RU2511079C1 - Iridological instrument - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to medical equipment. An instrument comprises a illuminant connected to a fibre-optic light guide with a light source, a telecamera, an objective lens, a computer and a monitor, a manual iris image displacement mechanism. The instrument is provided with a carrier and an eye support; the light source is placed one the carrier and presented in the form of a halogen lamp with an interferential deflector; the fibre-optic light guide is double-beam; the illuminant comprises frontal and radial ring elements each of which is connected with its beam of the fibre-optic light guide; the manual iris image displacement mechanism is presented in the form of a three-port tracer and a focuser. A lower arm of the pantograph is pivotally fastened around a vertical axis on the carrier, while and an upper arm comprises the focuser pivotally fastened around a horizontal axis, presented in the form of a guide and a reciprocating carriage mounted thereon. Manual control instruments of the manual iris image displacement mechanism are provided on the focuser. The eye carrier is presented in the form of a lodgement rigidly stand-mounted on the guide. The telecamera, the objective lens and the frontal element of the illuminant is rigidly mounted on the carriage, while the radial ring element of the illuminant is mounted on the lodgement.EFFECT: using the given instrument enables providing a glare-free effect, enables higher contrast ratio, visual acuity and display depth of the iris.4 cl, 1 dwg

Description

The invention relates to medical equipment, and more specifically to diagnostic devices for examining the iris of the eye, and can be used in iridoscopy to assess the state of organs and functional systems of the body for preventive and therapeutic purposes.

An iridoscope is known from the prior art, including a base, an optical-mechanical device with a illuminator with devices for moving it on a horizontal plane, a tool for longitudinal and lateral movement, a tool for controlling movement with a handle, a chin and a forehead stop, see patent for invention RU No. 2000078, class . A61B 3/00, publ. 09/07/1993. The invention allows you to quickly and accurately reconfigure the iridoscope from one eye of the patient to another. A disadvantage of the known iridoscope is the need to move the patient’s head during the study, which significantly increases the duration of the procedure.

A well-known iridological device containing eyepieces, a lens, a illuminator with a light source, a therapeutic unit with its own light source and a fiber optic fiber, is equipped with a video camera, an analog-to-digital video signal to digital code converter, a computer with a monitor, a digital-to-analog signal converter produced by a computer, a two-channel amplifier, manual control unit and control motors of a movable mirror of a two-mirror optical system installed in front of the lens for bias and stabilization and the iris image position eyes see. patent RU №2153280, Cl. A61B 3/00, publ. 07/27/2000. The technical solution improves the reliability of the diagnostic results by compensating for fluctuations in the image of the iris and improves the quality of research by controlling the movement of the light beam along the iris. This well-known iridological device is adopted as a prototype, as the closest analogue in technical essence and achieved result.

The disadvantage of the prototype is the complexity of its design, due to the presence of a two-mirror optical system with control engines and a microprocessor signal converter. The device has a relatively high mass-dimensional characteristics, requires careful installation and debugging. In addition, the presence of only a frontal illuminator does not fully ensure the elimination of glare from the surface of the iris and their movement in the pupil during the study. These disadvantages of the prototype do not allow it to be implemented in a compact, mobile (for off-site express examinations) and low-budget version, and also hinder the receipt of full-fledged results of iridological studies, thereby limiting its availability and applicability.

The present invention is aimed at achieving a technical result, which is expressed in reducing the mass-dimensional characteristics of the device and increasing the convenience of its assembly - disassembly. In addition, the device provides glare-free, increased contrast, sharpness and depth of display of the iris. Ultimately, the specified technical result provides compactness, mobility and ergonomics of the device. In the invention, all the positive properties of the prototype are maximally preserved, the most important of which are improving the quality and reliability of the research results.

The specified technical result is achieved by the fact that the iridological device, which includes a illuminator connected by a fiber-optic light guide with a light source, a television camera, a lens, a computer with a monitor, a manual displacement mechanism for shifting the image of the iris of the eye, differs from the prototype in that it has a base and an orbital support, the light source is mounted on the base and made in the form of a halogen lamp with an interference reflector, the fiber-optic fiber is made of a two-beam, and illuminate spruce formed consisting of the front and radially of the annular elements, each of which is connected with its beam fiber optic waveguide. The mechanism for shifting the image of the iris of the eye is made in the form of a three-arm pantograph and a focuser, while the lower arm of the pantograph is fixed with the possibility of rotation around the vertical axis on the base, and on the upper is fixed with the possibility of rotation around the horizontal axis of the focuser, made in the form of a guide and mounted on it with the possibility of reciprocating movement of the carriage. Means of manual control of the mechanism for shifting the image of the iris are focused on the focuser. The orbital support is made in the form of a lodgement, rigidly fixed by means of a tripod on the guide. The television camera, the lens and the front element of the illuminator are rigidly mounted on the carriage, and the radial-ring element of the illuminator is made with the possibility of mounting on a tool tray.

