JP3765962B2 - Optical connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical connector including an optical connector adapter and optical connector plugs inserted and connected from opposite sides of the optical connector adapter.
[0002]
[Prior art]
In an optical connector in which optical connector plugs are connected via an optical connector adapter, a configuration in which the optical connector plugs are positioned and connected by an internal housing built in the optical connector adapter is often employed.
Generally, the inner housing is housed in the optical connector adapter while allowing floating. In addition, the optical connector plugs inserted from both sides facing the internal housing are engaged with the internal housing in a detachable manner so that the connection state is maintained.
For example, in an MPO type optical connector (MPO: Multifiber Push On) established in JIS C 5982, an optical connector plug is inserted from both sides facing the optical connector adapter, so that the optical connector adapter is built in an internal housing. Then, the optical connector plugs are positioned, and optical connector ferrules (MT type optical connectors established in JIS C 5981, MT: Mechanically Transferable) held at the tip of the optical connector plugs are butt-connected. In addition, the optical connector plugs inserted into the inner housing engage with the inner housing, so that the butt connection state between the optical connector plugs is maintained. The optical connector ferrule at the tip of each optical connector plug is urged forward in the connection direction by the urging force of the spring built in the optical connector plug, so that the optical connector ferrules are placed in the inner housing with the spring slightly compressed. Thus, the butt force between the optical connector ferrules is ensured by the biasing force of the spring, and the desired low connection loss is ensured between the optical connector ferrules. Since the connected optical connector plugs are engaged with the inner housing so as not to be separated from each other, the butt force is stably maintained. Further, due to slight floating of the inner housing within the optical connector adapter, the workability of inserting the optical connector plug into the inner housing, the absorption characteristic of the pulling force (so-called side pull) acting on the side of the optical connector plug, and the like are ensured.
[0003]
[Problems to be solved by the invention]
By the way, in the optical connector as described above, the structure of the optical connector adapter is complicated, for example, the optical connector adapter has a two-part structure in consideration of housing of the inner housing, and it is difficult to improve the assembly workability and reduce the cost. There was some dissatisfaction. Furthermore, the optical connector adapter having a two-part structure has a large number of parts, takes time for assembly, and has a strong structure capable of maintaining an integrated state in order to ensure sufficient deformation resistance against the side pull of the optical connector plug. There was dissatisfaction that the increase in size and complexity was unavoidable and it was difficult to reduce the cost.
[0004]
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 can realize simplification of the structure of the optical connector adapter and cost reduction.
[0005]
[Means for Solving the Problems]
In invention of Claim 1, Provided in the plug-in unit Attached to the backplane and An optical connector adapter that functions as a backplane housing; While being guided by a guide portion provided in the plug-in unit Provided on the print board stored in the plug-in unit And said A housing for connection that is removably inserted into the optical connector adapter, When the print board is stored in the plug-in unit, The optical connector plugs are connected to each other in the connection housing inserted into the optical connector adapter. The optical connector plug includes a plug frame whose movement is restricted by a stopper provided in the optical connector adapter, and a sleeve-like slide frame that is slidably accommodated in the plug frame, and The optical connector ferrule is housed and held in the slide frame, and the opposite side portions of the slide frame are projected outside the plug frame through engagement claw holes provided on the side of the plug frame, and There is an engagement claw removably engaged with an engagement portion provided in the connection housing, and the plug is provided on a side portion of the slide frame different from both side portions provided with the engagement claw. Projecting outside the plug frame through a retaining engagement claw hole provided on the frame and provided on the optical connector adapter A retaining engagement claw that engages with the plug locking portion and restricts the withdrawal from the optical connector adapter, and the engagement claw has elasticity and is engaged with the connection housing. A claw body portion; and a pressure receiving portion protruding from the claw body portion with a taper shape, and when the slide frame slides relative to the plug frame, the pressure receiving portion of the engaging claw Is pressed by an engagement piece pressing portion provided on the plug frame to push the claw main body portion and the pressure receiving portion toward the inside of the slide frame, and the engagement of the optical connector plug on the optical connector adapter side. The engagement of the claws with the connection housing is automatically released, and the connection housing is connected to the connection housing by being inserted into the optical connector adapter. The holding engagement claw of the optical connector plug accommodated in the optical connector adapter housed in the optical connector adapter is pressed and elastically deformed or displaced from the opposite side facing the housing to engage the holding engagement claw with the optical connector adapter. There is an engagement release part that releases the connection. An optical connector characterized in that it is a means for solving the problems.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIGS. 1 and 2 are views showing the optical connector plugs 2a and 2b before connection in the optical connector 1 according to the present invention, in which FIG. 1 is an exploded front sectional view and FIG. 2 is an exploded side viewed from the lower surface side. It is sectional drawing. 3 and 4 are views showing a connection state of the optical connector plugs 2a and 2b in the optical connector 1, in which FIG. 3 is a front sectional view and FIG. 4 is a side sectional view seen from the lower surface side. 1 to 4 show a cross-sectional view of the optical connector adapter 3, the connection housing 4, and the plug frame 5.
