JP3769591B2 - Adapter system - Google Patents

Description

[Technical field]
The present invention relates to an adapter system for applying a digital camera to a microscope, for example.
[Background]
In recent years, there has been a remarkable spread of digital cameras, and it has become inferior to conventional silver halide cameras in terms of function and price. Conventionally, such a digital camera is mounted on a microscope to capture an enlarged image. In that case, a C-mount unit provided at a position different from the eyepiece unit of the microscope is used. I was wearing a digital camera.
A technique related to the present invention is disclosed in, for example, Japanese Patent No. 3296810.
However, since a microscope having a C-mount portion is expensive, it is very difficult to obtain a magnified image of the microscope as a digital image while the folding-angle digital camera is in widespread use.
In addition, the shape of the C mount portion differs depending on the manufacturer of the microscope. Therefore, even if a user owns a microscope provided with a C-mount unit, for example, when the user owns a plurality of microscopes of different manufacturers, one camera is connected to the C-mount unit of a different manufacturer. It is not possible. Therefore, a plurality of cameras must be prepared according to the shape of each C-mount.
Furthermore, the above-mentioned Patent Document 1 discloses a technique for mounting a digital camera to an eyepiece unit through an adapter, but it is required that the adapter can be easily attached to and detached from the eyepiece unit. In addition, it is necessary to satisfy optical conditions for enabling the digital camera to take a magnified image of the microscope when it is mounted.
[Disclosure of the Invention]
In view of the above circumstances, an object of the present invention is to provide an adapter system that can easily capture a magnified image of a microscope using an imaging device such as a digital camera.
Another object of the present invention is to have a wider versatility, to easily attach and detach the adapter to the eyepiece, and to enable an imaging device such as a digital camera to take a magnified image of the microscope. It is to provide an adapter system that satisfies the optical requirements of
In order to solve the above problems, an adapter system according to the present invention includes: (a) a main body that can be inserted into an eyepiece lens insertion portion of a microscope having one inner diameter at one end and an imaging device can be attached to the other end. And a first tube portion for locking the main body at a first position in the optical axis direction of the optical path with respect to an optical path provided inside and an eyepiece insertion portion having the first inner diameter. And one end of the main body can be inserted into the first C mount portion of the microscope, and the main body is locked at the second position in the optical axis direction with respect to the first C mount portion. And a microscope eyepiece having a second inner diameter which is attachable to one end of the main body and has an outer diameter larger than the one end and which is larger than the first inner diameter. An auxiliary adapter that can be inserted into the insertion portion , wherein the second adapter A third tube portion for locking the main body at the first position in the optical axis direction with respect to the eyepiece insertion portion of the microscope having an inner diameter, and a first O-ring attached to the outer peripheral surface And an auxiliary adapter having a second O-ring made of a material different from that of the first O-ring and disposed on an optical path inside the main body, and the main body or the auxiliary adapter is attached The main body is inserted into the eyepiece insertion portion having the first or second inner diameter and is locked at the first position, or one end of the main body is the first C mount portion. In the state inserted in the second position and locked at the second position, an image through the eyepiece insertion portion of the microscope having the first or second inner diameter or the first C mount portion is displayed on the main body. To form an image at a specific position of the imaging device mounted on A first adapter having a lens system; and (b) one end of which can be engaged with a second C mount portion having a shape different from that of the first C mount portion of the microscope, and the other end of the auxiliary adapter. One end of the first adapter to which is attached is insertable, one end engages with the second C-mount part, and the other end of the first adapter to which the auxiliary adapter is attached With the one end inserted, the main body is locked at the third position on the optical axis with respect to the second C-mount part, and the locked state is attached to the first adapter. And a second adapter having an optical path having an optical path length for forming an image through the second C-mount unit at the specific position of the image pickup apparatus.
In the present invention, since an imaging device such as a digital camera can be mounted not only on the C-mount portion of the microscope but also on the eyepiece side of the microscope, an enlarged image of the microscope can be easily captured using the imaging device such as a digital camera. be able to. In addition, by using an auxiliary adapter, it is possible to handle an eyepiece unit having two different diameters and easily take an image. Furthermore, since the second cylindrical portion and the second adapter are provided, the first adapter can be inserted or engaged with two or more C-mount portions having different shapes. As a result, the adapter system can have wide versatility.
