JP2008291521A - Anus washing device and toilet bowl having the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an anus washing device capable of washing an anus and effectively treating a disease; and a toilet bowl having the anus washing device. <P>SOLUTION: This toilet bowl 1 comprises a toilet bowl body 10, a nanometer-bubble generator 20, and a toilet bowl washing water storage tank 30. The nanometer-bubble generator 20 generates a liquid containing nanometer-bubbles by a gas-liquid mixing and circulating pump 21, a micro-bubble generating part 22, and first gas shearing part 24. The liquid containing the nanometer-bubbles is jetted from a nozzle 16 formed in the toilet bowl body 10. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an anal cleaning device and a toilet comprising the anal cleaning device. More specifically, the present invention includes an anal cleaning device having an excellent cleaning action, a bactericidal action, and an excellent treatment effect for a disease, and the anal cleaning apparatus. Related to toilet bowl.

  Conventionally, carbon dioxide has a peripheral vasodilatory action and has a medical detection that blood flow is increased. For this reason, hot springs (carbonated springs) containing about 1000 ppm or more of the carbon dioxide gas are used for various medical treatments. For example, it can be used for treatment of diabetic patients and epilepsy patients. There are reports that there are about 8 million people with diabetes in Japan. As diabetes progresses, blood flow deteriorates and various complications such as renal failure occur. In the worst case, the foot develops into kidney dialysis and the blood flow near the end of the foot causes gangrene, Will be disconnected. In addition, hemorrhoids are caused by blood pressure in the anus and rectal veins. However, although the carbonated spring is known to exist in Europe, particularly Germany, the carbonated spring has not been found so much in Japan. For this reason, it is difficult to use hot springs for medical treatment in Japan.

  Here, an apparatus for artificially producing bathtub water (artificial carbonated spring) containing carbon dioxide at a high concentration of 1000 ppm or more has been developed by MRC Home Products Co., Ltd. This apparatus has a structural function of dissolving carbon dioxide gas in bath water using a semipermeable membrane and a multilayer composite hollow fiber membrane that allows only gas to pass through without passing water. Thereby, in the said apparatus, since a carbon dioxide gas can be artificially made high concentration and a blood flow rate can be increased, the effect | action equivalent to the said carbonated spring is anticipated. However, since carbon dioxide itself is difficult to be taken in from the skin and mucous membranes, it is difficult to achieve a sufficient therapeutic effect with the carbonated spring or the device.

  In addition to carbon dioxide gas, there are reports that micro-nano bubbles also have peripheral vasodilatory effects and increase blood flow. For this reason, it is thought that a blood flow rate can be increased by bathing in the bathtub which generate | occur | produces a micro nano bubble. However, in order to exhibit such an effect of increasing blood flow, it is necessary to generate a very large number of micro / nano bubbles, and it is necessary to install a large number of swirling flow type micro / nano bubble generators. As a specific example, there is an experimental example in which ten swirling flow type micro / nano bubble generators are installed in a bathtub in order to exert an effect of increasing blood flow. In this system, since ten micro / nano bubble generators are installed in the bathtub, in addition to the problem of the bathtub space, the cost of the bathtub is also increased, which can be said to be an unrealistic system.

Here, various knowledge about fine bubbles such as the above-mentioned micro-nano bubbles has been reported. Fine bubbles are classified into microbubbles, micronanobubbles, and nanobubbles depending on the bubble diameter. A microbubble is a bubble having a bubble diameter of 10 μm to 1 μm at the time of generation, and a nanobubble is a bubble having a diameter of 1 μm or less at the time of generation. Micro-nano bubbles are bubbles in which micro-bubbles and nano-bubbles are mixed, and have a diameter of about 10 μm to several hundreds of nanometers when they are generated. For example, micro-nano bubbles can be obtained by generating nano-bubbles from a part of micro-bubbles by contraction movement that occurs after the generation of micro-bubbles (Non-patent Document 1)
For example, the utilization method of the said nano bubble and its generator are disclosed (patent document 1). In Patent Document 1, nanobubbles utilizing characteristics such as a decrease in buoyancy of nanobubbles, an increase in surface area, an increase in surface activity, generation of a local high-pressure field, interfacial activity by realization of electrostatic polarization, and bactericidal action are disclosed. A method of use is disclosed. More specifically, these properties are related to each other, so that the nanobubbles can exhibit the effect of removing the dirt component, the high-speed cleaning effect on the object surface, and the sterilizing effect on various objects. Thus, it is disclosed that various objects can be washed very cleanly with a low environmental load, so that the polluted water can be purified.

