JP5095579B2 - Optical connector - Google Patents

Description

  The present invention relates to an optical connector including an FOT (Fiber Optic Transceiver) and an optical connector housing, and including an alignment portion for a lead frame of the FOT.

  An FOT (Fiber Optic Transceiver) constituting an optical connector has an FOT main body having an optical element and a plurality of lead frames (pins for connecting a circuit board) extending from the FOT main body. The FOT is electromagnetically shielded by covering the outside with a shield case.

  Patent Document 1 below discloses a technique related to a mounting aid for preventing positional deviation of the lead frame of the FOT during the operation of covering with a shield case. The mounting aid is formed with an alignment portion for holding the lead frame. The lead frame of FOT has an inclined part and a part extending in the vertical direction. The inclined part is located on the main body side of the FOT, and the part extending in the vertical direction is coupled to the inclined part. The tip of the portion extending in the vertical direction is inserted into the circuit board and soldered.

According to the disclosed technology, when the FOT is moved straight down from above the alignment part and the lead frame is inserted into the alignment part, the FOT is in a state where the lead frame is held. Therefore, if the FOT is covered with the shield case while the lead frame is held, it is possible to prevent the position of the lead frame from being erroneously shifted during this operation.
JP-A-2005-266130

  In the above prior art, since the FOT is assembled by inserting from above the alignment portion of the mounting aid, there is a possibility that if the lead frame is insufficiently held, backlash will occur in the vertical direction. ing. If rattling occurs and the position of the lead frame is not stable, the optical connector will be misaligned.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an optical connector capable of improving the holding state of the lead frame.

  In order to solve the above-mentioned problems, the optical connector of the present invention according to claim 1 is an FOT (Fiber Optic Transceiver) having a plurality of lead frames formed with a vertically extending portion and an inclined portion, and the FOT. An optical connector including an optical connector housing having a FOT accommodating chamber for accommodating a lead frame and an alignment unit for adjusting the positional relationship of the lead frame, wherein the FOT accommodating chamber is moved from the rear to the front of the optical connector housing. A lead frame protection member that is formed so as to accommodate the FOT and moves the alignment portion in the same direction as the accommodation direction of the FOT and engages and locks the optical connector housing; and the FOT accommodation chamber Further, the alignment portion is formed in front of the lead frame from the front-rear direction. Pinching a portion inclined, it is characterized by forming a structure such as pressing even a portion the inclination in the vertical direction by and entrapment.

  According to the present invention having such a feature, the FOT is accommodated in the FOT accommodating chamber from the rear to the front of the optical connector housing, and then the lead frame protection member is moved in the same direction as the FOT accommodating direction. When the connector housing is fitted and locked, the inclined portion of the lead frame of the FOT is sandwiched from the front-rear direction and pressed from the vertical direction by the configuration and structure of the alignment portion. The position of the lead frame is stabilized by the present invention.

  The optical connector according to a second aspect of the present invention is the optical connector according to the first aspect, wherein a rail groove extending in the front-rear direction is formed in one of the FOT accommodating chamber and the lead frame protection member. On the other hand, a groove engaging portion that engages with the rail groove is formed.

  According to the present invention having such a feature, when the lead frame protection member is fitted and locked to the optical connector housing, the groove engaging portion is engaged with the rail groove extending in the front-rear direction. By this engagement, the lead frame protection member is restricted from moving in the vertical direction and is prevented from being loose. It should be noted that the engagement between the rail groove and the groove engaging portion can be press-fitted, thereby making it possible to completely eliminate rattling.

  The optical connector according to a third aspect of the present invention is the optical connector according to the first or second aspect, wherein the alignment portion is formed in a substantially comb-like shape that holds down both the left and right sides of the inclined portion. It is said.

  According to the present invention having such a feature, when the lead frame protection member is fitted and locked to the optical connector housing, both the left and right sides of the inclined portion of the lead frame are simultaneously pressed. The inclined portion is sandwiched from the front-rear direction and pressed from the vertical direction and the left-right direction. The position of the lead frame is more stable.

  According to the first aspect of the present invention, the inclined portion of the lead frame can be sandwiched from the front-rear direction and pressed from the vertical direction by the configuration and structure of the alignment portion. Therefore, it is possible to prevent backlash and to stabilize the position of the lead frame as compared with the conventional case. In other words, the holding state of the lead frame can be improved as compared with the conventional case. The present invention is effective in preventing deviation of the optical axis.

