JP2020060387A - Optical-system end face inspection tool - Google Patents

Abstract

To provide an optical-system end face inspection tool allowing an end face of an optical system to be observed and inspected from a plurality of directions.SOLUTION: An optical-system end face inspection tool 10 includes first positioning means 152 for adjusting alignment of an optical-system holding part 12 and a magnifying observation lens 14 so as to allow an end face of an optical system 20 to be observed through a magnifying observation lens 14 from the front of the end face or from a direction inclined at any angle within a predetermined angle range, within a first plane including an axial direction of the optical system 20 held by the optical system holding part 12.SELECTED DRAWING: Figure 1A

Description

  The present invention relates to an optical system end face inspection tool.

  In an optical fiber cable for transmitting laser light, an optical fiber that is an optical system that emits the laser light is inspected for foreign matter or scratches on its end surface so that an appropriate laser light is output. Then, as an optical fiber end face inspection tool therefor, for example, Patent Document 1 discloses a device for inspecting an end face of an optical fiber exposed at an end portion of an optical connector by observing the end face with a magnifying observation mirror from the front direction. ing.

US2016 / 0320565A

  However, it may be difficult to confirm foreign matter or scratches on the end surface of the optical fiber depending on the observation direction.

  An object of the present invention is to provide an optical system end face inspection tool capable of observing and inspecting an end face of an optical system from a plurality of directions.

  The present invention provides an optical system holding section that holds an optical system with its end face positioned at an inspection position, a magnifying observation mirror for observing the end face of the optical system held by the optical system holding unit, and the optical system. The system holding unit and the magnifying observation mirror are placed in a first plane that includes the axial direction of the optical system held by the optical system holding unit, and the end surface of the optical system is slanted in the front and at a predetermined angle range. The optical system end face inspection tool having a first position adjusting means for adjusting the position so that the magnifying glass can be observed from any direction.

  According to the present invention, by adjusting the positions of the optical system holder and the magnifying observation mirror using the first position adjusting means, it is possible to observe and inspect the end surface of the optical system from a plurality of directions.

It is a front view at the time of front observation of the optical fiber end face inspection tool according to the first embodiment. FIG. 3 is a front view of the optical fiber end face inspection tool according to the first embodiment during oblique observation within a vertical plane. FIG. 3 is a plan view of the optical fiber end face inspection tool according to the first embodiment at the time of front observation. It is a front view at the time of front observation of the optical fiber end face inspection tool according to the second embodiment. FIG. 7 is a front view of the optical fiber end face inspection tool according to the second embodiment at the time of oblique observation within a vertical plane. FIG. 7 is a plan view of the optical fiber end face inspection tool according to the second embodiment at the time of front observation. FIG. 7 is a plan view of the optical fiber end face inspection tool according to the second embodiment when obliquely observed in a horizontal plane. It is a bottom view of the optical fiber end face inspection tool according to the second embodiment. It is a bottom view of a modification of the optical fiber end face inspection tool according to the second embodiment. It is a top view at the time of front light irradiation of the optical fiber end face inspection tool according to the third embodiment. It is a top view at the time of oblique light irradiation of the optical fiber end face inspection tool according to the third embodiment.

  Hereinafter, embodiments will be described in detail.

(Embodiment 1)
1A and 1B and FIG. 2 show an optical fiber end face inspection tool 10 (optical system end face inspection tool) according to the first embodiment.

  The optical fiber end face inspection tool 10 according to the first embodiment includes a rectangular parallelepiped base material 11. Further, the optical fiber end face inspection tool 10 according to the first embodiment has an optical fiber holding portion 12 (optical system holding portion) provided on one side in the length direction of the base material 11 and an optical fiber provided on the other side. It has a fiber observation unit 13.

  The optical fiber holding portion 12 is formed in a rectangular thick plate shape, and is erected on the base material 11 such that the surface on one side thereof is flush with the side surface on the one side of the base material 11. ing. An optical fiber holding hole 12a is formed in the optical fiber holding portion 12. The optical fiber holding portion 12 is configured to externally fit and hold the optical fiber 20 (optical system) in the optical fiber holding hole 12a, and to position the end face thereof at the inspection position. The optical fiber holding unit 12 may have an axial position adjusting means such as a cross movement holder for adjusting the axial position of the held optical fiber 20 in the vertical direction and the horizontal direction.

  The optical fiber observation unit 13 has a magnifying observation mirror 14 and an observation position adjustment unit 15.

  The magnifying observation mirror 14 is composed of a lens barrel optical system in which an eyepiece lens 14a is provided at one end and an objective lens 14b is provided at the other end, so that the end surface of the optical fiber 20 held by the optical fiber holding unit 12 is Observe.