  Moreover, the production | generation method of nanobubble is disclosed (patent document 2). Patent Document 2 discloses that in a liquid, (i) a step of cracking and gasifying a part of the liquid, (ii) a step of applying ultrasonic waves in the liquid, or (iii) cracking and gasification in the liquid And a method for producing nanobubbles comprising a step of applying ultrasonic waves in the liquid.

  Also, a waste liquid treatment apparatus using ozone microbubbles is disclosed (Patent Document 3). In the processing apparatus disclosed in Patent Document 3, ozone gas generated from the ozone generator and waste liquid extracted from the lower portion of the processing tank are supplied to the microbubble generator via a pressure pump. Furthermore, the generated ozone microbubbles are ventilated into the waste liquid in the treatment tank through the opening of the gas ejection pipe.

  Moreover, the technique regarding the application of the microbubble by a carbon dioxide is disclosed (patent document 4). In Patent Document 4, a carbon dioxide container and a pressure reducing valve are arranged in the intake air intake system of the microbubble generator, and supply is performed at a pressure and a flow rate under a certain condition. It is disclosed that the dissolution efficiency is close to 100% of the theoretical amount, the amount of gas used is extremely small compared with the conventional method, is economical, and the apparatus is compact.

  Moreover, the toilet bowl washing | cleaning apparatus using a microbubble is disclosed (patent document 5). In the toilet cleaning device disclosed in Patent Document 5, ozone-containing bubbles that are microbubbled generated by an ozone generator and a fine bubble generator are used as toilet flushing water.

  A method for promoting percutaneous absorption utilizing microbubbles is disclosed (Patent Document 6). In the method disclosed in Patent Document 6, a bath equipped with a fine bubble generator as a transdermal absorption promoting device generates fine bubbles in a container containing a liquid containing a useful substance and a liquid in the bathtub. And a device.

On the other hand, toilets that can clean the anus are conventionally known. Specifically, in the sitting toilet seat, the anus is washed by discharging water toward the anus.
JP 2004-121962 (released on April 22, 2004) JP2003-334548 (released on November 25, 2003) JP 2004-321959 (released November 18, 2004) JP 2006-320675 (released November 30, 2006) JP 2006-249661 (released September 21, 2006) JP 2006-305158 (released on November 9, 2006) Published by Hirofumi Taisei "All about microbubbles", published by Nihon Jitsugyo Publishers

  However, the above-mentioned conventional toilet bowl is intended for irrigation of the anus and discharges water, which is insufficient from the viewpoint of treating various diseases (particularly hemorrhoids).

  In addition, microbubbles are difficult to be absorbed from the skin and mucous membranes, and are therefore difficult to be taken into capillaries. Furthermore, although there is a technique that uses microbubbles for washing water for a toilet, there is no disclosure about discharging microbubbles to the anus.

  In addition, when a drug used for treatment of various diseases is taken from the mouth, a part of the drug is decomposed in the digestive organs, liver, and kidney, so that the total amount of the drug up to the intended action site of the body Never reached. In addition, there has been a conventional method of absorbing a drug from the anus or rectum, but the amount of drug absorbed is small. In general, as the age increases and the aging progresses, the blood flow in the human body deteriorates, so it takes a considerable amount of time for the taken drug to go around the whole body, and the action of the drug is effective. It was not possible to demonstrate.