[0007]
1 to 4, an optical connector 1 is an application example of a so-called backplane connector, and optical connector plugs 2a and 2b, and an optical connector adapter 3 inserted from both sides where the optical connector plugs 2a and 2b face each other. One of the optical connector plugs 2 a and 2 b inserted and connected to the optical connector adapter 3 is configured to be housed and held, and includes a connection housing 4 to be inserted into the optical connector plug 3. Yes. The optical connector adapter 3 functions as a backplane housing (hereinafter sometimes referred to as “BH housing”) that is attached to the backplane 12 of a plug-in unit (not shown) while allowing floating. 4 functions as a printed board housing that is detachably inserted into the optical connector adapter 3 that is the BH housing (hereinafter, sometimes referred to as “PH housing”). In the figure, the print board 13 is slidably moved while being guided by a guide portion (not shown) provided in the plug-in unit, so that the print board 13 can move forward and backward with respect to the backplane 12, and functions as a PH housing. The connection housing 4 is attached to the print board 13, and is inserted into the optical connector adapter 3 by moving the print board 13 toward the back plane 12, and retracted with respect to the back plane 12. The optical connector adapter 3 can be pulled out. The connection housing 4 is accommodated with a slight floating with respect to the optical connector adapter 3.
A mounting piece 4 d protruding from the connection housing 4 is for mounting the connection housing 4 to the print board 13.
[0008]
In this optical connector 1, the connection housing 4 functions as an internal housing of the optical connector adapter 3 by being inserted into the optical connector adapter 3, and the optical connector plugs 2 a and 2 b in the optical connector adapter 3 are connected to each other. Is made in the connecting housing 4. The connection housing 4 is provided in a protruding state from the printed board 13 toward the backplane 12. One optical connector plug 2a is inserted into and engaged with the connection housing 4 from the rear end in the insertion direction of the connection housing 4 with respect to the optical connector adapter 3, and advances and retracts integrally with the connection housing 4 with respect to the optical connector adapter 3. Move. When the connection housing 4 storing and holding the optical connector plug 2 a is inserted into the optical connector adapter 3, the optical connector plug 2 a is also inserted into the optical connector adapter 3 together with the connection housing 4.
[0009]
5A and 5B show the optical connector plug 2b. However, the difference between the optical connector plugs 2a and 2b connected to each other is only the presence or absence of a guide pin 7b described later. In the optical connector plug (here, the optical connector plug 2a) to which the guide pin 7b is not applied, the pin clamp 10 can be omitted.
5 (a) and 5 (b), the optical connector plug 2b includes a sleeve-like plug frame 5 and a sleeve-like slide frame 6 accommodated in the plug frame 5 so as to be slidable. The optical connector ferrule 7 is housed and held in the slide frame 6 at the connection tip of the connector plug 2b (tip in the insertion direction to the optical connector adapter 3), and the optical connector ferrule 7 is inserted in the optical connector adapter 3 forward ( A spring 8 that urges toward (sometimes referred to as “front in the connection direction”) is incorporated. 1 to 5, reference numeral 9 denotes a spring push, reference numeral 10 denotes a pin clamp, and reference numeral 10a denotes a boot. The optical connector ferrule 7 housed at the tip of the slide frame 6 is urged forward in the connection direction by a spring 8 that takes a reaction force against a spring push 9 attached to the optical connector plug 2b (specifically, the slide frame 6). However, it is not pushed forward by the urging force of the spring 8 from the engagement position with the stopper portion 6a (see FIG. 7D) provided at the tip of the slide frame 6 (tip in the connection direction). The slide frame 6 does not come out from the tip.
[0010]
Various configurations can be adopted as the optical connector ferrule 7. In FIGS. 1 to 5, an MT type optical connector (MT: Mechanically Transferable) optical connector ferrule (plug) established in JIS C 5981 is adopted. is doing. The optical connector ferrule 7 which is this MT type optical connector ferrule is positioned by a well-known pin fitting method, and one of the optical connector plugs 2a and 2b connected to each other (here, the optical connector plug 2b). The optical connector of the optical connector plugs 2a and 2b is fitted by fitting a guide pin 7b protruding from the joint end surface 7a of the optical connector and a guide pin hole (not shown) opened in the joint end surface of the counterpart optical connector ferrule 7. The ferrules 7 are precisely positioned and butt-connected.
