JP6993915B2 - Optical connector cleaning tool - Google Patents

Description

The present invention relates to an optical connector cleaning tool.

The connection of the optical connector is realized by abutting the ends of the optical fiber on the connection end face of the ferrule. At this time, if the connection end face is dirty, the connection end face may be damaged when the optical connector is connected, or the transmission loss may increase. Therefore, the connection end face is cleaned by using an optical connector cleaning tool.

As such an optical connector cleaning tool, for example, Patent Document 1 and Patent Document 2 describe an optical connector cleaning having a housing (support) and a movable portion (support portion) movably provided with respect to the housing. The tool is disclosed. Further, a supply reel and a take-up reel of the cleaning body are incorporated in the movable portion, and a head member for pressing the cleaning body against the connection end surface is provided. According to this optical connector cleaning tool, the moving part moves with respect to the housing while the cleaning body is pressed against the connection end surface by the head member, so that the cleaning body is sent in the optical connector cleaning tool and the connection end surface is pressed. Can be wiped off with a cleaning body. That is, according to the optical connector cleaning tool disclosed in Patent Document 1 and Patent Document 2, the cleaning body becomes a take-up reel by rotating the take-up reel by utilizing the relative movement between the housing and the movable part. It is taken up. Then, the same amount of cleaning body as the amount wound on the take-up reel is supplied from the supply reel, and the supplied cleaning body moves on the head member and is used for cleaning the connection end face.

Japanese Patent No. 4579330 Japanese Patent No. 4779049

In the movable portion of the optical connector cleaning tool disclosed in Patent Document 1 and Patent Document 2, the head member is urged to the front side with respect to the take-up reel by a spring (urging means) arranged at the rear portion of the head member. At the same time, it can be retracted with respect to the take-up reel. Therefore, when the head member retracts against the urging force of the spring, the distance from the head member to the take-up reel becomes closer by the amount of movement of the head member with respect to the take-up reel. At this time, the cleaning body hung between the head member and the take-up reel may loosen. Then, even if the take-up reel rotates, the loose part of the cleaning body is taken up. As a result, the amount of the cleaning body sent to the head member is reduced, so that the amount of the cleaning body that moves on the head member while the cleaning body is pressed against the connection end face is also reduced, and the connection end face is appropriately used. Sometimes I couldn't wipe it off.

An object of the present invention is to provide an optical connector cleaning tool capable of appropriately wiping a connection end face when cleaning an optical connector.

Some embodiments of the present invention are optical connector cleaning tools having a housing and a movable portion movably provided with respect to the housing, wherein the movable portion presses a cleaning body against the optical connector. A head unit including a head portion and a take-up reel for winding the cleaning body sent out from the head portion, and the head unit are movably accommodated in a direction in which the movable portion moves with respect to the housing. Cleaning of an optical connector provided between the movable housing and the head unit and the movable housing, and provided with a pressing spring for pressing the head portion with a predetermined pressure against the optical connector. It is a tool.

Other features of the present invention will be clarified by the description of the description and drawings described later.

According to some embodiments of the present invention, the connection end face can be appropriately wiped off when cleaning the optical connector.

FIG. 1A is an overall perspective view of the optical connector cleaning tool 10 of the present embodiment. FIG. 1B is a perspective view of the optical connector cleaning tool 10 of the present embodiment with the cover 20 removed. FIG. 2A is a plan view of the optical connector cleaning tool 10 in a normal state. FIG. 2B is a plan view of the optical connector cleaning tool 10 in the pushed state. FIG. 2C is an explanatory diagram of a cleaning operation. FIG. 3 is an exploded perspective view of the optical connector cleaning tool 10 of the present embodiment. FIG. 4A is a plan view of the movable portion 30 of the present embodiment when the head 50 is pressed against the connection end surface 92. FIG. 4B is a plan view of the movable portion 30 of the present embodiment in a predetermined pressed state. FIG. 4C is a plan view of the movable portion 30 of the present embodiment in the pushed state. FIG. 5A is a plan view of the movable portion 30 of the comparative example in the normal state. FIG. 5B is a plan view of the movable portion 30 of the comparative example in the predetermined pressed state. FIG. 6A is a plan view of the movable portion 30 of the modified example in the normal state. FIG. 6B is a plan view of the movable portion 30 of the modified example in the predetermined pressed state.

At least the following matters will be clarified from the description of the specification and the drawings described later.

An optical connector cleaning tool having a housing and a movable portion movably provided with respect to the housing, wherein the movable portion is sent out from a head portion that presses a cleaning body against the optical connector and a head portion. A head unit including a take-up reel for winding the cleaning body, a movable housing for accommodating the head unit so as to be movable in a direction in which the movable portion moves with respect to the housing, and the head unit and the movable portion. An optical connector cleaning tool provided between the housing and the optical connector is provided with a pressing spring for pressing the head portion with a predetermined pressure against the optical connector. According to such an optical connector cleaning tool, the connection end face can be appropriately wiped off when cleaning the optical connector.

The head portion includes a head that presses the cleaning body against the ferrule of the optical connector, and a rotating body that rotates the head around the central axis of the head while the cleaning body is pressed against the ferrule by the head. It is desirable that the rotating body is pressed toward the ferrule side together with the head by the pressing spring. As a result, the connection end face can be appropriately wiped off when cleaning the optical connector.

It is desirable that the end of the pressing spring on the side where the cleaning body is pressed against the optical connector is held by the head unit, and the other end is held by the movable housing. As a result, it is only necessary to compress the pressing spring as the head unit retracts, so that the pressing spring can be easily held between the head unit and the movable housing.

