RU2033200C1 - Radiation-protective device - Google Patents

Abstract

FIELD: medical equipment. SUBSTANCE: device comprises nonmagnetic metal envelope which can simultaneously serve as casing of device and in this case is made rigid. Closed space inside the envelope accommodates high-frequency gas arc-discharge instrument which can be based on gas-discharge lamp with coaxial electrodes. Envelopes have grounding contact and can be made from aluminium. EFFECT: improved design. 4 cl, 4 dwg

Description

 The invention relates to medical equipment, namely to biological screens. The main area of use of the device is the shielding of various radiation, the neutralization of geopathic zones, including protection against unauthorized extrasensory influences. In addition, the invention can be applied for therapeutic purposes in the treatment of biological objects.

 A device for protection against radiation, containing a flat winding of aluminum film, which is grounded [1] However, this device does not have sufficient efficiency.

 A device for shielding, containing a shell of non-magnetic metal having a grounding contact [2] This device allows you to protect some radiation from the space, but it is small and, moreover, this device is not intended to protect against unauthorized extrasensory exposure.

 The technical result of the invention is the formation of a biological screen, that is, the creation of a zone protected from various radiation that adversely affects the energy of the biological object, which may include the influence of geopathic zones, unauthorized extrasensory exposure, etc. To do this, in a device for radiation protection containing a shell of non-magnetic metal, inside the closed cavity of the shell there is a high-frequency arc gas-discharge generator of arc discharges, made on the basis of a gas-discharge lamp, the electrodes of which are placed coaxially in it and connected in parallel to a high-frequency resonant LC circuit. The device also contains a low-frequency generator, the discharge capacitor of which is connected in parallel through a variable resistor to a high-voltage power source and through an inductance and a resistor to a high-frequency generator of arc discharges.

 The shell can act as the body of the entire device, in which case it is rigid.

 The shell may be made of aluminum.

 The invention is illustrated in the drawing, where figure 1 shows the device, a General view; figure 2 formed by the device bioenergy screen, figure 3 is a schematic diagram of a gas discharge device; in Fig.4 generated high-frequency pulses of the arc discharge.

 The device comprises a shell 1 of non-magnetic metal, for example aluminum, in a closed cavity of which a high-frequency arc gas-discharge device is placed, consisting of a power source 2, an adjustable low-frequency generator 3 and a high-frequency discharge generator 4. The electromagnetic shell 1 is made of aluminum and is grounded.

 In a particular case, the presented circuit diagram of an arc gas-discharge device contains a high-voltage DC power supply 2, consisting of a transformer 5, diodes 6 and 7, and capacitors 8 and 9. The low-frequency generator 3 is made of a discharge capacitor 10, a first blocking inductance 11, and a second blocking inductance 12 with a current-limiting resistor 13, a variable resistor 14. In parallel with the discharge capacitor 10, an indicator lamp 15 is connected with a resistor 16. A high-frequency generator 4 arc discharges in made of a discharge lamp 17, in parallel with which is connected a high-frequency resonant LC circuit from a series-connected capacitor 18 and inductance 19.

 The discharge capacitor 10 is connected in parallel on one side through a variable resistor 14 with a high-voltage power supply 2, and on the other hand through an inductance 11 and through an inductance 12 with a resistor 13 with a discharge lamp 17.

 The discharge lamp 17 comprises a glass bulb 20, two coaxial cylindrical electrodes 21 with a diameter of 6 mm and a discharge gap of 5 mm. The electrodes 21 are made of molybdenum, and the flask 20 is filled with hydrogen with a pressure of 1-2 mm RT. Art. At a given hydrogen pressure, the arc discharge of the lamp 17 lies on the right branch of the Paschen curve, and the breakdown value is 0.9-1.1 kV.

 The capacitor 18 and inductance 17 form a high-quality high-voltage resonant circuit with a resonance frequency of 16 MHz.

 In the design, the shell 1 can be made rigid and is the body of the device. The shell has a grounding contact 22. The appearance of the device can be simulated as a diplomat. The handle of the variable resistor 14 is mechanically connected to the circuit breaker 23 and is displayed on the front side of the housing and has a scale of a discharge repetition rate of 10-100 Hz. In the off state, the resistor 14 has a maximum resistance. The indicator lamp 13, flashing in time with the repetition of high-frequency discharges, is also placed on the front side of the housing.