  In addition, Patent Documents 1 to 6 do not disclose that a disease can be treated in a short time by washing and cleansing the anus of various patients with sputum using fine bubbles. Also, it is not disclosed that microbubbles are taken into capillaries via the anal skin and further through the internal rectal mucosa, resulting in an increase in blood flow and insulin-like growth factor-1. That is, it is not disclosed that microbubbles can be used to treat a patient having a disease.

  In addition, microbubbles containing the drug are easily absorbed from the skin of the anus and rectum, and the blood flow and insulin-like growth factor-1 are increased by the absorption of the microbubbles. It is not disclosed that the effect is enhanced and the disease can be effectively treated. Also, it is disclosed that the drug-containing nanobubbles produced are absorbed very efficiently from the skin by mixing the gas and liquid using a gas-liquid mixing circulation pump and utilizing the friction generated by this mixing. Absent.

  The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an anal cleaning device that can effectively treat not only an anus but also a disease, and the anal cleaning device. To provide a toilet bowl.

  In order to solve the above-described problems, an anal cleaning device of the present invention includes a nanobubble generator that generates nanobubbles in a liquid, and a nozzle that ejects a liquid containing nanobubbles generated by the nanobubble generator. It is characterized by that. Since nanobubbles are ultrafine, when the anus is washed with a liquid containing nanobubbles, the nanobubbles can enter the anus and enter the rectum. Here, since nanobubbles are negatively charged, they have the property of adhering to bacteria or organic substances on the surface in contact with water or nanobubbles. That is, the nanobubble has a bactericidal action and a cleaning action.

  In addition, since nanobubbles exist stably in water for more than one week, the above bactericidal action and cleaning action can be sustained for a long time. Therefore, since the anus and rectum can be cleaned and sterilized by using the above-mentioned anal cleaning device, diseases that develop in the anus such as hemorrhoids can be prevented.

  Moreover, since nanobubbles are ultrafine, they are easily absorbed from the skin and mucous membranes and taken into capillaries. Thereby, since the nanobubble goes around the whole body, the blood flow rate of the user can be increased. Moreover, since sensory nerves are stimulated by nanobubbles, the release of insulin-like growth factor-1 (IGF-1) into the blood can be promoted. That is, by washing the anus with nanobubbles, the user's blood flow and the amount of IGF-1 in the blood can be increased.

  In the anal cleaning device of the present invention, the nanobubble generator includes a gas-liquid mixing circulation pump that mixes gas and liquid to generate a gas-liquid two-phase fluid, and an air generated by the gas-liquid mixing circulation pump. Mixing and stirring the liquid two-phase fluid, generating a microbubble in the gas-liquid two-phase fluid, and generating a shear force on the microbubbles generated by the microbubble generator, It is preferable to include a first gas shearing section that generates nanobubbles in the gas-liquid two-phase fluid by shearing and crushing microbubbles.

  According to this, the liquid and gas are effectively self-sufficiently mixed and dissolved by the gas-liquid mixing circulation pump to create a gas-liquid two-phase fluid, and then the microbubble is mixed and stirred. Microbubbles can be generated at the generating portion.

  And the shear force which arises by a fluid motion arises by carrying out the high-speed fluid motion of the said microbubble in the said 1st gas shear part. Since the microbubbles are sheared and crushed by this shearing force, nanobubbles can be easily generated.

  The anal cleaning device of the present invention is provided with a liquid storage tank for storing a desired liquid, and can supply the desired liquid stored in the liquid storage tank to the gas-liquid mixing circulation pump. Preferably there is. According to this, since the desired liquid can be supplied from the liquid storage tank to the gas-liquid mixing circulation pump, nanobubbles containing the desired liquid in the liquid portion outside the nanobubbles can be manufactured. Therefore, by washing the anus, it is possible to absorb the desired liquid together with the nanobubbles from the anal skin and the rectal mucosa. Thereby, a desired liquid can be easily taken into the body.