It is desirable that the end of the pressing spring on the side where the cleaning body is pressed against the optical connector is held by the movable housing, and the other end is held by the head unit. As a result, the connection end face can be appropriately wiped off when cleaning the optical connector.

It is desirable to further have a restoring spring provided between the movable housing and the housing to restore the positional relationship between the movable portion and the housing. This allows the movable part to easily return to its original position after moving with respect to the housing.

It is desirable that the spring constant of the pressing spring is smaller than the spring constant of the restoring spring. As a result, the movable portion can move with respect to the housing after the pressing spring is in a state of pressing the cleaning body around the head with a predetermined pressing force against the optical connector.

It is desirable that the restoring spring begins to expand and contract before the pressing spring reaches the limit of expansion and contraction. As a result, when the movable portion starts to move with respect to the housing, it is possible to maintain a state in which the pressing spring presses the cleaning body around the head with a predetermined pressing force against the optical connector.

=== This embodiment ===
<Overview of optical connector cleaning tool>
-Overall configuration FIG. 1A is an overall perspective view of the optical connector cleaning tool 10 of the present embodiment. FIG. 1B is a perspective view of the optical connector cleaning tool 10 of the present embodiment with the cover 20 removed.

In the following description, each direction is defined as shown in the figure. That is, the direction in which the movable portion 30 extends from the housing 25 (or the direction in which the movable portion 30 moves with respect to the housing 25) is defined as the "front-back direction", and the side of the movable portion 30 as viewed from the housing 25 is defined as "front". , The other side is "rear". Further, the axial direction of the take-up reel support shaft 38 (see FIG. 3, not shown in FIGS. 1A and 1B) of the take-up reel 42 in the movable portion 30 is set to "vertical direction", and is viewed from the take-up reel 42. The side provided with the pinion 44 (see FIG. 3, not shown in FIGS. 1A and 1B) is referred to as "upper" and the opposite side is referred to as "lower". Further, the direction orthogonal to the "front-back direction" and the "vertical direction" is defined as the "left-right direction", the right side when viewed from the front to the rear is defined as "right", and the opposite side is defined as "left". Although not shown, the terms "upstream" and "downstream" may be used according to the feeding direction of the cleaning body.

The optical connector cleaning tool 10 is a tool for cleaning the connection end surface of the ferrule of the optical connector and the end portion of the optical fiber held by the ferrule. In the following description, the optical connector cleaning tool may be simply referred to as a "cleaning tool". The cleaning tool 10 has a cover 20, a housing 25, a movable portion 30, and a restoration spring 31.

The cover 20 is a member that accommodates the housing 25 and a part (rear side portion) of the movable portion 30. As shown in FIG. 1B, an opening 21 is provided on the front side of the cover 20. A part (front side portion) of the movable portion 30 extends from the opening 21 of the cover 20. Further, a locking hole 22 is provided on the rear side of the cover 20. Then, the housing 25 is locked to the cover 20 by latching the locking convex portion 26 of the housing 25 into the locking hole 22 of the cover 20. The cover 20 may be integrally formed with the housing 25. Further, the cover 20 may not be provided. At this time, when cleaning the optical connector using the cleaning tool 10, the operator directly holds the housing 25.

The housing 25 is a member that retractably accommodates the movable housing 32 (described later) of the movable portion 30. The housing 25 has a locking convex portion 26, a restoring spring receiving portion 27, a rack 28, and an inserting portion 29 (for the restoring spring receiving portion 27, the rack 28, and the inserting portion 29, see FIG. 3, FIG. 1A. And (not shown in FIG. 1B).

The locking protrusion 26 is a portion that latches into the locking hole 22 of the cover 20. As described above, the housing 25 is locked to the cover 20 by the locking protrusion 26 latching on the locking hole 22. Further, the restoration spring receiving portion 27 is a portion that holds one end of the restoration spring 31. The restoration spring receiving portion 27 is provided on the inner wall surface on the rear side of the housing 25, and is in contact with one end (rear end portion) of the restoration spring 31. Further, the rack 28 is a portion constituting the rack and pinion mechanism together with the pinion 44 of the head unit 40 described later. The rack 28 is provided on the upper inner wall surface of the housing 25. By moving the rack 28 relative to the pinion 44 in the front-rear direction, a rotational force is applied to the pinion 44 around the take-up reel support shaft 38. Further, the insertion portion 29 is a portion constituting the rotation mechanism together with the cam groove 54 provided in the rotating body 51 of the head unit 40. The insertion portion 29 moves relative to the rotating body 51 in the front-rear direction while being fitted in the cam groove 54, thereby applying a rotational force around the central axis of the rotating body 51.

The movable portion 30 is a member that can move in the front-rear direction with respect to the housing 25. As described above, the movable portion 30 is housed in the cover 20 and the housing 25, and the front portion of the movable portion 30 extends from the opening 21 of the cover 20. As shown in FIGS. 1A and 1B, the front side portion of the movable portion 30 extending from the opening 21 of the cover 20 is covered with the outer guide cylinder 60 and the inner guide cylinder 61.

The outer guide cylinder 60 and the inner guide cylinder 61 are members that serve as guides when the head of the cleaning tool around which the cleaning body is hung is inserted into the insertion port of the optical connector to be cleaned. The outer guide cylinder 60 and the inner guide cylinder 61 are attached to the movable housing 32 (described later) of the movable portion 30. Since the cleaning tool 10 of the present embodiment has the outer guide cylinder 60 and the inner guide cylinder 61, the cleaning body is accurately opposed to various cleaning objects such as an optical connector plug, an optical connector receptacle, and an optical connector adapter. be able to. The outer guide cylinder 60 and the inner guide cylinder 61 may be integrally formed with the movable housing 32 of the movable portion 30. Further, the outer guide cylinder 60 and the inner guide cylinder 61 may not be provided.