[0011]
The optical connector plugs 2a and 2b are stored and held at predetermined positions of the connection housing 4 by engaging engagement claws 11 (engagement claws) protruding from the side surfaces with the connection housing 4 so as to be detachable. It has come to be.
6A and 6B are diagrams showing the plug frame 5, in which FIG. 6A is a front view (partially broken), FIG. 6B is a side view (partially broken), and FIG. 6C is a connection tip side of FIG. The side view seen from the left side, (d) is the side view seen from the connection rear end side (right side in the figure) of (a).
7A and 7B are diagrams showing the slide frame 6, where FIG. 7A is a front sectional view, FIG. 7B is a front view, FIG. 7C is a side view, FIG. 7D is a side sectional view, and FIG. It is the side view seen from the connection tip side (right side in a figure).
8A and 8B are views showing the optical connector adapter 3, wherein FIG. 8A is a front sectional view, FIG. 8B is a front view, FIG. 8C is a side view, FIG. 8D is a side sectional view, and FIG. It is the side view seen from the connection rear end side (right side in a figure) of b).
[0012]
As shown in FIGS. 7A to 7E, the engaging claws 11 are specifically protruded from opposite sides of the slide frame 6, as shown in FIGS. The optical connector plugs 2a and 2b are projected to the outside of the plug frame 5 through engagement claw holes 5a opened on the side of the plug frame 5. The optical connector plugs 2a and 2b inserted into the connection housing 4 are connected to the engagement portion 4a or the engagement portion 4b of the connection housing 4 so that the engagement claws 11 are detachably engaged. 4 is stably held at a predetermined position.
[0013]
8A to 8E, the connection housing 4 is formed in a sleeve shape having a connector hole 4c into which the optical connector plugs 2a and 2b are inserted. Engagement portions 4a and 4b are formed at both axial ends of the connection housing 4 so that the engagement claws 11 of the optical connector plugs 2a and 2b inserted into the connection housing 4 are engaged. The engaging portions 4a and 4b are disposed opposite to the pair of side walls of the connection housing 4 in correspondence with the engaging claws 11 on both sides of the optical connector plugs 2a and 2b, respectively. These engaging portions 4a, 4b are the side wall portions around the hole opened in the side wall of the connection housing 4 in FIGS. 8A, 8C, 8D, etc., but are not limited thereto. For example, various configurations such as a recess formed without penetrating the side wall of the connection housing 4 and a protrusion that is detachably engaged with the engagement claw 11 can be adopted.
[0014]
In addition to the engaging claws 11, the holding connector claws for releasably engaging with the optical connector adapter 3 when inserted into the optical connector adapter 3 are provided on the side portions of the optical connector plugs 2a and 2b. 14 is provided.
Specifically, the holding engagement claw 14 is an engagement claw protruding from the slide frame 6 (see FIG. 7), and the holding engagement claw hole 5b opened in the plug frame 5 (see FIG. 6). ) To protrude outside the plug frame 5. 7 (b), 7 (e), etc., the engaging claw 11 protrudes from a pair of side walls opposed to each other in the cross-sectional direction of the slide frame 6 having a rectangular cross section, and the holding engaging claw 14 is It protrudes from another side wall different from the engaging claw 11. The protruding direction of the retaining engagement claw 14 from the slide frame 6 is perpendicular to the protruding direction of the engagement claw 11 from the slide frame 6. Therefore, on the slide frame 6 having a rectangular cross section, the engaging claws 11 and the retaining engaging claws 14 are projected from the three side walls in the cross sectional direction.
[0015]
1 to 4, an optical connector plug 2b (hereinafter referred to as "adapter-side optical connector") inserted into the optical connector adapter 3 from the opposite side (hereinafter referred to as "to PH side") facing the connection housing 4 that is a PH housing. In some cases, the optical connector adapter 3 is engaged with the plug engaging portion 3a provided at the end of the optical connector adapter 3 on the PH side. Pulling out from 3 is regulated. On the other hand, the optical connector plug 2a on the PH housing 4 side is inserted into one end of the connection housing 4 and engaged (engagement of the engagement claws 11 on both sides with the connection housing 4) so as to be integrated. Although inserted into the adapter 3, the holding engagement claw 14 of the optical connector plug 2 a does not engage with the optical connector adapter 3. 2 and 4, the holding engagement claw 14 of the optical connector plug 2 a on the connection housing 4 side is not housed in the connection housing 4 even when the optical connector plug 2 a is inserted into the connection housing 4. Although it is exposed to the outside of the connection housing 4, even if the connection housing 4 is inserted into the optical connector plug 3, it does not reach the optical connector adapter 3 and therefore does not engage with the optical connector adapter 3. The mechanism that does not engage the holding engagement claw 14 of the optical connector plug 2a with the optical connector adapter 3 is not limited to this. For example, the holding engagement claw 14 is housed in the connection housing 4 and the outside. It is also possible to adopt a configuration in which the optical connector adapter 3 is not engaged with the optical connector adapter 3 by preventing the optical connector adapter 3 from protruding.
