RU2103962C1 - Apparatus for treatment of eye diseases - Google Patents

Abstract

FIELD: medical engineering; equipment for treating eye diseases. SUBSTANCE: apparatus comprises infrasonic generator made in form of two pneumatic converters, each includes valve connected via pipeline with working compartment. The latter has profiled open base and cylindrical working chamber. Valves are electromagnetic and pneumatically connected with compressor and vacuum pump where they are electrically connected with electric pulse generator; phase control unit is interposed between one of electromagnetic valves and electric pulse generator. Working compartment has extension in the form of second cylindrical chamber secured to first cylindrical chamber, but having different diameter. Both cylindrical chambers are arranged in parallel or coaxially. EFFECT: higher physiotherapeutic effect due to obtaining full range of required parameters of therapeutic factor. 3 cl, 3 dwg

Description

 The invention relates to medical equipment, namely, devices for treating eye diseases in ophthalmic hospitals and clinics.

 A device for physiotherapy [1], containing a generator of infrasonic vibrations connected by a pipeline to the working compartment and equipped with pressure control valves. The infrasonic oscillation generator consists of two sealed chambers with pistons, each piston having a drive that is connected to the latter through a mechanism for adjusting the phase and amplitude of the piston movement.

The closest analogue to the functions performed and the result achieved is an eye therapy device [2], which contains an infrasound generator consisting of two sealed chambers with pistons connected by a pipeline to the working chamber and equipped with pressure control valves and a mechanism for adjusting the phase and amplitude of piston movement. The device is equipped with a container for drugs installed between the infrasound oscillation generator and the working chamber, and the working chamber is equipped with a removable piston with a profiled working surface, which serves to adjust the size and shape of the working volume. (Prototype)
However, these devices do not provide the creation of a wide range of characteristics of infrasonic vibrations and do not have sufficient accuracy, since the parameters of the acting infrasonic vibrations are set mechanically, manually. This is difficult for medical personnel and generally affects the quality of the treatment process.

 The aim of the invention is to increase the effectiveness of physiotherapeutic effects and expand the functionality of the device.

 This goal is achieved in that in an eye therapy device containing an infrasound generator made in the form of two pneumatic transducers, each of which includes a valve connected by a pipeline to a working compartment having a profiled open base and a cylindrical working chamber, the valves are electromagnetic and pneumatically connected to compressor and vacuum pump, and electrically with an electric pulse generator, while between one of the electromagnetic valves and the electric generator FIR pulse connected electrical phase control unit, the second working chamber supplemented secured to the first cylindrical chamber with a different diameter. Cylindrical cameras are mounted in parallel or coaxially.

 The basis of the proposed device is the use of infrasound vibrations for the treatment of eye diseases [3]. Infrasound due to the proximity of the frequency characteristics to biorhythms and the natural frequency of the eye, the high resistance of its tissues to infrasound (up to 173 dB) can significantly enhance the effectiveness of the treatment of eye diseases both independently and in combination with other drugs.

 In FIG. 1 is a block diagram of an apparatus for treating an eye; figure 2 and 3 - embodiments of the working compartment: the installation of the cameras coaxial and parallel, respectively.

 The device for eye therapy contains (Fig. 1) a compressor 1, a vacuum pump 2, pneumatically connected respectively through hoses 3, 4 and 5, 6, containing adjustable chokes 7, 8 and 9, 10 with solenoid valves 11 and 12, each of which has two entrances. Both valves 11 and 12 are electrically connected to an electric pulse generator 13, which sets the valve response signals, with valve 11 being connected directly and valve 12 through an electrical phase control unit 14. Hoses 15 and 16 connect the valve outputs to the operating compartment 17.

In the working compartment (figure 2) coaxially mounted cylindrical chambers with diameters d ₁ 7 mm, d ₂ 13 mm and a wall thickness of 2 mm

In the working compartment (Fig. 3), cylindrical chambers with diameters d ₁ 7 mm, d ₂ 12 mm and wall thickness 2 mm are installed in parallel.

 The radius of the sphere of contact of the profiled open base of the working compartment in both cases is the same and amounts to 7.7 mm.

 The device operates as follows.

 For a given therapeutic procedure, one of the types of the working compartment and the parameters of the infrasound exposure are selected.

When the device is turned on from compressor 1, the generated increased pressure through the hoses 3 and 4 is supplied to one of the inputs of the electromagnetic valves 11 and 12. The amplitude of the incoming pressure is regulated by throttles 7 and 8. At the same time, the other inputs of the valves 11 and 12 through the hoses 5 and 6 and regulating chokes 9 and 10 come from the vacuum pump 2 reduced pressure. The voltage pulses of a given repetition rate from the electric pulse generator 13 switch the outputs of the valves 11 and 12, and therefore the inputs of the working compartment either to high or low pressure. The signal from the generator of electrical pulses 13 switches the outputs of the valves, one of the valves enters through the electrical control unit phase 14. The electrical control unit phase 14 allows you to change the phase difference of the acoustic vibrations at the input of the working compartment from 0 to 180 ^o .

 By adjusting the pressure amplitudes at the valve inputs and the phase difference of the electrical signals affecting the operation of the valves, i.e. by generating infrasonic vibrations in a given frequency range with different amplitudes and phases, a complete set of the required parameters of the influencing factor is obtained, including vibrations identical to the traveling wave field.

 The constructive solutions of the working compartments are made in accordance with the requirements of the procedures in the treatment of glaucoma at its various stages.

 Compared with the prototype, a device for eye therapy, which allows you to create infrasonic vibrations with the required set of parameters by electrically controlling the operation of the valves, significantly expands its functionality and increases the efficiency of its use in the treatment process, allowing you to act on the eye as a whole or on its individual structures, enhancing tissue oxygenation, hydrodynamics, tissue regeneration, achieving in some cases unique results.

Claims (3)

 1. Device for eye therapy, containing an infrasound generator made in the form of two pneumatic transducers, each of which includes a valve connected by a pipeline to a working compartment having a profiled open base and a cylindrical working chamber, characterized in that the valves are electromagnetic and pneumatically connected to the compressor and a vacuum pump, and electrically with an electric pulse generator, while between one of the electromagnetic valves and the electric pulse generator under for prison electrical phase control unit, the second working chamber supplemented secured to the first cylindrical chamber with a different diameter.  2. The device according to claim 1, characterized in that the cylindrical chambers are installed in parallel.  3. The device according to claim 1 or 2, characterized in that the cylindrical chambers are installed coaxially.

Images