The outer guide cylinder 60 is a cylindrical member that covers the inner guide cylinder 61. The outer guide cylinder 60 is formed to be hollow, and the inner guide cylinder 61 is inserted in the front-rear direction. An outer end surface 62 is provided on the front side of the outer guide cylinder 60. In the cleaning tool 10 of the present embodiment, when the outer end surface 62 is pushed to the rear side when cleaning the optical connector, the movable portion 30 to which the outer guide cylinder 60 is attached also moves to the rear side, whereby the movable portion 30 is moved. Will move backward with respect to the housing 25. Further, the inner guide cylinder 61 is a cylindrical member that covers the front side portion of the movable portion 30. The detailed configuration of the movable portion 30 will be described later.

The restoration spring 31 is an elastic member for restoring the positional relationship between the housing 25 and the movable portion 30. The restoration spring 31 is arranged between the housing 25 and the movable housing 32 (described later) of the movable portion 30. Specifically, the front end portion of the restoration spring 31 is held by the restoration spring receiving portion 35 of the movable housing 32, and the rear end portion of the restoration spring 31 is held by the restoration spring receiving portion 27 of the housing 25. ing. When the movable portion 30 moves to the rear side with respect to the housing 25 when cleaning the optical connector, the movable housing 32 moves to the rear side with respect to the housing 25, and the restoration spring 31 is compressed and deformed. When the compression-deformed restoration spring 31 is restored, the movable housing 32 moves forward with respect to the housing 25 and returns to the original position, and the movable portion 30 moves forward with respect to the housing 25 and returns to the original position. It will be. Since the cleaning tool 10 has the restoration spring 31, the movable portion 30 can easily return to the original position after moving with respect to the housing 25.

-Push operation and pull operation FIG. 2A is a plan view of the optical connector cleaning tool 10 in a normal state. FIG. 2B is a plan view of the optical connector cleaning tool 10 in the pushed state. FIG. 2C is an explanatory diagram of a cleaning operation.

As described above, the movable portion 30 is provided so as to be movable in the front-rear direction with respect to the housing 25. Further, the movable portion 30 expands and contracts in the front-rear direction with respect to the cover 20 to which the housing 25 is locked. In the following description, when referring to the movement of the movable portion 30 with respect to the housing 25 in the front-rear direction, the movement of the movable portion 30 with respect to the cover 20 to which the housing 25 is locked may be included.

As shown in FIG. 2A, a state in which the movable portion 30 does not move backward with respect to the housing 25 may be referred to as a “normal state”. After the movable portion 30 moves backward with respect to the housing 25, the compression-deformed restoration spring 31 is restored, and the movable portion 30 moves forward with respect to the housing 25 and returns to the original position. Is also in the "normal state". Further, as shown in FIG. 2B, a state in which the movable portion 30 moves backward with respect to the housing 25 may be referred to as a “push state”.

In the push state, the movable portion 30 is retracted into the housing 25 more than in the normal state. In FIG. 2B, the movable portion 30 is drawn to move toward the rear side, but in the actual cleaning operation, as shown in FIG. 2C, the housing 25 moves toward the front side toward the movable portion 30. There is. However, in order to simplify the explanation of the configuration and operation of the cleaning tool 10, as shown in FIG. 2B, the movable portion 30 may be moved toward the rear side for explanation.

As shown in FIG. 2C, when cleaning the optical connector 90 using the cleaning tool 10 of the present embodiment, the operator holds the housing 25 through the cover 20 and attaches the head 50 of the movable portion 30 to the optical connector 90. Insert and press the cleaning body hung around the head 50 against the connection end surface 92 of the ferrule 91 in the optical connector 90, and move the cover 20 (housing 25) toward the optical connector 90 side in that state. (Push operation). As a result, the cleaning tool 10 changes from the normal state of FIG. 2A to the push state of FIGS. 2B and 2C. Further, the operator moves the holding cover 20 (housing 25) to the rear side in order to pull out the head 50 inserted in the optical connector 90 and take out the cleaning tool 10 (pull operation). As a result, the cleaning tool 10 returns from the push state of FIGS. 2B and 2C to the normal state of FIG. 2A.

In this way, the operator performs a push operation and a pull operation in one cleaning operation. In the push operation, the cover 20 (housing 25) moves to the front side with respect to the movable portion 30 (when viewed from the cover 20 (housing 25) side, the movable portion 30 approaches the cover 20 (housing 25). Will move). In the pull operation, the cover 20 (housing 25) moves to the rear side with respect to the movable portion 30 (when viewed from the cover 20 (housing 25) side, the movable portion 30 is separated from the cover 20 (housing 25). Will move to).

The cover 20 (housing 25) and the movable portion 30 move relative to each other in the front-rear direction by the push operation and the pull operation performed by the operator. The cleaning tool 10 of the present embodiment utilizes the relative movement (linear motion) between the cover 20 (housing 25) and the movable portion 30 to supply an unused cleaning body and wind a used cleaning body. I'm taking it.

<Movable part>
-Detailed configuration FIG. 3 is an exploded perspective view of the optical connector cleaning tool 10 of the present embodiment.