[0016]
In this optical connector 1, in order to connect the optical connector plugs 2a and 2b, as shown in FIGS. 1 to 4, the connection housing 4 is inserted into the optical connector adapter 3 (backplane housing), The optical connector plug 2a inserted into the optical connector adapter 3 integrally with the connection housing 4 and the optical connector plug 2b inserted into the optical connector adapter 3 from the opposite PH side are connected in the connection housing 4. (Attaching connection between the optical connector ferrules 7 of the optical connector plugs 2a and 2b).
[0017]
In addition, in the details of the connection work described below and in the connection release work described later, both the insertion and removal of the connection housing 4 from the optical connector adapter 3 are both performed by the print board 13 to which the connection housing 4 is attached. This is done by moving forward and backward with respect to the backplane 12. The connection housing 4 is inserted into the optical connector adapter 3 by floating the optical connector adapter 3 with respect to the backplane 12 due to dimensional tolerances of the optical connector adapter 3 and the printed board 13 and the connection housing 4. Since the positional deviation between the two is absorbed, it can be carried out smoothly and efficiently. Since the connection housing 4 is accommodated in the optical connector adapter 3 while allowing a slight floating, this floating range also contributes to smooth insertion work by absorbing the displacement.
[0018]
(Connection work)
The optical connector plug 2b inserted and engaged with the optical connector adapter 3 from the PH side by inserting and fitting the connection housing 4 into which the optical connector plug 2a is inserted and engaged with the optical connector adapter 3; The optical connector plug 2 a inserted into the optical connector adapter 3 integrally with the connection housing 4 is connected in the connection housing 4. When the connection housing 4 is inserted into the optical connector adapter 3 facing the PH side, first, the optical connector plug 2b inserted and engaged with the optical connector adapter 3 from the PH side is stored in the connection housing 4 Then, the engaging claw 11 of the optical connector plug 2 b engages with the engaging portion 4 b of the connecting housing 4. When the insertion of the connection housing 4 into the optical connector adapter 3 is continued, the engagement claw 11 and the connection housing 4 are engaged, and the connection housing 4 engaged with the optical connector adapter 3 is retained. The engagement claw 14 is pushed inward toward the optical connector plug 2b by the engagement release portion 15 formed of a wall portion provided at the distal end of the connection housing 4 in the insertion direction with respect to the optical connector adapter 3, and the optical connector adapter 3 Is disengaged. When insertion and engagement of the pair of optical connector plugs 2a and 2b with respect to the connection housing 4 is completed, the optical connector ferrules 7 are butt-connected with each other with the springs 8 of the optical connector plugs 2a and 2b slightly compressed. The abutting force between the optical connector ferrules 7 is given by the biasing force of the spring 8. In addition, since the optical connector plugs 2a and 2b are fastened via the connection housing 4 so as not to be separated from each other, the butt force is stably maintained.
[0019]
At this time, since the optical connector ferrule 2b on the PH side is disengaged from the optical connector adapter 3, the connection housing 4 keeps the connection state between the optical connector plugs 2a and 2b inside, Floating with respect to the optical connector adapter 3 is allowed. Thereby, for example, the optical fibers 16 and 17 pulled out from the optical connector plugs 2a and 2b are inclined with respect to the axial direction of the optical fiber plugs 2a and 2b due to some cause such as contact of the operator. When pulled laterally (so-called side pull), it is possible to avoid the deformation force acting on the optical connector plugs 2a and 2b, the optical connector adapter 3 and the connection housing 4 and to prevent these deformations. Yes (side pull resistance).
