WO2003015868A1 - Medical apparatus for light therapy - Google Patents
Medical apparatus for light therapy Download PDFInfo
- Publication number
- WO2003015868A1 WO2003015868A1 PCT/RO2001/000015 RO0100015W WO03015868A1 WO 2003015868 A1 WO2003015868 A1 WO 2003015868A1 RO 0100015 W RO0100015 W RO 0100015W WO 03015868 A1 WO03015868 A1 WO 03015868A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- pencil
- light
- obtaining
- medical apparatus
- diseases
- Prior art date
Links
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61N—ELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
- A61N5/00—Radiation therapy
- A61N5/06—Radiation therapy using light
Definitions
- the invention referrs to a medical apparatus that uses the effects of the electromagnetic field on living organisms, using a bright determined color artificial flux that can be used to improve or to cure some diseases thought as being incurable nowadays.
- a great number of apparatus are known as being used for curing through irradiation on the living tissue.
- the apparatus has a source of light, a spot, and an anti-caloric filter for ultraviolet rays and for waves with wave's length shorter than 500 nm., too.
- the pencil of light is modulated by an inducted alternative magnetic field and by an inducted alternative electric field, orthogonal on the magnetic one. It can be mentioned the patent of France no. 2668068 in which it is described a method of exhibition of a living body to mono- chromic bright rays.
- the exhibition takes place in a certain time given by a programmer and at different colors depending on the organism's disease.
- the procession is in fact an application of the chromic-therapy for improving some diseases or for relaxing the organisms but it has the disadvantage of not curing.
- the technical problem solved by this invention is to avoid the use of electric and magnetic fields in the light pencil's processing
- the medical apparatus for biological treatments removes the above mentioned disadvantages because it uses electromagnetic radiation for modulating, separating, focusing and filtering of a pencil.
- a bulb with incandescence emits the pencil of light rays, for obtaining energetic modifications at the atomic level, in cellular biochemistry.
- the medical apparatus resolves the problem of treating the non- congenital diseases with the aid of some bright radiation.
- the medical apparatus resolves the above problem because the electromagnetic field applied to a sick person it is obtained from a source of light put in the focus of a parabolic mirror.
- the light ray is taken over by two reflecting cylinders symmetrically set in front of the light source and the optical filter. They are involved by an engine in a variable turning round movement in opposite directions.
- a rotating shutter is to be assembled on one of the case's inner side where is the optic filter, too.
- the shutter disc has two elliptical orifices that are coaxial on the optic filter's axis.
- the bright flux obtained in this way is composed of direct rays from the light source and rays reflected from the parabolic mirror.
- the rays are processed by two reflecting cylinders and by the shutter disc and then are focused through a lens
- the final pencil of rays obtained in this way after following through this optic labyrinth, has to be modulated at lower frequencies to the radiation that was used (higher wave lengths) for obtaining a long distance in penetrating the tissue.
- the medical apparatus has the following advantages:
- the medical apparatus for treatment is the artificial light source and optic filter type. It is characterized as being built of: a case 3, assembled with some joints 2, and a spring on a basic plate 1, on which it is fixed a support 5, of the light ray with incandescence having the power of 600-1200w.
- the fan 6 will be set in front of an orifice of the basic plate.
- the type of the bulb 4, used with incandescence, has to be a pencil of light rays focused as much as possible on one point.
- the pencil of light rays' power is given by the capacity of transmitting A o distance, the intensity of the ray and the possibility of mechanic modulation, for avoiding the overheating effect on skin.
- the source of light is set in the focus of a parabolic mirror 7 made of a material with a high absorption coefficient of infrared radiation.
- the positioning of the mirror has to carry out the parallelism condition between the incidental ray and the reflected ray, having the possibility of displacing through the handle bar b.
- the positioning of the bulb to the reflecting item has to carry out the conditions of obtaining the parallel pencils of light.
- the reflecting cylinders are set symmetrically to the source and the optic filter 14 and an engine 9 involves them in a variable turning round movement in opposite directions.
- the rotating cylinders create the beating phenomenon (the amplification) of the electromagnetic radiation of the source.
- a rotating shutter 10 is to be assembled on one of the case's inner side where is the optic filter, too.