As described above, the movable portion 30 is provided so as to be movable in the front-rear direction with respect to the housing 25. The movable portion 30 has a movable housing 32, an accommodating body 33, a pressing spring 34, and a head unit 40.

The movable housing 32 is a member that retractably accommodates the accommodating body 33. An outer guide cylinder 60 is attached to the front end of the movable housing 32. The movable housing 32 is provided with a restoring spring receiving portion 35 and a pressing spring receiving portion 36. The restoration spring receiving portion 35 is provided on the outer wall surface on the rear side of the movable housing 32, and is in contact with one end (front end portion) of the restoration spring 31. The pressing spring receiving portion 36 is provided on the inner wall surface on the rear side of the movable housing 32, and is in contact with one end (rear end portion) of the pressing spring 34.

The accommodating body 33 is a member that accommodates a part of the head unit 40 (the take-up reel 42, the supply reel 43, and the rotating cylinder portion 53 of the rotating body 51). The accommodating body 33 is provided with a pressing spring receiving portion 37, a take-up reel support shaft 38, and a supply reel support shaft 39. The pressing spring receiving portion 37 is provided on the outer wall surface on the rear side of the accommodating body 33, and is in contact with one end (front end portion) of the pressing spring 34. The take-up reel support shaft 38 is a portion that rotatably supports the take-up reel 42 and the pinion 44. The supply reel support shaft 39 is a portion that rotatably supports the supply reel 43. The take-up reel support shaft 38 and the supply reel support shaft 39 are provided in the accommodating body 33 with the take-up reel support shaft 38 on the rear side and the supply reel support shaft 39 on the front side. The supply reel support shaft 39 may be provided on the front side and the rear side. Further, the take-up reel support shaft 38 and the supply reel support shaft 39 may be provided in other arrangements. The housing 33 may not be provided. At this time, one end (front end portion) of the pressing spring 34 is directly held by the head unit 40.

The pressing spring 34 is an elastic member for pressing the head unit 40 housed in the housing body 33 to the front side. The pressing spring 34 is arranged between the head unit 40 housed in the housing body 33 and the movable housing 32. Specifically, the front end portion of the pressing spring 34 is held by the pressing spring receiving portion 37 of the accommodating body 33, and the rear end portion of the pressing spring 34 is held by the pressing spring receiving portion 36 of the movable housing 32. Has been done. When the optical connector is cleaned, the pressing spring 34 is elastically deformed, so that the cleaning body hung around the head 50 with a predetermined pressing force can be pressed against the connection end surface of the ferrule of the optical connector.

The end of the pressing spring 34 on the side where the cleaning body is pressed against the connection end surface of the ferrule of the optical connector (front side in FIG. 3) is held on the head unit 40 side (pressing spring receiving portion 37 of the accommodating body 33). The other end (rear side in FIG. 3) is held by the movable housing 32. As a result, when the optical connector is cleaned, the pressing spring 34 is compressed and deformed as the head unit 40 retracts (described later). As shown in FIGS. 6A and 6B described later, by changing the arrangement of the pressing spring 34 and utilizing the elastic force due to the tensile force, the cleaning body hung around the head 50 with a predetermined pressing force is attached to the optical connector. It can also be pressed against the connecting end face of the ferrule. However, in the present embodiment, by providing the pressing spring 34 so as to compress and deform it, it is possible to simplify the shape of the part that holds the pressing spring 34 as compared with the case of tension. That is, the pressing spring can be easily held between the head unit 40 (the pressing spring receiving portion 37 of the accommodating body 33) and the movable housing 32.

The head unit 40 is a member that presses the cleaning body against the connection end surface of the ferrule of the optical connector and supplies and collects the cleaning body. The head unit 40 includes a head portion 41, a take-up reel 42, and a supply reel 43.

The head portion 41 is a member that presses the cleaning body against the connection end surface of the ferrule of the optical connector. The head portion 41 has a head 50 and a rotating body 51.

The head 50 is a portion where the cleaning body is pressed against the connection end surface of the ferrule of the optical connector to be cleaned. The head 50 is housed inside the inner guide cylinder 61. The head 50 is provided on the front side of the head portion 41, and is connected to the head support portion 52 (described later) of the rotating body 51 on the rear side. The front end of the head 50 is provided with a pressing surface for pressing the cleaning body against the object to be cleaned. A cleaning body supplied from the supply reel 43 is hung around the pressing surface of the head 50. The cleaning body hung on the pressing surface of the head 50 is wound on the take-up reel 42.

The rotating body 51 is a portion that swings and rotates (reciprocates) about the front-rear direction, and is a portion that rotates the head 50. That is, the rotating body 51 is a portion for rotating the head 50 around the central axis of the head 50. The rotating body 51 includes a head support portion 52 and a rotating cylinder portion 53.

The head support portion 52 is a portion that supports the head 50. The head support portion 52 is provided on the front side of the rotating body 51, and is connected to the rotating cylinder portion 53 on the rear side. The head support portion 52 is provided so as to extend forward from the accommodating body 33. The head support portion 52 is housed inside the inner guide cylinder 61. Further, the head support portion 52 supports the head 50 so that the head 50 can be retracted when the cleaning body is pressed against the optical connector. Further, the head support portion 52 is elastically deformed by the pressing spring 34 when the optical connector is cleaned, so that the head support portion 52 is pressed together with the head 50 toward the connection end face side of the ferrule of the optical connector by a predetermined pressing force. Further, the head support portion 52 supports the head 50 while restricting (restricting) the relative movement in the rotation direction so as not to relatively move in the rotation direction between the head support portion 52 and the head 50. As a result, when the rotating body 51 rotates about the front-rear direction, the head 50 also rotates together with the rotating body 51.