  Conventionally, when a drug is administered orally or when a herbal medicine is applied to the skin, a part of the drug or herbal medicine is decomposed in the body, so that the total amount of the drug or herbal medicine reaches the intended site of action. There was no. Absorption of drugs or herbal medicines from the anus and rectum was low.

  On the other hand, when an aqueous solution containing a drug and / or an herbal medicine is used as the desired liquid, the analgesic device is used to remove the drug and / or herbal medicine together with nanobubbles from the anal skin or It can be absorbed from the rectal mucosa. Thereby, since the said drug and / or crude drug travels the whole body without being decomposed | disassembled by the internal organ, the pharmacological action of the said drug and / or crude drug can be improved markedly. Therefore, the disease can be effectively treated by washing the anus with nanobubbles containing the drug and / or herbal medicine.

  In addition, the anal cleaning device of the present invention includes a suction pipe for taking in a desired gas, and can supply the desired gas taken in from the suction pipe to the gas-liquid mixing circulation pump. preferable. According to this, since a desired gas can be supplied to the gas-liquid mixing circulation pump, nanobubbles containing the desired gas in the gas portion inside the nanobubbles can be manufactured. For this reason, by washing the anus, it is possible to absorb the desired gas together with the nanobubbles from the anal skin and the rectal mucosa. Thereby, a desired gas can be easily taken into the body.

  Since the amount of carbon dioxide absorbed from the skin is very small, it has been a conventional problem that it cannot effectively exert its blood flow increasing action and blood circulation promoting action. On the other hand, when carbon dioxide is used as the desired gas, carbon dioxide can be easily absorbed from the anal skin and rectal mucosa together with the nanobubbles by using the anal cleaning device. Thereby, the blood flow volume increasing action and blood circulation promoting action of carbon dioxide can be effectively exhibited.

  Moreover, the toilet bowl of this invention comprises the said anal cleaning apparatus. According to this, it is possible to wash the anus using nanobubbles after using the toilet and to wash the inside of the toilet using nanobubbles. As described above, nanobubbles have an excellent cleaning action and cleaning action. Therefore, the anus can be made very clean by ejecting nanobubbles to the user's anus using the toilet. In addition, the inner wall of a conventional toilet bowl becomes dirty when used for a long time. However, in the toilet bowl, the inner wall is washed and sterilized every time it is used, so that the toilet bowl can be kept clean.

  Further, as described above, by absorbing nanobubbles from the anal skin and rectal mucosa, the blood flow volume of the user of the toilet is increased, and IGF-1 in the blood can be increased.

  The toilet of the present invention includes a toilet flushing water storage tank, and is generated by a first pipe for sending a liquid containing nanobubbles generated by the nanobubble generator to the nozzle and the nanobubble generator. It is preferable to provide the 2nd piping which sends the liquid containing a nano bubble to the said toilet bowl washing water reservoir.

  According to this, the anus can be washed by ejecting the liquid containing nanobubbles from the nozzle through the first pipe. Moreover, since the liquid containing nanobubbles can be supplied to the toilet bowl washing water reservoir through the second pipe, the toilet bowl can be washed with the toilet bowl washing water containing nanobubbles.

  Moreover, it is preferable that the toilet bowl of this invention is provided with the 2nd gas shearing part in the discharge port of the said 2nd piping. Thereby, the microbubble discharged without being sheared in the first gas shearing part can be sheared by the second gas shearing part. For this reason, the particle size density of the nano bubbles generated by the nano bubble generator can be increased. Therefore, it is possible to manufacture excellent nanobubbles by the cleaning action and the sterilizing action, and supply the liquid containing the nanobubbles to the toilet flushing water storage tank through the second pipe.

  As described above, the anal cleaning device of the present invention includes a nanobubble generator that generates nanobubbles in a liquid, and a nozzle that ejects a liquid containing nanobubbles generated by the nanobubble generator. . Since nanobubbles are ultrafine, when the anus is washed with a liquid containing nanobubbles, the nanobubbles can enter the anus and enter the rectum.