- An engine 11 operated by a voltage divisor operates the shutter disc, for obtaining the modulation frequencies.
- Both the engine of the shutter disc and the engine of the reflecting cylinders are ventilated by a fan 13, for having a good operation.
- the voltage divisor 12 (the time relay) coordinates both the varieties of the rotating frequency of the shutter disc and that of the rotating cylinders, for obtaining the emergent modular ray.
- the principle scheme of the voltage divisor is a trinistor equivalent made of transistors in the threshold unit, as we can see in the figure on the page (fig. 2).
- the divisor has two sub-scales of timing values: l-60sec. and 1- 60min.
- the signal's error of timing for the room temperature is of maximum 5% in the established value.
- Timing circuit is made up of the condenser C3 (or C4) and the variable resistor R9.
- the threshold unit At the input of the threshold unit it is the transistor with a field effect and the Zener diode connected at its gate circuit.
- the obstructive trinistor equivalent that becomes struck when the current flows the control electrode
- the regulating unit of the current in the charge through the variation of phase's impulses, operates with a dinistor equivalent (a trinistor diode made of VTl and VT2 transistors), a C2 condenser and a variable resistor R4.
- the VS1 trinistoor connected on the bridge's cross over with the VD1-VD2 diodes, through the circuit made of the HL1 incandescence lamp and the Rl resister and al O resistance.
- the bridge is connected at the network through the L1C1 non-disturbance filter.
- the trinistor's equivalent (with the VT3, VT4 transistors) is flowing. That's why the C2 condenser is discharged and on the dinistor' s equivalent it isn't applied any voltage - it is blocked.
- the current impulses are missing on the control electrode of the trinistor and the trinistor is blocked, too. Through the charge it isn't flowing any current.
- the time divisor (the relay) is charged through pressing the SB1 button.
- the rectified network voltage charges the timing condenser till the stabilizing voltage of the VD8 Zener diode.
- This is operated through the R8 resister, through closed contacts of the button and the VT3, VT4 trinistor equivalent that is flowing. So, the time condenser is charged at the stabilizing voltage of the VD8 Zener diode.
- the timing condenser starts the discharge through the R9 resistor.
- the stabilizing voltage of the VD7 Zener diode is lower than that of the timing condenser, the diode is pierced and through the VT5 transistor's gate it appears a positive voltage to it's source.
- the condenser is charging till the unblocking voltage of the VTl, VT2 dinistor' s analogue with a high or a low speed.
- the voltage of the dinistor' s analogue reaches its unblocking level, it starts flowing through it the current of the VS1 trinistor' s control electron.
- the trinistor is unblocked and it connects the charge.
- the C2 condenser discharges through it and R2 resistance.
- the VS1 frinistor and the dinistor' s analogue stop charging. During the next alternance the processes repeat. If the position of the R4 variable resistor's slider is in the right side (see the figure), the voltage of the C2 condenser reaches faster the unblocking threshold of the dinistor' s analogue. The VS1 trinistor is unblocked and lets to flow in the charge a longer sequence of the network's voltage alternance.
- the C2 condenser's voltage reaches later the unblocking voltage of the dinistor' s analogue.
- the light goes through a shutter disc that has two elliptical orifices a that are coaxial on the optic filter's axis.
- the shutter disc positions the elliptical orifices exactly contrary to the long axis tangent to a circle with the circumference on the 14 optic filter 's axis.
- the axis' ratio of the ellipses of the orifices is: 0.66-0.95
- the rotating speeds of the moving items are equal to each other and they are between 400 and 1.5 Hz.
- the ray processed by the shutter disc goes through an orifice made on the inner side of the casing c and it is then directed through a lens 15 on which it is fixed the optical filter 14.
- the filter is an optical type filter that limits the visible spectrum till about 400nm. wave lengths
- the final pencil of light rays resulted after the following of this optical labyrinth has to be a minimum of intensity, to be mechanic modulated by lower frequencies than the used radiation (longer wave lengths) for obtaining a long distance in penetrating the tissue.
- the apparatus is destined for the degenerative energetic-diseases specific for the human beings way of life in our society: vices, stress and feeding, sedentary way of life.
