JP5489689B2 - Illumination device and endoscope - Google Patents

Description

  The present invention relates to an illumination device and an endoscope including the illumination device.

  As a prior art, a light guide member illumination device for a liquid crystal display device is disclosed (see Patent Document 1). In this illuminating device, the axis of the semi-cylindrical exit surface that emits light extends in a direction perpendicular to the incident direction of light from the light source.

Japanese Patent No. 3706594

  For this reason, when this illumination device of the prior art is used for an endoscope used by being inserted into a lumen, the shape of the cylindrical emission surface for emitting light and the inner surface of the lumen does not match. Illumination spots (unevenness) occur.

  In view of such a problem, an object of the present invention is to provide an endoscope illumination device that can uniformly illuminate the inner surface of a lumen.

An illuminating device according to an aspect of the present invention is an illuminating device provided in an endoscope having an insertable insertion portion and an imaging unit that forms an image of light captured from the front of the insertion portion , the light source If, it has a light-transmitting property, and a Rushirubeko member is disposed on the side surface side of the insertion portion than the imaging unit. The light guide member includes a first surface having a light diffusing effect, a second surface facing the first surface and transmitting light from the inside, and the first surface and the second surface. A third surface that is located in between and includes a transmissive surface that transmits light from the light source, and that faces the light source and takes light from the light source into the light guide member. The second surface is a curved surface protruding outward from the light guide member, and the light guide member is disposed in the endoscope so that the optical axis of the imaging unit and the second surface are substantially parallel to each other. When viewed in the direction of the optical axis, the cross section of the light guide member is included in the contour of the endoscope tip.

  According to the present invention, the illumination device can illuminate the inner surface of the substantially cylindrical lumen into which the endoscope is inserted substantially uniformly.

It is the schematic which shows the endoscope carrying an illuminating device. A dotted line shows an imaging unit and a light guide inside the endoscope. About a light guide member, a mode seen from the side surface is shown. It is a schematic perspective view of a light guide member. It is the end view which looked at the endoscope from the front end side. The dotted line indicates the position of the light guide member. (A) It is an end elevation of an endoscope in case the number of light guide members is two. (B) It is an end elevation of an endoscope in case the number of light guide members is three. (C) It is an end elevation of an endoscope in case the number of light guide members is four. (A) It is an end elevation which shows a light guide and a light guide member. (B) It is a side view which shows a light guide and a light guide member. (A) It is an end elevation which shows an example of a light guide and a light guide member. (B) It is an end elevation which shows another example of a light guide and a light guide member. (C) It is an end elevation which shows another example of a light guide and a light guide member. (A) It is a figure which shows an example of the diffraction grating pattern of the 3rd surface. (B) It is a figure which shows the other example of the diffraction grating pattern of a 3rd surface. (C) It is a figure which shows the light which passes the diffraction grating of a 3rd surface. (A) It is a figure which shows an example of the diffraction grating pattern of a 4th surface. (B) It is a figure which shows the other example of the diffraction grating pattern of a 4th surface. (C) It is a figure which shows the light from the diffraction grating of a 4th surface. (D) It is another figure which shows the light from the diffraction grating of a 4th surface.

[First embodiment]
With reference to FIG. 1, the illuminating device 5 which concerns on 1st embodiment is demonstrated. The illumination device 5 is provided in the endoscope 1. The endoscope 1 includes a lighting device 5 and an imaging unit 20.

  The illumination device 5 includes a light source 7 and a light guide member 8. The light source 7 is a secondary light source including a light guide 7a (for example, an optical fiber bundle) that guides light from an external light source. The light guide member 8 is translucent to the light from the light source 7. The material of the light guide member 8 is, for example, a transparent resin material or a translucent resin material, and may be a polycarbonate material or an acrylic resin.

