KR100295221B1 - microscope - Google Patents

Abstract

The microscope apparatus includes a microscope body having an eyepiece and an objective lens; A base; A main portion provided on the base; A first position where the distance between the base and the eyepiece lens is greater than a distance between the base and the objective lens, and a distance between the base and the eyepiece lens is larger than a distance between the base and the eyepiece lens, And a second position that is smaller than the distance from the objective lens.

Description

microscope

FIG. 1 is a partial cross-sectional view of the microscope device according to the present invention when viewed from the side; FIG.

FIG. 2 is a partial cross-sectional view of the microscope device according to the present invention when viewed from the back; FIG.

FIG. 3 is a front view of the microscope apparatus according to the present invention. FIG.

FIG. 4 is an explanatory diagram of a lens system of a microscope apparatus according to the present invention; FIG.

FIG. 5 is an explanatory diagram of a lens system of a microscope apparatus according to the present invention; FIG.

6 is a front view of the microscope apparatus according to the present invention.

FIG. 7 is a side view of a conventional stereomicroscope. FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

1: Microscope 2: Microscope body

3: Base 4:

5: connection mechanism 6: positioning mechanism

7: Case 7a: Side

8a, 8b: Eyepieces 9a, 9b: Objective lens

10: illuminating device 11: transparent plate

12: Switch 13: Hollow shaft

14: Case 15: Bearing

16: disc member 16a: side

17a, 17b, 17c: screw 18: eyepiece

19: virtual space 20a, 20b, 21a, 21b: optical axis

22a, 22b: prism system 23: click device

24a, 24b, 24c, 24d: V-groove 25: steel ball

26: spring 27:

27b: side 28: roller member

29: rotating shaft 30: cylindrical member

31a, 31b: handle

BACKGROUND OF THE INVENTION [

[0001]

The present invention relates to a microscope, in particular, a stereomicroscope.

[Conventional example]

A conventional stereoscopic microscope has a microscope main body having an optical system required for observation so as to be vertically movable. The stereomicroscope is configured as shown in FIG. 7, for example.

7 includes a microscope body 40 having an eyepiece lens and an objective lens, a microscope holder 41 for holding the microscope body 40, and a microscope holder 41 for holding the microscope holder 41 in the vertical direction A base 43 to which the support shaft 42 is fixed, and a clamping screw 44. The support shaft 42 is supported by the support shaft 42, The microscope holder 41 includes a main body 45 and an arm 46 for holding the microscope main body 40 and has a fine handle 47. When the fine handle 47 is turned, the arm 46 moves up and down with respect to the main body 45 and the microscope main body 40 can be moved in the vertical direction.

When observing the specimen using this stereoscopic microscope, first, the microscope holder 41 is lifted up to a predetermined height along the support shaft 42 to perform approximate focusing. Thereafter, the clamp screw 44 is tightened to fix the microscope holder 41 to the support shaft 42. Next, the fine handle 47 is turned to move the microscope main body 40 in the vertical direction, and final focusing is performed.

Incidentally, in the case of carrying a conventional stereoscopic microscope, the above-mentioned microscope main body 40 becomes an obstacle. Therefore, in the stereoscopic microscope shown in FIG. 7, the clamp screw 44 is loosened and the microscope body 40 is lowered along the support shaft 42 and the height of the microscope is lowered.

Since the height of the microscope is lowered, the storage space can be reduced even when the microscope is placed in the storage box. However, once the microscope main body 40 is lowered, the microscope main body 40 described above must be lifted up along the support shaft 42 and fixed at a predetermined height in order to start a new observation. In this case, the above-described focusing is again required.

A conventional stereomicroscope is described in Japanese Unexamined Patent Publication No. 59-94314. In this stereoscopic microscope, a microscope attaching portion for holding the microscope main body is rotatably provided. Then, the stereoscopic microscope can observe a vertical plane, an inclined plane and a horizontal plane by rotating the microscope body.