The rotary cylinder portion 53 is a cylindrical portion that swings and rotates (reciprocates) about the front-back direction. The rotary cylinder portion 53 is housed inside the housing body 33 so as to be swingable and rotatable about the front-rear direction. Further, the rotary cylinder portion 53 is housed inside the housing body 33 so as to be restricted from moving in the front-rear direction. The rotary cylinder portion 53 is provided with a spiral cam groove 54 on the outer peripheral surface. The cam groove 54 constitutes a rotation mechanism together with the insertion portion 29. When the insertion portion 29 fitted in the cam groove 54 moves relative to the rotary cylinder portion 53 in the front-rear direction, the cam groove 54 receives a rotational force that rotates about the front-rear direction from the insertion portion 29. , The rotary cylinder portion 53 (rotating body 51) rotates. The rotary cylinder portion 53 is formed to be hollow, and an unused cleaning body supplied from the supply reel 43 to the head 50 is inserted in the front-rear direction and collected from the head 50 to the take-up reel 42. A used cleaning body is inserted in the front-back direction.

The take-up reel 42 is a reel for taking up and collecting a used cleaning body. A pinion 44 that transmits rotational motion to the take-up reel 42 is attached to the take-up reel 42. The pinion 44 is a circular gear that constitutes a rack and pinion mechanism together with the rack 28 of the housing 25. When the rack 28 moves relative to the pinion 44 in the front-rear direction, the take-up reel 42 to which the pinion 44 is attached also rotates by receiving the rotational force from the rack 28. Further, the supply reel 43 is a reel for supplying an unused cleaning body. An unused cleaning body is wound around the supply reel 43.

Pressing operation FIG. 4A is a plan view of the movable portion 30 of the present embodiment when the head 50 is pressed against the connection end surface 92. FIG. 4B is a plan view of the movable portion 30 of the present embodiment in a predetermined pressed state. FIG. 4C is a plan view of the movable portion 30 of the present embodiment in the pushed state.

In the following description, a state in which the cleaning body hung around the head 50 with a predetermined pressing force is pressed against the connection end surface of the ferrule of the optical connector by elastically deforming the pressing spring 34 of the movable portion 30 is described as “predetermined”. It may be called "pressed state". When cleaning the optical connector 90 using the cleaning tool 10 of the present embodiment, the operator first holds the housing 25 through the cover 20, and as shown in FIG. 4A, the head 50 of the movable portion 30 is attached to the optical connector 90. insert. Then, the cleaning tool 10 is moved in the direction in which the cleaning body hung around the head 50 is pressed against the connection end surface 92 of the ferrule 91 in the optical connector 90. In the state shown in FIG. 4A, the head 50 is in the stage of starting to be inserted into the optical connector 90, and the cleaning body hung around the head 50 of the cleaning tool 10 is the connection end surface 92 of the ferrule 91 in the optical connector 90. It is in a state where it is not in contact with the light. Further, the cleaning tool 10 is in a state in which the movable portion 30 does not move backward with respect to the housing 25 (normal state shown in FIG. 2A described above).

The operator further moves the cleaning tool 10 toward the optical connector 90 side from the state shown in FIG. 4A. Then, the head 50 of the cleaning tool 10 moves toward the ferrule 91 of the optical connector 90, and the cleaning body hung around the head 50 of the cleaning tool 10 with respect to the connection end surface 92 of the ferrule 91 in the optical connector 90. Contact. When the operator further moves the cleaning tool 10 toward the optical connector 90 side, the entire head portion 41 having the head 50 and the rotating body 51 receives a force rearward from the abutting ferrule 91. As described above, the rotary cylinder portion 53 of the head portion 41 is accommodated in the accommodating body 33, so that the movement in the front-rear direction with respect to the accommodating body 33 is restricted. Therefore, when the front end surface of the head 50 receives a force rearward from the ferrule 91, the entire accommodating body 33 including the head unit 40 receives the force rearward. A pressing spring 34 is held in the rear portion of the accommodating body 33, and the entire accommodating body 33 including the head unit 40 receives a rearward force to compress the pressing spring 34 located at the rear portion of the accommodating body 33. transform.

In the cleaning tool 10 of the present embodiment, the pressing spring 34 is compressed and deformed to urge the entire housing 33 including the head unit 40 to the front side. Then, the operator moves the cleaning tool 10 toward the optical connector 90 side, and when the pressing spring 34 reaches a predetermined compression amount, the predetermined pressing state is reached. At this time, the length of the pressing spring 34 is compressed from D1 shown in FIG. 4A to D2 shown in FIG. 4B. Note that FIG. 4B shows a state in which the pressing spring 34 has reached a predetermined compression amount (difference between D1 and D2), and the cleaning body hung around the head 50 with a predetermined pressing force is attached to the optical connector 90. Shows a predetermined pressing state of pressing against the connection end surface 92 of the ferrule 91.

In the present embodiment, when the state shown in FIG. 4A (normal state) is changed to the state shown in FIG. 4B (predetermined pressing state), the entire housing 33 including the head unit 40 is rearward with respect to the movable housing 32. Moving. At this time, since the head portion 41, the take-up reel 42, and the supply reel 43 constituting the head unit 40 are still housed in the housing body 33, the movable housing 32 does not change the positional relationship in the front-rear direction with respect to the movable housing 32. Move backwards together. In particular, when the accommodating body 33 moves rearward with respect to the movable housing 32, the distance from the supply reel 43 to the head 50 (head portion 41) and the distance from the head 50 (head portion 41) to the take-up reel 42 are does not change. As a result, when shifting from the state shown in FIG. 4A (normal state) to the state shown in FIG. 4B (predetermined pressing state), the space between the supply reel 43 and the head 50 (head portion 41) and the head 50 ( The tension of the cleaning body passed between the head portion 41) and the take-up reel 42 does not decrease, but is maintained at a predetermined tension. Therefore, it is possible to prevent the cleaning body hung in this way from loosening.