Further, the optically identical conditions are set in a state in which an imaging device such as a digital camera is mounted on the first or second C mount unit and a state in which an eyepiece is mounted on the eyepiece unit of the microscope. Therefore, the image viewed through the microscope through the eyepiece lens and the image captured by the imaging device optically match. Therefore, it is possible to take an image with the imaging device while looking into the microscope through the eyepiece.
In the present invention, the main body is provided with the second cylindrical portion, and is inserted into the first C-mount portion to be locked. As a result, the imaging device can be connected to the first C-mount unit using only the main body of the first adapter, and a microscope image can be easily captured without using an extra adapter. Therefore, the adapter system can have a wide versatility.
Further, in the present invention, the main body is locked at the first position in the optical axis direction, that is, at the same position by the first cylindrical portion provided in the main body and the third cylindrical portion provided in the auxiliary adapter. Can be made. Therefore, in the case where each of the two eyepieces having different diameters is imaged by the imaging device, the optical conditions such as the optical path length can be made the same. On the other hand, conventionally, for example, when an adapter is inserted and attached to the eyepiece lens unit, the adapter enters the eyepiece lens unit and the adapter cannot be removed. According to the present invention, such a problem can be avoided by providing the third cylindrical portion, and the adapter can be easily attached and detached. That is, according to the present invention, the adapter can be easily attached and detached while satisfying the optical conditions. The second tube portion may be the same as the first tube portion.
In one aspect of the present invention, fixing for fixing the first adapter to the first C mount portion in a state where one end of the first adapter is inserted into the first C mount portion. The adapter is further provided. Since the first C mount portion is provided perpendicular to the ground in most microscopes, there are cases where imaging can be performed without a fixing adapter as in the present invention. However, by providing such a fixing adapter, the imaging device can be fixed more reliably.
In one form of this invention, the length of the said optical axis direction of the said 3rd cylinder part is 9 mm-10 mm. By providing the relatively long tube portion of 9 mm to 10 mm in this way, it is possible to prevent the auxiliary adapter from entering the eyepiece lens insertion portion and being unable to be extracted while satisfying the optical conditions.
Further, the imaging apparatus tends to rotate suddenly in order to be mounted in an oblique direction when mounting the eyepiece lens insertion portion via the first adapter an imaging device if e example. In the present invention, the first O-ring and the second O-ring can prevent such an unexpected rotation of the imaging apparatus. In the present invention, the first O-ring and the second O-ring are made of different materials, for example, the hardness of the two O-rings is made different. By doing so, the force required when attaching the auxiliary adapter to the first adapter may be different from the force required when inserting the first adapter with the auxiliary adapter attached into the eyepiece insertion portion. it can. For example, it is possible to smoothly insert the first adapter with the auxiliary adapter into the eyepiece insertion portion by setting the force required when inserting the first adapter into the eyepiece insertion portion to be smaller than the other. On the other hand, the first adapter and the auxiliary adapter each have a size that can be easily held with one hand. Therefore, the auxiliary adapter can be easily attached to the first adapter even if the force required for attaching the auxiliary adapter to the first adapter is set to be relatively large.
In one embodiment of the present invention, the first O-ring is made of silicon rubber, and the second O-ring is made of nitrile rubber. Since the second O-ring is made of nitrile rubber, the wear resistance is excellent and effective. On the other hand, since the first O-ring is made of silicon rubber, “stickiness” is relatively strong. Therefore, while preventing unexpected rotation of the digital camera or the like, for example, the force required when the first adapter with the auxiliary adapter attached is inserted into the eyepiece insertion portion can be minimized.
In one embodiment of the present invention, the first O-ring and the second O-ring are different in color. Thereby, the attachment mistake of the 1st and 2nd O-ring can be prevented.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a configuration of an optical adapter according to an embodiment of the present invention.
FIG. 2 is a view showing a state in which an optical adapter is attached to an eyepiece insertion portion having an inner diameter φ23.2.
FIG. 3 is a view showing a state in which the optical adapter shown in FIG. 1 is mounted on the first C mount portion.