Optimal from the point of view of achieving the indicated technical result is the use in the device of a digital highly sensitive color television camera on a CCD. It is possible to implement means of manual control of the mechanism for shifting the image of the iris of the eye in the form of a handle rigidly connected to the guide and / or a rack mounted on the carriage to communicate the last reciprocating movement. In all versions of the device, it is preferable that the light source is in the form of a halogen lamp with an optical method for controlling the light flux.

Iridodiagnosis (iridology) is a method of preclinical study of the state of the body according to the iris. The fundamental postulate of iridology is the concept of localization on the iris of the projection zones of organs and parts of the human body. A change in the structure and color of projection zones - iridological signs correlate with manifestations of pathological disorders of the corresponding organs. Iridodiagnostics is distinguished by high information content, early detection of many pathological abnormalities, and the possibility of examining the exteroreceptive zones of the entire organism in one visual field of observation (E. Velkhover, Clinical Iridology. - Orbit. Moscow Branch, 1992). The method is non-invasive, harmless, painless, provides a documented conclusion.

Iridoscopy is the recording of a direct image of the "iris" and its preservation for subsequent observation, processing, study and documentation. For the purpose of iridoscopy, special devices are intended. The specificity consists in the fact that during micro-photography it is necessary to take into account the spatial-spatial nature of the surface of the “iris”. This circumstance requires an increased value of the magnitude of the sharply depicted space. In addition, the surface of the cornea covering the "iris" gives glare-reflection, which causes the appearance of artifacts in the images.

The iridological device (iridoscope) in accordance with the present invention is intended for iridoanalysis and TV angioscopy, studies on the conjunctiva of the eyeball of the morphological characteristics of the microvascular bed, for use as part of an automated workstation and to obtain images on an information carrier. The design is designed for multiple manual assembly-disassembly of the device into modular parts to ensure mobility.

The device is equipped with a light source that includes a more advanced halogen lamp of the type PH8-20-1 or KGI12-75 compared to an incandescent lamp with glass reflectors having an interference coating that direct 2/3 of the heat generated back. Thus, the heat load in the light beam decreases by 66%, and the light temperature remains constant, which allows the use of a light source to illuminate the "iris" sensitive to elevated temperature. The luminous flux of a halogen lamp is controlled optically in the device, i.e. by changing the parameters and properties of the optical system, which allows the lamp to function in a constant optimal mode. In this sense, the optical method includes diaphragming the input and output sections, changing the focal lengths of the used lenses, connecting or disconnecting the mirror elements of the optical system during shooting or photographing, changing the working distance to the object, and the field of view in the lens.

Particular attention is paid to the design of the illuminator in order to obtain a glareless image of the iris. The main cause of glare is the front illuminator. To minimize this phenomenon, it is possible to reduce the brightness and shift of glare to the zone of absence of iridosigns by continuously adjusting the front and side lighting. The radial-circular source of peripheral “gliding” light provides the device with a glare-free near-surface contrasting illumination of the iris due to the location of luminous points at the level of the root of the iris. Combined lighting is regulated optically using a double-beam optical fiber.

An equally important factor in obtaining a high-quality image of the iris is the ability to carefully and quickly position the device on the studied object. This problem is solved in the device by implementing the maximum number of degrees of freedom or independent movements of the focuser with high smoothness and minimal effort, as well as the possibility of reliable fixation in a given position. The most complete solution to this problem is the kinematic scheme of the free manipulation mechanism in the form of a three-arm pantograph rotary at the base and a focuser with a movable carriage mounted on it and rotary in a vertical plane. At the same time, the patient actively participates in the research process at the initial stage, using the means of manual control of the mechanism for shifting the image of the iris in the form of a handle, by means of which it simply and quickly sets the lodgment of the orbital support in a position convenient for itself.

Thus, the claimed design of the light source, illuminator and the mechanism for shifting the image of the iris of the eye significantly improves ergonomics and efficiency in positioning and lighting in comparison with the known analogues.