The operator further moves the cleaning tool 10 toward the optical connector 90 side from the state shown in FIG. 4B. Then, the outer end surface 62 of the outer guide cylinder 60 of the cleaning tool 10 comes into contact with the optical connector 90. When the operator further moves the cleaning tool 10 toward the optical connector 90 side, the movable portion 30 attached to the outer guide cylinder 60 receives a force rearward from the optical connector 90. Therefore, when the movable portion 30 receives a force rearward from the optical connector 90, the movable portion 30 moves backward with respect to the housing 25. Then, the above-mentioned rack and pinion mechanism converts the linear motion of the movable portion 30 with respect to the housing 25 into a rotational motion in the winding direction of the winding reel 42 via the pinion 44. As a result, the cleaning body is wound on the take-up reel 42.

FIG. 4C shows a push state in which the movable portion 30 moves backward with respect to the housing 25. At this time, the length of the restoration spring 31 is compressed from D3 shown in FIG. 4B to D4 shown in FIG. 4C. Further, the movable portion 30 is closer to the housing 25 by the amount of compression (difference between D3 and D4) of the restoration spring 31. The rack and pinion mechanism converts the movable portion 30 into a rotational motion in the winding direction of the take-up reel 42 via the pinion 44 by the amount of the movable portion 30 close to the housing 25 (difference between D3 and D4). become.

As described above, when the state shown in FIG. 4A (normal state) is changed to the state shown in FIG. 4B (predetermined pressing state), the head portion 41 receives a rearward force from the ferrule 91 with which the head portion 41 abuts. The entire housing 33 including the head unit 40 moves rearward with respect to the movable housing 32. On the other hand, when shifting from the state shown in FIG. 4B (predetermined pressing state) to the state shown in FIG. 4C (pushing state), the movable housing 32 attached to the outer guide cylinder 60 forces a force rearward from the optical connector 90. The housing 33 (head unit 40) housed inside the movable housing 32 alone is not subjected to a force in a direction of further rearward movement with respect to the movable housing 32. Even when the state shown in FIG. 4B (predetermined pressing state) is changed to the state shown in FIG. 4C (pushing state), the predetermined pressing state is maintained. Further, even when shifting from the state shown in FIG. 4B (predetermined pressing state) to the state shown in FIG. 4C (push state), the space between the supply reel 43 and the head 50 (head portion 41) and the head 50 ( The tension of the cleaning body passed between the head portion 41) and the take-up reel 42 does not decrease, but is maintained at a predetermined tension. In the present embodiment, the amount of the cleaning body that moves on the head 50 (head portion 41) while the cleaning body is pressed against the connection end face by being able to wind up the cleaning body while being maintained at a predetermined tension. The connection end face 92 of the ferrule 91 of the optical connector 90 can be appropriately wiped off.

In the cleaning tool 10 of the present embodiment, the spring constant of the pressing spring 34 is smaller than the spring constant of the restoring spring 31. As a result, the pressing spring 34 is first compressed and deformed to a predetermined pressing state, and then the restoring spring 31 is compressed and deformed, and the movable portion 30 moves backward with respect to the housing 25. Can be started. That is, it is possible to shift to the push state after reaching a predetermined pressing state. As a result, the cleaning body can be pressed against the connection end surface 92 of the ferrule 91 of the optical connector 90 with a predetermined pressing force and can be appropriately wiped off.

In the cleaning tool 10 of the present embodiment, the restoration spring 31 begins to expand and contract before the expansion and contraction limit of the pressing spring 34 is reached. Specifically, during the transition from the state shown in FIG. 4B (predetermined pressing state) to the state shown in FIG. 4C (push state), the pressing spring 34 elastically deforms without reaching the elastic proportional limit. It remains in good condition. In the present embodiment, the movable housing 32 attached to the outer guide cylinder 60 receives a force rearward from the optical connector 90 after the predetermined pressing state is reached and before the pressing spring 34 reaches the elastic proportional limit. start. As a result, when the movable portion 30 starts to move with respect to the housing 25, the pressing spring 34 can maintain a state in which the cleaning body hung around the head 50 with a predetermined pressing force is pressed against the optical connector. can.

Feed mechanism As described above, the rack and pinion mechanism including the rack 28 of the housing 25 and the pinion 44 of the head unit 40, the take-up reel 42, and the supply reel 43 constitute a feed mechanism. The feeding mechanism uses the relative movement between the housing 25 and the movable portion 30 during cleaning to supply an unused cleaning body to the head 50 and collect the used cleaning body. However, the feeding mechanism may supply and collect the cleaning body by another method. For example, a disk-shaped dial may be provided so that the operator can turn the dial to supply and collect the cleaning body. If the cleaning tool 10 is provided with such a feed mechanism, it is not necessary to move the housing 25 and the movable portion 30 relative to each other in the front-rear direction.