- the treatment hasn't a sufficient effect only on the affected tissue.
- the energetic modifications at a microscopic level are made in the energetic centers - the organism's conductors.
- the lens of the apparatus is to be applied on the patient' skin, the pencil of light rays being perpendicular on the skin.
- the time of the expose is proportional with the zones of application on the human body and with the frequencies used for different tissues.
- the ionized electromagnetic radiation (including the ultraviolet one) has destructive effects on the biologic world, reducing every experience to violent un-controUing mutations. It's about the energies' domain of the electromagnetic field, having an essential role in reactions that involves the recognition of the complementary structures, as for example: the retort, the transcription and the repair of DNA and the translation of the genetic message in the protein's biosynthesis.
- the bio-stimulating effects are developed at the cell's level, especially at the level of the cell's membrane. Under the action of the polarized light increases the energetically activity of the cell's membrane. The bio- energetically potential of the cell increases. The DNA and the RNA, the protein system and the bio-synthetically processes are activated leading to the increase of the oxygen in blood.
- the electromagnetic field has a direct influence on the nervous-endings and on the nervous system. So, the bio-stimulation activates at different levels.
- the stereo-chemical changes of the cells accelerate the collagen and albumin synthesis, the oxygen change and the process of coming out of the oxidio-reductional products (anti-toxic action).
- the potential of the cell's electric field increases, the potential of the cell's membrane changes, the proliferation increases a. s. o.
Abstract
Description
Claims
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/RO2001/000015 WO2003015868A1 (en) | 2001-08-15 | 2001-08-15 | Medical apparatus for light therapy |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PCT/RO2001/000015 WO2003015868A1 (en) | 2001-08-15 | 2001-08-15 | Medical apparatus for light therapy |
Publications (1)
Publication Number | Publication Date |
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WO2003015868A1 true WO2003015868A1 (en) | 2003-02-27 |
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PCT/RO2001/000015 WO2003015868A1 (en) | 2001-08-15 | 2001-08-15 | Medical apparatus for light therapy |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2005070500A1 (en) * | 2004-01-27 | 2005-08-04 | Degeratu D Ion Cristian | Medical apparatus with light flux for biological treatments |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2277599A1 (en) | 1974-07-10 | 1976-02-06 | Baer Guy | Opto-magnetic biological treatment appts. - has interferential layers passing beams of one colour only from lamp |
FR2639934A1 (en) | 1988-12-05 | 1990-06-08 | Prod Indls Charbons Actifs | BIOLOGICAL WATER PURIFIER FOR THE PRODUCTION OF DRINKING WATER AND METHOD OF CONTROLLING THE SAME |
FR2668068A1 (en) | 1990-10-17 | 1992-04-24 | Lerner Ralph | METHOD FOR EXPOSING A LIVING BODY TO MONOCHROMIC LIGHT RAYS AND MEANS FOR IMPLEMENTING THE SAME |
WO1992013597A1 (en) * | 1991-02-07 | 1992-08-20 | Carol Przybilla | Biological treatment apparatus |
-
2001
- 2001-08-15 WO PCT/RO2001/000015 patent/WO2003015868A1/en active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2277599A1 (en) | 1974-07-10 | 1976-02-06 | Baer Guy | Opto-magnetic biological treatment appts. - has interferential layers passing beams of one colour only from lamp |
FR2639934A1 (en) | 1988-12-05 | 1990-06-08 | Prod Indls Charbons Actifs | BIOLOGICAL WATER PURIFIER FOR THE PRODUCTION OF DRINKING WATER AND METHOD OF CONTROLLING THE SAME |
FR2668068A1 (en) | 1990-10-17 | 1992-04-24 | Lerner Ralph | METHOD FOR EXPOSING A LIVING BODY TO MONOCHROMIC LIGHT RAYS AND MEANS FOR IMPLEMENTING THE SAME |
WO1992013597A1 (en) * | 1991-02-07 | 1992-08-20 | Carol Przybilla | Biological treatment apparatus |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2005070500A1 (en) * | 2004-01-27 | 2005-08-04 | Degeratu D Ion Cristian | Medical apparatus with light flux for biological treatments |
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