[0020]
Disengagement of the holding engagement claw 14 of the optical connector plug 2b on the PH side from the optical connector adapter 3 is simultaneous with completion of engagement of the engagement claw 11 of the optical connector plug 2b with the connection housing 4; More preferably, after engagement is complete. Thereby, until the engagement of the engagement claw 11 with the connection housing 4 is completed, the displacement of the optical connector plug 2b is prevented by the engagement of the holding engagement claw 14 with the optical connector adapter 3. Therefore, the engagement of the engaging claw 11 of the optical connector plug 2b with the connecting housing 4 can be performed reliably.
[0021]
2 and 4, the retaining engagement claw 14 of the optical connector plug 2 b on the PH side is specifically engaged with the plug locking portion 3 a of the optical connector adapter 3, so that the optical connector plug 2 b of the optical connector plug 2 b is engaged. It is an elastic claw provided with a stopper claw 14a that functions as a stopper that restricts the movement toward the PH side, and a pressure receiving claw 14b that is provided closer to the connecting housing 4 than the stopper claw 14a. When the engagement release portion 15 at the distal end of the connection housing 4 presses the pressure receiving claw 14b with the insertion of the connection housing 4 into the optical connector adapter 3, the holding claw 14 is held by the taper shape of the pressure receiving claw 14b. It is pushed into the optical connector plug 2b and the engagement of the stopper claw 14a with the plug locking portion 3a is released (state shown in FIG. 4). As a result, the optical connector plug 2b is disengaged from the optical connector plug 3 and is engaged with the connection housing 4 by the engagement claws 11, so that the optical connector plug 2b moves integrally with the connection housing 4. It becomes like this. As a result, the set of connected optical connector plugs 2a, 2b floats with respect to the optical connector adapter 3 integrally with the connection housing 4 while maintaining the connected state.
[0022]
(Disconnect work)
In the optical connector 1 in the connected state shown in FIGS. 3 and 4, when the print board 13 is retracted with respect to the backplane 12, the connection housing 4 is pulled out from the optical connector adapter 3, and the state shown in FIGS. 1 and 2. Return to.
The connection between the optical connector plug 2b on the adapter side and the connection housing 4 is automatically released by the movement of the connection housing 4 in the pull-out direction. When the connecting housing 4 is moved in the pulling direction, the slide frame 6 of the optical connector plug 2b is engaged with the connecting housing 4 by the engaging claws 11, and therefore moves integrally with the connecting housing 4. Since the plug frame 5 does not move to the PH housing side from the movement limit set by a stopper (not shown) provided in the optical connector adapter 3, as a result, the slide frame 6 moves along with the movement of the connecting housing 4 in the pulling direction. The plug frame 5 is forcibly slid. When the slide frame 6 is slid with respect to the plug frame 5, the engagement claw 11 is pressed by the engagement piece pressing portion 18 of the plug frame 18 as shown in FIGS. 9 (a) to 9 (c). By being pushed toward the inside of the slide frame 6, the engagement of the engaging claw 11 of the optical connector plug 2 b on the adapter side with respect to the connection housing 4 is automatically released. When the pressure receiving claw 14b of the holding engagement claw 14 of the optical connector plug 2b on the adapter side comes out of the connection housing 4 with the movement of the connection housing 4, the holding housing claw 14 is pushed in by the connection housing 4. When the holding engagement claw 14 itself is released, the protruding state of the holding engagement claw 14 to the outside of the optical connector plug 2b is restored to the original state, and as shown in FIG. Due to the engagement with the part 3a, the falling to the PH side is prevented. Further, if the connection housing 4 is continuously pulled out, the connection housing 4 is pulled out from the optical connector adapter 3, and the optical connector plug 2 b on the adapter side is left in the optical connector adapter 3.
On the other hand, the optical connector plug 2a on the connection housing 4 side (PH side) is pulled out of the optical connector adapter 3 integrally with the connection housing 4 while the connection housing 4 is kept engaged. Therefore, when the connection housing 4 is pulled out from the optical connector adapter 3, the connection between the optical connector plugs 2a and 2b is released, and the state before the connection shown in FIGS. 1 and 2 is restored. When the connection is restored to the state shown in FIGS. 1 and 2, the optical connector plugs 2a and 2b can be connected again by the above-described connection operation.
[0023]
Here, driving of the engaging claws 11 and the holding engaging claws 14 in the optical connector plugs 2a and 2b will be described.
