Bipyramidal Therapeutic Device

Abstract

The invention relates to medical equipment and can be used to prevent human exposure to sources of negative energy in geopathic zones and to electromagnetic radiation.

The device comprises two pyramids 1, 2 in the form of hollow vessels sharing a common apex 4 and interconnected by a tubular channel 11. A base 8 of an upper pyramid 2 is provided with a removable lid 9. An antenna represents an EH-antenna 3 having oscillators in the form of the pyramids 1, 2, the parameters of which are consistent with the golden section, satisfy an even number from the Fibonacci series (F2=1.62), and are specified by the formula: α=2h.sup.2/s, where a is the side length of the bases, h is the height of each pyramid, and s is the apothem. A toroidal permanent magnet 14 is assembled on the outer surface of the tubular channel 11, and an audio/video device 19 along with a means for monitoring the physical parameters of the liquid medium within the volume of the pyramids 1 and 2 are mounted in the leak-proof compartment of cavity 13 of the lower pyramid 1. Lid 9 of base 8 of the upper pyramid 2 has a photovoltaic power source 10 disposed thereon for providing operation of the audio/video device 19 and means 18 for monitoring the physical parameters of the liquid medium within the volume of the pyramids 1 and 2.

Claims

1. A bipyramidal therapeutic device, comprising two regular pyramids (1, 2) sharing a common apex (4), positioned symmetrically with respect to each other and spatially oriented according to the cardinal directions, and an antenna, wherein according to the invention, pyramids (1, 2) are embodied in the form of the vessels having internal cavities (12, 13), where base (8) of the upper pyramid (2) contains a removable lid (9), while antenna represents an EH-antenna (3) having oscillators in the form of pyramids (1, 2), the parameters of which are consistent with the golden section, satisfy an even number from the Fibonacci series (F2=1.62), and are specified by the formula: α=2h.sup.2/s, where a is the side length of the bases, h is the height of each pyramid, and s is the apothem; furthermore, the common apex (4) is provided with a through channel (11) interconnecting cavities (12, 13) of the pyramids (1, 2), while the outer surface of channel (11) bears a toroidal permanent magnet (14) assembled thereon, the magnetic induction vector of which is oriented toward the lower base (17) of the pyramid (1), while cavity (13) of the lower pyramid (1) houses an audio-video device (19) and a means (18) for monitoring the physical parameters of the liquid medium within the volume of the pyramids (1, 2), and lid (9) of base (8) of the upper pyramid (2) bears a photovoltaic power source (10) to support operation of the audio-video device (19) and the means (18) for monitoring the physical parameters of the liquid medium within the volume of the pyramids (1, 2).

2. The bipyramidal device according to claim 1, characterized in that channel (11) interconnecting cavities (12, 13) of the pyramids (1, 2) is provided with interchangeable inserts (20) to adjust flow area (16) thereof.

3. The bipyramidal device according to claim 1, characterized in that EH-antenna (3) is characterized by a loss resistance in the HF range of 0.45 to 0.48 Ohm and efficiency of 0.018 to 0.02 dB.

4. The bipyramidal device according to claim 1, characterized in that means (18) for monitoring the physical parameters of the liquid medium is embodied in the form of an instrument for measuring specific electrical conductivity of water.

5. The bipyramidal device according to claim 1, characterized in that cavity (13) of the lower pyramid (1) is provided with a leak-proof partition (22), dividing it height-wise at a 1:3 ratio and forming a compartment in the lower part of the pyramid for installing audio-video device (19) and means (18) for monitoring the physical parameters of the liquid medium.

6. The bipyramidal device according to claim 1, characterized in that cellular-honeycomb structure (7) of the lining material (6) has a porosity of 0.75-0.92.

Description

[0019] The substance of the invention is illustrated by drawings shown in FIGS. 1-4.

[0020] FIG. 1 shows a schematic diagram of the bipyramidal device.

[0021] FIG. 2 shows a longitudinal cross-sectional view of the insert at the common apex of the pyramids.

[0022] FIG. 3 shows a longitudinal cross-sectional view of the device.

[0023] FIG. 4 shows a fragment of the wall lining of the pyramid (view A-A).

[0024] The device comprises two regular tetrahedral pyramids 1 and 2 with triangular faces-walls 5 and a common apex 4, and forming an EH-antenna 3 with oscillators in the form of said pyramids 1 and 2, representing vessels with cavities 12, 13; the side faces-walls 5 are covered with lining material 6 having a cellular-honeycomb structure 7; a base 8 of the upper pyramid 2 represents a removable lid 9 with a photovoltaic power source 10 mounted thereon; the common apex 4 is provided with a tubular channel 11 interconnecting cavities 12, 13; a toroidal permanent magnet 14 mounted on the outer surface 15 of the tubular channel 11; a means 18 for monitoring the physical parameters of the liquid medium and an audio-video device 19 installed within cavity 13 of the lower pyramid 1 in the compartment separated by a leak-proof partition 22; and interchangeable inserts 20 for adjusting flow section 16 of the tubular channel 11.

[0025] The bipyramidal therapeutic device is assembled as follows.

