RU85658U1 - AGGLUTINOSKOP SMAGINA-KONOVALOV - Google Patents

Abstract

1. Agglutinoscope containing a hollow tube, a lighting system, a surveillance system and a video monitor, characterized in that a digital camera is used as the surveillance system, mounted on the top of the hollow tube in the tube and connected to the USB port of a computer (laptop), and at the bottom part of the hollow tube, a hole is made, coaxial with the hole in the tube, in which the lighting system is located, which contains a laser LED connected to a power supply unit, which is equipped with a light flux power regulator, moreover the specified hole is covered with frosted glass, and on the side surface of the outer tube tube there is a vertical groove for the fixing screw. ! 2. Agglutinoscope according to claim 1, characterized in that a white light LED is used. ! 3. Agglutinoscope according to claim 1, characterized in that it is additionally equipped with a printer for issuing the results of the analysis on paper. ! 4 Agglutinoscope according to claim 1, characterized in that it is additionally equipped with a color filter. ! 5. Agglutinoscope according to claim 1, characterized in that the tube is made in the form of two concentrically arranged tubes: external and internal.

Description

The utility model relates to equipment for clinical laboratory research, in particular, to devices for monitoring the agglutination reaction (Cannes reaction).

Known agglutinoscope containing a horizontal tube, an eyepiece, a mirror (V.S. pg. 187-188).

A disadvantage of the known agglutinoscope is the visual recording of reaction results, which leads to a subjective assessment of the results, as well as the lack of documentation of the analysis results.

There is also known a device for monitoring the inner surface of bodies, containing a hollow cylindrical body, a lighting system with an electric lamp, a surveillance system, a lens, an eyepiece and a video monitor, on the screen of which images are visualized (patent for RF FR No. 2270993).

A disadvantage of the known device is that it does not allow laboratory studies of the agglutination reaction.

Closest to the claimed utility model is a video-digital device for registering agglutination, consisting of a scanner or analyzer based on a digital-video camera, while the result is evaluated using a specialized program (patent for FROM RF No. 2225644).

A disadvantage of the known video-digital device is that it is designed for microvolumes of samples measured in microlitres, applied in the form of an ordered matrix on a microplate placed in a scanner or under a video-digital camera. For macroscopic volumetric agglutination in test tubes (the classical method), which is most important in clinical laboratory studies, this device is not suitable, since macrovolumes are used.

The objective of the utility model is to create an agglutinoscope for macroscopic volumetric agglutination in test tubes (classical method), with digital photo-video monitoring and documenting the results of the analysis on the computer’s hard drive.

The problem is solved by the proposed agglutinoscope, including a hollow tube on a stand, in the upper part of which there is a tube with a hole in which the digital camera is mounted, in the lower part of the tube, a hole is made coaxially with the hole in the tube, in which the light source is made, made in the form of a white white LED light connected to a power supply unit having a power regulator of the light flux, and the hole in the lower part of the tube is covered with frosted glass, and a vertical groove is made in the tube for fixing the screw.

An additional color filter can be installed above the frosted glass.

The process of photographing is controlled programmatically from a computer using the “mouse” manipulator, for which certain models of digital cameras, such as the Canon POWER SHOT G9, POWER SHOT S5 IS and similar ones bundled with Remote Capture software, are used.

The inventive utility model is illustrated by drawings, in which Fig. 1 shows a schematic diagram of the proposed agglutinoscope, Fig. 2 shows a tube with a digital camera.

The proposed agglutinoscope (figure 1, 2) consists of a stand 1, a hollow tube 2, a tube 10, a digital camera 3, a computer (or laptop) 4, a light source 5, a light source power supply unit 6 with a light flux power regulator. Agglutinoscope can be supplemented with a printer (not shown in the drawing) to provide the results of the analysis on paper. In the hollow tube 2 there is a hole in which frosted glass 7 is installed to create uniform illumination of the tube. Above the frosted glass 7, a color filter 8, for example, yellow, can be installed to obtain a more contrasting image. To adjust the focal length on the side surface of the outer tube 11 of the tube 10, a vertical groove 12 is made for the fixing screw 9, which secures the camera 3 in the desired height position. The tube 10 is made of two concentrically arranged tubes: the outer tube 11 and the inner tube 10. The digital camera 3 is connected to the USB port of the computer 4.

The utility model works as follows. The test tube is placed in the horizontal part of the tube 2, the image of agglutination flakes is displayed through a digital camera 3 on the computer monitor 4. Depending on the type of camera, the optimal height position of the camera is selected, and then the screw 9 is fixed. The luminous flux of the light source 5 is set by the regulator 6 luminous flux so that the image quality on the computer screen is optimal. To obtain a high-quality image, the necessary optical magnification is set on the camera (the camera lens acts as a zoom lens) and the maximum resolution determined by the maximum number of pixels for this camera is set. When processing color reagents, both frosted glass and color filters can be used. The resulting image is saved in the computer's memory and, if necessary, processed by specialized programs or standard graphic editors (for example, Photo Shop). The process of photographing is carried out using a control program from a computer.

Using the proposed agglutinoscope allows you to avoid operator errors that occur during visual registration of the reaction results, speed up the registration process and save (document) the analysis results.

Claims (4)

1. Agglutinoscope containing a hollow tube, a lighting system, a surveillance system and a video monitor, characterized in that a digital camera is used as the surveillance system, mounted on the top of the hollow tube in the tube and connected to the USB port of a computer (laptop), and at the bottom part of the hollow tube, a hole is made, coaxial with the hole in the tube, in which the lighting system is located, which contains a laser LED connected to a power supply unit, which is equipped with a light flux power regulator, moreover the specified hole is covered with frosted glass, and on the side surface of the outer tube tube there is a vertical groove for the fixing screw. 2. Agglutinoscope according to claim 1, characterized in that a white light LED is used. 3. Agglutinoscope according to claim 1, characterized in that it is additionally equipped with a printer for issuing the results of the analysis on paper. 4 Agglutinoscope according to claim 1, characterized in that it is additionally equipped with a color filter. 5. Agglutinoscope according to claim 1, characterized in that the tube is made in the form of two concentrically arranged tubes: external and internal.