  Here, since nanobubbles are negatively charged, they have the property of adhering to bacteria or organic substances on the surface in contact with water or nanobubbles. That is, the nanobubble has a bactericidal action and a cleaning action. In addition, since nanobubbles exist stably in water for more than one week, the above bactericidal action and cleaning action can be sustained for a long time. Therefore, the anus and rectum can be cleaned and sterilized by using the anal cleaning device.

  Moreover, since nanobubbles are ultrafine, they are easily absorbed from the skin and mucous membranes and taken into capillaries. Thereby, since a nano bubble will go around the whole body, there exists an effect of increasing a user's blood flow rate. Moreover, since sensory nerves are stimulated by nanobubbles, the release of insulin-like growth factor-1 (IGF-1) into the blood can be promoted. That is, by washing the anus with nanobubbles, the blood flow of the user and the amount of IGF-1 in the blood can be increased.

  Moreover, the toilet bowl of this invention comprises the said anal cleaning apparatus as mentioned above. According to this, it is possible to wash the anus using nanobubbles after using the toilet and to wash the inside of the toilet using nanobubbles. As described above, nanobubbles are excellent in cleaning action and bactericidal action. Therefore, by using the toilet, the nanobubbles are ejected to the user's anus, so that the anus can be very clean. In addition, the inner wall of a conventional toilet bowl becomes dirty when used for a long time. However, since the inner wall is washed and sterilized each time it is used, the toilet bowl can be kept clean.

  Further, as described above, by absorbing nanobubbles from the anal skin and rectal mucosa, the blood flow volume of the user of the toilet is increased, and IGF-1 in the blood can be increased.

[Embodiment 1]
An embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic diagram showing a schematic configuration of the toilet of the first embodiment. That is, in this embodiment, the toilet is integrated with the anal cleaning device. As shown in FIG. 1, the toilet 1 includes a toilet body 10, a nanobubble generator 20 that generates nanobubbles in a liquid, a toilet flushing water reservoir 30, and an operation switch.

  These positional relationships are not particularly limited, and may be determined as appropriate depending on conditions such as the installation location. For example, in FIG. 1, the toilet flushing water reservoir 30 is located above the toilet body 10, and the nanobubble generator 20 is located above the toilet body 10 and next to the toilet flush water reservoir 30. Yes. On the other hand, a conventional toilet includes a toilet main body and a toilet flush water reservoir located above the toilet bowl.

  Before the flush water 37 is poured into the toilet body 10, toilet toilet water 15 is stored. The toilet body 10 is not particularly limited, and various commercially available conventionally known toilet bodies can be used. Moreover, the material of the said toilet bowl main body 10 is not specifically limited, For example, ceramics etc. are mentioned.

  In the toilet body 10, a toilet seat 11 on which a person sits, a nozzle 16 that ejects a liquid containing nanobubbles generated by the nanobubble generator 20, a shower pipe 12, and a cleaning water 37 for cleaning the inside of the toilet body 10 flow. A cleaning port 14 is provided. The nozzle 16 is provided at the tip of the shower pipe 12.

  The toilet flushing water storage tank 30 includes a ball tap 31, a first pipe 32, and a fourth pipe 35. The first gas shearing part 24, the electric pressure reducing valve 44, the electric valve 42, and the shower pipe 12 are arranged in this order via the first pipe 32.

  The first pipe 32 is branched at a branch point 38 in the toilet flushing water reservoir 30 so that a liquid containing nanobubbles can be supplied to the toilet flushing water reservoir 30. In the present specification, the pipe branched in the toilet flush water reservoir 30 is referred to as a second pipe 33. Thereby, the nano bubbles generated by the nano bubble generator 20 are supplied from the outlet of the second pipe 33 to the toilet flushing water reservoir 30. In the toilet, the cleaning port 14 and the second electric valve 46 are arranged via the fifth pipe 36.

