JP5781273B2 - Device for improving natural healing power for animals except humans - Google Patents

Description

  The present invention relates to a device for improving the natural healing power of animals other than humans, which utilizes the decompression of air and the return to normal pressure.

  An air bath is one method of preventing a disease by exposing the body to a specific air environment and training the body using the physical properties and chemical components of the air. Air baths have equally good effects on the regulation of blood circulation and on the tissue organs of living organisms. Trace elements, inorganic salts, oxygen, etc. in the air can improve the vitality and immune function of the organism, and absorbing fresh air and improving the oxygen content in the blood protects cardiopulmonary function It is said that it will be a very effective aid.

  In order to train the body by adopting an air bath, mainly stimuli formed by the difference between the air temperature (air temperature) and the body temperature are used. Cold changes in temperature activate the body's thermoregulatory function, the cerebral cortex and the reflex center of vasomotion, and can be well trained. For example, cold air stimulation causes blood vessels on the surface of the body to contract, causing blood to flow toward the viscera. Conversely, warm air stimulation dilates blood vessels on the surface of the body and causes blood to flow toward blood vessels on the surface of the body. Moreover, the air bath is expected to have a stress relieving effect not only in humans but also in animals.

  The present inventor has already proposed an optimum pressure regulating apparatus and pressure regulating method for performing an air bath using stimulation due to a temperature difference (see Patent Document 1).

Japanese Patent Application No. 2009-12792

  By a stimulus that is continuously repeated between a reduced pressure state above the threshold pressure generated by this pressure regulator and normal pressure or a broad normal pressure state that is higher than the reduced pressure state and lower than normal pressure, In pets, the natural healing power effect of returning abnormal body tissues and body organs to healthy body tissues and body organs has been confirmed, and the present invention has been made.

  That is, the present invention is to obtain a device for improving the natural healing power of animals other than humans that can favorably provide a stimulus for improving the natural healing power of a living animal such as a pet or a pet or a large animal such as a domestic animal. Objective.

An apparatus for improving the natural healing power of animals other than humans according to the invention described in claim 1 is an airtight part that can be airtight, a decompression pump that communicates with an exhaust port of the airtight part and reduces the pressure in the airtight part, An over-decompression preventing device for preventing the air pressure in the airtight part from becoming an over-depressurized state below a predetermined threshold pressure, and an air supply pipe for continuously naturally sucking outside air in accordance with the air pressure in the airtight part. A device,
The airtight part can hold all the living bodies of small animals for pets inside,
Further comprising a decompression control means for controlling the decompression pump;
The pressure reduction control means changes the atmospheric pressure in the airtight part to a reduced pressure state equal to or higher than the threshold pressure in 1 to 60 minutes, and from 1 to 60 minutes, the reduced pressure state is normal pressure or higher than the reduced pressure state. The pressurizing step of changing to a lower range of normal pressure is continuously and repeatedly controlled.

A device for improving the natural healing power of animals other than humans according to the invention described in claim 2 further comprises oxygen deficiency prevention means for preventing oxygen deficiency in the airtight part according to claim 1. Is.

  INDUSTRIAL APPLICABILITY The present invention has an effect that it is possible to obtain a device for improving natural healing power for animals excluding humans that can favorably provide a stimulus for improving the natural healing power of a living body.

It is explanatory drawing explaining the state of the blood vessel of normal pressure and pressure reduction. It is a front view which shows the structure of one Example of the natural healing power improvement apparatus of this invention. FIG. 3 is a plan view of FIG. 2. FIG. 3 is a side view of FIG. 2. FIG. 3 is a flowchart showing driving of the control device of FIG. 2, FIG. A is a flowchart showing a pressure reducing process, and FIG. B is a flowchart showing a pressurizing process; It is a diagram which shows the result of having measured the temperature change in an airtight part at the time of repeating a pressure reduction process and a pressurization process. It is a diagram which shows another result which measured the temperature change in an airtight part at the time of repeating a pressure reduction process and a pressurization process. It is a diagram which shows the atmospheric | air pressure change in the pressure regulation chamber in the following examples.

In the apparatus for improving natural healing power of animals other than humans of the present invention, an airtight part that can be airtight, a decompression pump that communicates with an exhaust port of the airtight part and reduces the pressure in the airtight part, and an air pressure of the airtight part An apparatus comprising an over-decompression preventing device that prevents an over-decompression that falls below a predetermined threshold pressure, and an air supply pipe that continuously and naturally sucks outside air in accordance with the atmospheric pressure in the airtight part,
Further comprising a decompression control means for controlling the decompression pump;
The pressure reduction control means changes the atmospheric pressure in the airtight part to a reduced pressure state equal to or higher than the threshold pressure in 1 to 60 minutes, and from 1 to 60 minutes, the reduced pressure state is normal pressure or higher than the reduced pressure state. The pressurizing step for changing to a lower range of normal pressure is continuously and repeatedly controlled.

