reduced toward the distal end direction.
The engaging protrusion 24a can be engaged with the engaging portion 50a of the female housing 50 in a state where the latch 24 is not deformed, and from the female housing 50 in a state of being engaged with the engaging portion 50a. The extraction of the optical connector 20 is regulated.
[0012]
The key 30 is for restricting the deformation of the latch 24, and is attached to a guide portion (a boot in the present embodiment) 21b attached to the rear end portion 23b of the housing 23, and a front end portion along the guide portion 21b. A main body 30a that can advance and retreat in the direction of 23a and a stopper 33 connected to the main body 30a are provided.
[0013]
The main body 30 a includes a cylindrical body 31 and arms 32, 32 extending from both sides of the cylindrical body 31 in the direction of the distal end portion 23 a of the housing 23.
The cylindrical body 31 is formed with a holding portion 34 that is a hole for holding the guide portion 21b. The holding part 34 is designed so that the guide part 21b can be held over the entire circumference and the key 30 can be allowed to advance and retreat.
[0014]
The stopper 33 is a long plate-like object whose both ends are connected to the arm 32 at the side of the latch 24.
The stopper 33 is positioned in the gap 28 between the contact portion 29 and the housing 23 in the forward movement state, and is positioned closer to the rear end side of the housing than the contact portion 29 provided in the latch 24 in the backward movement state. Yes.
[0015]
The key 30 can move from the retracted state shown in FIG. 2 to the advanced state shown in FIG. 3 by moving the main body 30a along the guide portion 21b.
As shown in FIG. 2, when the key 30 is in the retracted state and the stopper 33 is positioned on the housing rear end side with respect to the abutting portion 29, the latch 24 can be freely elastically deformed, and the operation portion 25 is By being pressed to the 23 side, it is elastically deformed toward the direction of the housing 23. (Hereafter, this state is referred to as non-locked state)
[0016]
On the other hand, as shown in FIG. 3, when the key 30 is in the forward state and the stopper 33 is positioned between the contact portion 29 and the housing 23, the stopper 33 prevents the contact portion 29 from moving downward. Therefore, the elastic deformation of the latch 24 toward the housing 23 is restricted. (Hereafter, this state is called the locked state)
In the locked state, the entire latch 24 cannot be deformed in the direction of the housing 23, but the stopper 33 is positioned in the gap 28 between the contact portion 29 and the housing 23 in the vicinity of the extended base end portion 27a. As shown in FIG. 3, the extending portion 27 can be deformed toward the housing 23 within the elastic deformation range.
[0017]
In the optical connector 20 of this embodiment, the key 30 is a member assembled as shown below.
FIG. 8 shows a state before the key 30 is assembled. FIG. 8 (b) is a plan view showing the key 30b which is the key 30 before the assembly, and FIGS. 8 (a) and 8 (c) are diagrams. FIG. 4 is a view of the key 30b as viewed from above and below.
[0018]
In the key 30b, one ends of arms 32, 32 are hinged to hinge portions 35 at both ends of the stopper 33, and the first and second cylinders that become the cylindrical body 31 at the time of assembly are connected to the other ends of the arms 32, 32. The body members 31a and 31b are attached. The first and second cylindrical body members 31a and 31b are formed with holding grooves 34a that become the holding portions 34 during assembly. A plate-like connecting member 36 extending in the direction of the cylindrical body member 31b in the assembled state is attached to the first cylindrical body member 31a, and the second cylindrical body member 31b is attached to the connecting member 36. A locking hole 38 that locks into a locking projection 37 provided on is formed.
[0019]
To assemble the key 30 b, the stopper 33 is inserted between the latch 24 and the housing 23 from the front end side of the latch 24, and then the arms 32 and 32 are bent at the hinge portion 35 with respect to the stopper 33.
At this time, the guide portion 21b is sandwiched between the first and second cylindrical members 31a and 31b, and the locking projection 37 is engaged with the locking hole 38 with the guide portion 21b positioned in the holding grooves 34a and 34a. Stop.
Thereby, the key 30 in the state shown in FIG. 1, that is, the state assembled to the optical connector main body 20a can be obtained.
[0020]
Next, the operation of the optical connector 20 will be described with reference to FIGS.
As shown in FIG. 9A, the optical connector 20 in which the key 30 is set in the retracted state so that the latch 24 can be freely elastically deformed is inserted into one cylindrical portion 50 b of the female housing 50.