Rotation mechanism As described above, the insertion portion 29 provided in the housing 25 and the cam groove 54 provided in the rotating body 51 of the head unit 40 form a rotation mechanism. The rotation mechanism rotates the head 50 around the central axis of the head 50 by utilizing the relative movement between the housing 25 and the movable portion 30 at the time of cleaning. Since the head 50 rotates around the central axis of the head 50 due to the rotation of the rotation mechanism, the cleaning body hung around the head 50 remains pressed against the connection end surface 92 of the ferrule 91 of the optical connector 90, and the head 50 is pressed. The connection end face 92 will be wiped off by rotating around the central axis of. However, the rotation mechanism may rotate the head 50 by another method. Further, the cleaning tool 10 may not be provided with a rotation mechanism (rotating body 51 and insertion portion 29 of the housing 25).

<Comparison example>
FIG. 5A is a plan view of the movable portion 30 of the comparative example in the normal state. FIG. 5B is a plan view of the movable portion 30 of the comparative example in the predetermined pressed state.

In the cleaning tool 10 of the present embodiment described above, the housing 33 is housed in the movable housing 32 so as to be retractable. The take-up reel 42 and the supply reel 43 are rotatably supported by the take-up reel support shaft 38 and the supply reel support shaft 39 provided in the accommodating body 33, respectively, and the take-up reel 42 and the supply reel 43 are also supported. It was possible to retract with respect to the movable housing 32. On the other hand, in the cleaning tool 10 of this comparative example, the take-up reel 42 and the supply reel 43 are rotatably supported by the take-up reel support shaft 38 and the supply reel support shaft 39 provided in the movable housing 32, respectively. There is. Therefore, in this comparative example, the take-up reel 42 and the supply reel 43 cannot be retracted with respect to the movable housing 32. That is, the take-up reel 42 and the supply reel 43 are fixed to the movable housing 32.

Further, in the cleaning tool 10 of the present embodiment described above, the pressing spring 34 presses the head 50 housed in the housing 33 forward in the movable housing 32. On the other hand, in the cleaning tool 10 of this comparative example, the pressing spring 34 is arranged between the head 50 and the movable housing 32. Specifically, the front end portion of the pressing spring 34 is held by the flange portion of the head 50, and the rear end portion of the pressing spring 34 is held by the pressing spring receiving portion 36 of the movable housing 32.

In this comparative example, the pressing spring 34 is compressed and deformed by pressing the head 50 toward the front side (the ferrule 91 side of the optical connector 90) from the cleaning tool 10 in the normal state shown in FIG. 5A. As a result, the cleaning body 1 hung around the head 50 with a predetermined pressing force shown in FIG. 5B can be pressed against the connection end surface 92 of the ferrule 91 of the optical connector 90.

By the way, inside the cleaning tool 10, the cleaning body 1 is supplied from the supply reel 43, hung on the head 50, and then wound on the take-up reel 42. In this comparative example, the distance between the supply reel 43 and the head 50 and the distance from the head 50 to the take-up reel 42 are due to the expansion and contraction of the pressing spring 34 located between the take-up reel 42 and the head 50. The distance will also expand and contract. Specifically, the length of the pressing spring 34 in the front-rear direction in the normal state (D5 shown in FIG. 5A) and the length of the pressing spring 34 in the front-rear direction in the predetermined pressing state (D6 shown in FIG. 5B). By the difference, the distance from the supply reel 43 to the head 50 and the distance from the head 50 to the take-up reel 42 are shortened from the normal state (D7 shown in FIG. 5A) to the predetermined pressing state (D8 shown in FIG. 5B). turn into.

Before the cleaning tool 10 returns to the normal state, the cleaning body 1 of the head 50 is sandwiched between the head 50 and the ferrule 91 of the optical connector 90, and the cleaning body 1 on the downstream side of the head 50 is sandwiched between the head 50 and the ferrule 91 of the optical connector 90. It is difficult to be fed back to the upstream side of the head 50. On the other hand, in the cleaning tool 10 when the predetermined pressing state is changed from the normal state, the movable portion 30 does not move with respect to the housing 25. Therefore, neither the pinion 44 nor the take-up reel 42 is transmitted to the rotational motion. Therefore, the take-up reel 42 is in a state where the cleaning body 1 cannot be taken up.

Therefore, as shown in FIG. 5B, in the cleaning body 1, the head 50 and the take-up reel 42 are close to each other (the difference between D7 shown in FIG. 5A and D8 shown in FIG. 5B), that is, the pressing spring. The cleaning body 1 is loosened by the amount of compression deformation of 34 (difference between D5 shown in FIG. 5A and D6 shown in FIG. 5B).

When the movable portion 30 is further moved with respect to the housing 25 from the state shown in FIG. 5B, the cleaning tool 10 shifts to the push state, and the cleaning body 1 is wound on the take-up reel 42. However, in the cleaning tool 10 of the comparative example, the cleaning body 1 in a loosened state on the downstream side of the head 50 is wound up. As a result, the amount of the cleaning body 1 sent to the head 50 in a state where the cleaning body is pressed against the connection end face is reduced, so that the amount of the cleaning body 1 moving on the head 50 is also reduced, and the connection end face is reduced. It will not be possible to wipe it properly.

However, in the present embodiment described above, the pressing spring 34 is provided on the rear side of the housing 33 (head unit 40), and the entire housing 33 including the head unit 40 moves rearward with respect to the movable housing 32. Therefore, the distance from the supply reel 43 to the head 50 (head portion 41) and the distance from the head 50 (head portion 41) to the take-up reel 42 do not change. As a result, it is possible to prevent the cleaning body that has been hung from loosening. Then, it is possible to prevent the amount of the cleaning body sent to the head 50 (head portion 41) from being reduced while the cleaning body is pressed against the connection end surface, and appropriately use the connection end surface 92 of the ferrule 91 of the optical connector 90. Can be wiped off.

