JPH02273708A - Optical connector - Google Patents

Abstract

PURPOSE:To provide the optical connector which can be coupled to an external connector via an adapter on a back board by constituting an insertion guide in such a manner that the guide can be floated from a housing by a pressurizing spring. CONSTITUTION:A snap 18 for facilitating the coupling to a substrate is provided in the lower part of the housing 13 for gripping the insertion guide 12. The ferrule pressurizing spring 14 which is positioned between the rear end part 11a of the ferrule 11 and a pressing ring 17 mounted behind the same and presses the ferrule 11 in the axial direction is provided. The insertion guide pressurizing spring 15 which is mounted between the rear surface of a stopper 16 provided in the guide 12 and the housing 13 and pressurizes the guide 12 toward the housing 13 is provided. The housing is easily mounted to the substrate in this way and since the insertion guide floats from the housing, the coupling is possible even if the axis is misaligned vertically and laterally from the adapter on the back board.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a floating type optical connector that is used by being attached to a board or the like for interconnecting communication equipment, measuring instruments, etc., including convenience stores.

(Prior Art) Conventionally, electric wires have been used for interconnecting computers, communication devices, measuring instruments, etc., and electrical connectors have been used for these connections.

Electrical connectors generally include round connectors and square connectors, but the square connectors are generally used for those that are connected to the board, inserted into the board and slots in the device, and connected to external connectors via adapters on the backboard. connector is used.

On the other hand, for optical transmission, there are optical connectors, which are easy to operate and have high-density mounting properties. Optical connectors that connect to external connectors have not yet appeared.

(Problems to be Solved) In electrical transmission using conventional electrical connectors, the amount of information that can be transmitted is limited and there is a risk of communication failure, so transmission using optical fibers is desired.

However, the optical connectors currently used for optical communications,
There is no optical connector that is attached to the board, and when the board is inserted, there is a positional shift with respect to the adapter attached to the backboard, but there is no optical connector with a structure that allows for the amount of shift.

(Means for Solving the Problems) The present invention solves the above-mentioned problems and provides an optical connector that realizes transmission using optical fibers, and has the following characteristics:
A ferrule that positions the optical fiber, an insertion guide that is located outside the ferrule and grips it, inserts it into the adapter, and positions it, a ferrule pressure spring that presses the ferrule in the axial direction, and an insertion guide that is attached to the substrate and inserts it into the adapter. It is equipped with a housing that grips the guide, and an insertion guide pressure spring that presses the insertion guide in the axial direction against the housing, and a clearance is provided between the insertion guide and the housing, and the inserter is The reason is that the application guide is configured to float with respect to the housing.

FIG. 1 is an explanatory view of a specific example of the optical connector of the present invention, in which FIG. 1A is a vertical top view, and FIG.

In the drawing, (11) is a multi-core optical fiber tape (
(12) is a ferrule in which the end coating of the ferrule (11) is removed and the exposed optical fiber is positioned and fixed.
) is an insertion guide that is gripped and inserted into the adapter (2) (see Figure 3).The tip (12a) is chamfered and the rear end has a The insertion guide (+2) is the adapter (2)
A stopper (!B) is provided to restrict the position in the length direction when inserted.

(+3) is a handle for gripping the insertion guide (12), and a snap (18) is provided at the bottom to facilitate connection with the board (22) (see Figure 2). . (14) is the rear end of the ferrule (!l) (■3
) and the push ring (17) installed afterwards, is a ferrule pressure spring that presses the ferrule (11') in the axial direction, and (+5) is a stopper (18) provided on the insertion guide (12). and the housing (13)
This is an insertion guide pressurizing spring that is attached between the housing (13) and pressurizes the insert gene guide (12) against the housing (13).

As mentioned above, there is a clearance between the insertion guide (12) and the /S housing (13), and the insertion guide (+2) is pressed against the housing (13) by the insertion guide pressure spring (IS). It is configured in a floating state.

(Function) FIG. 2 is an explanatory view of the coupled state of the optical connector of the present invention shown in FIG. 1, where (A) is a top view and (0) is a side view. In the drawings, (1) is the optical connector of the present invention mounted on the board (22), (2) is the adapter mounted on the backboard (2t), and (3) is the external multi-fiber optical fiber tape ( This is a normal external optical connector attached to the end of A'). In this way, connection of the inner and outer multi-core optical fiber tapes (A) (A') is realized via the adapter (2) mounted on the backboard (21).