At this time, the latch 24 is deformed in the direction of the housing 23 by the cylindrical portion 50b, and the engaging protrusion 24a is inserted into the cylindrical portion 50b while being pressed against the inner surface of the female-side housing cylindrical portion 50b by the elasticity of the latch 24. ), When the engaging protrusion 24a reaches the engaging portion 50a, the engaging protrusion 24a enters and engages with the engaging portion 50a by the elasticity of the latch 24, and enters a locked state. In this state, the latch 24 is in a state where only the extending portion 27 is inserted into the cylindrical portion 50b.
Thereby, the extraction of the optical connector 20 from the female-side housing 50 is restricted, and the optical connector ferrule 22 is abutted against another optical connector ferrule (not shown) supported by the other cylindrical portion 50b of the female-side housing 50. The connection state is maintained.
[0021]
Even when the insertion of the latch 24 into the female housing 50 is completed, the operation portion 25 is exposed to the outside of the female housing 50, so that the operation portion 25 is pushed toward the housing 23 and the entire latch 24 is moved toward the housing 23. When it is deformed, the engaging protrusion 24a is detached from the engaging portion 50a and the optical connector 20 can be pulled out. Here, however, the optical connector 20 is prevented from being accidentally detached from the female housing 50. Therefore, as shown in FIG. 9C, the key 30 is advanced to restrict the elastic deformation of the latch 24 (locked state).
[0022]
In the locked state in which the key 30 is moved forward, even if the operating portion 25 is pushed in, the abutting portion 29 hits the stopper 33, so that the entire latch 24 cannot be deformed toward the housing 23. For this reason, the engaging protrusion 24a cannot be detached from the engaging portion 50a, and the optical connector 20 cannot be pulled out from the female housing 50. Therefore, in this state, an accident in which the engagement between the engagement portion 50a and the engagement protrusion 24a is released due to inadvertent contact with the operation portion 25 or the like is prevented, and the engagement portion 50a and the engagement protrusion 24a The engaged state is maintained stably.
[0023]
In order to pull out the optical connector 20 from the female housing 50, as shown in FIG. 9 (d), the key 30 is once retracted to be in an unlocked state, and then the operating portion 25 is moved to the housing as shown in FIG. 9 (e). After pushing in the 23 direction to disengage the engaging protrusion 24a from the engaging portion 50a, the optical connector 20 is pulled out.
[0024]
In the optical connector 20 of the present embodiment, as described above, the entire latch 24 cannot be deformed in the direction of the housing 23 in the locked state, but the extending portion 27 is deformed toward the housing 23 within the elastic deformation range. Is possible.
For this reason, in the optical connector 20 of the present embodiment, as shown below, the optical connector 20 can be inserted into the female housing 50 in the locked state (the state where the key 30 is inserted into the gap 28 between the latch 24 and the housing 23). Is possible.
[0025]
That is, as shown in FIGS. 10A and 10B, even when the optical connector 20 is inserted into the cylindrical portion 50b of the female housing 50 while the key 30 is in the locked state where the key 30 is in the advanced state. Only the extending portion 27 is deformed toward the housing 23 and can be inserted into the cylindrical portion 50b.
At this time, an excessive force is not applied to the latch 24 and there is no fear of damage or the like. The engaging protrusion 24a at the tip of the extending portion 27 inserted into the cylindrical portion 50b engages with the engaging portion 50a, and the optical connector 20 is in the state shown in FIG. 9C.
As described above, in the optical connector 20 of the present embodiment, it is not always necessary to retract the key 30 from the latch 24 in advance before insertion into the female housing 50.
The optical connector 20 that has been inserted can be pulled out from the female housing 50 in the same manner as when the latch 24 is not locked with the key 30 in advance.
[0026]
The optical connector 20 of the present embodiment includes a housing 23, an elastically deformable latch 24 extending toward the distal end portion 23a along the housing 23, and a key 30 for restricting deformation of the latch 24. Since the key 30 has a stopper 33 that does not restrict the deformation of the latch 24 in the retracted state and restricts the deformation of the latch 24 toward the housing 23 in the advanced state, the key 30 is set in the advanced state. The deformation of the latch 24 in the direction of the housing 23 is restricted, and the engagement state between the engagement portion 50a on the female housing 50 side and the engagement protrusion 24a provided on the latch 24 can be stably maintained. Therefore, the connection state of the optical connector ferrule 22 can be reliably maintained.
[0027]
Further, the key 30 has a main body 30 a that can be moved forward and backward in the direction of the distal end portion 23 a of the housing 23, and a stopper 33 connected to the main body 30 a, and the stopper 33 is attached to the arm 32 at the side of the latch 24. Since they are connected, they can be manufactured by assembling the key 30 to the optical connector body 20a (for example, MTRJ type optical connector) having the same configuration as the optical connector 1 of the conventional example shown in FIG.