The design of the device has a special lens that provides high sharpness and depth of the displayed space, adapted to obtain high-quality images of the iris. The focal length of the lens is more than 10 times its diameter, which minimizes the size of the glare from the front illuminator due to the small discrepancy between the optical axes of the lens and the eye oriented to the front illuminator. In conjunction with a special lens is a digital highly sensitive television camera. The identification of iridosigns in a wide range of changes in brightness and color shades of the iris requires the use of cameras with an increased value of the parameters: signal-to-noise ratio, resolution, dynamic range and automatic gamma change for the illumination of dark images. The most fully listed requirements are met by a compact color television camera on a CCD matrix (charge-coupled device), which forms an image of the iris of the eye with zero or a short time delay. A television camera is connected to a stationary or laptop computer through a multimedia device of general use (image signal input devices), structurally executed as built-in boards or external devices. As a personal computer, any modern computer with a 4: 3 format monitor with a resolution of at least 800 × 600 is applicable. The optical and electronic system of the device allows additional focusing according to the image observed on the computer monitor when positioning and provides high-quality color images of the iris, observed both in real time on the monitor and still images captured using multimedia technology for processing image signals .

All the signs of an iridological device that are distinctive from the prototype are aimed at obtaining a technical result, namely its compactness, mobility and ergonomics with high quality research results.

An iridological device, characterized by the described set of essential features, is new, industrially applicable and has an inventive step.

The technical solution is illustrated in the drawing.

The drawing shows a schematic representation of a General view of the iridological device.

The iridological device contains a lightweight flat base 1 on which a light source 2 and a three-arm pantograph 3 of the mechanism for shifting the image of the iris of the eye are mounted. Pantograph 3 includes a lower lever, which at one end is pivotally mounted on a vertical axis with the possibility of rotation in a horizontal plane. In the drawing, the direction of rotational movement of the lower arm of the pantograph 3 in the horizontal plane is conventionally indicated by an arrow in the form of an arc. At the opposite end of the lower arm of the pantograph 3, the middle is articulated, and on it the upper shoulders, the latter being articulated multi-link in the form of a parallelogram.

The mechanism for shifting the image of the iris of the eye also includes a focuser pivotally mounted to rotate around a horizontal axis on the upper arm of the pantograph 3. The focuser is made in the form of a guide 4 and mounted on it with the possibility of reciprocating movement of the carriage 5. In the drawing, the direction of reciprocating movement the carriage 5 is conventionally indicated by a straight arrow. For smooth movement of the carriage 5, it can be mounted on a guide 4 on bearings of rolling or rolling, as is conventionally shown in the drawing. The mechanism for shifting the image of the iris is equipped with manual controls that are focused on the focuser and are a handle 6 and a rack 7. The handle 6 is rigidly connected to the guide 4 and rests against the base 1 in the lowest position. The rack 7 is a drive mounted on the carriage 5 and is designed to communicate the last reciprocating movement relative to the guide 4. In the drawing, the cremallier 7 is conventionally presented in the form of a flywheel.

A television camera 8 and a special lens 9 are rigidly coaxially mounted on the carriage 5. A television camera 8 is connected to a computer 9 directly or through an external interface device (not shown conditionally) depending on the software, such as camera 8 and computer 9. As a computer 9, its portable version or stationary with a separate monitor should be used. A special lens 10 is mounted in front of the camera lens 8, for example, by means of a separate support.

An eye support is rigidly fixed on the guide 4, which is made in the form of an annular lodgement 11. The lodgement 11 is located in front of the lens 9 and coaxially with it on a special tripod 12. The patient’s eye is conventionally shown in front of the lodgement 11 in the drawing.

The light source 2, fixedly mounted on the base 1, is connected by a fiber optic light guide 13 with a illuminator, which is made up of a front 14 and a radial-ring 15 elements. Since the fiber optic fiber 13 is made double-beam, then the front 14 and radial-ring 15 elements of the illuminator are connected by a separate beam of the optical fiber 13 to the light source 2. The front element 14 of the illuminator is an optical device that creates a sharpened beam of a small aperture with high illumination (400-800 lux on the iris), motionlessly mounted on the carriage 5 and directed to the iris. In the drawing, the frontal element 14 of the illuminator is conventionally located above a special lens 9 at a certain angle. In fact, the front element 14 of the illuminator, it is advisable to place on the side or under a special lens 9 at a minimum angle. The radial-ring element 15 of the illuminator is an optical device that provides glare-free peripheral "sliding" lighting of the iris. The free movement of the radial-ring element 15 of the illuminator is limited by the length of its fiber optic fiber 13, however, in the operating mode, it is preferable to install it coaxially on the tool tray 11, as shown in the drawing.