  “Natural healing power” added in the present invention refers to the power to restore an abnormal state to a healthy state by the recovery function inherent to the animal's living body, including body fluid components such as blood, blood pressure, etc. It restores and restores abnormal environments such as repairing damage to body tissues and eliminating foreign substances (non-self) such as pathogenic microorganisms and viruses to a stable state. More specifically, it refers to a function of trying to cure a disease such as a disorder of various functions of the body or an abnormal state that is not healthy to a normal state. Therefore, “improvement of natural healing power” means to improve the natural healing power itself, the speed of the reaction to quickly recognize that it is in an abnormal state, and the response to return to the normal state. It also includes improving the speed and the like.

  For example, shrinkage and disappearance of tumor cells that are not healthy cells, improvement of immune system hypersensitivity such as rheumatism, improvement of osteoporosis that is not healthy bone tissue, improvement of abnormal sugar metabolism, etc. In addition, although there is no specific data in the examples described later, by improving abnormal blood pressure, dissolving thrombus, preventing angina / cerebral thrombus / intracerebral hemorrhage by dissolving thrombus, improving cerebral blood flow Improvement of dementia is considered to be included.

  The “animal excluding humans” in the present invention may be an animal whose natural healing power is improved when the aforementioned depressurization step and pressurization step are continuously and repeatedly controlled. Considering the hypotheses 1 and 2 described later, it is undeniable that the improvement of natural healing power can be seen for temperate animals such as snakes and lizards. It is thought that the improvement of the remarkably appears. Specifically, large animals such as pets such as dogs, cats, rabbits, ferrets, guinea pigs, small birds, pets, and domestic animals such as cattle, horses, pigs, sheep, goats, ostriches, and emus. Includes animals.

  The change in the atmospheric pressure cycle of the present invention stimulates the animal's living body in the hermetic part to improve the natural healing power (biological homeostasis maintenance mechanism) of the living body. More specifically, it seems to improve the responsiveness of the work to return a disease such as a disorder of various functions of the body or an abnormal state of unhealthy state to a normal state.

  In the present invention, details of the effect of improving the natural healing power by continuously and repeatedly controlling between a reduced pressure state equal to or higher than a threshold pressure and a normal pressure or a broad normal pressure state that is higher than the reduced pressure state and lower than the normal pressure state. Although the mechanism of action (mechanism of action) is thought to be elucidated by future verification and data accumulation, several hypotheses of mechanism of action were considered.

Hypothesis 1. When the oxygen partial pressure during breathing (hereinafter referred to as pO ₂ ) decreases when climbing a mountain with high skin respiration for a defense mechanism by hypoxia and breathing, alveolar pO ₂ and arterial blood pO ₂ are also reduced accordingly. For example, at about 0.8 atmosphere, the oxygen partial pressure is about 80%. On the other hand, the strength of the binding between hemoglobin and oxygen, that is, the oxygen dissociation property, plays the role of defense first.

The hemoglobin / oxygen dissociation curve representing this characteristic has a so-called S-shape and is substantially flat in a relatively high oxygen partial pressure region. For this reason, even if pO ₂ slightly decreases from the normal value, the decrease in arterial blood oxygen saturation (oxygen content per unit blood volume) remains small. For example, when climbing to a highland of 2000 m from flat land, pO _{2 in} the outside air decreases from 159 hPa to 124 hPa (22% decrease), and alveoli pO ₂ decreases from 100 hPa to 75 hPa (25% decrease). However, the oxygen saturation is only reduced from 96% to 2-3%. Therefore, even when climbing to a high altitude of 2000 m, the oxygen content in the arterial blood hardly changes, the oxygen supply to the tissue is almost normal, and the venous blood pO ₂ hardly changes.

  As in the present invention, the amount of air dissolved in blood is moved (released-absorbed) by changing the atmospheric pressure up and down in a reduced pressure environment. As a result, many phenomena such as skin respiration have appeared. For example, external breathing has a pressure condition due to the respiratory motion of the lungs, but skin cannot be performed because there is no pressure change. ATP production increases with skin respiration.

As in the present invention, when the pressure in the decompression chamber is reduced, the oxygen concentration decreases and ATP production decreases. However, ATP production increases due to skin respiration during the travel time. For example, if it took 5 minutes to reach an altitude corresponding to 1000 m in a decompression chamber and 20 minutes to reach an altitude corresponding to 4000 m, the result was that ATP production was higher in those who had entered up to 4000 m. It becomes. That is, if the altitude of 1000 m is maintained in the decompression chamber, ATP production does not increase, but if 500 m to 1000 m is constantly changed, ATP production greatly increases.