However, when moving from observation of a vertical plane to observation of a horizontal plane, the height of the microscope is lowered, but observation of the horizontal plane is performed in the same manner as the conventional stereomicroscope described above. Therefore, in order to lower the height of the microscope, it is also necessary to lower the main body of the microscope along the vertical support shaft. Also, when the microscope main body is lowered along the vertical support axis,

SUMMARY OF THE INVENTION [

An object of the present invention is to provide a microscope apparatus capable of holding the microscope main body in a position where the microscope main body is not disturbed, and also shortening the time of focusing.

The microscope main body includes a first position for observing a sample placed on the base, a second position for observing the sample placed on the base, and a second position for observing the sample placed on the base, And to a second position, which is accommodated in the formed storage space.

The above object is also achieved by a microscope comprising a microscope body having an eyepiece lens and an objective lens, a base, a support member provided on the base and holding the microscope body, and an attachment mechanism for attaching the microscope body to the support member, Wherein the attachment mechanism has a first position in which the distance between the base and the eyepiece lens is larger than an interval between the base and the objective lens and a second position in which the distance between the base and the eyepiece lens is longer than the distance between the base and the objective lens And can be achieved by a microscope capable of holding the microscope main body in one of the small second positions.

According to another aspect of the present invention, there is provided a stereoscopic microscope comprising: a microscope main body having an eyepiece lens and an objective lens; a base; a support main body provided on the base and holding the microscope main body; A first position where an interval between the base and the eyepiece lens is greater than an interval between the base and the objective lens, and a second position where a distance between the base and the eyepiece lens is smaller than an interval between the base and the objective lens And a connecting mechanism for rotating the connecting member.

According to the microscope of the present invention, the main body of the microscope is housed in the storage space formed by the base and the support part, which is excellent in portability.

In addition, the height of the microscope apparatus can be reduced without moving the microscope body up and down by installing the microscope main body rotatably in the supporting portion. Therefore, the time for focusing is shortened in the case of observing again after the height of the microscope apparatus is reduced.

[Example]

An embodiment in which the microscope device according to the present invention is applied to a stereomicroscope will be described below.

1, the microscope 1 of the present invention comprises a microscope main body 2 having an optical system and the like required for observation, a base 3, a support portion 4 fixed to the base 3, A connecting mechanism 5 for rotatably connecting the microscope main body 2 and the supporting portion 4 and a positioning mechanism 6 for determining the positional relationship between the microscope body 2 and the supporting portion 4 .

The microscope main body 2 includes an eyepiece 8a, an objective lens 9a, and a lighting device 10 in a case 7. In addition to the eyepiece 8a and the objective lens 9a, an eyepiece 8b and an objective lens 9b as optical systems required for observation are not shown. A transparent plate 11, for example, an acrylic plate is provided in front of the illumination device 10. [ The illumination device 10 is arranged so as to illuminate the upper surface of the base 3 on which the sample is placed. The illumination is turned on / off by operating the switch 12.

A hollow shaft 13 is fixed to the side surface 7a of the case 7 of the microscope body 2. [ The hollow shaft 13 is rotatably held by a bearing 15 provided in the case 14 of the support portion 4. [ In addition, the bearing 15 is formed such that the hollow shaft 13 is horizontal with respect to the base 3. That is, the axial direction of the hollow shaft 13 and the longitudinal direction of the base 3 are parallel to each other in the lateral direction of the paper. A circular plate member 16 having a diameter larger than the diameter of the bearing 15 is fixed to the end of the hollow shaft 13 facing the inside of the support portion 4. [ The microscope main body 2 is connected to the hollow shaft 13 by the connecting mechanism 5 composed of the side surface 7a of the case 7, the hollow shaft 13, the bearing 15 and the disk member 16, As shown in FIG. In the present embodiment, the hollow shaft 13 and the disc member 16 are fixed by screws 17a, 17b, 17c (see FIG. 2). Of course, the fixing method is not limited to this method.