  The observation position adjustment unit 15 includes a unit base member 151, a pair of vertical position adjustment members 152, and an observation mirror attachment adapter 153.

  The unit base member 151 is formed in the shape of a rectangular thick plate, and is provided such that the surface on one side thereof contacts the side surface on the other side of the base material 11.

  Each of the pair of vertical position adjusting members 152 is formed in a thin plate shape including a linear portion 152a and a bow-shaped portion 152b continuous with the linear portion 152a, and these linear portions 152a are formed on both side surfaces of the unit base member 151. The bow-shaped portions 152b continuous with the upper portion are provided so as to extend above the unit base member 151 and to be curved to one side where the optical fiber holding portion 12 is provided. An arcuate portion 152b of each vertical position adjusting member 152 is formed with an elongated hole 152c that extends in an arcuate shape along the shape.

  The observation mirror attachment adapter 153 is formed in a ring shape, and the magnifying observation mirror 14 is fitted therein and attached. Between the pair of vertical position adjusting members 152, the magnifying observation mirror 14 to which the observation mirror attachment adapter 153 is attached is provided so that the eyepiece lens 14a is on the other side and the objective lens 14b is on the one side. . The magnifying observation mirror 14 is attached to the pair of vertical position adjusting members 152 by screwing the screws 16 from both sides through the elongated holes 152c of the pair of vertical position adjusting members 152 to the observation mirror mounting adapter 153.

Here, this mounting position can be changed by the fastening position of the screw 16 of the elongated hole 152c. As a result, the magnifying observation mirror 14 maintains the observation position on the end face of the optical fiber 20 held by the optical fiber holding portion 12, that is, without changing the observation focus position, and the vertical direction with respect to the end face of the optical fiber 20. As shown in FIGS. 1A and 1B, the observation direction can be set to any direction oblique to the front and a predetermined angle range (0 <θ ≦ θ _MAX ). The upper limit angle θ _MAX of this angle range is preferably 45 ° or more and 90 ° or less.

  Therefore, the pair of vertical direction position adjusting members 152 position the end face of the optical fiber 20 in the vertical plane (first plane) including the axial direction of the optical fiber 20 held by the optical fiber holding portion 12. The first position adjusting means for adjusting the positions of the optical fiber holding unit 12 and the magnifying observation mirror 14 is configured so that the magnifying observation mirror 14 can be observed from the front and any oblique direction within a predetermined angle range.

  As described above, since the optical fiber end face inspection tool 10 according to the first embodiment has the pair of vertical direction position adjusting members 152 forming the first position adjusting means, the light held by the optical fiber holding unit 12 is The magnifying observation mirror 14 is movably provided with respect to the fiber 20, and by adjusting the positions of the optical fiber holding unit 12 and the magnifying observation mirror 14 using the pair of vertical direction position adjusting members 152, the optical fiber 20 can be moved from a plurality of directions. It is possible to inspect the presence or absence of foreign matter or scratches by observing the end face of the. In addition, even if the end surface of the optical fiber 20 is formed as an inclined surface that is inclined with respect to the fiber axis or is formed as a curved surface, the inspection can be performed by observing each part under equivalent conditions. You can

  The optical fiber end face inspection tool 10 according to the first embodiment has a light source 18 provided between the optical fiber holding portion 12 and the optical fiber observation portion 13 in the base material 11. The light source 18 is configured to irradiate the end face of the optical fiber 20 held by the optical fiber holding portion 12 with light obliquely from below. Therefore, according to the optical fiber end face inspection tool 10 of the first embodiment, the light source 18 for irradiating the end face of the optical fiber 20 held by the optical fiber holding portion 12 with light is provided in this way. The observation and inspection of the end face of the optical fiber 20 can be performed even in a dark environment, and various inspection and observation can be performed by the reflected light. If the light from the light source 18 or another light source (not shown) can be input from the other end side of the optical fiber 20 held by the optical fiber holding unit 12, the transmitted light is transmitted through the magnifying observation mirror 14. It can be observed so that the state of light guided by the optical fiber 20 can be inspected. A plurality of light sources 18 may be provided. Further, the wavelength and the light beam shape (parallel light, diffused light, etc.) of the light output from the light source 18 are appropriately selected according to the inspection content.

(Embodiment 2)
3A and B, FIGS. 4A and B, and FIG. 5 show an optical fiber end face inspection tool 10 (optical system end face inspection tool) according to the second embodiment. The parts having the same names as those in the first embodiment are indicated by the same reference numerals as those in the first embodiment.

  In the optical fiber end face inspection tool 10 according to the second embodiment, the base material 11 has a substantially rectangular parallelepiped shape, and one side surface in the longitudinal direction thereof has a flat surface and the other side surface thereof has an arc shape in a plan view. It is formed on each curved surface. The observation position adjustment unit 15 is composed of a unit base member 151, a pair of vertical position adjustment members 152, an observation mirror mounting adapter 153, and a horizontal position adjustment member 154.