  The amount of air dissolved in blood due to changes in atmospheric pressure is considered to be used as skin respiration by releasing or absorbing it. The skin respiration effect is large on the dissolving side, that is, the direction in which the pressure in the decompression chamber increases (large supply amount). People living in the highlands change their altitude and are breathing through the skin. In addition, ATP production should increase because changes in air pressure will result in long-term skin respiration. This seems to be one of the secrets that people living in high altitude areas with low oxygen concentrations can live in the same way as on flat ground.

  Now, skin respiration is not performed even if the atmospheric pressure is changed under a pressure of normal pressure (1010 to 1030 hPa) or more. This can be understood from the absence of heat generation associated with ATP generation. In addition, the effect of the high oxygen concentration capsule such as the so-called “Beckham capsule” is because the oxygen concentration of respiration is increased (however, the blood vessels contract due to the function of the defense function and the effect is considered to be small). In the process of evolution, cells seem to have dealt with increased ATP production by having the function of skin respiration, which is not used on flat ground, in order to solve the major problems of altitude and oxygen concentration.

Hypothesis 2. Signal transduction vascular endothelial cells by secretion of nitric oxide (NO), etc. Gaseous nitric oxide (hereinafter referred to as “NO”) is secreted by stimulation such as shear stress due to blood flow. This NO was called Endothelium-Derived Relaxing Factor (EDRF). This endothelium-derived relaxing factor is shown to be NO itself. F. Mr. Firgotgot, L. J. et al. Mr. Ignalo, F.A. Three of Mr. Murad were awarded the 1998 Nobel Prize in Physiology or Medicine.

  NO as a signaling substance not only prevents plaque from causing infarction of arteries and veins, but also maintains normal blood pressure by preventing arterial relaxation to prevent heart attacks It is known that it is produced in the body, and NO is regarded as a marvelous chemical substance for maintaining the health of the cardiovascular system produced in the body. Hypothesis 2 is that this signal transmission by NO is the main mechanism of action of the natural healing power improvement effect of the present invention.

  That is, in the present invention, the period between the reduced pressure state equal to or higher than the threshold pressure and the wide normal pressure state that is higher than the normal pressure or lower than the normal pressure state is repeated, for example, 4 to 5 times within a time period of 40 to 60 minutes. As a result, the blood vessel itself is repeatedly expanded and restored.

  In other words, blood is transferred by a substantially constant blood pressure in the animal body. At this time, when the pressure of the outside air surrounding the animal is reduced, the blood vessel expands because the external pressure is lower than the internal pressure. FIG. 1 is an explanatory diagram for explaining the state of blood vessels under normal pressure and reduced pressure. As shown in FIG. 1a, at a normal pressure, the blood vessel 2a disposed near the surface of the body 1a is pushed from the outside of the blood vessel 2a with a pressure that can counteract the blood pressure inside the blood vessel 2a. .

  On the other hand, as shown in FIG. 1b, in the reduced pressure state, the pressure itself that pushes the surface of the body 1b is reduced, so that the blood vessel 2b disposed near the surface of the body 1b The blood vessel 2b itself is expanded by the blood pressure inside the blood vessel 2b so that the resultant force of the opposing force of the tube wall itself and the pressure from the outside of the blood vessel 2b is balanced with the blood pressure inside the blood vessel 2b.

  When the outside air pressure is restored, the blood vessel returns from the expanded state to the conventional state. This spider also secretes a substance that improves its natural healing power by repeating dilation and restoration like massaging blood vessels.

  It is well known that NO is secreted by stimulation of shear stress due to blood flow and relaxes vascular smooth muscle cells. In particular, when the body is exposed to an atmosphere in which a reduced pressure state and a broad normal pressure state are continuously repeated as in the present invention, the relaxed state and the return state of the blood vessel are physically repeated continuously. Even if the secretion of NO is more easily promoted than this, it is no wonder that it supports the effect of improving the natural healing power of the present invention.

As mentioned above, since NO was called endothelium-derived relaxing factor (EDRF), by relaxing the smooth muscle cells of the blood vessels and making the blood vessels muscles flexible and spreading, smoothing the blood flow,
(1) Including the effect of lowering blood pressure, it produces various effects as follows. Other effects that have been confirmed are:

(2) Removes free radicals such as active oxygen due to NO being an antioxidant, suppresses platelet aggregation, prevents cholesterol oxidation and thrombus formation, and prevents arteriosclerosis, heart disease, and stroke. Moreover, the blood flow and blood pressure are adjusted and relaxed by NO, and the improvement effect of coldness, a stiff shoulder, and chronic fatigue is also seen.