  According to the present invention as set forth in claim 2, it is possible to more effectively prevent the vertical play.

  According to the third aspect of the present invention, the lead frame can be pressed from the left and right directions. Since the present invention can be pressed from the left and right direction in addition to the front and rear direction and the vertical direction, it is possible to prevent backlash in a better state.

  Hereinafter, description will be given with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of an optical connector of the present invention. FIG. 2 is a bottom view of the optical connector. 3 to 6 are views showing a state before the lead frame protection member is fitted and locked to the optical connector housing, and FIGS. 7 to 8 are views after the lead frame protection member is fitted and locked to the optical connector housing. FIG. 9 is an external perspective view of the optical connector.

  1 and 2, reference numeral 1 indicates an optical connector of the present invention. The optical connector 1 is of a receptacle type that is mounted on a circuit board (not shown), and includes an FOT (Fiber Optic Transceiver) 2, an optical connector housing 3, a lead frame protection member 4, and a shield member 5. It is configured. First, each component will be described (an arrow P in FIG. 1 is defined as a front-rear direction, an arrow Q as an up-down direction, and an arrow R as a left-right direction).

  1, 3, and 5, the FOT 2 includes an FOT main body 6 having an optical element, and a plurality of substrate connecting pins extending from the FOT main body 6, that is, a lead frame 7. Two FOTs 2 are provided, one on the light emitting side and one on the light receiving side. A light emitting element is provided on the light emitting side, and a light receiving element is provided on the light receiving side. Each optical element is connected to the corresponding lead frame 7 by wire bonding or the like.

  The rear surface of the FOT main body 6 is formed flat. The FOT main body 6 is pressed forward by the shield member 5 through the rear surface. On the front surface of the FOT main body 6, an annular guide portion 8 serving as a connection partner guide portion at the time of optical connection is formed.

  The lead frame 7 has a quadrangular cross section, and has a portion 7a extending in the vertical direction and a portion 7b inclined. The front end of the portion 7a extending in the vertical direction is soldered to a corresponding circuit on a circuit board (not shown). The inclined portion 7b exists on the FOT main body 6 side. As shown in FIG. 2, the lead frame 7 is arranged in a staggered position. In the lead frame 7, the inclined portion 7b may be inclined to the front side of the FOT 2 or may be inclined to the rear side (see FIG. 5).

  3 to 6, the optical connector housing 3 is a member made of synthetic resin having insulating properties, and is formed by opening a fitting portion 9 formed by opening the front surface of the housing and a rear surface of the housing. FOT accommodation chamber 10. The fitting part 9 is formed as a part into which a plug type optical connector (not shown) is fitted. The FOT storage chamber 10 is formed as a part for storing two FOTs 2 respectively. The fitting portion 9 and the FOT accommodating chamber 10 are formed so as to communicate with each other by the cylindrical portion 11. A pin 12 for fixing the FOT 2 by press-fitting is formed in the FOT storage chamber 10 (assumed to be an example). An alignment portion 13 on the optical connector housing 3 side is formed in the lower portion of the FOT accommodation chamber 10.

  The alignment unit 13 is formed in a shape that is substantially comb-like in plan view. The alignment portion 13 includes a pressing portion 13a corresponding to the inclined portion 7b when the lead frame 7 is inclined to the front side, and a pressing portion 13b corresponding to the inclined portion 7b when the inclination is inclined to the rear side. Have. The pressing portion 13a is formed in a shape capable of pressing the upper surface of the inclined portion 7b, that is, an inclined shape as shown in FIG. The pressing portion 13b is also formed in an inclined shape. The pressing portion 13b is formed so that the lower surface of the inclined portion 7b can be pressed. The holding parts 13a and 13b are alternately formed.

  The alignment unit 13 has a pair of rail grooves 14 that extend straight in the front-rear direction. In this embodiment, the rail grooves 14 are disposed and formed at the inner surface positions of the left and right side walls of the optical connector housing 3 (disposed at both the left and right positions at the bottom of the FOT storage chamber 10). A locking hole 15 that penetrates to the outer surface of the side wall is formed in the middle of the rail groove 14. The locking hole 15 is formed as a portion for locking the lead frame protection member 4 (the arrangement of the locking hole 15 is an example. For example, the locking hole 15 may be arranged at the center position of the alignment portion 13. Suppose).