Thus, since it can be produced by retrofitting an existing optical connector, the existing optical connector can be produced as it is without any design change, and the production cost can be kept low. .
[0028]
Further, by configuring the stopper 33 so as to be positioned in the gap 28 on the lower surface side of the contact portion 29 provided in the vicinity of the extended base end portion 27a of the latch 24 when the key 30 is in the forward movement state, Even in the locked state, that is, in a state where the deformation of the entire latch 24 is restricted by the key 30, the latch 24 is damaged by the displacement within the elastic deformation range of the extension portion 27 on the distal end side with respect to the extension portion base end portion 27a. It is possible to insert the optical connector 20 without any trouble. For this reason, the workability of inserting the optical connector 20 into the female housing 50 can be improved.
[0029]
The key 30 can be inserted between the main body 30a provided so as to be able to advance and retract in the direction of the distal end portion 23a of the housing 23 and the latch 24 and the housing 23 by being attached to the guide portion 21b. And a stopper 33 coupled to the side of the latch 24 with respect to the arm 32 of the optical connector, and can be assembled to the optical connector body 20a having the same configuration as the optical connector 1 of the conventional example shown in FIG. It can be used by assembling to an optical connector (for example, MTRJ type optical connector).
[0030]
11 and 12 show a modified example of the key.
Similar to the key 30, the key 40 shown here is attached to the guide portion 21b and extends in the distal end portion 23a direction from both side portions of the cylindrical body 41 and the tubular body 41 that can be moved forward and backward in the distal end portion 23a direction. A main body 40a composed of the arms 42 and 42, and a stopper 43 that can be inserted between the latch 24 and the housing 23 and is connected to the arm 42 of the main body 40a on the side of the latch 24. Has been.
The cylindrical body 41 is formed with a holding portion 44 that is a hole for holding the guide portion 21b. The stopper 43 restricts elastic deformation of the latch 24 toward the housing 23 when the key 40 is in the forward state, and does not restrict deformation of the latch 24 in the reverse state.
Similar to the key 30, the key 40 can be used by being assembled into an existing optical connector, for example, an MTRJ type optical connector.
[0031]
In addition, the optical connector of this invention is not limited to the said embodiment, For example, various changes, such as changing the cross-sectional outline shape of a housing, are possible.
Further, the groove formed in the female housing cylindrical portion 50b, the latch 24 on the optical connector 20 side, and the like serve as a key and a key groove so that they cannot be inserted into the female housing 50 except in a predetermined direction. It is normal to do.
The engaging portion of the female housing is not limited to a hole, and various configurations such as a groove, a protruding wall, and an elastic claw can be employed.
The shape and size of the engagement protrusion provided on the latch, the formation position on the latch, and the like can be changed as appropriate.
The optical connector ferrule according to the present invention includes a single-core or multi-core optical fiber cord, a single-core or multi-core optical fiber core that is drawn directly into the housing without being coded. Various configurations such as those that terminate the wire can be employed.
Various configurations such as an optical connector adapter and an optical connector receptacle can be adopted as the female housing into which the optical connector is inserted.
Further, the key, the member such as the main body, the arm, the stopper, etc. are separated before assembly, and may be integrated by assembly or integrated before assembly. Also good.
Further, the guide portion is not limited to the boot and may be provided in the housing.
[0032]
【The invention's effect】
The optical connector of the present invention includes a housing, an elastically deformable latch extending toward the distal end along the housing, and a key for restricting deformation of the latch, and the key includes the distal end. And a main body capable of moving forward and backward toward the portion, and a stopper that does not restrict deformation of the latch in the retracted state and restricts deformation of the latch in the housing direction in the advanced state. Therefore, the deformation of the latch toward the housing can be restricted, and the engagement state between the engagement portion of the female housing and the engagement protrusion provided on the latch can be stably maintained. Therefore, the connection state of the optical connector ferrule can be reliably maintained.
In addition, since the stopper is connected to the main body at the side of the latch, the existing optical connector can be manufactured as it is without any design change, and the manufacturing cost can be kept low.
[0033]
Further, in the forward movement state, the stopper is configured to be positioned in the gap between the contact portion provided in the vicinity of the extended base end portion of the latch and the housing, so that the deformation of the latch is regulated by the key. In addition, the optical connector can be inserted without damaging the latch due to the displacement of the latch on the tip side of the base end of the extension. For this reason, the workability of inserting the optical connector into the female housing can be improved.