The plug frame 5 of the optical connector plugs 2a and 2b accommodates the slide frame 6 so as to be slidable. When the frame 6 is slid forward in the connecting direction or the rear end of the plug frame 5 is pulled and slid relative to the slide frame 6, the slide frame 6 passes through the engagement claw holes 5a and 5b of the plug frame 5. Thus, the engaging claws 11 and the retaining engagement claws 14 projecting outward from the plug frame 5 are directed toward the inside of the slide frame 6 by the engaging claw pressing portions 18 or the retaining engagement claw pressing portions 19 of the plug frame 5. To be pushed in. Therefore, the engaging claw 11 and the holding engaging claw 14 can be driven to move outward and outward from the plug frame 5 by relative sliding movement between the plug frame 5 and the slide frame 6. This disengages the retaining engagement claws 14 of the optical connector plug 2b engaged with the optical connector adapter 3 in FIGS. 1 and 2, and engages with the connection housing 4 in FIGS. Disengagement of the engaging claws 11 of the optical connector plugs 2a and 2b that have been performed can be performed.
[0024]
FIGS. 9A and 9B show the vicinity of the engaging claw 11 and the engaging claw hole 5a.
9 (a) and 9 (b), the engaging claw 11 includes a claw body portion 11a that is engaged with the connection housing 4, and a pressure receiving portion 11b that protrudes in a rib shape from the claw body portion 11a. It has. As shown in FIGS. 9A to 9C, when the engaging claw pressing portion 18 of the plug frame 5 is separated from the claw body portion 11a of the engaging claw 11, the engaging claw 11 has its own elasticity. Is protruded to the outside of the plug frame 5 through the engaging claw hole 5a. When a relative sliding movement occurs between the plug frame 5 and the slide frame 6 such that the slide frame 6 is displaced forward in the connection direction with respect to the plug frame 5, the plug frame 5 enters the engagement claw hole 5 a. The received pressure receiving portion 11b is pressed by the engaging claw pressing portion 18, and the engaging claw 11 is pushed inward toward the slide frame 6 by the tapered shape of the pressure receiving portion 11b (FIGS. 9A to 9C). ) Medium virtual line).
As shown in FIGS. 5 (a) and 5 (b), the retaining engagement claw 14 also has a plug in which the pressure receiving portion 14c protruding from the stopper claw 14a is slid in the connection direction with respect to the slide frame 6. By being pressed by the holding engagement claw pressing portion 19 of the frame 5, the pressure receiving portion 14 c is pressed toward the inside of the slide frame 6 by the taper shape.
[0025]
Hereinafter, an operation of removing the optical connector plug 2b inserted into and engaged with the optical connector adapter 3 and an operation of removing the optical connector plug 2a from the connection housing 4 will be specifically described. In this optical connector 1, the optical connector plugs 2a and 2b can be individually removed from the optical connector adapter 3 and the connection housing 4.
[0026]
(Remove the adapter-side optical connector plug from the optical connector adapter)
As shown in FIGS. 1 and 2, the removal of the optical connector plug 2 b inserted into and engaged with the optical connector adapter 3 may be performed by pulling the rear end portion of the plug frame 5 protruding from the optical connector adapter 3. (Specifically, pulling toward the PH side). When the rear end (knob 5 c) of the plug frame 5 protruding from the optical connector adapter 3 is pulled, the slide frame 6 of the optical connector plug 2 b is moved to the outside of the plug frame 5 through the engagement claw hole 5 b of the plug frame 5. Although the protruding engaging claws 14 are engaged with the optical connector adapter 3 and do not move, the plug frame 5 slides backward with respect to the slide frame 6 in the connecting direction, and the plug frame 5 is retained. Engagement with the optical connector adapter 3 (specifically, engagement with the plug locking part 3a) by the engagement claw pressing part 19 being pressed toward the inner side of the slide frame 6 by the engagement claw pressing part 19 Is released. If the pulling of the plug frame 5 is continued, the optical connector plug 2b can be removed from the optical connector adapter 3.
[0027]
(Remove the adapter-side optical connector plug from the connection housing)
As shown in FIGS. 3 and 4, the optical connector plug 2 b inserted into and engaged with the connection housing 4 pulls the rear end portion (knob 5 c) of the optical connector plug 2 b protruding from the connection housing 4. (Pulling toward the PH side) enables the engagement of the engagement claws 11 with respect to the connection housing 4 to be released from the connection housing 4. Thereby, a connection state with the optical connector plug 2a by the side of the housing 4 for a connection can be cancelled | released.
When the rear end portion (knob 5c) of the plug frame 5 protruding from the optical connector adapter 3 is pulled, the plug frame 5 slides backward with respect to the slide frame 6 in the connection direction. The slide frame 6 does not move until the engagement of the engagement claw 14 protruding to the outside of the plug frame 5 through the engagement claw hole 5a of the plug frame 5 with respect to the connection housing 4 is released. Then, the engagement claw 11 is pressed by the engagement claw pressing portion 18 of the plug frame 5 and pushed toward the inside of the slide frame 6 to engage with the optical connector adapter 3 (specifically, the engagement portion). 4b) is released. If the pulling of the plug frame 5 is continued, the optical connector plug 2b can be removed from the connection housing 4.