  A portion 7 a extending in the vertical direction of the lead frame 7 projects downward through the alignment portion 13.

  On the lower surface 16 of the optical connector housing 3, a pin-like fixing portion 17 for being inserted and fixed to a circuit board (not shown) is formed. On the lower surface 16, slits indicated by reference numerals 18 and 19 are formed as portions for guiding a part of the shield member 5.

  3 to 6, the lead frame protection member 4 is a member that is fitted in and locked to the optical connector housing 3 by moving in the same direction as the accommodation direction of the FOT 2 with respect to the FOT accommodation chamber 10, and is substantially comb in plan view. It is formed in a tooth shape. The lead frame protection member 4 is formed to correspond to the alignment portion 13 on the optical connector housing 3 side. The lead frame protection member 4 of this embodiment is a resin molded product molded using, for example, PBT (polybutylene terephthalate).

  The lead frame protection member 4 has an alignment part 20, a groove engaging part 21, and a center support part 22. The alignment portion 20 includes a pressing portion 20a corresponding to the inclined portion 7b when the lead frame 7 is inclined to the front side, and a pressing portion 20b corresponding to the inclined portion 7b when the inclination is inclined to the rear side. Have. The pressing portion 20a is formed in a shape that can hold the lower surface of the inclined portion 7b, that is, an inclined shape as shown in FIG. Further, the holding portion 20b is also formed in an inclined shape. The pressing portion 20b is formed so that the upper surface of the inclined portion 7b can be pressed. The holding parts 20a and 20b are alternately formed.

  Since the alignment parts 13 and 20 have a substantially comb-like shape in plan view, the right and left sides of the part 7b where the pressing parts 13a and 13b and the pressing parts 20a and 20b are inclined can be pressed. Yes.

  The groove engaging portions 21 are disposed and formed on both the left and right sides of the lead frame protection member 4. The groove engaging portion 21 is a portion that engages with the rail groove 14 and is formed in a substantially columnar shape extending in the front-rear direction. The groove engaging portion 21 and the rail groove 14 are formed to restrict the movement of the lead frame protection member 4 in the vertical direction and prevent rattling. The groove engaging portion 21 is formed in such a dimension that a gap is not generated as much as possible with respect to the rail groove 14 (there may be a dimensional relationship such as press fitting. The groove engaging portion 21 has a backlash. It is designed to function as a loose-filling wall). The groove engaging portion 21 is integrally formed with a locking projection 23 that is hooked and locked in the locking hole 15.

  The center support portion 22 is disposed and formed at the center position of the lead frame protection member 4. Since the lead frame protection member 4 has the center support portion 22, the lead frame protection member 4 is supported by the optical connector housing 2 even at the center position of the member. The central support portion 22 also has a function as a guide portion when the lead frame protection member 4 is fitted and locked to the optical connector housing 3. In addition, the said latching protrusion 23 may be formed in the center support part 22, and it shall latch in this position (it shall change the arrangement | positioning of the said locking hole 15).

  1, 2, and 9, the shield member 5 is formed by pressing a conductive metal plate. The shield member 5 is provided to take measures against electromagnetic noise. In this embodiment, the shield member 5 is formed in a box shape that covers the optical connector housing 3 (assumed to be an example). Reference numeral 24 indicates a fixing portion for inserting and fixing to a circuit board (not shown). Reference numeral 25 indicates a ground portion. The ground portion 25 is soldered to the ground of a circuit board (not shown). In addition, reference numeral 26 indicates a FOT pressing leaf spring portion (for pressing the rear surface of the FOT main body 6) for pressing the FOT 2 forward.

  Next, assembly of the optical connector 1 of the present invention will be described based on the above configuration and structure.