[0034]
In addition, the key of the present invention can be inserted between the main body provided so as to be movable forward and backward in the direction of the distal end of the housing by being attached to the guide portion, and between the latch and the housing. It has a stopper that is connected to the side of the latch, and is configured so that it can be assembled to an optical connector similar to the conventional type, so that it can be used by assembling to an existing optical connector, such as an MTRJ type optical connector. Can do.
[Brief description of the drawings]
FIG. 1 is an overall perspective view showing an embodiment of an optical connector of the present invention.
FIG. 2 is a side view showing the optical connector shown in FIG.
FIG. 3 is a side view showing the optical connector shown in FIG. 1;
4 is a plan view showing the optical connector shown in FIG. 1; FIG.
5 is a perspective view showing a key used in the optical connector shown in FIG. 1. FIG.
6 is a plan view showing the key shown in FIG. 4; FIG.
7 is a side view showing the key shown in FIG. 4; FIG.
8 is a view showing the key shown in FIG. 4, (b) is a plan view showing a state before and after assembly, (a) is a view of the state before assembly, and (c) is a view from above. FIG. It is the figure which looked at the state before an assembly from the lower part.
9 is a diagram showing a process of inserting the optical connector of FIG. 1 into the female housing.
10 is a diagram showing a process of inserting the optical connector of FIG. 1 into the female housing.
FIG. 11 is a plan view showing a modification of the key used in the optical connector of the present invention.
FIG. 12 is a side view of the key shown in FIG.
FIG. 13 is a perspective view showing an example of a conventional optical connector.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 20 ... Optical connector, 21 ... Optical fiber (optical fiber cord), 21b ... Guide part, 22 ... Optical connector ferrule, 23 ... Housing, 23a ... Front-end | tip part, 23b ... Rear end part, 24 ... Latch, 27 ... Extension part , 27a ... extended base end portion, 28 ... gap, 29 ... abutting portion, 30 ... key, 30a ... main body, 33 ... stopper, 50 ... female side housing, 50a ... engaging portion

Claims (4)

An optical connector ferrule (22) for positioning and holding the optical fiber (21) so as to be butt-connected, and a cylindrical housing (23) for storing and holding the tip (23a);
Provided in the housing, and elastically deformable latching extending toward its distal end (24) along said housing,
A key (30) for restricting deformation of the latch;
The housing is configured so that the optical connector ferrule is butt-connected to another optical connector ferrule housed in the female housing by being inserted into the female housing (50) from the tip.
The latch has an engaging protrusion (24a) that engages with an engaging portion (50a) of the female housing in a butt connection state of the optical connector ferrule,
The engaging projection is separated from the engaging portion by being displaced toward the housing by elastic deformation of the latch.
The key is attached to a guide part (21b) provided on the rear end side of the housing and is movable forward and backward toward the front end of the housing, and to the side of the latch with respect to the main body. And connected stopper (33),
The optical connector (20), wherein the stopper does not restrict deformation of the latch in the retracted state and restricts deformation of the latch in the housing direction in the advanced state. The optical connector according to claim 1, wherein the engagement protrusion is formed at a tip of the latch. The stopper is formed so as to be positioned in a gap (28) between the contact portion (29) provided in the vicinity of the extending base end portion (27a) of the latch and the housing in the advanced state. The optical connector (20) according to claim 1 or 2, characterized in that An optical connector ferrule (22) for positioning and holding the optical fiber (21) so as to be butt-connected, and a cylindrical housing (23) for storing and holding the tip (23a);
Provided in the housing, with the extension elastically deformable latches (24) towards the distal end along said housing,
The optical connector ferrule is configured to be butt-connected to another optical connector ferrule housed in the female housing by inserting the housing into the female housing (50) from the tip.
The latch has an engaging projection (24a) that engages with the engaging portion (50a) of the female housing in a butt connection state of the optical connector ferrule, and the engaging projection is elastically deformed of the latch. A key (30) that is applied to the optical connector (20a) that is separated from the engaging portion by being displaced in the housing direction by the movement of the latch to restrict the movement of the latch in the housing direction;
By being attached to the guide portion (21b) provided on the rear end side of the housing, it can be inserted between the main body (30a) provided so as to be movable forward and backward in the direction of the front end of the housing and the latch and the housing. And a stopper (33) connected to the main body on the side of the latch, and is configured to be assembled to the optical connector. The stopper does not restrict the deformation of the latch in the retracted state and moves forward. A key that restricts deformation of the latch toward the housing in a state.

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