SU32188A1 - Microscope - Google Patents

Description

In the proposed microscope, the lens and the ocular are made in the form of spherical mirrors, with a convex spherical mirror placed on the path of the rays from the lens to the ocular shaft in order to obtain a larger magnification with a relatively short microscope length, and two illuminating mirrors are used to illuminate the preparation.

In FIG. 1 is a front view of a microscope; FIG. 2 is the same from the side and FIG. 3 and 4 is the same from above.

The microscope tripod consists of two round platforms parallel to each other — the bottom 7 and the top 2, fastened tightly with a stand (handle) 3. On the top platform 2, three stands 4, 5, 6 for mirror holders are perpendicular to it. Each of the supports represents a hollow tube into which a rod with a thickening (head) 7 is inserted at the free end. The rod can be fixed at the required height with the help of a clamping screw 8. In the rod head 7 there is a through parallel platform

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hole; When using a microscope, the tripod is positioned so that the rack 3 faces the worker, then one of the supports above the rack will be located closer to the worker, the other two (left 5 and right 4) are farther away. The leg of the mirror holder 9 is inserted into the thickening hole (head) of the left stem 5. The latter consists of a circular rim that can be rotated around its axis in a half ring attached to the leg (similar to a lighting mirror in a Leitz microscope). The leg can be fixed in the hole of the head of the rod stationary, with the help of the clamping screw 77. The middle (nearest) rod 6 is also intended for the mirror holder. It contains two lighting mirrors. The right rod 4 is designed to strengthen the "eye circle" (plate with a hole).

There is a rim 75 for a concave ocular mirror 14 on the upper platform of the shtativ. The latter is convex (lower)

the corons are set in a metal frame and lie on the tips of three screws 16, screwed into the platform; The screws are designed to adjust the plane of the mirror. From above, the mirror presses its gum on the edge, held by a metal ring 77, which fits snugly into the rim 13. For fixation of the eye, it serves as a disk / 2c hole 37.

In the center of the ocular mirror, as well as the B upper platform of the tripod, there is an opening 18 for the passage of light trainings. Corresponding to the opening of the platform, a small tube 19 extends down from it, inside of which there is another 20 mobile, in its lower part it is tapered with a cut-off tip. The opening at the top of the aforementioned cone serves as the diaphragm.

On the lower platform of the tripod, mounted on three legs, are placed a stage, a mirror-lens, a device for focusing and a stand for the lighting mirror.

The stand 21 is arranged in the same way as the stand for the mirrors on the upper platform, only the frame for the mirrors, as well as the lighting mirrors themselves (concave and flat), are twice the size of the upper lighting mirror. Ostavka is located at the edge of the site, opposite the rack 3.

From the bottom of the tripod stand, there are three, metal rods 22, on which the tubular legs 26 of the stage are put on. The top of the table is a circular plate with a hole 24 in the center for the passage of rays and with two holes for the clamps 25, arranged as in ordinary microscopes. The table, therefore, can be moved in the vertical direction. Focus on focusing here is due to the movement of the drug laid on the table.

From the center of the bottom pad of the tripod, the micrometre screw 27 with an external thread is screwed up on which the nut 28 is screwed. On the nut, there is a ring 2P fastened on top by two diverging plates 30 with the bottom surface of the table. Thus, when the position of the nut on the screw changes, the position in the vertical

the plane of the table itself, on which, with the help of clips, the slide is fastened.

The mirror lens 31 lies below the surface of the table on the said central screw 27. The upper part of the latter is shaped like a cube 32, this case is put on the appropriate size of a metal case 5J, at the top of which a mirror lens is fixed. There can be several lenses to the microscope (fastened with a case).

The microscope is equipped with a mirror lens 31, an eyepiece mirror 14, a mirror diffuser 34, and 35-36 illumination mirrors. For the upper lighting mirrors 36, the described mirror holder is designed on the middle stand 6, while the lower ones 35 are fixed on the small stand 2 /. In both cases, two mirrors are fitted into the frame (flat and concave); their mirror surfaces are turned in opposite directions (like illumination mirrors in ordinary microscopes). Thanks to such a device, the mirrors can be turned in any direction.

The main focal length of the lower, concave mirror is larger (approximately two times) than the focal length of the upper mirror. In size, the lower concave mirror is two times larger than the upper one. The following combinations of mirrors can be used for illumination of the preparation: 1) lower flat-upper flat, 2) lower flat-upper concave, 3) lower concave-upper flat. The lower mirror directs (and in the case of the concave and collects) light from the light source to the upper mirror; having reflected from the latter, the light rays pass through the holes in the center of the eyeglass / mirror and in the upper platform of the tripod and illuminate the preparation placed on the stage. It is sometimes convenient to illuminate the preparation, in the case of using an artificial light source, using only the upper mirror (flat or concave). When selecting concave mirrors (their main focal lengths), it is necessary to consider the size of the distance that the eye circle and the diffuser mirror are from the eyepiece mirror,

so that the illumination mirror could not be in the path of the rays going into the eye of the observer. It is most advisable, in the case of using parallel rays (a natural source of light), to use a combination lighting (lower concave-top flat).

In order to obtain large increases, a stronger illumination of the preparation is required.

The mirror-lens is placed below the surface (lids) of the stage, corresponding to its center on the top of the screw coming from the bottom of the bench. To a microscope there may be several of them, like lenses in ordinary microscopes. The lens is a concave mirror, with a very short main focal length: from 20 to 2 mm and smaller. Mirror surface of the mirror facing up.

The dimensions of the mirror-lens are determined by the requirement that the depth of the mirror be slightly smaller than its main focal length, so that the preparation can be placed (with a cover glass down) in focus. Lens frames should be made in such a way that the foci of installed different lenses are always at the same point. The smaller the main focal length of the lens, the higher the magnification, other things being equal.

Between the focus and the center of the mirror-lens, the preparation to be examined, illuminated by the method already indicated, is placed. As a result, an image of the object should be obtained behind the center of the mirror. A part (of the image bearing rays) passes through the hole in the upper platform of the shtativ and the hole in the center of the ocular mirror.

A diffuser mirror is placed in the path of these rays. There may be several diffusers for a microscope. Each mirror holder has two mirrors in it.

Mening mirrors, with one and the same lens, get different magnifications. The shorter the main focal length of the detector, the greater the increase in the system. The convex mirror-diffuser can be replaced with a flat (m-aloe magnification), it can also be replaced with a concave mirror. A mirror - diffuser is installed so that the rays coming from the lens are reflected in the direction of the ocular M.

The mirror-eyelid is of large size, concave, with a large main focal length.

The lumen of the ocular is set in such a way that the rays coming from the diffusor, reflected from the ocular, are gathered in the focus coinciding with the aperture of the eye circle.

The subject matter of the invention.

Claims (3)

1. A microscope characterized by the use of a concave spherical mirror as an objective and an ocular. 2. The form of the microscope under item 1, characterized in that the lens in the form of a concave spherical mirror / is located under the object table, provided with a hole for passage of rays from the illuminating mirror 36 to the lens 5 /, and the rays from the lens 31 through the examined a preparation to a convex spherical mirror 34, directing the rays to the eyepiece in the form of a spherical concave mirror 14 with a central hole installed above the stage on the platform 2, and a disk 72 with an opening 37 is used to fix the eye during observation . 3. In the microscope according to claim 2, the use of a micrometer screw 27 for moving the stage in the vertical direction, carrying at the same time an objective mirror 3L at its end FIG2 figure 1 hedgehog g // th.