The hollow shaft 13 and the bearing 15 are formed such that the length in the axial direction of the hollow shaft 13 is the same. The side surface 7a of the microscope main body 2 and the side surface 16a of the disk member 16 slide the case 14 of the supporting portion 4 in a slidable manner. Therefore, even if the microscope main body 2 is rotated, the shaking motion in the axial direction of the hollow shaft 13 can be reduced.

That is, the hollow shaft 13 and the bearing 15 function as an attachment mechanism for attaching the microscope body 2 to the support portion 4. [ The side surface 7a and the disc member 16 of the microscope main body 2 serve as a regulating member for eliminating the fluctuation during the rotation of the microscope main body 2. [ The bearing 15 is provided at a position spaced apart from the upper surface of the base 3 by a predetermined distance so that the eyepiece portion 18 of the microscope main body 2 does not come into contact with the base 3 when the microscope main body 2 is rotated Of course.

Next, rotation operation of the microscope main body 2 will be described with reference to FIGS. 2 and 3.

In Fig. 2, the eyepiece portion 18 of the microscope main body 2 faces upward. In the case of observing a specimen placed on the base 3, the microscope main body 2 is in this state. In the case of carrying the microscope of this embodiment or storing it in a box or the like, the microscope main body 2 is rotated on the axis of the hollow shaft 13 in the state shown in FIG. 2 and the eyepiece portion 18 is rotated on the base 3, . This state is shown in FIG. Thus, the microscope of this embodiment can direct the eyepiece portion 18 toward the base 3, so that the microscope main body 2 does not protrude upward beyond the support portion 4. Thus, the height of the microscope can be significantly reduced. In this state, the microscope main body 2 is housed in a virtual space 19 having a rectangular parallelepiped shape having a height equal to the height of the supporting portion 4, with the upper surface of the base 3 as a bottom surface. Thus, not only the height, but also the space occupied by the microscope itself is reduced. Further, the microscope body 2 is held by the positioning mechanism 6 in the state shown in FIG. 2 and the state shown in FIG. The structure of the positioning mechanism 6 will be described later.

Next, the positional relationship between the objective lens and the eyepiece according to the rotation of the microscope main body will be described.

As shown in FIG. 4, the microscope body 2 is provided with eyepieces 8a and 8b, objective lenses 9a and 9b, an optical axis 20a of the eyepiece lens 8a, A prism system 22a for aligning the optical axis 21a and a prism system 22b for aligning the optical axis 20b of the eyepiece lens 8b and the optical axis 21b of the objective lens 9b are disposed. In FIG. 4, the microscope main body 2 is in a state as seen in the first and second views, that is, a sample on the base is observable. In this case, the distance ℓ ₁ between the base 3 and the eyepiece 8a (8b) is larger than the distance ℓ ₂ between the base 3 and the objective lens 9a (9b). The distance between the base (3) and an eyepiece (18), ℓ ₃ is larger than the distance ℓ between the top end ₄ of the base 3 and the support periphery (4).

Conversely, when the microscope main body 2 is in the state shown in FIG. 3, the distance l ₁ between the base 3 and the eyepiece 8a (8b) is the distance between the base 3 and the objective lens 9a 9b) it is smaller than the distance ℓ ₂ between.

Next, the positioning mechanism 6 will be described. The positioning mechanism 6 is constituted by the disk member 16 described above and the click device 23 fixed to the inside of the case 14 of the supporting portion 4 as shown in Figs. 1 and 2 . V grooves 24a, 24b, 24c and 24d are formed at four positions on the outer periphery of the disk member 16. [ The click device 23 includes a spherical member such as a steel ball 25 and an elastic member such as a spring 26 for pressing the steel ball 25 into the V groove in order to engage with each V groove have.

The microscope main body 2 can maintain its position at a position corresponding to the formation position of each V-groove. In this embodiment, the V-grooves are provided every 90 degrees. The microscope main body 2 is held in the state shown in Figs. 1 and 2 by engaging the V groove 24c with the steel ball 25. Fig. The microscope main body 2 is held in the state shown in Fig. 3 by engaging the V groove 24a with the steel ball 25. The microscope main body 2 is held horizontally by engaging the steel ball 25 with the V groove 24b or the V groove 24d. This state is shown in FIG.