  A part of the light guide member 8 (a second surface described later) on the substantially cylindrical side surface 30 of the endoscope 1 is exposed to the outside of the endoscope. Thereby, the illuminating device 5 can inject | emit light from the side surface 30 of the endoscope 1, and can illuminate the inner surface 60 of the lumen into which the endoscope 1 is inserted (see FIGS. 1 and 3). In a normal illumination device having an illumination lens 32 that emits light from the distal end surface 28 of the endoscope 1, the illumination device 5 is provided because the inner surface 60 of the lumen into which the endoscope 1 is inserted cannot be well illuminated. Yes.

  The imaging unit 20 includes an optical system including an imaging lens 22, an imaging element 24, and the like. The imaging lens 22 forms an image on the imaging element 24 with light taken from outside the endoscope. The image sensor 24 converts an optical image formed on the image sensor 24 by an optical system into an electric signal by photoelectric conversion. The optical axis 26 of the imaging unit 20 (that is, the optical axis 26 of the optical system) is perpendicular to the substantially circular distal end surface 28 of the endoscope 1 and parallel to the substantially cylindrical side surface 30 of the endoscope 1. is there.

  FIG. 2 shows a perspective view of the light guide member 8. The light guide member 8 has a first surface 11, a second surface 12, a third surface 13, a fourth surface 14, a fifth surface 15, and a sixth surface 16. The first surface 11 and the second surface 12 face each other, the third surface 13 and the fourth surface 14 face each other, and the fifth surface 15 and the sixth surface 16 face each other. The third surface 13, the fourth surface 14, the fifth surface 15, and the sixth surface 16 are located between the first surface 11 and the second surface 12.

  On the first surface 11 of the light guide member 8, a plurality of light scatterers (for example, dents and protrusions) that scatter light introduced into the light guide member 8 are formed. Thereby, the incident light incident on the light guide member 8 is scattered and diffused by the first surface 11, and the internal light is emitted from the second surface 12 facing the first surface 11 toward the inner surface 60 of the lumen. Can do.

  The second surface 12 is a transmission surface that transmits light. The second surface 12 is a curved surface that protrudes outward from the light guide member 8. In the present embodiment, the second surface 12 is formed of a part of a cylindrical curved surface having an axis perpendicular to the third surface 13 (an axis parallel to the optical axis 26), and extends along a direction perpendicular to the third surface 13. Extend. Since the 2nd surface 12 consists of a part of cylindrical curved surface, it is prevented that the light which goes to a 2nd surface at a big angle is totally reflected by a 2nd surface. Here, the second surface 12 is a semi-cylindrical (cylinder-shaped) curved surface. Note that the second surface 12 may have a region (area) of a predetermined ratio (for example, 70%) or more as a part of a cylindrical curved surface.

  The exit end surface of the light guide 7 a is located on the third surface 13. A portion of the third surface 13 that faces the exit end surface of the light guide 7a is a transmission surface 13a that transmits light. Thereby, light enters the light guide member 8 from the light guide 7a (light incident means). In FIG. 2, the transmission surface 13 a is located near the longitudinal center of the third surface 13, but is not limited to this.

  The fourth surface 14 has the same shape as the third surface 13, but in the fourth surface 14, the separation distance (height) between the first surface 11 and the second surface 12 is smaller than that of the third surface 13. ing.

  The fourth surface 14, the fifth surface 15, and the sixth surface 16 are all reflective surfaces. The fourth surface 14, the fifth surface 15, and the sixth surface 16 extend from the three sides that define the first surface 11 to the same side with respect to the first surface 11. By surrounding the light guide member 8 with the reflection surface in this manner, light can be emitted from a desired direction (second surface 12). The distance between the first surface 11 and the second surface 12 decreases as the distance from the third surface 13 toward the fourth surface 14 decreases. Thereby, the first surface 11 is inclined with respect to the optical axis of the incident light to the light guide member 8, and the probability that the light collides with the first surface 11 is improved, and the light emission efficiency is increased. The luminous efficiency is the ratio of the amount of light entering the light guide member 8 per unit time to the amount of light emitted from the light guide member 8 per unit time.

