RU208595U1 - FIXING DEVICE FOR OPTICAL COMPONENTS - Google Patents

Abstract

The utility model relates to optomechanics and can be used to develop sample illumination in the construction of optical frame systems for microscopy and biomedical imaging. The technical problem to be solved by the utility model is to provide the possibility of attaching components outside the optical axis of the frame system to illuminate the object plane of the lens. The technical problem is solved by the fact that in the device for fastening optical components, which consists of a round or rectangular plate with a central light-transmitting hole, holes for installing the frame system rods and screws for fixing them, clamps for optical components are located on both sides of the plate. The technical result consists in providing the possibility of attaching components outside the optical axis of the frame system for illuminating the objective plane of the lens and, as a result, reducing the installation time, which increases labor productivity. The claimed utility model has greater manufacturability and ease of use, which contributes to increased productivity. 1 ill.

Description

The useful model relates to optomechanics and can be used to develop illumination of samples in the construction of optical frame systems for microscopy and biomedical imaging.

The known device for attaching optical components consists of a plate made of anodized aluminum, round or rectangular with a central light-transmitting hole, holes for installing the rods of the frame system and screws for fixing them (https://www.thorlabs.com/newgrouppage9.cfm?objectgroup_id = 2273; https://www.edmundoptics.com/f/cage-system-mounting-plates/14411/, publ. 03/26/2021).

This device has the following disadvantages: the ability to mount components exclusively on the optical axis; because of what its manufacture requires complex and expensive equipment, as well as significant time costs.

The technical problem to be solved by the utility model is to provide the possibility of fixing the components outside the optical axis of the frame system to illuminate the objective plane of the objective.

The technical problem is solved by the fact that in a device for attaching optical components, consisting of a round or rectangular plate with a central light-transmitting hole, holes for installing the rods of the frame system and screws for fixing them, on the sides of the plate there are clamps for optical components.

The technical result consists in providing the possibility of fixing components outside the optical axis of the frame system to illuminate the objective plane of the lens and thereby reducing the time spent on installation, which increases labor productivity.

The essence of the utility model is illustrated by a drawing.

The device is a plate 1 with a central light-transmitting hole 2, coaxial with the main optical axis of the elements used in the frame system (not shown in the figure), and two pairs of semicircular clamps 3 located on both sides of the plate 1. There are holes 4 at the ends of the clamps 3 , intended for bringing together and separating the clamps 3 in pairs. In plate 1, holes 5 are made for installing the rods of the optical system (not shown in the figure) and rectangular holes 6 for installing nuts (not shown in the figure), designed to ensure fixation of the rods of the optical system using screws installed in holes 7 made in the plate 1. The device is located above the object plane 8.

The device works as follows.

Optical components (not shown in the figure) are installed in clamps 3, which are fixed in clamps 3 with screws (not shown in the figure) installed in holes 4 and nuts (not shown in the figure). Optical system rods are installed in holes 5, nuts are installed in the rectangular holes 6, designed to ensure the fixation of the rods of the optical system using screws installed in the holes 7.

Plate 1 is installed in the frame system immediately after the lens (not shown in the figure), located in the hole 2, with its lower boundary close to its frame. The angle α of the arrangement of the axes of the clamps 3 is selected so that when mounted on the device at a focal distance f from the object plane 8, their axes intersect with the main optical axis on the object plane 8 at one point.

The device is manufactured using additive manufacturing equipment, in particular, a 3D printer. This method of manufacturing the device can significantly reduce the time, labor intensity and manufacturing cost in comparison with the known analogue.

The claimed utility model has greater manufacturability and ease of use, which contributes to an increase in labor productivity.

Claims (1)

A device for attaching optical components, consisting of a plate with a central light-transmitting hole, holes for installing the rods of the frame system and screws for fixing them, characterized in that clamps for optical components are located on both sides of the plate.

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