FIG. 4 is a view showing a state in which the optical adapter shown in FIG. 1 is mounted on another first C mount.
FIG. 5 is a sectional view showing a φ30 adapter.
FIG. 6 is a cross-sectional view showing a C-mount adapter.
FIG. 7 is a diagram showing a state in which the φ30 adapter shown in FIG. 5 is attached to the optical adapter shown in FIG.
FIG. 8 is a view showing a state in which the φ30 adapter shown in FIG. 5 and the C mount adapter shown in FIG. 6 are attached to the optical adapter shown in FIG.
FIG. 9 is a diagram showing a state in which the optical adapter is attached to the second C mount portion via the C mount adapter.
FIG. 10 is a diagram showing a state in which an optical adapter having a φ30 adapter is attached to an eyepiece insertion portion having an inner diameter φ30.
[Best Mode for Carrying Out the Invention]
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the main body 2 of the optical adapter 1 has a stepped cylindrical shape, and has a small-diameter cylindrical portion 41 as a first cylindrical portion. Moreover, the main body 2 has a large-diameter cylindrical portion 42 as a second cylindrical portion. The length d in the optical axis direction of the small-diameter cylindrical portion is, for example, 9 mm to 10 mm. The diameter of one end 3 of the main body 2 is formed to the minimum, and is inserted into the eyepiece insertion portion of the microscope, and is locked at the entrance of the eyepiece insertion portion by the small diameter cylindrical portion 41. Accordingly, the optical adapter 1 is configured to be locked at the first position in the optical axis direction with respect to the eyepiece insertion portion.
The first position here refers to the position of the optical adapter 1 in the direction of the optical axis 70 with respect to the eyepiece insertion portion 34a of the microscope 32, as shown in FIG. From another viewpoint, the first position is a position where the optical adapter 1 is in contact with the tip of the eyepiece lens insertion portion 34, that is, a position where the lower end 41 a of the small diameter cylindrical portion 41 is formed. The eyepiece portion 34a of the microscope shown in FIG. 2 has, for example, a first inner diameter, and for example, the first inner diameter is φ23.2.
A digital camera or a CCD camera as an imaging device can be attached to the other end 6 of the main body 2. For example, a screw portion 7 to which a lens portion of a digital camera is screwed is provided on the outer peripheral portion of the other end 6 of the main body 2. An insertion portion 8 into which a lens portion of a CCD camera is inserted is provided on the inner peripheral portion of the other end 6 of the main body 2. Here, when the digital camera and the CCD camera are mounted on the microscope via the optical adapter 1, the optical path length is such that the optical images from the microscope match. Further, a screw hole into which a screw for fixing the CCD camera inserted into the insertion portion 8 is screwed may be provided near the upper portion of the main body 2. The CCD camera is usually wired from a personal computer or the like, and the CCD camera is rotated unexpectedly by being pulled by the wiring or the like by fixing the CCD camera with a screw (not shown) through the screw hole (not shown). Can be prevented.
An optical path 10 for passing an optical image from the microscope is provided inside the main body 2. On the optical path 10 inside the main body 2, an image through the eyepiece lens insertion portion of the microscope in a state where one end 3 of the main body 2 is inserted into the eyepiece lens insertion portion of the microscope and locked at the first position. Is provided at a specific position of a digital camera or a CCD camera mounted on the main body 2.
Further, a glass micro installation portion 13 to which the glass micro 12 can be attached and detached is provided at a focal position on the optical path 10 in the main body 2. The glass micro installation part 13 inserts the glass micro 12 from the one end 3 side of the main body 2 and stops it on the protruding part 14 provided on the inner wall on the one end 3 side of the main body 2. The glass micro 12 is sandwiched between the ring member 15 to be screwed and the protruding portion 14. In the optical adapter according to the present invention, it is possible to provide such a glass micro installation part 13 on the optical path 10 in particular, and by providing the glass micro installation part 13 having such a configuration that the glass micro 12 can be attached and detached, an image of a microscope is provided. It is possible to superimpose various images such as dimension lines.