Iridological device operates as follows.

A compact device together with a laptop in a disassembled form can fit in a regular case. The iridocomplex consists of individual elements that are easily mounted on the basis of 1. After disassembly-assembly, special adjustment of the device is not required. Power supply to all systems of the device is carried out from a conventional network. In the process of positioning and diagnosis, the patient uses the handle 6 to contact the tool tray 11 with its orbital cavity. In this case, the lodgement 11 moves freely up and down, left and right, and changes the angle of the optical axis. Fixing the position is possible in any position and is provided by friction in the hinges. When choosing a working focal length, the operator-researcher rotates the handwheel of the cremallera 7. The movement of the television camera 8 with the lens 10 and the front element 14 of the illuminator is carried out in one motion as a single unit. The patient focuses his eyes on the brightness spot of the front element 14 of the illuminator and, on the command of the operator-researcher, opens the eyelids of both eyes as wide as he can. In this case, the eye, which is not the subject of shooting, the patient covers with his palm. The flare position and illumination are regulated optically by the operator-researcher. The image of the iris of the patient’s eye is projected by a special lens 10 into the television camera 8. The signal from the television camera 8 is digitized and fed to the computer 7. The iris of the patient’s eye is displayed on the monitor of the computer 7. The operator-researcher carries out fine focus on the image observed on the computer monitor 7. A computer hardware-software complex allows you to observe a high-quality color image of the iris in real time, so still.

Currently, the necessary and sufficient practical experience has been accumulated for the regular use by practitioners of modern hardware and software tools for computer iridology. Computer iridology allows you to automate the process of iridological examination, observation, removal and processing of iridological information, reduces the duration of the so-called “contact time” and creates comfortable conditions for the doctor’s work and patient examination. In this case, iridoanalysis becomes documentary, ensuring reproducibility and repeatability of the survey results. The use of modern optical-television and software tools in the device, which are systematically integrated with a personal computer of general use, provides practical efficiency and a high level of information and technical support for an iridologist. An iridological device ensures the efficiency of mass examination and can be used to equip medical institutions, dispensaries, neuropathologists, surgeons, therapists, and homeopaths. The advantage of an iridological device is its ergonomics, simplicity, reliability and economic efficiency. The operation of such a device is not associated with additional costs and allows its node-by-unit upgrade.

The above described examples of the implementation of the iridological device are not exhaustive and are given only for the purpose of explaining the invention and confirming its industrial applicability. Specialists in this field can improve it and / or implement alternative options within the essence of the present invention, reflected in the description and drawing.

Claims (4)

1. An iridological device, including a illuminator, connected by a fiber-optic light guide with a light source, a television camera, a lens, a computer with a monitor, a manual displacement iris image shifting mechanism, characterized the fact that it is equipped with a base and an orbital support, the light source is installed on the base and is made in the form of a halogen lamp with an interference reflector, the fiber-optic fiber is made of a two-beam, and the illuminator is made up of frontal and radial-ring elements, each of which is connected to its own beam of the optical fiber, the mechanism for shifting the image of the iris is made in the form of a three-arm pantograph and a focuser, while the lower arm of the pantograph is strengthened with the possibility of rotation that around the vertical axis on the base, and on the top, a focuser is mounted that can be rotated around the horizontal axis, made in the form of a guide and mounted on it with the possibility of reciprocating movement of the carriage, manual control mechanisms for the displacement of the image of the iris are located on the focuser, orbital support made in the form of a lodgement rigidly fixed by means of a tripod on the guide, a television camera, a lens and a front illuminator element are rigidly fixed to the bracket, and the radial-ring element of the illuminator is made with the possibility of mounting on the tool tray. 2. The iridological device according to claim 1, characterized the fact that it uses a digital highly sensitive color television camera on a CCD. 3. The iridological device according to claim 2, characterized the fact that therein means for manually controlling the mechanism for shifting the image of the iris of the eye are made in the form of a handle rigidly connected to the guide and / or a rack mounted on the carriage to communicate the last reciprocating movement. 4. Iridological device according to any one of claims 1 to 3, characterized the fact that in it the light source is made in the form of a halogen lamp with an optical method of regulating the light flux.