(3) Activate prostaglandin I ₂ (PGI ₂ ) synthase to increase PGI ₂ production. PGI ₂ works directly on vascular endothelial cells to increase intracellular cAMP concentration and increase NO production. NO synergistically increases the production of prostaglandin I ₂ (PGI ₂ ) (positive feedback).

(4) Blood vessel massage by changes in atmospheric pressure also secretes other signaling substances other than NO.
For example, (4-1) by improving production of plasminogen activator (t-PA), the fibrinolytic system is activated and thrombus is dissolved. As a result, the blood vessel itself rejuvenates, and the effect of preventing abnormal blood pressure reduction, angina pectoris, cerebral thrombus, and intracerebral hemorrhage is achieved.

  In addition, (4-2) B cells and plasma cells (plasma cells) are proliferated by cytokine-induced production (IL-6: regulatory factor of humoral immunity). In addition, production of IgG, IgM, and IgA is enhanced, is involved in T cell differentiation and activation, acts on hepatocytes, and induces acute phase proteins such as CRP and haptoglobin.

  As the natural healing power improvement device in the present invention, an airtight portion that can be airtight, a decompression pump that communicates with an exhaust port of the airtight portion to reduce the pressure in the airtight portion, and a threshold pressure that a pressure of the airtight portion is predetermined. What is necessary is just to be provided with the excessive pressure reduction prevention apparatus which prevents that it becomes the excessive pressure reduction below. In addition, although the airtight part in this invention is not assumed when it pressurizes positively more than a normal pressure (atmospheric pressure), the pressurization of the grade slightly over a normal pressure is naturally possible as an error range.

  The airtight part of the present invention includes an airtight part that can withstand pressure change between a reduced pressure state equal to or higher than a threshold pressure and a normal pressure or a broad normal pressure state that is higher than the reduced pressure state and lower than the normal pressure. If it is. The material constituting the hermetic portion may be any material that maintains airtightness and can withstand the pressure change between the reduced pressure state and the wide range normal pressure state, and is made of metal, resin, wood or the like alone or in combination. The

  Further, the shape of the airtight portion may be any shape as long as it maintains airtightness and can withstand the pressure change between the reduced pressure state and the wide range normal pressure state. Since it is not low, there is no restriction on its shape as long as airtightness is maintained. For example, if a rectangular panel is combined and the airtightness of a joint part can be ensured, it may be configured as a hexahedral casing.

  The decompression pump of the present invention may be any pump that communicates with the exhaust port of the hermetic part and depressurizes the air pressure in the hermetic part, and is controlled by a decompression control means, such as a rotary pump (oil rotary pump), an oil diffusion pump, A vacuum pump such as a turbo molecular pump, an ion pump, a dry pump, a canal booster pump or the like can be used alone or in combination of one or more.

  The over-decompression preventing device of the present invention may be any device that prevents the pressure of the hermetic part from being over-depressurized below a predetermined threshold pressure, and automatically when the pressure of the hermetic part falls below the threshold. Or what provided the open valve forcibly opened in the communicating pipe which connects external air and an airtight part is mentioned.

  As a safety device separate from this over-depressurization prevention device, a device that supplies an outside air amount that is less than the amount of air exhausted by the decompression pump or an animal placed inside the air-tight portion feels abnormal and the outside of the air-tight portion Preferably, it is further provided with a double, triple or more safety device such as an open valve that quickly operates to release the airtight state.

  The threshold pressure of the present invention includes species differences between animals and individual differences even if they are the same species, and the pressure threshold varies depending on the type of animal, the diseased animal, and the like. In addition, the threshold can be lowered by experience, and conversely, the threshold may be increased by physical condition. In general pressurized cabins in aircraft that are also transporting small animals such as dogs and cats, at an altitude of 12000 m, the air pressure is within and outside the altitude of 2000 m (about 780 hPa). But it is available. Accordingly, the threshold value of a general healthy living body is set to 600 hPa or more at an altitude of about 4200 m or less, at least exceeding an altitude of 2000 m.

  Any decompression control means for the decompression pump in the present invention may be used as long as it continuously and repeatedly controls an atmospheric pressure cycle that changes between a decompression state and a wide normal pressure state. The depressurized state refers to a depressurized state equal to or higher than a threshold pressure, and the value of the depressurized state is also changed according to the type of animal, a healthy animal, or a diseased animal. For example, the reduced pressure state is an atmospheric pressure of an altitude of 1000 m, the wide normal pressure state is an atmospheric pressure of an altitude of 200 m, and the pressure change between the reduced pressure state and the wide normal pressure state is repeated.