<Modification example>
FIG. 6A is a plan view of the movable portion 30 of the modified example in the predetermined pressed state. FIG. 6B is a plan view of the movable portion 30 of the modified example in the push state. In the cleaning tool 10 of the present embodiment described above, the end of the pressing spring 34 on the side where the cleaning body is pressed against the connection end surface of the ferrule of the optical connector (front side in FIG. 3) is on the head unit 40 side (accommodation body 33). It was held by the pressing spring receiving portion 37), and the other end (rear side in FIG. 3) was held by the movable housing 32. That is, the pressing spring 34 was provided on the rear side of the head unit 40. However, in the cleaning tool 10 of this modification, the end portion of the pressing spring 34 on the side where the cleaning body is pressed against the connection end surface of the ferrule of the optical connector (the front side in FIGS. 6A and 6B) is held by the movable housing 32. The other end (rear side in FIGS. 6A and 6B) is held on the head unit 40 side (pressing spring receiving portion 37 of the accommodating body 33). That is, the pressing spring 34 is provided on the front side of the head unit 40. By providing the pressing spring 34 on the front side of the head unit 40 in this way, the pressing spring 34 is pulled and deformed as the head unit 40 retracts when the optical connector is cleaned (see FIG. 5A). Thereby, by utilizing the elastic force due to the tensile force, the cleaning body hung around the head 50 with a predetermined pressing force can be pressed against the connection end face of the ferrule of the optical connector.

Also in this modification, the entire housing 33 including the head unit 40 moves rearward with respect to the movable housing 32, so that the distance from the supply reel 43 to the head 50 (head portion 41) and the head 50 (head portion 41) can be determined. The distance from the head portion 41) to the take-up reel 42 does not change. As a result, it is possible to prevent the cleaning body that has been hung from loosening. Then, it is possible to prevent the amount of the cleaning body moving on the head 50 (head portion 41) from being reduced while the cleaning body is pressed against the connection end surface, and to appropriately use the connection end surface 92 of the ferrule 91 of the optical connector 90. Can be wiped off. However, since the pressing spring 34 is tensilely deformed, it is necessary to separately provide a component for holding the end portion of the pressing spring 34 as compared with the case of compression. Further, in the case of the pressing spring 34 that is tensilely deformed as compared with the case of compression, the length of the movable housing 32 becomes longer by the amount of extension of the pressing spring 34.

=== Others ===
The above-described embodiment is for facilitating the understanding of the present invention, and is not for limiting the interpretation of the present invention. It goes without saying that the present invention can be modified or improved without departing from the spirit thereof, and the present invention includes an equivalent thereof.

1 Cleaning body, 10 Optical connector cleaning tools,
20 covers, 21 openings, 22 locking holes, 25 housings, 26 locking protrusions,
27 Restoration spring receiver, 28 Rack (feed mechanism) (rack and pinion mechanism),
29 Insertion part (rotation mechanism), 30 Moving part, 31 Restoration spring,
32 movable housing, 33 housing, 34 pressing spring,
35 Restoring spring receiving part, 36 Pressing spring receiving part,
37 Pressing spring receiving part, 38 Take-up reel support shaft, 39 Supply reel support shaft,
40 head unit, 41 head part, 42 take-up reel (feed mechanism),
43 Supply reel (feed mechanism), 44 pinion (feed mechanism) (rack and pinion mechanism),
50 head, 51 rotating body, 52 head support part, 53 rotating cylinder part,
54 cam groove (rotation mechanism), 60 outer guide cylinder, 61 inner guide cylinder,
62 outer end face, 90 optical connector, 91 ferrule, 92 connection end face

Claims (6)

An optical connector cleaning tool that has a housing and a movable portion that is movable with respect to the housing and that cleans the optical connector.
The movable part is
A head unit including a head portion for pressing the cleaning body against the optical connector and a take-up reel for winding the cleaning body sent out from the head portion.
A movable housing that accommodates the head unit so as to be movable in a direction in which the movable portion moves with respect to the housing.
A pressing spring provided between the head unit and the movable housing and for pressing the head portion with a predetermined pressure against the optical connector is provided .
The head portion is
A head that presses the cleaning body against the ferrule of the optical connector, and
With the rotating body that rotates the head around the central axis of the head in a state where the cleaning body is pressed against the ferrule by the head.
Equipped with
The rotating body is pressed toward the ferrule side together with the head by the pressing spring.
An optical connector cleaning tool that features. The optical connector cleaning tool according to claim 1 .
The pressing spring is an optical connector cleaning tool characterized in that an end portion on the side where the cleaning body is pressed against the optical connector is held by the head unit, and the other end portion is held by the movable housing. .. The optical connector cleaning tool according to claim 1 .
The pressing spring is an optical connector cleaning tool characterized in that an end portion on the side where the cleaning body is pressed against the optical connector is held by the movable housing, and the other end portion is held by the head unit. .. The optical connector cleaning tool according to any one of claims 1 to 3 .
An optical connector cleaning tool provided between the movable housing and the housing, further comprising a restoring spring for restoring the positional relationship between the movable portion and the housing. The optical connector cleaning tool according to claim 4 .
An optical connector cleaning tool characterized in that the spring constant of the pressing spring is smaller than the spring constant of the restoring spring. The optical connector cleaning tool according to claim 4 or 5 .
An optical connector cleaning tool characterized in that the restoring spring begins to expand and contract before the pressing spring reaches the limit of expansion and contraction.

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