RU212193U1 - Device for examination of the anterior and posterior segment of the eye - Google Patents

Abstract

The utility model relates to the field of medical technology, in particular to ophthalmic optical medical devices. A device for examining the inner part of the eye, containing a lens, an adapter and a digital portable microscope, characterized in that the adapter is made of plastic with a size of 30 × 50 mm in the form of two stages with a larger and smaller diameter paired with each other, and the lens is connected to the adapter stage of a larger diameter , and a digital handheld microscope with a smaller diameter adapter step. The connection of the lens and the digital portable microscope with a plastic adapter is made by means of glue or fixing screws. The technical result of the claimed utility model is to reduce the weight, which is not more than 150 g, which ensures the mobility of the device. 2 w.p. f-ly, 2 ill.

Description

The utility model relates to the field of medical technology, in particular to ophthalmic optical medical devices.

A device for the study and treatment of the inner part of the eye, containing an optical transducer, which includes a dividing translucent mirror located at an angle of 45° to the optical axis of the transducer, a dichromatic mirror located at an angle of 135° to the optical axis of the transducer, a photographic lens, a light filter, CCD - a controller, an illumination unit with a slit diaphragm, the light beam of which is optically directed to the plane of the separating semitransparent mirror of the optical converter, and a laser unit, the laser beam of which is optically directed to the plane of the dichromatic mirror of the optical converter, characterized in that a gonioscope is inserted into it, including a corneal contact lens, a system of internal mirrors and an output ring, on the outer plane of which an optical transducer is installed so that its optical input/output is directed inside the gonioscope, the optical transducer itself can move both around value of the output ring of the gonioscope, and along the direction of its diameter, and inside the output ring of the gonioscope below its outer plane and parallel to it there is a light filter, and the output of the CCD controller is connected to the input of the computer (RU 58349 U1, A61F 9/008, 27.11.2006) .

The disadvantages of the claimed device are its large size and weight, which do not allow its use in many medical institutions, the presence of many wires for image transmission and the high cost of the device.

A device and method for thorough optical treatment of the fundus, including a laser device with an optical feeder, an illumination source, a dichromatic mirror, a photo lens, a light filter, a CCD controller and a corneal contact lens with appropriate optical couplings, is known (US patent No. 6494878, A 61 F 9/008, 12/17/2002).

The disadvantages of the known device include its limited functionality, which does not allow to observe, photograph and treat the angle of the anterior chamber of the eye, as well as difficulty in operation.

The closest analogue of the claimed utility model is the development of Nidek (https://nidek.ru/catalog/oftalmology/5656/282618, published on 05/09/2021). This is a mobile goniscopy GS-1, which consists of a monoblock and contains a multimirror prism lens with 16 surfaces (areas), which provides 360° image capture into a single image with a stitching function, and a digital camera.

The disadvantage of the prototype is the large mass of the apparatus and the cost.

The technical problem to be solved by the claimed utility model is to increase the efficiency of diagnosing diseases not only of the anterior segment of the eye, but also of the posterior segment of the eye.

The technical result of the claimed utility model is a reduction in weight, which is not more than 150 g.

The technical result of the claimed utility model is achieved by the fact that the device for examining the anterior and posterior segment of the eye, containing a lens, an adapter and a digital portable microscope, according to the utility model, the adapter is made of plastic in the form of two steps paired with each other with a larger diameter of 50 mm and a smaller diameter 30 mm, with the lens connected to a larger diameter adapter stage and the digital handheld microscope to a smaller diameter adapter stage.

Additionally, the connection of the lens and the digital portable microscope with the adapter is made by means of glue.

Additionally, the connection of the lens and the digital portable microscope with the adapter is made by fixing screws.

The utility model is illustrated by drawings.

Figure 1 shows a device for examining the interior of the eye.

Figure 2 shows the device adapter for examining the inner part of the eye.

The device for studying the anterior and posterior segment of the eye, shown in figure 1, contains a lens (1), a plastic adapter (2) and a digital portable microscope (3).

The plastic adapter shown in Fig. 2 is 30×50 mm in size. The specified size is optimal and specially selected for connection on the one hand with the lens, and on the other hand with a digital portable microscope, the weight of which is not more than 150 g and ensures the mobility of the claimed device. If you use an adapter larger or smaller than 30×50 mm, then the connection of the adapter (2) with the lens (1) and digital handheld microscope (3) will not be tight enough and additional fasteners will be needed to make the device for examining the internal part of the eye assembly was a single unit without displacement of one element (lens, digital handheld microscope) relative to the other (adapter) and thus the weight of the device will increase or the connection will not occur, since the adapter will be smaller than the lens and the digital handheld microscope, which simply cannot fit in him. It should also be additionally noted that making the size of the adapter smaller than the specified one will lead to a change in the dimensions of the lens and camera, which will worsen the visualization of the process of examining the inner part of the eye.

The plastic adapter (2) is made of two stages paired with each other with a larger (4) equal to 50 mm and a smaller (5) equal to 30 mm diameter. The lens is connected to an adapter step of a larger diameter, equal to 50 mm, which is made with a transition to a diameter of 35 mm to stop the lens. The digital handheld microscope is connected to an adapter step of a smaller diameter, equal to 30 mm, which is made with a transition to a diameter of 25 mm to stop the camera. In this case, the installation depth of the lens and the digital portable microscope in the adapter is 10 mm.

The connection between the lens (1) and the digital handheld microscope (3) with the plastic adapter (2) can be done with glue. In addition, the connection between the lens (1) and the digital handheld microscope (3) with the plastic adapter (2) can be made using two M5 fixing screws.

The operation of the device is as follows.

Having installed a device for examining the anterior and posterior segment of the eye (gonioscope) with a contact corneal lens on the cornea of the patient's eye camera, the operator moves the optical image converter in the plane of the gonioscope output ring in such a way that the region of the eye chamber necessary for examination falls into the field of view of its optical input. In this case, the entire research process is displayed on the monitor through the use of Wi-Fi digital portable microscope.

Thus, the efficiency of diagnosing diseases not only of the anterior segment of the eye, but also of the posterior segment of the eye is increased.

Claims (3)

1. A device for studying the anterior and posterior segment of the eye, containing a lens, an adapter and a digital portable microscope, characterized in that the adapter is made of plastic in the form of two steps mated with each other with a large diameter of 50 mm and a smaller diameter of 30 mm, and the lens is connected to with a larger diameter adapter stage, and a digital handheld microscope with a smaller diameter adapter stage. 2. The device according to claim 1, characterized in that the connection of the lens and the digital portable microscope with a plastic adapter is made by means of glue. 3. The device according to claim 1, characterized in that the connection of the lens and the digital portable microscope with a plastic adapter is made by fixing screws.

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