 The device operates as follows.

 By turning the handle of the variable resistor 14, the mains switch 23 is closed, and a network voltage of ≈ 200 V is connected to the transformer 5. The voltage of the secondary winding of the transformer 5 is rectified by a voltage doubling circuit made on diodes 6 and 7 and capacitors 8 and 9. A constant voltage of 2.5 kV through a variable resistor 14 charges the discharge capacitor 10. When the voltage across the capacitor 10 reaches the breakdown voltage of the lamp 17 (1 kV), a breakdown occurs between the electrodes 21, between which a high-frequency plasma angular discharge with an oscillation frequency of the arc current of 16 MHz, specified by the resonant LC circuit 18-19. The duration of the high-frequency arc discharge of 4 μs is determined by the discharge time of the capacitor 10 to the extinction voltage of the lamp 17.

The period T of the charge and discharge of the capacitor 10 lies in an adjustable range of 0.1-0.01 s, which corresponds to a discharge repetition rate of 10-100 Hz. The maximum discharge current (I _time ) 400-600 A is limited by a resistor 13.

 Thus, the capacitor 10 is periodically charged through a variable resistor 14 and charged through a blocking inductance 11 and 12, a resistor 13 and a lamp 17, and the indicator lamp 15 blinks with a discharge repetition rate of 10-100 Hz.

 Changing the frequency of repetition of high-frequency discharges and the duration of the entire device, form a biological screen 24 of one size or another. So, when the device is operated for 100 s at a repetition rate of high-frequency arc gas discharges of 100 Hz, the device forms around itself a volume bioenergy screen 24 (bio-screen) of a fusiform shape with a diameter in the thickened zone D 30-40 m and a height equal to N 3-4 D. Variable resistor 14 of the device controls the frequency of the discharge and, thereby, the rate of formation of the bio-screen 24, its size and maintaining its density, which decreases from the center of the screen to its periphery.

 Bio-screen 24 has a characteristic effect. So after turning off the device, the bio-screen does not disappear, but slowly dissipates within 20-30 minutes.

 The protective and healing properties of a bio-screen are determined by the extrasensory method. The protective properties of the bio-screen are expressed in the fact that when exposed to external harmful radiation, similar in properties and structure of the bio-screen, or during unauthorized extrasensory exposure, the bio-screen 24 does not allow the penetration of these factors into its own zone.

 In addition to the mentioned property of protecting biological objects 25 from unauthorized extrasensory exposure, the bio-screen 24 has the ability in its volume to capture and move dirty bio-energy to the electromagnetic membrane 1 of the device and dump it into the ground. This property of the bio-screen 24 can be used when using a device for cleaning the dirty energy of rooms, to neutralize geopathic zones, as well as for treating biological objects 25. Thus, under the influence of external harmful radiation, for example, when radiation is applied, dirty bioenergy arising in the bio-object 25 is constantly displayed by the bio-screen 24 from the bio-object 25 through the grounded shell 1 into the earth, exerting a therapeutic effect and increasing the concentration of its vital energy.

Claims (4)

 1. DEVICE FOR PROTECTION AGAINST RADIATION, containing a shell of non-magnetic metal having a grounding contact, characterized in that the shell is made with a closed cavity in which a high-frequency arc gas-discharge device inserted into the device is installed.  2. The device according to claim 1, characterized in that the high-frequency arc gas discharge device comprises a high-frequency arc discharge generator made on the basis of a gas discharge lamp, the electrodes of which are mounted coaxially and connected in parallel to the high-frequency resonant LC circuit, and a low-frequency generator, the discharge capacitor of which is connected in parallel through a variable resistor with a high-voltage power source and through inductance and a resistor with a high-frequency generator of arc discharges.  3. The device according to claims 1 and 2, characterized in that the shell is made in the form of a rigid body.  4. The device according to PP.1 to 3, characterized in that the shell is made of aluminum.

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