[0026] Pyramids 1 and 2 are fabricated with bases 17 and 8 in the form of rectangular quadrangles. As will be obvious for those skilled in the art, pyramids 1 and 2 may also have a different number of faces, such as six, eight or more. Pyramids 1, 2 have frame structure and are made in the form of the vessels with cavities 12, 13 limited by side triangular faces-walls 5. The edges of the framework of pyramids 1, 2 and faces-walls 5 are made of copper, brass or other electrically conductive material, while the outer surface of faces-walls 5 are covered with lining material 6 having a cellular-honeycomb structure 7 (see view A-A in FIG. 4), characterized by a porosity of 0.75-0.92. Lining material 6 may include foamed metals, such as bronze, aluminum, or non-metallic materials, such as paper, cardboard, etc., which are pretreated to form a specified structure 7 with cellular-honeycomb configuration. The characteristic pore sizes are chosen in a way to ensure the optimal energy interaction of the lining material 6 with the ambient environment in order to neutralize pathogenic electromagnetic radiation of various origins and increase the therapeutic effect.

[0027] Next, pyramids 1 and 2 are used to assemble EH-antenna 3. To do this, said pyramids are connected to each other by their apices, which are precut to obtain flat areas (not shown in the drawing) to enable their connection with the formation of a common apex 4, while cavities 12, 13 are connected by a tubular channel 11 made of electrically conductive material (copper, bronze, brass, etc.). To adjust the diameter of the flow section 16 of the tubular channel 11, replaceable inserts 20 are used, which control the flow rate of the liquid medium (e.g., boiled water or solutions thereof) passing from cavity 12 of the upper pyramid 2 to cavity 13 of the lower pyramid 1 under the effect of gravity.

[0028] The parameters of pyramids 1, 2 and, thus, the dimensions of the oscillators of EH-antenna 3, are selected to be consistent with the golden section and satisfy an even number from the Fibonacci series (F2=1.62), calculated using the following formula: α=2h.sup.2/s, where α is the side length of the pyramid bases, h is the height of each pyramid, and s is the apothem. Furthermore, along with other electronic components (not shown in the drawing) of EH-antenna 3, the loss resistance in the HF range of 0.45-0.48 Ohm and the efficiency thereof ranging from 0.018 to 0.02 dB were ensured.

[0029] A toroidal permanent magnet 14 is mounted on the outer surface 15 of the tubular channel 11. Furthermore, to achieve a desired effect of the magnetic field on the treated liquid medium (boiled water or solutions thereof, including alcohol-containing), the magnetic induction vector is oriented toward the base 17 of the lower pyramid when passing liquid from the upper pyramid 2 to the lower pyramid 1. The magnet is chosen to have a magnetic induction in the range between 100 and 200 mT (1000-2000 Gauss), which ensures effective magnetization of the liquid medium as it passes from the upper pyramid 2 cavity to the lower pyramid 1 cavity.

[0030] Installed on base 17 inside cavity 13 of the lower pyramid 1 are a battery (not shown in the drawing), means 18 for monitoring the physical parameters of the liquid media, and audio-video device 19 equipped with a read-out laser head, all connected to the photovoltaic power source 10 to ensure operation thereof, as well as to recharge the battery. Furthermore, a leak-proof partition 22 is mounted inside the cavity of the pyramid 1 at a height of ⅓ to separate the upper ⅔ of the volume of cavity 13 from the compartment in the lower part of this cavity intended for the audio-video device 19 and means 18 for monitoring the physical parameters of the liquid medium.

[0031] The device operates as follows.

[0032] In preparation for operation, the bipyramidal device is installed vertically relative to the ground surface and spatially oriented according to the cardinal directions using a leveling instrument and a compass (not shown in the drawing). To do this, one of the faces-walls 5 of the pyramids 1 and 2 is oriented using a compass (not shown in the drawing) along the north-south direction. Means 18 for monitoring the physical parameters of the liquid medium and audio-video device 19 are connected to photovoltaic power source 10 to ensure their operation. Next, cavity 12 of the upper pyramid 2 is filled with the treated medium (e.g., boiled drinking water) to a level 23 corresponding to ⅔ of the volume of cavity 12, where the most effective zone for accumulating positive Orgone energy of the pyramidal device is located. Next, tubular channel 11 is opened and water is directed to cavity 13 of the lower pyramid 1, where it continues to be treated with positive Orgone energy in a similar zone, which also constitutes ⅔ of the total volume of the lower pyramid 1 separated by leak-proof partition 22. To ensure effective magnetization of water, its flow rate through channel 11 is controlled by adjusting the cross-section of the channel using interchangeable inserts 20. As water flows down through channel 11, it undergoes magnetization by toroidal permanent magnet 14 with magnetic induction B=100−200 mT, which enables restructuring thereof and removal of magnesium and calcium salts. Concurrently, while flowing down through channel 11, water is treated acoustically by supplying an audio signal from the audio-video device 19 through an external acoustic channel 21. This is done by playing musical tunes at frequencies favorably affecting the human body.