  Next, the arrangement of the light guide member 8 inside the endoscope 1 will be described with reference to FIG. FIG. 3 is an end view of the endoscope 1 viewed from the distal end side.

  The light guide member 8 is disposed in the endoscope so that the optical axis 26 of the imaging unit 20 and the second surface 12 protruding outward of the light guide member 8 are substantially parallel (also in FIG. 1). reference). For this reason, the illuminating device 5 can uniformly illuminate the inner surface 60 of the lumen into which the endoscope 1 is inserted. This is because a part of the inner surface 60 of the lumen into which the second surface 12 and the endoscope 1 are inserted becomes similar and easily conforms in shape.

  When viewed in the direction of the optical axis 26, the cross section of the light guide member 8 is included in the contour of the distal end (or distal end surface) of the endoscope 1. When viewed in the direction of the optical axis 26, the cross section of the light guide member 8 is also included in the contour of the side surface 30 of the endoscope 1 excluding the light guide member 8. Thereby, the light guide member 8 does not protrude from the side surface 30 of the endoscope 1 excluding the light guide member, and the endoscope 1 can move smoothly in the lumen.

  Furthermore, in the present embodiment, the second surface 12 is in contact with the contour of the distal end (or distal end surface) of the endoscope 1 when viewed in the direction of the optical axis 26. Thereby, the illuminating device 5 can illuminate the inner surface 60 of the lumen with the maximum illuminance.

In the first embodiment, the illumination device 5 provided in the endoscope 1 having the imaging unit 20 includes a light source 7 and a light guide member 8. The light guide member 8 includes a first surface 11 having a light diffusion effect, a second surface 12 that faces the first surface 11 and emits light from the inside, and between the first surface 11 and the second surface 12. And a third surface for taking light from the light source 7 into the light guide member 8.

  The second surface 12 is a convex curved surface that bulges toward the outside of the light guide member 8, and the light guide member 8 is internally viewed so that the optical axis 26 of the imaging unit 20 and the second surface 12 are substantially parallel. It is arranged in the mirror. For this reason, when the illuminating device 5 illuminates a direction greatly inclined from the optical axis 26 of the imaging unit 20, the distance between the light exit surface (second surface 12) and the surface to be illuminated (inner surface 60 of the lumen) is the illumination portion. Illumination unevenness caused by the difference between the two can be reduced. That is, the illuminating device 5 can illuminate the inner surface 60 of the substantially cylindrical lumen into which the endoscope 1 is inserted substantially uniformly.

  Since the second surface 12 extends along a direction perpendicular to the third surface 13, the inner surface of the lumen can be evenly illuminated, and the light guide member 8 can be easily manufactured. When viewed in the direction of the optical axis 26, the second surface 12 contacts the contour of the endoscope tip, so that the illumination device 5 can illuminate the inner surface 60 of the lumen as brightly as possible.

  Further, when viewed in the direction of the optical axis 26 of the imaging unit 20, the cross section of the light guide member 8 is included in the contour of the endoscope tip. Thereby, the light guide member 8 does not protrude from the endoscope side surface 30 excluding the light guide member, and the endoscope 1 can move smoothly in the lumen.

  Since the second surface 12 is formed of a part of a cylindrical curved surface having an axis perpendicular to the third surface 13 (or an axis parallel to the optical axis), the illuminating device 5 further includes a tube into which the endoscope 1 is inserted. The inner surface 60 of the cavity can be illuminated uniformly. Since the 2nd surface 12 consists of a part of cylindrical curved surface, it is prevented that the light which goes to a 2nd surface at a big angle is totally reflected by a 2nd surface, and the illuminating device 10 can illuminate a wide range.

[Second Embodiment]
In the second embodiment, the irradiation device 5 includes a plurality of light guide members 8. Other features are the same as in the first embodiment.