In the present embodiment, as shown in FIG. 3, for example, the digital camera 31 is attached to the other end 6 of the optical adapter 1, and the other end 3 of the optical adapter 1 is inserted into the straight tube portion 46 as the first C mount portion. be able to. Reference numeral 48 denotes an eyepiece unit. At this time, the large-diameter cylindrical portion 42 comes into contact with the flange 46a inside the straight cylindrical portion 46 and is locked at the second position. Thereby, an enlarged image obtained by the microscope 40 can be taken by the digital camera 31. In addition, after the large-diameter cylindrical portion 42 comes into contact with the flange 46 a and is locked, the large-diameter cylindrical portion 42 may be fixed by tightening with a screw 47 provided on the straight cylindrical portion 46. As a result, the optical adapter 1 can have wider versatility than the conventional one.
The second position here refers to the position of the optical adapter 1 with respect to the straight tube portion 46 in the direction of the optical axis 70 as shown in FIG. From another viewpoint, the second position is a position where the optical adapter 1 is in contact with the flange 46a, that is, a position where the lower end 42a of the large-diameter cylindrical portion 42 is formed.
In the case of the structure of the microscope 140 as shown in FIG. 4, the digital camera 31 is attached to the other end 6 of the optical adapter 1, and the other end 3 of the optical adapter 1 is different from that shown in FIG. It can be inserted into the straight tube portion 146 as a C mount portion. Reference numeral 148 denotes an eyepiece unit. At this time, the small-diameter cylindrical portion 41 abuts on the protruding portion 146a provided at the upper end of the straight cylindrical portion 146 and is locked at the second position. Thereby, an enlarged image obtained by the microscope 140 can be taken by the digital camera 31.
When attaching the optical adapter 1 to the straight tube portion 146, the following work is performed. For example, a ring-shaped fixing adapter 51 is prepared and fitted as shown in the drawing, and after the small-diameter cylindrical portion 41 abuts and locks against the protrusion 146a, it is tightened with screws 49 and 50 provided on the fixing adapter 51. And fix. Since the straight tube portion 146 is provided perpendicular to the ground in most microscopes, imaging can be performed without the fixing adapter 51. However, the digital camera can be more reliably fixed by providing such a fixing adapter 51.
The second position here refers to the position of the optical adapter 1 with respect to the straight tube portion 146 in the direction of the optical axis 70 as shown in FIG. From another point of view, the second position is a position where the optical adapter 1 abuts against the protrusion 146a, that is, a position where the lower end 41a of the small-diameter cylindrical portion 41 is formed.
There are two standard diameters of the eyepiece insertion part of the microscope, φ23.2 and φ30. Therefore, the outer diameter of the contact portion 5 of the main body 2 of the optical adapter 1 is set to φ23.2, and an auxiliary adapter is provided on the outer periphery thereof, for example, as shown in FIG. 2 is possible). This makes it possible to comply with both standards. The φ30 adapter 16 has a large diameter portion 16c as a third cylindrical portion. The length e in the optical axis direction of the large diameter portion 16c is, for example, 9 mm to 10 mm, and is the same as the length d of the small diameter cylindrical portion 41.
By using the optical adapter 1 in the state shown in FIG. 1, a digital camera or the like can be attached to a microscope having an eyepiece insertion portion having an inner diameter φ23.2. Further, as shown in FIG. 7, by attaching the φ30 adapter 16 shown in FIG. 5 to the optical adapter 1 shown in FIG. 1, the digital camera or the like is attached to the microscope having the eyepiece insertion portion with the inner diameter φ30. Can be mounted in position (see FIG. 10).
Here, the first position refers to the position of the optical adapter 1 in the direction of the optical axis 70 with respect to the eyepiece insertion portion 34b having an inner diameter φ30. From another point of view, the first position refers to the position where the φ30 adapter 16 is attached to the optical adapter 1 and the φ30 adapter 16 contacts the tip of the eyepiece lens insertion portion 34b, that is, the lower end 16d of the large diameter portion 16c is This is the position to be formed.
Since the lengths d and e are the same as shown in FIGS. 1 and 5, the same optical path length can be formed when the φ30 adapter 16 is used and when it is not used at the same position. That is, the optical adapter 1 is locked at the first position in the optical axis direction, that is, at the same position with respect to the eyepiece insertion portions 34a and 34b, both by the small diameter cylindrical portion 41 and by the large diameter portion 16c of the φ30 adapter 16. Can be made. Since the main body 2 can be locked at the same position in this way, the optical conditions can be made the same.