  As shown in FIGS. 3 and 5, the FOT 2 (FOT main body 6) is accommodated in the FOT accommodation chamber 10 of the optical connector housing 3 by press fitting. At this time, the FOT 2 is accommodated so as to move from the rear to the front of the optical connector housing 3. After the FOT 2 is accommodated, the lead frame protection member 4 is moved in the same direction as the accommodation direction of the FOT 2 to be fitted and locked to the optical connector housing 3. When the lead frame protection member 4 is fitted and locked to the optical connector housing 3, the state is as shown in FIGS. 7 and 8. The lead frame 7 of the FOT 2 includes the alignment portion 13 on the optical connector housing 3 side and the lead frame. It is held by the alignment part 20 on the protective member 4 side. Specifically, the inclined portion 7b of the lead frame 7 is sandwiched from the front-rear direction by the alignment portions 13 and 20, and is also pressed from the vertical direction and the left-right direction (see FIG. 8). Accordingly, the lead frame 7 can be held in a stable position because it is held without being unnecessarily loosened. When the shield member 5 is mounted so as to cover the optical connector housing 3 after the work related to fitting and locking of the lead frame protection member 4, a series of assembly is completed (see FIGS. 1 and 9).

  As described above with reference to FIGS. 1 to 9, according to the present invention, the inclined portions 7 b of the lead frame 7 are sandwiched from the front-rear direction by the configuration and structure of the alignment portions 13 and 20, and It can also be pressed from the left and right directions. Therefore, the play of the lead frame 7 can be made more stable than before by preventing rattling (the holding state of the lead frame 7 can be improved more than before).

  The optical connector 1 of the present invention can have a structure in which the optical axis is hardly displaced.

  It goes without saying that the present invention can be variously modified without departing from the spirit of the present invention.

  The present invention can also be applied to a hybrid connector having the functions of both an optical connector and an electrical connector, and a pigtail type optical connector.

It is a block diagram which shows one Embodiment of the optical connector of this invention. It is a bottom view of an optical connector. It is a perspective view (perspective view seen from the back) showing a state before the lead frame protection member is fitted and locked to the optical connector housing. It is a perspective view (perspective view seen from the top) showing a state before the lead frame protection member is fitted and locked to the optical connector housing. It is principal part sectional drawing which shows the state before fitting and locking a lead frame protection member to an optical connector housing. It is a bottom view (figure seen from the lower part) which shows the state before fitting and locking a lead frame protection member to an optical connector housing. It is a perspective view (perspective view seen from the back) showing a state after fitting and locking the lead frame protection member to the optical connector housing. It is principal part sectional drawing which shows the state after carrying out fitting locking of the lead frame protection member to the optical connector housing. It is an external appearance perspective view of an optical connector.

Explanation of symbols

1 Optical connector 2 FOT
DESCRIPTION OF SYMBOLS 3 Optical connector housing 4 Lead frame protection member 5 Shield member 6 FOT main body 7 Lead frame 7a Vertically extending part 7b Inclined part 8 Annular guide part 9 Fitting part 10 FOT accommodating chamber 11 Tube part 12 Pin 13 Alignment part 13a, 13b Holding part 14 Rail groove 15 Locking hole 16 Lower surface 17 Fixed part 18, 19 Slit 20 Alignment part 20a, 20b Holding part 21 Groove engaging part 22 Central support part 23 Locking protrusion 24 Fixing part 25 Ground part 26 FOT pressing plate Spring part

Claims (3)

Positional relationship between the FOT (Fiber Optic Transceiver) having a plurality of lead frames formed with a vertically extending portion and an inclined portion, an optical connector housing having a FOT accommodating chamber for accommodating the FOT, and the lead frame In an optical connector including an alignment unit for adjusting
While forming the FOT storage chamber to store the FOT from the rear to the front of the optical connector housing,
The alignment part is formed across a lead frame protection member that is fitted and locked to the optical connector housing by moving in the same direction as the accommodation direction of the FOT, and a lower part of the FOT accommodation chamber,
Further, the optical connector is characterized in that the alignment portion is formed so as to sandwich the inclined portion of the lead frame from the front-rear direction and to hold the inclined portion in the vertical direction by the sandwiching. The optical connector according to claim 1,
A rail groove extending in the front-rear direction is formed in one of the FOT storage chamber and the lead frame protection member, and a groove engaging portion that engages with the rail groove is formed in either of the other. Optical connector. The optical connector according to claim 1 or 2,
The optical connector is characterized in that the alignment portion is formed in a substantially comb-like shape that holds down both the left and right sides of the inclined portion.

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