  4A to 4C are end views of the endoscope when the number of the light guide members 8 is 2, 3, and 4, respectively. As shown in FIGS. 5A and 5B, light can be incident on the light guide members 8 from a single light guide 7a. At this time, in order to make light easily incident on the light guide members 8, the third surfaces 13 of the respective light guide members 8 are arranged so as to be substantially on the same plane.

  The second surface 12 (a part of the cylindrical curved surface) of each light guide member 8 is disposed so as to be in contact with the same cylinder 35 (see FIG. 4). Thereby, the periphery of the endoscope 1 can be illuminated in a wide range in the circumferential direction. In the present embodiment, as shown in FIGS. 4A to 4C, the same cylinder 35 corresponds to the side surface of the endoscope 1. In FIGS. 5A and 5B, the light guide 7a has a cylindrical shape (ring).

  6A to 6C, the number of light guides 7 a that allow light to enter the light guide member 8 is not limited to one as long as it is equal to or less than the number of light guide members 8. In FIG. 6A, light is incident on two light guide members 8 from one light guide 7a. In FIG. 6B, light enters the three light guide members 8 from the two light guides 7a. In FIG. 6C, light enters the four light guide members 8 from the two light guides 7a. Also in these cases, the third surface 13 of each light guide member 8 is disposed on substantially the same plane in order to make light easily incident on the light guide member 8.

In the second embodiment, since the third surface 13 of each light guide member 8 is located on substantially the same plane, the number of the light guides 7a that allow light to enter the light guide member 8 is the number of the light guide members 8. Even in the following cases, light is likely to enter the light guide member 8.

  By disposing the second surface 12 of each light guide member 8 in contact with the same cylinder 35, the periphery of the endoscope 1 can be illuminated in a wide range in the circumferential direction.

[Third embodiment]
In the third embodiment, a diffraction grating is formed on the third surface 13 and / or the fourth surface 14. Other configurations are the same as those in the first embodiment.

  7A and 7B show a pattern (grating pattern) of the diffraction grating 31 on the third surface 13. FIG. 7A shows a concentric grating pattern. FIG. 7B shows a parallel linear grating pattern. These grating patterns collect light toward the first surface 11 as shown in FIG.

  In the grating pattern of FIG. 7A, light can be collected near the central axis of the first surface 11. On the other hand, the grating pattern in FIG. 7B is easier to form than the grating pattern in FIG.

  8A and 8B show patterns (grating patterns) of the diffraction grating 33 on the fourth surface 14. FIG. 8A shows a concentric grating pattern. FIG. 8B shows a parallel linear grating pattern. Since these grating patterns diffuse light toward the second surface 12 as shown in FIG. 8C, the light emission efficiency is improved. Alternatively, these grating patterns may condense light toward the first surface 11 as shown in FIG. In this case, the first surface 11 diffuses the light from the fourth surface 14 toward the second surface 12 again.

  In the third embodiment, the light source 7 preferably generates monochromatic light so that the light is easily diffracted.

In the third embodiment, since the third surface 13 of the light guide member 8 is a surface having an effect of condensing light on the first surface 11, the light emission efficiency of the light guide member 8 is improved. Since the fourth surface 14 of the light guide member 8 is a surface having an effect of diffusing light toward the first surface 11 or the second surface 12, the light emission efficiency of the light guide member 8 is improved.

  The present invention is not limited to the above-described embodiment, and it is obvious that various modifications can be made within the scope of the technical idea.