  A preferable reduced pressure state is 500 hPa or more and 780 hPa or less, more preferably 600 hPa or more and 700 hPa or less, and a preferable wide normal pressure state is 989 hPa or more corresponding to an altitude of 200 m or less under normal pressure (1013 hPa).

  In addition, the decompression state which repeats continuously should just be decompression more than threshold air pressure, and does not need to be the same atmospheric pressure. For example, the first reduced pressure state may be a different reduced pressure state such as 780 hPa corresponding to an altitude of 2000 m and the second reduced pressure state may be 700 hPa corresponding to an altitude of 3000 m. Similarly, the repeated normal atmospheric pressure state may be normal pressure or an atmospheric pressure higher than the immediately preceding reduced pressure state and lower than the normal pressure, and may not be the same atmospheric pressure. For example, the first wide normal pressure state may be a normal pressure (1013 hPa), and the second wide normal pressure state may be a different atmospheric pressure state such as 989 hPa corresponding to an altitude of 200 m.

  Moreover, the installation place of the natural healing power improvement apparatus of this invention is preferably equipped with the pressurization apparatus for making it normal pressure (1013 hPa) and an altitude of 200 m (989 hPa) in high altitude environments, such as Mexico City, for example. However, it is preferable not to pressurize beyond normal pressure.

  The speed of the change from the reduced pressure state in the hermetic portion to the wide range normal pressure state, or from the wide range normal pressure state to the reduced pressure state may be any as long as it provides a stimulus that improves the natural healing power effect of the test organism. For example, what changes from a reduced pressure state to a broad normal pressure state in 1 to 60 minutes or from a wide normal pressure state to a reduced pressure state in 1 to 60 minutes can be mentioned. Specifically, the pressure is changed from normal pressure (about 1013 hPa) to an atmospheric pressure (about 900 hPa) corresponding to an altitude of 1000 m in 3 minutes, or subsequently changed to an altitude of 200 m (about 989 hPa) in 1.5 minutes. Can be repeated continuously.

  It has been verified in the examples described later that the stimulation of the continuous atmospheric pressure change between the reduced pressure state and the wide normal pressure state improves the natural healing power effect of the subject. The mechanism of action shown is conceivable.

  As for the size of the hermetic portion and the capacity of the vacuum pump, it is possible to bring about a sudden pressure change that causes adiabatic expansion, and the volume that can quickly change the pressure between the reduced pressure state and the wide normal pressure state. That's fine. In an airtight part with a large capacity, it is sufficient to provide one or more decompression pumps with a large capacity and supply at least one air supply means with a large capacity for the airtight part. In this case, the device itself does not have to be large. As a large airtight part, a room having a capacity capable of entering one or more large animals at the same time can be realized. Moreover, as a small airtight part, the airtight part of the capacity | capacitance of the grade which one small animal lies down is raised. Furthermore, an airtight part with a smaller capacity that can accommodate a small pet such as a hamster is also possible. In particular, with a size that allows small pets for pets that the owner wants to cure the disease to fit inside, the device itself can be downsized, and home devices such as animal hospitals are also possible Become.

  In any case, in order to give a stimulus to a continuous change in atmospheric pressure between a reduced pressure state and a wide normal pressure state to the test organism, it is preferable to hold at least the entire body inside. Therefore, as the airtight part of the present invention, the whole living body is held inside. Specifically, the hermetic part holds all of the living body inside, and the hermetic part is configured as a room in which all the living body enters, and the test living body is placed in the hermetic room, and the pressure change between the reduced pressure state and the wide normal pressure state is measured. repeat. In this case, oxygen deficiency prevention means for preventing oxygen deficiency in the hermetic portion is further provided.

  As an oxygen deficiency prevention means of the present invention, an intake pipe for introducing outside air below the displacement of the decompression pump into the airtight part is installed so that the outside air is naturally sucked according to the air pressure in the airtight part, or automatically at the time of power failure, etc. For example, a door or a vent opening that is opened to prevent oxygen deficiency in the airtight part. By this oxygen deficiency prevention means, outside air is naturally sucked into the pressure-tight airtight portion.

  The natural healing power improvement device of the present invention includes one or more other various means for improving the natural healing power of the living body that has entered the hermetic part, in addition to the decompression control means, the oxygen deficiency prevention means, and the like. Also good. For example, further comprising an oxygen supply means for increasing the oxygen partial pressure in the hermetic portion that decreases in the reduced pressure state, further comprising a humidifying means for imparting humidity in the hermetic portion that decreases in the reduced pressure state, You may provide further the heating means for providing the temperature in the airtight part which falls, and may further provide the negative ion provision means for increasing the negative ion in an airtight part.