FIG. 5 is a sectional view showing the φ30 adapter 16. O-rings 27 are fitted in, for example, two places on the outer periphery 16 a of the φ30 adapter 16. An O-ring 28 is also fitted in, for example, one place on the inner periphery 16 b of the adapter 16. The outer and inner O-rings 27 and 28 are made of different materials. By doing so, the force required when attaching the φ30 adapter 16 to the optical adapter 1 and the force required when inserting the optical adapter 1 attached with the φ30 adapter 16 into the eyepiece insertion portion 34b (see FIG. 10). Can be different.
For example, the force required to insert the optical adapter 1 with the φ30 adapter 16 into the eyepiece lens insertion portion 34b is set to be smaller than the force required to attach the φ30 adapter 16 to the optical adapter 1. To do. This can be realized, for example, by using a softer material for the outer O-ring 27 than the inner O-ring 28. As a result, the optical adapter 1 with the φ30 adapter 16 attached can be smoothly inserted into the eyepiece insertion portion 34b. On the other hand, each of the optical adapter 1 and the φ30 adapter 16 has a size that can be easily held by one person with one hand. Therefore, the force required when the φ30 adapter 16 is attached to the optical adapter 1 is set to be larger than the force required when the optical adapter 1 attached with the φ30 adapter 16 is inserted into the eyepiece insertion portion 34b. However , the φ30 adapter 16 can be easily attached to the main body 2 of the optical adapter 1.
Specifically, the outer O-ring 27 may be made of, for example, silicon rubber, and the inner O-ring 28 may be made of, for example, nitrile rubber. Since the inner O-ring 28 is made of a relatively hard nitrile rubber, the wear resistance is excellent and effective. Alternatively, further excellent wear resistance can be ensured by using an inner O-ring 28 of styrene butadiene rubber. On the other hand, by using the outer O-ring 27 of silicon rubber, “stickiness” becomes relatively strong. Therefore, while preventing the unexpected rotation of the digital camera 31 or the like, the force necessary for inserting the optical adapter 1 with the φ30 adapter 16 attached thereto into the eyepiece insertion portion 34 as described above is minimized. Can be suppressed.
The outer O-ring 27 and the inner O-ring 28 are different in color. Thereby, the attachment mistake of the 1st and 2nd O-ring can be prevented. For example, the outer O-ring 27 can be blue and the inner O-ring 28 can be black. However, it is not limited to these colors.
Next, the C mount adapter will be described.
As shown in FIG. 6, the C mount adapter 21 has a cylindrical shape, and is engaged at one end 22 with, for example, a straight tube portion as a second C mount portion of the microscope, that is, screwed. The screw part 23 is provided. The other end 24 is provided with an insertion portion 25 into which the one end 3 of the optical adapter 1 is inserted and locked at a predetermined position. As shown in FIG. 8, the digital adapter attached to the optical adapter 1 with one end 3 of the optical adapter 1 inserted into the insertion portion 25 of the other end 24 via the φ30 adapter 16 and locked at a predetermined position. An optical path 26 having an optical path length for forming an image through the C mount portion of the microscope at the specific position of the camera or CCD camera is provided inside the C mount adapter 21. A screw hole 29 into which a screw 30 for fixing to the optical adapter 1 inserted into the insertion portion 25 is screwed is provided on the outer periphery of the insertion portion 25 at the other end 24.
When the φ30 adapter 16 and the C mount adapter 21 according to the present embodiment are used, the adapter system according to the embodiment of the present invention can be used as follows, for example.
For example, as shown in FIG. 9, when the digital camera 31 is used on the C mount portion 33 side of the microscope 232, the digital camera 31 is connected to the microscope 232 via the C mount adapter 21, the φ30 adapter 16 and the optical adapter 1. Is attached to the C-mount portion 33 at the third position. The same applies to the CCD camera. In this case, the user can confirm an optically identical image with the image captured by the digital camera 31 from the eyepiece unit 34 of the microscope 232.