DESCRIPTION OF SYMBOLS 1 Endoscope 5 Illuminating device 7 Light source 7a Light guide (light incident means)
8 Light guide member 11 First surface 12 Second surface 13 Third surface 13a Transmission surface 14 Fourth surface 15 Fifth surface 20 Imaging unit 26 Optical axes 31, 33 Diffraction grating

Claims (10)

An illumination device provided in an endoscope having an insertable insertion portion and an imaging unit that forms an image of light taken from the front of the insertion portion ,
A light source, have a light-transmitting property, comprising a Rushirubeko member is disposed on the side surface side of the insertion portion than the imaging unit,
The light guide member is
A first surface having a light diffusion effect;
A second surface facing the first surface and transmitting light from the inside and emitting;
A third surface located between the first surface and the second surface, including a transmission surface that transmits light from the light source, and takes light from the light source into the light guide member facing the light source; Surface,
With
The second surface is a curved surface protruding outward of the light guide member,
The light guide member is disposed in the endoscope so that the optical axis of the imaging unit and the second surface are substantially parallel;
When viewed in the direction of the optical axis, the illumination device is characterized in that a cross section of the light guide member is included in an outline of an endoscope tip. An illumination device provided in an endoscope having an imaging unit,
Comprising at least three light sources and light-transmissive members having translucency,
The light guide member is
A first surface having a light diffusion effect;
A second surface facing the first surface and transmitting light from the inside and emitting;
A third surface located between the first surface and the second surface, including a transmission surface that transmits light from the light source, and takes light from the light source into the light guide member facing the light source; Surface,
With
The second surface is a curved surface protruding outward of the light guide member,
The light guide member is disposed in the endoscope so that the optical axis of the imaging unit and the second surface are substantially parallel;
When viewed in the direction of the optical axis, the cross section of the light guide member is included in the contour of the endoscope tip,
The second surface comprises a part of a cylindrical curved surface extending along a direction perpendicular to the third surface and having an axis perpendicular to the third surface;
An illuminating device, wherein the second surface of each light guide member is disposed so as to contact the same cylinder. An illumination device provided in an endoscope having an imaging unit,
Comprising at least two light sources and light-transmissive members having translucency,
The light guide member is
A first surface having a light diffusion effect;
A second surface facing the first surface and transmitting light from the inside and emitting;
A third surface located between the first surface and the second surface, including a transmission surface that transmits light from the light source, and takes light from the light source into the light guide member facing the light source; Surface,
With
The second surface is a curved surface protruding outward of the light guide member,
The light guide member is disposed in the endoscope so that the optical axis of the imaging unit and the second surface are substantially parallel;
When viewed in the direction of the optical axis, the cross section of the light guide member is included in the contour of the endoscope tip,
An illuminating device, wherein the light guide members are arranged so that the third surfaces are substantially on the same plane. An illumination device provided in an endoscope having an imaging unit,
A light source and a light guide member having translucency;
The light guide member is
A first surface having a light diffusion effect;
A second surface facing the first surface and transmitting light from the inside and emitting;
A third surface located between the first surface and the second surface, including a transmission surface that transmits light from the light source, and takes light from the light source into the light guide member facing the light source; Surface,
A fourth surface located between the first surface and the second surface and facing the third surface;
With
The second surface is a curved surface protruding outward of the light guide member,
The light guide member is disposed in the endoscope so that the optical axis of the imaging unit and the second surface are substantially parallel;
When viewed in the direction of the optical axis, the cross section of the light guide member is included in the contour of the endoscope tip,
The illumination device according to claim 4, wherein the fourth surface is a surface having an effect of condensing light toward the first surface or diffusing toward the second surface. 5. The illumination device according to claim 1, wherein when viewed in the direction of the optical axis, the second surface is in contact with an outline of the endoscope tip. 6. The lighting device according to claim 1, wherein the second surface extends along a direction perpendicular to the third surface. The lighting device according to claim 1, wherein the second surface is a part of a substantially cylindrical curved surface. The lighting device according to claim 7, wherein the second surface is formed of a part of a cylindrical curved surface having an axis perpendicular to the third surface. The lighting device according to any one of claims 1 to 8, wherein the third surface of the light guide member is a surface having an effect of condensing light on the first surface. An endoscope provided with the illuminating device as described in any one of Claims 1-9.