In the present invention related to the method, an airtight part capable of airtightness, a decompression pump communicating with the exhaust port of the airtight part to reduce the pressure inside the airtight part, and the air pressure of the airtight part being lower than a predetermined threshold pressure An operation method of a natural healing power improvement device provided with an over-decompression prevention device for preventing over-decompression,
A pressure reducing step of reducing the air pressure in the airtight portion to a reduced pressure state equal to or higher than the threshold pressure in 1 to 60 minutes and reducing the air temperature in the airtight portion by adiabatic expansion action; Improves natural healing power by continuously repeating the pressurization process in which the air pressure in the airtight part is restored to a temperature higher than the original airtight part by applying pressure to a wide range of normal pressures higher than the normal pressure and lower than the normal pressure. The device can be activated.

  About the natural healing power improvement device according to the present invention relating to the method, similarly to the above-described natural healing power improvement device, a pressure-reducing pressure reducing the pressure in the airtight part in communication with the airtight part capable of airtightness and the exhaust port of the airtight part. What is necessary is just to be provided with a pump and an over-decompression preventing device that prevents the air pressure of the airtight part from becoming an over-decompression pressure that falls below a predetermined threshold pressure, and each of the air-tight part, the decompression pump, and the over-decompression prevention device Is as described above.

  In the present invention, the pressure in the hermetic part is reduced to a reduced pressure state equal to or higher than the threshold pressure in 1 to 60 minutes to reduce the temperature in the hermetic part by adiabatic expansion, and the normal pressure is reduced from this reduced state in 1 to 60 minutes. Pressure or a pressurizing step of repressing the temperature in the airtight part to be higher than the temperature of the original airtight part by pressurizing to a wide normal pressure state higher than the normal pressure and lower than the normal pressure, and continuously repeating Good. Specifically, it may be controlled by including a decompression control means for controlling the decompression pump in the above-mentioned natural healing power improving device, and the operator checks the barometer in the hermetic part while checking the barometric pressure in the hermetic part. Including changing.

Example 1 Configuration of Natural Healing Power Improvement Device FIG. 2 is a front view showing the configuration of an embodiment of the natural healing power improvement device of the present invention. FIG. 3 is a plan view of FIG. FIG. 4 is a side view of FIG. As shown in the figure, the natural healing power improvement device 20 of the present embodiment includes a cylindrical airtight portion 21, a decompression pump 23 communicating with an exhaust pipe 22 having one end opened inside the airtight portion 21, and an inside of the airtight portion 21. A filter 25 is attached to the outside of the airtight part 21 at the other end of the air supply pipe 24 whose one end is opened at a position facing the exhaust pipe 22.

  The appearance of the airtight portion 21 is a configuration in which a cylindrical tank is laid down. In the present embodiment, a side wall part 34 having a cylindrical shape that is laid sideways, and an entrance / exit panel 31 in which an airtight door 32 having two windows 33 at the center is arranged on the front and back surfaces (not shown) of the side wall part 34. Is used.

  An air supply pipe 24 is disposed in the front-side entrance / exit panel 31, and a pressure control valve 26 is attached in the middle of the air supply pipe 24, and the pressure loss caused by the opening degree of the pressure control valve 26 is adjusted. The outside air that has passed through the filter 25 is naturally sucked continuously in accordance with the atmospheric pressure in the airtight portion 21. The opening degree of the pressure control valve 26 is performed by a control device 36 described later. Note that the pressure control valve 26 has a structure that cannot be completely closed, thereby functioning as an oxygen deficiency prevention means.

  An exhaust pipe 22 is disposed at a position opposite the airtight door 32 with respect to the air supply pipe 24, and an exhaust electromagnetic valve 27 is attached in the middle of the exhaust pipe 22, and the branch pipe 18 is provided on the decompression pump 23 side. In addition, an over-decompression preventing pipe 30 communicating with the outside air via the outside air electromagnetic valve 29 is arranged. Further, the airtight portion 21 is provided with a plurality of pressure sensors 35 for measuring the internal air pressure. When the air pressure in the airtight portion 21 falls below a preset threshold value due to some abnormality, the pressure reducing pump 23 is activated. The operation is stopped, the outside air electromagnetic valve 29 is opened, and the outside air can be prevented from being excessively depressurized.