When the microscope main body 2 is left in the state shown in FIG. 3, the microscope itself becomes compact in the case of observing the vegetation outdoors and the transportation becomes convenient. When observing a sample that can not be placed on the base 3, such as a stem of a tree, the microscope main body 2 may be horizontal as shown in FIG. If the illumination is necessary, the above-described illumination device 10 can also be used in this state. That is, since the illumination device 10 is installed in the case 7 of the microscope body 2, the illumination device 10 rotates together with the microscope body 2. When the microscope main body 2 is in the state shown in FIG. 3, the eyepiece portion 18 can be protected at the time of transportation because the base 3 is located in front of the eyepiece portion 18.

1 and 2, the support portion 4 includes a vertical movement mechanism for moving the case 14 in a direction perpendicular to the base 3 (upward and downward with respect to the base 3) Is installed.

This vertical movement mechanism is constituted by a support plate 27 fixed to the base 3 and a roller member 28 rotatably held in the case 14. The roller member 28 is composed of a rotary shaft 29 and a cylindrical member 30 provided on the outer side of the rotary shaft 29. The cylindrical member 30 is in contact with one side surface 27a of the support plate 27. [ Further, a member having a large friction with the side surface of the support plate 27, for example, rubber is used for the cylindrical member 30. The rotary shaft 29 is longer than the width of the support plate 27, and both ends of the rotary shaft 29 protrude from the support plate 27 as shown in FIG. Handles 31a and 31b are fixed to both ends of the rotary shaft 29, respectively.

Therefore, when the handles 31a and 31b are rotated, the roller member 28 ascends or descends while being rotated along the side surface 27a of the support plate 27, so that the case 14 ) Moves in accordance with the rotation of the roller member (28). That is, when the handles 31a and 31b are operated, the microscope main body 2 rotatably attached to the case 14 can be moved up and down, and the specimen placed on the base 3 can be focused.

Since the microscope main body 2 of this embodiment is rotatably attached to the supporting portion 4, if the microscope main body 2 is once focused near the upper surface of the base 3, after the observation is finished, as shown in FIG. 3 Even when the eyepiece portion 18 is directed downward, focusing can be performed near the upper surface of the base 3 only by rotating the microscope main body 2 by 180 degrees. Therefore, focusing on the specimen is done immediately.

Claims (5)

A microscope body; Base; And a support part provided on the base and holding the microscope main body, wherein the microscope main body includes a first position for observing a sample placed on the base, and a second position for accommodating the base and the support part, And moves to the second position. A microscope body having an eyepiece and an objective lens; Base; A support main body installed on the base and holding the microscope main body; And an attaching mechanism for attaching the microscope main body to the support portion, wherein the attaching mechanism has a first position in which an interval between the base and the eyepiece lens is larger than an interval between the base and the objective lens, And a second position in which an interval between the base and the eyepiece lens is smaller than an interval between the base and the objective lens. A microscope body having an eyepiece and an objective lens; Base; A support main body installed on the base and holding the microscope main body; And a second position in which the distance between the base and the eyepiece lens is greater than a distance between the base and the objective lens, and a distance between the base and the eyepiece lens is shorter than a distance between the base and the eyepiece lens And a second position that is smaller than an interval between the base and the objective lens. The microscope according to claim 3, further comprising: a positioning mechanism for determining a positional relationship between the microscope main body and the abutment portion; Wherein the positioning mechanism is capable of holding the microscope main body at two positions in the first position and the second position. The microscope according to claim 4, wherein, when the microscope main body is in the first position, an interval between the base and the eyepiece lens is larger than an interval between the base and the upper end of the support part, The microscope main body is housed in a virtual space of a rectangular parallelepiped shape having a height of the support portion from the upper surface of the base.