The unit base member 151, the vertical position adjusting member 152, and the observation mirror mounting adapter 153 have the same configuration as that of the first embodiment. Therefore, the pair of vertical-direction position adjusting members 152 allows the end face of the optical fiber 20 to be positioned in front of the vertical plane (first plane) including the axial direction of the optical fiber 20 held by the optical fiber holding section 12. The first position adjusting means for adjusting the positions of the optical fiber holding portion 12 and the magnifying observation mirror 14 is configured so that the magnifying observation mirror 14 can be observed from any direction oblique to a predetermined angle range. As a result, the magnifying observation mirror 14 maintains the observation position on the end face of the optical fiber 20 held by the optical fiber holding unit 12, that is, without changing the observation focus position, with respect to the end face of the optical fiber 20. As shown in FIGS. 3A and 3B, the vertical observation direction can be set to any direction oblique to the front and a predetermined angle range (0 <θ ≦ θ _MAX ). The upper limit angle θ _MAX of this angle range is preferably 45 ° or more and 90 ° or less.

  The lateral position adjusting member 154 is formed in a thin plate shape including a rectangular portion 154a and a bow-shaped portion 154b whose one end is a long side, and the other side of the rectangular portion 154a. The portion is fixed to the bottom of the base material 11, and the bow-shaped portion 154b protruding from the bottom of the base material 11 to the other side extends to one side and is provided on one side where the optical fiber holding portion 12 is provided. It is provided to be curved. The bow-shaped portion 154b of the lateral position adjusting member 154 is formed with an elongated hole 154c extending in a bow shape along the shape. A unit base member 151 is provided on the lateral position adjusting member 154, and the unit base member 151 is attached to the lateral position adjusting member 154 by tightening the screw 17 through the elongated hole 154c.

Here, this mounting position can be changed by the fastening position of the screw 17 of the elongated hole 154c, and accordingly, the unit base member 151 is displaced laterally while contacting the side surface of the curved surface on one side of the base material 11. . As a result, the magnifying observation mirror 14 attached to the pair of vertical position adjusting members 152 provided integrally with the unit base member 151 maintains the observation position on the end face of the optical fiber 20 held by the optical fiber holding portion 12. While, that is, without changing the observation focus position, the horizontal observation direction with respect to the end face of the optical fiber 20 is, as shown in FIGS. 4A and 4B, in the front surface and in a predetermined angle range (0 <Θ ≦ Θ _MAX ). It is configured so that it can be set in any diagonal direction. The upper limit angle Θ _MAX of this angle range is preferably 45 ° or more and 90 ° or less. In this way, the horizontal position adjusting member 154 can set the horizontal observation direction of the magnifying observation mirror 14 independently of the vertical observation direction.

  Therefore, the lateral position adjusting member 154 includes the axial direction of the optical fiber 20 which is orthogonal to the vertical plane (first plane) independently of the pair of vertical position adjusting members 152 constituting the first position adjusting means. In the horizontal plane (second plane), the end face of the optical fiber 20 can be observed with the magnifying observation mirror 14 from the front surface and from any oblique direction within a predetermined angle range, and the optical fiber holding portion 12 and the magnifying observation. It constitutes a second position adjusting means for adjusting the position of the mirror 14.

  Note that the lateral position adjusting member 154 may include an arcuate portion 154b having one of the long sides of each of the rectangular portions 154a as a base end, as in the configuration shown in FIG. In this case, the horizontal observation direction can be set in a wide range. However, even with the configuration shown in FIG. 5, the same effect can be obtained by axially rotating the optical fiber 20 held by the optical fiber holding unit 12. Further, from the viewpoint of compactness, the configuration shown in FIG. 5 is preferable.

  As described above, since the optical fiber end face inspection tool 10 according to the second embodiment has the pair of the vertical position adjusting members 152 and the horizontal position adjusting member 154 that form the first and second position adjusting means, The magnifying observation mirror 14 is movably provided with respect to the optical fiber 20 held by the optical fiber holding portion 12, and the optical fiber holding portion 12 using the pair of vertical position adjusting members 152 and horizontal position adjusting member 154 is provided. By adjusting the position of the magnifying observation mirror 14, it is possible to inspect the end face of the optical fiber 20 biaxially from a plurality of directions to inspect the presence or absence of foreign matter. In addition, even if the end surface of the optical fiber 20 is formed as an inclined surface that is inclined with respect to the fiber axis or is formed as a curved surface, the inspection can be performed by observing each part under the same conditions. You can The other configurations and operational effects are the same as those of the first embodiment.