  A controller 36 as a decompression control means for controlling the drive of the decompression pump 23 is disposed above the decompression pump 23, and the numerical value of the pressure sensor 35 of the hermetic portion 21 is also input to the controller 36, and the electromagnetic The drive of the valves 17 and 19 and the opening degree of the pressure control valve 26 are also controlled.

  FIG. 5 is a flowchart showing the driving of the control device of FIG. 2, wherein a is a flowchart showing a pressure reducing process, and b is a flowchart showing a pressurizing process. As shown in FIG. a, in the decompression step, the decompression pump 23 is driven by the control device 36. In this case, it goes without saying that the external solenoid valve 29 is closed and the exhaust solenoid valve 27 is opened.

  When the decompression pump 23 is driven, the opening of the pressure control valve 26 is set to the minimum opening so that the decompression is performed quickly. The atmospheric pressure is periodically checked to determine whether the target pressure reduction value is set in advance. When the target pressure reduction value is reached, the pressure reduction pump 23 is stopped. When the decompression pump 23 is stopped, the exhaust solenoid valve 27 is closed to maintain the pressure inside the airtight portion 21.

  In addition, since the pressure control valve 26 has a structure that is not closed, the pressure gradually increases when the decompression pump 23 stops driving. Therefore, in the case where the target decompression state is maintained for a long time, when the certain pressure rises with reference to the target pressure, the exhaust solenoid valve 27 is opened and the decompression pump 23 is driven again. Good.

  As shown in FIG. b, in the pressurizing step, the control device 36 opens the opening of the pressure regulating valve 26 to increase the air pressure in the airtight portion 21. The internal air pressure is regularly checked by the pressure sensor 35 of the airtight part 21, and it is determined whether or not the target pressure value is set in advance, and the target pressure value (wide normal pressure state) is obtained. In that case, the opening of the pressure control valve 26 is minimized.

Similarly, since the pressure control valve 26 has a structure that is not closed, the pressure gradually increases to the normal pressure even if the opening of the pressure control valve 26 is minimized. When maintaining a wide range of normal pressures lower than normal pressure for a long time, when a certain pressure rises with reference to the target pressure, control is performed to open the exhaust solenoid valve 27 and drive the decompression pump 23 again. May be.

  In addition, you may provide apparatuses, such as illumination, an air-conditioner, and floor heating, in the room | chamber interior of the airtight part 21 of a present Example as needed. In addition, about an air conditioner, it is necessary to ensure airtightness so that the drain in the room | chamber interior of an airtight part may be discharged | emitted indoors.

  A depressurization step of reducing the air pressure in the airtight portion 21 by using the natural healing power improving device according to the present embodiment to lower the temperature in the airtight portion by adiabatic expansion action, and a wide normal pressure state lower than the normal pressure from this reduced pressure state The change in the temperature in the airtight part was measured by repeating the pressurizing step of applying pressure to the airtight part and restoring the air temperature in the airtight part to be higher than the temperature of the original airtight part. The results are shown in Table 1.

  As shown in Table 1, it was confirmed that a temperature difference of 3 ° C. or more could be given to the test animal that entered the hermetic zone in a few minutes, and that stimulation by a rapid change in temperature could be given to the test animal. .

  Moreover, the result of having measured the temperature change in an airtight part at the time of repeating a pressure reduction process and a pressurization process in FIG.6 and FIG.7 is shown. In each figure, the solid line connecting the black circle points is the temperature (° C.) in the airtight portion, and the broken line connecting the black square points is the pressure (hPa) in the airtight portion.

  In FIG. 6, the depressurization step is from atmospheric pressure (1013 hPa) or atmospheric pressure corresponding to an altitude of 200 m (989 hPa) to atmospheric pressure corresponding to an altitude of 1000 m (900 hPa), and the pressurizing step is from atmospheric pressure corresponding to an altitude of 1000 m (900 hPa) to an altitude of 200 m. The corresponding atmospheric pressure (989 hPa) or normal pressure (1013 hPa) was repeated in 2.5 minutes. In FIG. 7, the depressurization step is from atmospheric pressure (1013 hPa) or an atmospheric pressure corresponding to an altitude of 200 m (989 hPa) to an atmospheric pressure corresponding to an altitude of 3000 m (700 hPa), and the pressurizing step is from an atmospheric pressure corresponding to an altitude of 3000 m (700 hPa) to an altitude of 200 m. The corresponding atmospheric pressure (989 hPa) or normal pressure (1013 hPa) was repeated in 6 minutes (8 minutes for the first and last pressure).

