RU2074753C1 - Device for physical therapy - Google Patents

Abstract

FIELD: medical technology; physical therapy. SUBSTANCE: device has light source, optical system and light-absorbing screen, with optical system being located between light source and absorbing screen. EFFECT: higher efficiency of treatment. 6 cl, 5 dwg

Description

 The invention relates to medical equipment and is intended for physiotherapeutic treatment.

 A device is known for forming a light flux when irradiating biological objects (A. p. N 1748835, class A 61 N 5/06, 1992). This device allows you to focus the infrared radiation of the palm of the operator and contains a reflector with a through central hole, a conical mirror lens placed inside the reflector and rigidly connected to it by rods, as well as an optical filter, which is made in the form of a red reflective layer deposited on a conical lens.

 The disadvantage of this invention is the limited emissivity of the device, due in turn to the limited activity of the biofield of the operator. This device, in addition, has organic application and low productivity, since it can only be used by people with an active biofield sufficient for a therapeutic effect.

 The known light-treatment device, selected as a prototype, contains a light source, a fiber light guide and a prismatic disperser located between the input end of the light guide and the light source, while the input end of the light guide is mounted on a movable carriage, and the light source is made achromatic.

 This device is intended for intracorporeal exposure to light, while it has a local therapeutic effect and does not allow a comprehensive therapeutic effect on the body.

 The objective of the invention is to increase the effectiveness of complex therapeutic effects due to the formation of radiation that affects the human aura and restores its shape, distorted by the disease of any organ. In this case, the radiation can be paraxial, focused or scattered.

 The problem is solved in that in the known device for physiotherapy, containing a light source and an optical system, the device further comprises a light-absorbing screen located behind the optical system.

 For the formation of paraxial radiation, the optical system, in the particular case, can be made up of a spectral prism and a diaphragm located sequentially behind the light source. To form a focused (converging) or scattered (diverging) radiation, a collecting lens or a diffusing lens is placed between the diaphragm and the screen.

 In another particular case, the optical system can be made in the form of a selective filter. Due to the constancy of characteristics, mainly as a light filter, use a glass absorption light filter. In this case, paraxial radiation is formed. For the formation of focused or scattered radiation between the light source and the filter or between the filter and the screen have a corresponding lens.

 Figure 1 presents a General view of the device, a longitudinal section; figure 2 - 5 diagram of a device with options for implementing an optical system.

 The device comprises a housing 1 made of opaque material, sequentially placed in the housing: an achromatic light source 2, an optical system 3 and a light-absorbing screen 4. The light-absorbing screen 4 is made of a material having a minimum reflectance of radiation, for example, phenoplasts, whose visible albedo is close to to zero.

 The position of the elements of the device in the housing is fixed by size bushings 5 and cover 6.

 As a special case, the optical system consists of a spectral prism 7 and aperture 8 (Fig.2). For the formation of scattered radiation between the spectral prism 7 and the screen 4 is placed a scattering lens 9 (figure 3).

 In another embodiment, the optical system is made of a light filter 10 (Fig. 4). Between the light source 2 and the filter 10 or between the filter and the screen can be placed a lens 9 (figure 5). At the same time, it is more expedient to use a glass absorption light filter as a light filter.

 Lens 9 can be both collecting and dispersing.

 The device operates as follows.

 From the source of achromatic light 2, the light beam enters the input of the optical system 3. From the radiation propagated by the spectral prism 7, the diaphragm 8 (Fig. 2,3) selects a wavelength from the range of 400 760 nm and sends it to the light-absorbing screen 4. The specified wavelength range from the radiation can be distinguished using the appropriate light filter 10 (Fig 4,5).

 The radiation from the output of the optical system with a given wavelength falls on the light-absorbing screen 4 and causes synchronous vibrations of the atomic structure of the material of the absorber. These fluctuations are reflected in the structure of the vacuum and affect the image of the organism in a vacuum, the so-called aura. The aura of a healthy person is topologically an egg-shaped cocoon. Any disturbances in the functioning of the body inevitably affect the human aura, distorting it. So, in places where there is a functional or organic disorder of the body or pain, spatial humps or hollows of the aura are observed.

 A device for physiotherapy is used as follows.

 An operator with an active biofield diagnoses the topology of the human aura, identifying the areas necessary for the therapeutic effect. These zones can also be determined by the patients themselves by pain syndromes or by diagnosis.

 Turn on the achromatic light source 2 and orient the plane of the screen 4, parallel to the zone in which the therapeutic effect is carried out. Fluctuations in the atomic structure of the absorber caused by irradiation of the material of the absorber with light radiation 400 760 nm in length in the direction corresponding to the geometric continuation of the light radiation act on the distorted aura, level it, increasing the concentration of the body’s vital energy.

 Usually, paraxial radiation perpendicular to the irradiation surface is used for the therapeutic effect. To concentrate the radiation in a certain area, in the optical system 3 of the device using a collecting lens 9.

 To increase the overall energy balance of a person, increase the thickness of his protective zone (aura) in the optical system 3 of the device use a scattering lens 9.

 Thus, the claimed device increases the effectiveness of the therapeutic effect, includes the protective properties of the body. And, in addition, it is widely applicable and productive, since it is not limited by the presence of an operator with an active biofield.

Claims (6)

 1. A device for physiotherapeutic exposure, comprising a light source and an optical system, characterized in that the device further comprises a light-absorbing screen located behind the optical system.  2. The device according to claim 1, characterized in that the optical system is made up of a spectral prism and a diaphragm sequentially located behind the light source.  3. The device according to p. 2, characterized in that the optical system contains a lens located between the diaphragm and the screen.  4. The device according to p. 1, characterized in that the optical system is made of a selective filter.  5. The device according to p. 4, characterized in that the optical system comprises a lens located between the light source and the filter or between the filter and the screen.  6. The device according to p. 4 or 5, characterized in that the glass absorption filter is used as a selective filter.

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