In this way, in order to connect the optical connector (1) of the present invention attached to the board (22) with the adapter (2) mounted on the backboard (21), the board (22) must be placed in the rack (Fig. (not shown).

At this time, if the adapter (2) on the back port (21) and the optical connector (1) installed on the board (22) are misaligned in the vertical and horizontal directions, A clearance is provided between the chamfer of the tip (Ua) and the insertion guide (+2) and the housing (+3), and the insertion guide pressure spring (15
) by making the insersillon guide (12) floating with respect to the housing, allowing a positional deviation of ±0.5 fins.

Also, by setting the pressure force of the insertion guide pressure spring (!5) to be thicker than the pressure force of the ferrule pressure spring (!4), for example, the adapter (2) of the optical connector (1)
When the insertion amount is between (center value) and (center value) + 31-, as shown in Figure 3 (a),
), the stopper (IB) contacts the tip of the adapter (2) and does not advance any further, and the connection is performed with a force of approximately 800 g. On the other hand, when the insertion amount of the optical connector (1) into the adapter (2) is (center value) ~ center value) -1 ■■, only the ferrule (!1) is inserted as shown in Figure 3 (0). is retracted in the axial direction to perform the connection, and the bonding force is 800g similar to the above.
It is.

Therefore, even if there is a maximum displacement of 41 cm, the ferrules (11) are connected with the same force.

(Example) An optical connector shown in FIG. 1 was created.

The external dimensions are 9 x 25 x 3 Gm (height x width x length), and there is a 3 x 15 x 10 ferrule inside, to which a 20-core optical fiber ribbon is attached.

The tip of the insertion guide is chamfered 1 mm, and the insertion guide stopper is designed to stop when the insertion guide is inserted into the adapter. A 1 kg insertion guide pressure spring is used, and the insertion guide can be moved in three axial directions. Furthermore, the clearance with the housing has been increased by 1
I set up a blessing.

The ferrule pressure spring used is 800g, 1■l
Moves in the axial direction.

The housing has two snaps and one positioning pin.

(Effects of the Invention) As explained above, according to the optical connector of the present invention, by providing a snap on the housing, it is easy to attach the housing to the board, and the insurge and guide are floating with respect to the housing. Therefore, it can be connected even if there is axis misalignment in the vertical and horizontal directions with respect to the adapter on the backboard.

Furthermore, even if there are variations in the amount of insertion of the optical connector into the adapter, this can be handled because the insertion guide moves in the axial direction with respect to the housing.

Therefore, the optical connector of the present invention is effective in the fields of computers, communication devices, measuring instruments, etc., for internal wiring of devices and interconnection of devices.

[Brief explanation of drawings]

FIG. 1 is an explanatory view of a specific example of the optical connector of the present invention, in which FIG. 1A is a vertical top view, and FIG. 1B is a side view of the upper half of the optical connector. FIG. 2 is an explanatory view of the coupled state of the optical connector shown in FIG. 1, where (A) is a top view and (0) is a side view. FIGS. 3(A) and 3(1) are explanatory views of how the optical connector shown in FIG. 1 is inserted into the adapter. 1... Optical connector of the present invention, 11... Ferrule,
! 2... Insertion guide, 13... Housing, +4... Ferrule pressure spring, +5... Insertion guide pressure spring, IB... Stopper 17
... Push ring! 8...Snap 1 21...Backboard, 22...Substrate. Figure (A) (1) 1C Invention Optical Connector) Toru (A) Figure

Claims (3)

[Claims] (1) In an optical connector that is attached to a board, etc. and enables connection to an external optical connector via an adapter attached to a backboard, a ferrule with an optical fiber positioned thereon, and an adapter that is positioned outside the ferrule and grips it. An insertion guide that is inserted into the ferrule for positioning, a ferrule pressure spring that presses the ferrule in the axial direction, a housing that is attached to the board and that grips the insertion guide,
and an insertion guide pressure spring that presses the insertion guide against the housing in the axial direction, a clearance is provided between the insertion guide and the housing, and the insertion guide pressure spring presses the insertion guide against the housing. An optical connector characterized by having a floating configuration. (2) The optical connector according to claim (1), wherein the pressure force of the insertion guide pressure spring is greater than the pressure force of the ferrule pressure spring. (3) The optical connector according to claim (1), wherein the insertion guide is provided with a stopper for the adapter.