  As shown in FIG. 6, when the atmospheric pressure corresponding to an altitude of 200 m (989 hPa) or the atmospheric pressure in a wide range of normal pressures (1013 hPa) in the pressurizing step is higher than the original outside air temperature (25 ° C.). It was confirmed that Moreover, it turned out that the temperature range of 23.6 degreeC-26.8 degreeC is repeated in 1 cycle 5 minutes.

  On the other hand, as shown in FIG. 7, as in FIG. 6, when the atmospheric pressure corresponding to an altitude of 200 m (989 hPa) or the atmospheric pressure in a wide range of normal pressures (1013 hPa) is applied in the pressurizing process, It was confirmed that the temperature was higher than (26 ° C.). Moreover, it turned out that the temperature range of 21.5 degreeC-30.0 degreeC is repeated in 1 cycle 12 minutes.

Example 2: Verification of natural healing power improvement effect (conditions)
A decompression step thus to a vacuum of more than the threshold pressure, normal pressure or increased natural healing by repeating continuously the pressurization step of the lower broad normal pressure than normal pressure higher than the reduced pressure The effect appears. Hereinafter, the effect of improving natural healing power was verified. In the verification, the continuous repeated operation of the decompression step and the pressurization step of the natural healing power improvement apparatus was performed as shown in the following Table 2 and FIG.

  The following verification data is obtained by repeating the 50-minute decompression step and the pressurization step shown in Table 2 and FIG. 8 as one cycle.

Example 3: Verification of the effect of improving the natural healing power of pets (1)
The test animal is a 17-year-old male Shiba inu. I couldn't see more than 2 years ago, and I couldn't walk more than a year ago, and my meal was about half that of when I was fine. A cylindrical pressure chamber with a diameter of 1500 mm and a length of 3100 mm continued for 14 days a day from 18:00 to 8:00 the next morning for 3 days, and returned to normal life in the daytime.

  The operating condition of the pressure adjusting chamber was an unattended operation by automatic control in one cycle by continuously repeating the 50-minute decompression step and the pressurization step shown in Table 2 and FIG. Three days later, he became able to stand up and walk on his own. I started to eat as much as my appetite.

Example 4: Verification of effect of improving natural healing power of pet (2)
The test animal is a male, 11 year old gray, black striped cat. When I was 2 years old, I had a castration operation. From a half year ago, anorexia, nausea, and veterinary examinations are said to be renal failure. In the same manner as in Example 3, 14 hours a day from 18:00 to 8:00 the next morning was continued in the pressure adjustment room for 3 days, and the normal life was returned to the daytime.

  Similarly, the operation conditions of the pressure adjusting chamber were the unattended operation by automatic control in one cycle by continuously repeating the 50-minute decompression step and the pressurization step shown in Table 2 and FIG. Three days later, nausea was cured and appetite began to appear. After that, he entered the pressure control room at a rate of about twice a week and is still doing well.

  ADVANTAGE OF THE INVENTION According to this invention, the natural healing power improvement apparatus which can give the irritation | stimulation which improves the natural healing power of a biological body favorably, and its operating method are obtained, abnormal body tissue, a body organ, etc., healthy body tissue, A natural healing effect that attempts to return to the body organ is obtained.

20 ... Natural healing power improvement device,
21 ... Airtight part,
22 ... exhaust pipe,
23 ... decompression pump,
24 ... Air supply pipe,
25 ... filter,
26 ... pressure regulating valve,
27 ... Solenoid valve for exhaust,
28 ... branch pipe,
29 ... Solenoid valve for outside air,
30 ... pipe for preventing excessive decompression,
31 ... Entrance panel,
32 ... Airtight door,
33 ... window,
34 ... side wall,
35 ... Pressure sensor,
36 ... control device,

Claims (2)

An airtight part capable of airtightness, a pressure reducing pump that communicates with an exhaust port of the airtight part to reduce the pressure in the airtight part, and prevents the air pressure in the airtight part from being excessively reduced below a predetermined threshold pressure. An apparatus comprising an over-depressurization prevention device and an air supply pipe that continuously and naturally sucks outside air according to the air pressure in the airtight part,
The airtight part can hold all the living bodies of small animals for pets inside,
Further comprising a decompression control means for controlling the decompression pump;
The pressure reduction control means changes the atmospheric pressure in the airtight part to a reduced pressure state equal to or higher than the threshold pressure in 1 to 60 minutes, and from 1 to 60 minutes, the reduced pressure state is normal pressure or higher than the reduced pressure state. An apparatus for improving the natural healing power for animals other than humans, characterized in that it continuously and repeatedly controls a pressurizing step for changing to a lower range of normal pressure. The apparatus for improving natural healing power for animals except for humans according to claim 1 , further comprising oxygen deficiency prevention means for preventing deficiency of oxygen in the hermetic part.

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