In addition, the holding engagement claw 14 is pressed so as not to protrude outside the plug frame 5 by the sliding movement of the plug frame 5 with respect to the slide frame 6, so that the holding engagement claw 14 is being pulled out while the optical connector adapter 3 is being pulled out. It is possible to prevent the plug engaging portion 3a from being caught.
[0028]
(Removing the optical connector plug on the connection housing side from the connection housing)
3 and 4, when the plug frame 5 of the optical connector plug 2a on the connection housing side is pulled, the optical connector plug 2b is pulled out only by this pulling work, as in the work of removing the optical connector plug 2b. The connector plug 2a can be easily removed from the connection housing 4. Accordingly, the optical connector plug 2a can also be disconnected from the optical connector plug 2b on the adapter side by removing the connection housing 4 from the optical connector adapter 3 without removing the connection housing 4. can do.
As shown in FIGS. 1 and 2, the optical connector plug 2 a can be easily removed by pulling the plug frame 5 even in the connection housing 4 that is not inserted into the optical connector adapter 3.
[0029]
In the optical connector 1, the optical connector plugs 2 a and 2 b are connected to each other in the connection housing 4 inserted in the optical connector adapter 3, so that an internal housing is separately provided in the optical connector adapter 3. The structure of the optical connector adapter 3 can be simplified without the need for storage. The optical connector adapter 3 does not need to be divided into two parts to accommodate the inner housing. For example, as shown in FIGS. 1 to 4, the optical connector adapter 3 is formed on an integral sleeve by resin molding such as plastic. Is possible. Since the optical connector adapter 3 that is an integral sleeve can secure a sufficient strength with a simple structure, the optical connector plugs 2a and 2b inserted into the connection housing 4 are connected via the connection housing 4 by side pulls. Excellent deformation resistance is obtained with respect to the deformation force transmitted. In addition, the optical connector adapter 3 that is an integral sleeve can be easily formed with higher precision than an optical connector adapter that is made up of a plurality of components. Therefore, the connection housing inserted into the optical connector adapter 3 4 can be stably supported without causing unnecessary wobbling exceeding a preset range, and there is also an advantage that a desired floating characteristic can be obtained with certainty.
[0030]
In this optical connector 1, the connection housing 4 inserted into the optical connector adapter 3 functions as an internal housing of the optical connector adapter 3, so that components related to the connection between the optical connector plugs 2 a and 2 b are Since it can be limited to the optical connector adapter 3 and the connection housing 4, there are also advantages that the number of parts can be reduced and the cost can be reduced. Since the connection housing 4 may be configured to be able to accommodate the optical connector plug 2b inserted into the optical connector adapter 3 by being inserted into the optical connector adapter 3, a print board in a general backplane connector The structure can be simplified and the cost can be reduced as compared to the case where the housing is formed to have a large number of positioning and fitting claws for the backplane housing.
Further, in this optical connector 1, since the optical connector adapter 3 is not configured by incorporating the connection housing, it is easy to select and use the connection housing. For this reason, it is possible to easily cope with the configuration of the optical connector plug to be connected only by selecting and using the connection housing to be inserted into the optical connector adapter 3, so that there is an advantage that versatility with respect to the optical connector plug can be improved.
[0031]
In addition, this invention is not limited to the said embodiment, A various change is possible.
The optical connector to which the present invention is applied is not limited to the backplane connector, and can be applied to various optical connectors such as an MPO optical connector and an MU optical connector.
[0032]
【The invention's effect】
As described above, according to the optical connector of the present invention, since the connection housing inserted into the optical connector adapter functions as a housing for positioning the optical connector adapters, the positioning connector is positioned in the optical connector adapter. This eliminates the need for separately storing the housing (inner housing), and simplifies the structure of the optical connector adapter and reduces the cost. Further, there is an advantage that the strength can be improved by integrally molding the optical connector adapter, and the deformation resistance against the deformation force acting by the side pull of the optical connector plug inserted in the connection housing can be improved.
[0033]
According to the present invention According to the optical connector, the optical connector plugs that are connected to each other in the connection housing are retained so as not to be separated from each other by engaging with the connection housing. Can be maintained stably. For example, in a set of optical connector plugs to be butt-connected, each optical connector plug is engaged with the connection housing and is held so as not to be separated, so that a butt force acting between the optical connector plugs can be stably secured. Excellent effect.