[0033] Water treatment is controlled by measuring specific electrical resistance using means 18 for monitoring the physical parameters of the liquid media. An AP-2 device of the AquqPro line can be used as an example of monitoring means 18 to measure electrical conductivity of water [9].

[0034] An increased efficiency of accumulating positive Orgone energy by the pyramidal device within zones corresponding to ⅔ of the total volume of the pyramids 1 and 2 is provided by selecting the values of parameters a (side length of the bases 17 and 8), h (height), and s (apothem) of the pyramids 1, 2, which correspond to the golden section with an even Fibonacci number F2=1.62. Since pyramids 1 and 2 also serve as oscillators of EH-antenna 3, and the selected values of parameters α, h, and s of the pyramids 1 and 2 provide the EH-antenna in the HF range with low loss resistance (0.45-0.48 Ohms with efficiency of 0.018-0.02 dB), EH-antenna 3 with a height of one pyramid (h=15 cm) effectively emits electromagnetic oscillations modulated by the emission of Orgone energy of the pyramids, and neutralizes harmful emissions of man-made and natural origin in the surrounding space. In addition, water contained in cavities 12 and 13 of the pyramids 1, 2 is also subjected to treatment with positive Orgone energy and undergoes structural changes.

[0035] With a total height of the bipyramidal device (BPD) of about 30 cm, its operating range can be estimated using the following formula: R=10.sup.4.Math.r/2, where r is the total height of the pyramids 1, 2 equal to 2 h. If r=0.3 in, the BPD effect extends over a distance of about 1500 m.

[0036] The effect of neutralization of harmful radiation can also be enhanced by lining the outer surfaces of faces-walls 5 of the pyramids 1, 2 with material 6 having a cellular-honeycomb structure 7 with porosity of 0.75-0.92. Examples of lining material 6 include foam metals, such as bronze, aluminum, or non-metallic materials, such as paper, cardboard, etc., which are pre-processed to obtain specified structure 7 with cellular-honeycomb configuration and porosity. The cellular sizes are selected in a way to ensure the maximum energy interaction of the lining 6 with the ambient environment and to enhance the therapeutic effect on the human body.

[0037] The high efficiency of water treatment using the pyramidal device is also caused by the turbulence processes in the water jet as it passes through channel 11, which is associated with the effect of self-organization of the vortex formation in the resonant flow regime of structured liquids, such as water after magnetic treatment. Such effect of self-organization of the vortex formation is a result of the fundamental mathematical law discovered by the French researcher Jean-Claude Perez [8], who studied the processes of self-organization of water-based structures similar to DNA molecules, the individual structural elements of which are naturally constructed according to the golden section rule.

[0038] After being treated in the bipyramidal device according to the invention, resultant water demonstrates a stimulating effect on the living organisms, as well as therapeutic properties caused by its structural features, the presence of which is evidenced by the steady changes in specific conductivity of such water.

[0039] The results of measuring specific electrical conductivity of different types of treated water using the monitoring means 18 are shown in Table 1.

TABLE-US-00001 Specific electrical conductivity, Reactance, Types of water samples μS/m pF Tap drinking water 36.20 345 Distilled water 0.63 0.36 Drinking bottled water 20.70 154 Drinking frozen-out water 18.90 167 Tap frozen-out water 22.40 149

[0040] Testing of the proposed bipyramidal therapeutic device under actual use conditions has shown that EH-antenna 3 is characterized in the HF range by a loss resistance of 0.41-0.51 Ohm at efficiency of 0.017-0.023, which falls within the specified range of characteristics and provides the technical result of the invention. In comparison with the prototype, the invention provides an increased radiation power, as well as more effective suppression and neutralization of harmful electromagnetic radiations due to the possibility of generating directional radiation enabled by the structural design of the EH-antenna, which, in essence, represents a miniature antenna version derived from the Hertz dipole, the radiation resistance of which approaches zero: R.sub.rad=X.sub.c*Δf/f0, where X.sub.c≤2000 Ohm is the reactance.

[0041] Sources of Information: [0042] 1. V. E. Slavnikov, “Bipyramid,” Parapsikhologiya i psikhofizika, No. 1, pp. 119-125 (1998). [0043] 2. SU 1803511 A1, Mar. 23, 1993, Bull. 11. [0044] 3.I. Yefimova, “Uncovered secrets of the pyramids,” Nauka i Religiya, No. 4 (1997). [0045] 4. A. I. Veinik, “Thermodynamics of real processes,” Navuka i Tekhnika, pp. 139-141, 382 (1991). [0046] 5. RU 2259188 C1, Aug. 27, 2005. [0047] 6. RU 2184574 C2, Jul. 10, 2002. [0048] 7. RU 2109527 C1, Apr. 27, 1998 (prototype). [0049] 8. A. P. Stakhov, “Sacred geometry and mathematics of harmony,” site “Akademiya Trinitarizma,” http://trinitas.ru/rus/djc/0202/010a/02020028.htm. [0050] 9. Analyzers of water quality. Instructions for use, Kiev, Jun. 6, 2017. Supplier: EcoUnit Ltd., www.ecoumt.com.ua.