(Embodiment 3)
7A and 7B show an optical fiber end face inspection tool 10 according to the third embodiment. The parts having the same names as those in the first and second embodiments are denoted by the same reference numerals as those in the first and second embodiments.

  In the optical fiber end face inspection tool 10 according to the third embodiment, the light source 18 is movably provided on the light source guide member 19 mounted on the base material 11.

  Specifically, the light source guide member 19 is formed in a thin plate shape including a linear portion 19a and an arcuate portion 19b continuous with the linear portion 19a, and the linear portion 19a extends in the width direction on the upper surface of the base material 11. Thus, the arc-shaped portion 19b continuous to the above is provided so as to extend to one side and curve to the one side where the optical fiber holding portion 12 is provided. The arcuate portion 19b of the light source guide member 19 is formed with an elongated hole 19c extending in an arcuate shape along the shape. The light source 18 is attached to the light source guide member 19 so as to be movable along the elongated hole 19c. As a result, as shown in FIGS. 7A and 7B, the light source 18 is attached to the end face of the optical fiber 20 held by the optical fiber holding portion 12 from the front and obliquely downward in an arbitrary direction in a predetermined angle range. It can be irradiated with light.

  According to the optical fiber end face inspection tool 10 according to the third embodiment having the above configuration, more various inspection observations can be performed by changing the irradiation direction of illumination. Other configurations and operational effects are the same as those of the second embodiment.

(Other embodiments)
Although the magnifying observation mirror 14 is configured to be movable with respect to the optical fiber 20 held by the optical fiber holding unit 12 in the first to third embodiments, the magnifying observation mirror 14 is not particularly limited to this. Alternatively, the optical fiber 20 held by the optical fiber holding unit 12 may be movable.

  Although the optical system is the optical fiber 20 in the first to third embodiments, the optical system is not particularly limited to this, and another optical system such as a quartz chip or a lens attached to the tip of the optical fiber 20 may be used. Good.

  Although the optical fibers 20 are held in the optical fiber holding portion 12 in the first to third embodiments, the present invention is not particularly limited to this, and an optical fiber cable or an optical connector including the end portion of the optical fiber 20 may be used. It may be configured to hold and position the end face of the optical fiber 20 at the inspection position.

  INDUSTRIAL APPLICABILITY The present invention is useful in the technical field of optical system end face inspection tools.

10 Optical fiber end face inspection tool (optical system end face inspection tool)
11 base material 12 optical fiber holding portion (optical system holding portion)
12a Optical Fiber Holding Hole 13 Optical Fiber Observation Section 14 Magnifying Observation Mirror 14a Eyepiece 14b Objective Lens 15 Observation Position Adjustment Unit 151 Unit Base Member 152 Vertical Position Adjustment Member (Vertical Position Adjustment Means)
152a Straight portion 152b Bow-shaped portion 152c Long hole 153 Observation mirror mounting adapter 154 Lateral position adjusting member (lateral position adjusting means)
154a Rectangular portion 154b Bow-shaped portion 154c Long holes 16, 17 Screw 18 Light source 19 Light source guide member 19a Straight portion 19b Bow-shaped portion 19c Long hole 20 Optical fiber (optical system)

Claims (6)

An optical system holding unit that holds the optical system by positioning its end face at the inspection position,
A magnifying observation mirror for observing the end surface of the optical system held by the optical system holding section,
The optical system holding part and the magnifying observation mirror are placed in a first plane including the axial direction of the optical system held by the optical system holding part, and the end face of the optical system is set to the front face and a predetermined angle range. First position adjusting means for adjusting the position so that the magnifying glass can be observed from any oblique direction of
Optical system end face inspection tool having. The optical system end face inspection tool according to claim 1,
Independently of the first position adjusting means, the optical system holder and the magnifying observation mirror are placed in a second plane including the axial direction of the optical system which is orthogonal to the first plane. An optical system end face inspection tool further comprising a second position adjusting means for adjusting the position of the end face so that the end face can be observed by the magnifying observation mirror from any direction oblique to the front face and a predetermined angle range. The optical system end face inspection tool according to claim 1 or 2,
An optical system end face inspection tool in which the magnifying observation mirror is movably provided with respect to the optical system held by the optical system holding portion. The optical system end face inspection tool according to any one of claims 1 to 3,
An optical system end face inspection tool further comprising a light source for irradiating the end face of the optical system held by the optical system holding portion with light. The optical system end face inspection tool according to claim 4,
An optical system end face inspection tool in which the light source is movably provided with respect to the optical system held by the optical system holding portion. The optical system end face inspection tool according to any one of claims 1 to 5,
An optical system end face inspection tool in which the optical system is an optical fiber.

Images