[0034]
According to the present invention According to the optical connector, only by inserting the connection housing into the optical connector adapter, the optical connector plug retaining engagement claw inserted into the optical connector adapter from the opposite side facing the connection housing is connected to the optical connector adapter. The engagement with the optical connector adapter is released by being pressed by the engagement release portion provided in the housing. Therefore, the optical connector plug is automatically disengaged from the optical connector adapter and the optical connector plug is received in the connection housing without performing a separate operation for disengaging the optical connector plug from the optical connector adapter. In addition, there is an excellent effect that the optical connector plug inserted into the connection housing can be automatically connected.
[Brief description of the drawings]
FIG. 1 is a diagram showing an optical connector according to an embodiment of the present invention, and is an exploded front sectional view showing a state before optical connector plugs are connected to each other.
2 is an exploded side sectional view of the optical connector of FIG. 1 as viewed from below.
FIG. 3 is a front sectional view showing a connection state of optical connector plugs in the optical connector according to the embodiment of the present invention.
4 is a side sectional view seen from the lower side of FIG. 3;
5A and 5B are views showing an optical connector plug according to the present invention, in which FIG. 5A is a side sectional view, and FIG. 5B is a front sectional view.
6 is a view showing a plug frame of the optical connector plug of FIG. 5, wherein (a) is a front view, (b) is a side view, and (c) is a connecting tip end side (left side in the figure). The side view seen from (d) is the side view seen from the connection rear end side (right side in the figure) of (a).
7 is a view showing a slide frame of the optical connector plug of FIG. 5, wherein (a) is a front sectional view, (b) is a front view, (c) is a side view, (d) is a side sectional view, (E) is the side view seen from the connection front end side (right side in a figure) of (b).
8A and 8B are diagrams showing a connection housing for an optical connector according to the present invention, in which FIG. 8A is a front sectional view, FIG. 8B is a front view, FIG. 8C is a side view, and FIG. (E) is the side view seen from the connection rear end side (right side in a figure) of (b).
9A and 9B are views showing the vicinity of an engaging claw provided in a slide frame and an engaging claw hole provided in a plug frame of the optical connector according to the present invention, wherein FIG. Is a plan view, and FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Optical connector, 2a, 2b ... Optical connector plug, 3 ... Optical connector adapter, 4 ... Connection housing, 4a, 4b ... Engagement part, 7 ... Optical connector ferrule, 11 ... Engagement claw, 14 ... Retention Joint nail, 15.

Claims (1)

An optical connector adapter that functions as and backplane housing attached to a back plane provided in the plug-in unit (12) (3), housed in the plug-in unit while being guided by the guide portion provided in the plug-in unit and a connecting housing (4) which is insertable pull the provided and the optical connector adapter to a printed board (13) being,
When the printed board is stored in the plug-in unit, the optical connector plugs (2a, 2b) are connected to each other in the connection housing inserted into the optical connector adapter .
The optical connector plug includes a plug frame (5) whose movement is restricted by a stopper provided in the optical connector adapter, and a sleeve-like slide frame (6) that is slidably accommodated in the plug frame. The optical connector ferrule (7) is housed and held in the slide frame, and the opposite side portions of the slide frame are provided with engagement claw holes (5a) provided on the side of the plug frame. An engaging claw (11) that protrudes outside the plug frame and engages and disengages with an engaging portion (4a, 4b) provided on the connection housing. The engaging claw is provided. The side of the slide frame, which is different from the two sides, is provided with the plug frame via a retaining engagement claw hole (5b) provided in the plug frame. A plug engaging portion provided in the protruded outwardly and the optical connector adapter pending for engaging pawl (14) for regulating the withdrawal from engaging the optical connector adapter (3a),
The engaging claw is elastic and has a claw body portion (11a) that is engaged with the connection housing, and a pressure receiving portion (11b) that protrudes from the claw body portion with a tapered shape. When the slide frame slides relative to the plug frame, the pressure receiving portion of the engagement claw is pressed by an engagement piece pressing portion (18) provided on the plug frame. The claw body part and the pressure receiving part are pushed toward the inside of the slide frame to automatically engage the engagement claw (11) of the optical connector plug (2b) on the optical connector adapter side with the connection housing. Is supposed to be released
The holding housing claws of the optical connector plug housed in the optical connector adapter are pressed into the connection housing from the opposite side facing the connection housing by being inserted into the optical connector adapter. The optical connector (1) is provided with an engagement release portion (15) for releasing the engagement of the holding engagement claw with respect to the optical connector adapter by being elastically deformed or displaced .

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