Here, the third position refers to the position of the optical adapter 1 in the direction of the optical axis 70 with respect to the C mount portion 33 as shown in FIG. From another viewpoint, the third position is a position where the screw portion 23 of the C mount adapter 21 is formed.
When the digital camera 31 is used in the eyepiece unit 34a of the microscope 32, the digital camera 31 is connected to the eyepiece unit 34a of the microscope 32 via the optical adapter 1 as shown in FIG. Or 34b. The same applies to the CCD camera.
Further, when the digital camera 31 is used in the eyepiece 34b of the microscope 132, as shown in FIG. 10 described above, the digital camera 31 is passed through the optical adapter 1 to which the φ30 adapter 16 is attached. Is attached to the eyepiece 34b of the microscope 132. The same applies to the CCD camera.
As a result, the digital camera can be used even for an ordinary microscope having no C mount portion.
On the other hand, conventionally, for example, when the φ30 adapter is inserted and attached to the eyepiece, the φ30 adapter enters the eyepiece and cannot be removed. According to the present embodiment, according to the φ30 adapter 16, such a problem can be avoided by providing the large diameter portion 16c. And since the length is formed comparatively long with 9 mm-10 mm, attachment / detachment of an adapter can be performed easily. That is, according to this embodiment, the adapter can be easily attached and detached while satisfying optical conditions such as the optical path length.
The present invention is not limited to the embodiment described above, and various modifications are possible. For example, a CMOS camera may be used as the imaging device.
[Industrial applicability]
As described above, according to the present invention, an enlarged image of a microscope can be easily captured using an imaging device such as a digital camera. In addition, the adapter can be easily attached to and detached from the eyepiece unit, and optical conditions for enabling an imaging device such as a digital camera to capture an enlarged image of the microscope can be satisfied.

Claims (5)

(A) A main body that can be inserted into an eyepiece lens insertion portion of a microscope having one inner diameter at one end and an imaging device can be mounted at the other end, and an optical path provided therein, and the first inner diameter A first tube portion for locking the main body at a first position on the optical axis direction of the optical path with respect to the eyepiece lens insertion portion having a first end of the main body is a first C mount portion of the microscope A main body having a second tube portion for locking the main body at a second position in the optical axis direction with respect to the first C mount portion;
An auxiliary adapter that is attachable to one end of the main body and has an outer diameter that is larger than the one end and that can be inserted into an eyepiece insertion portion of a microscope having a second inner diameter that is larger than the first inner diameter, A third cylindrical portion for locking the main body at the first position in the optical axis direction with respect to the eyepiece insertion portion of the microscope having the second inner diameter; An auxiliary adapter having one O-ring and a second O-ring mounted on an inner peripheral surface and made of a material different from that of the first O-ring;
The main body or the main body on which the auxiliary adapter is mounted is inserted into the eyepiece insertion portion having the first or second inner diameter and is locked at the first position. Or an eyepiece of a microscope having the first or second inner diameter with one end of the main body inserted into the first C-mount portion and locked at the second position Or a first adapter having a lens system that forms an image through the first C-mount unit at a specific position of the imaging device mounted on the main body,
(B) One end of the first adapter having one end engageable with a second C mount portion having a shape different from that of the first C mount portion of the microscope and the other end mounted with the auxiliary adapter. Can be inserted,
With one end engaged with the second C mount portion and the other end of the first adapter with the auxiliary adapter attached to the other end, the second C mount portion is inserted into the second C mount portion. The main body is locked at a third position on the optical axis, and in the locked state, the second C mount is mounted at the specific position of the imaging device mounted on the first adapter. An adapter system comprising: a second adapter having an optical path having an optical path length for forming an image through the unit. The adapter system according to claim 1,
A fixing adapter for fixing the first adapter to the first C mount portion in a state where one end of the first adapter is inserted into the first C mount portion; Features adapter system. The adapter system according to claim 1 or 2,
The adapter system, wherein a length of the third cylindrical portion in the optical axis direction is 9 mm to 10 mm. The adapter system according to any one of claims 1 to 3,
The first O-ring is made of silicon rubber, and the second O-ring is made of nitrile rubber. The adapter system according to any one of claims 1 to 3, and claim 5, wherein
The adapter system, wherein the first O-ring and the second O-ring are different in color.

Images