  The capacity of the toilet flushing water storage tank 30 is not particularly limited as long as it is larger than the flushing water 37 necessary for washing the inside of the toilet main body 11. The toilet flushing water storage tank 30 is provided with a ball tap 31, and when the water level drops, water is automatically supplied through a supply pipe (not shown).

  The material of the washing storage tank is not particularly limited, and examples thereof include pottery. In addition, when using a commercially available thing as the said toilet bowl main body 10 and the said toilet bowl washing water storage tank 30, they may be a thing of a separate manufacturing company, and the set of the same manufacturing company may be sufficient as them. If it is the above set, since the standard of the member that connects the toilet body and the toilet flush water reservoir is unified, there is an advantage that it is easy to connect and assemble the toilet body and toilet flush water reservoir. is there.

  In the toilet 1, the nanobubble generator 20, the electric pressure reducing valve 44, the electric valve 42, and the nozzle 16 are arranged in this order, and these are connected by the first pipe 32. As a result, nano bubbles generated in the nano bubble generator are supplied to the nozzle 16 via the first pipe 32.

  The nozzle 16 is not particularly limited, and a conventionally known nozzle used for ejecting water can be used. The nanobubble generator 20 includes a gas-liquid mixing / circulation pump 21, a microbubble generator 22, an electric needle valve 23, a first gas shearing unit 24, a suction pipe 26, a lid 25, a first pipe 32, and a third pipe 34. , And a fourth pipe 35 is provided. Although the said gas-liquid mixing circulation pump 21, the micro bubble generation | occurrence | production part 22, the 1st gas shearing part 24, and the electric needle valve 23 are not specifically limited, For example, the product (catalog number: Bavitas HYK-20) of Kyowa Kikai Co., Ltd. ) Can be used.

  A gas-liquid mixing circulation pump 21 is provided inside the microbubble generator 22. Further, the microbubble generating unit 22 and the first gas shearing unit 24 are connected by a fourth pipe 35. The first gas shearing part 24 and the nozzle 16 are connected by a first pipe 32.

  The gas-liquid mixing circulation pump 21 includes a suction pipe 26, a third pipe 34, a fourth pipe 35, a not-shown stirring blade (impeller), and a rotation speed controller (inverter) for controlling the rotation speed of the impeller. Is provided. The suction pipe 26 is provided with an electric needle valve 23. The electric needle valve 23 can adjust the air supplied from the suction pipe 26.

  The gas-liquid mixing circulation pump 21 is preferably a high-lift pump having a lift of 40 m or higher (that is, a high pressure of 4 kg / cm 2). Further, as the pole of the gas-liquid mixing circulation pump 21 having the microbubble generator 22, either 2 poles or 4 poles can be used, but 2 poles are preferable from the viewpoint of torque stability.

  The electric pressure reducing valve 44 and the first electric valve 45 are connected to the sequencer 41 via the second signal line 43. The sequencer 41 is connected to the operation switch 40 via the first signal line 42. Thus, by operating the operation switch 40 (pressing “wet” on the operation switch 40), the signal is input to the sequencer 41 via the first signal line. Thereafter, the gas-liquid mixing circulation pump 21 is first operated from the sequencer 41 via the second signal line 43, and the electric pressure reducing valve 44 and the electric valve 45 are opened after a certain period of time.

  That is, when the “wet” switch of the operation switch 40 is pressed, the signal is transmitted to the sequencer 41 via the first signal line 42, and further, the signal from the sequencer 41 is transmitted via the second signal line 43. It is transmitted to the gas-liquid mixing circulation pump 21. Thereby, the electric needle valve 23 is opened, the gas-liquid mixing circulation pump 21 is operated, and nanobubbles are manufactured.

  And since a nano bubble spouts from the discharge port of the 2nd piping 33 to the toilet bowl washing water storage tank 30, a nano bubble will be contained in the washing water 37. FIG. Subsequently, the electric pressure reducing valve 44 and the first electric valve 45 are opened after a short time according to the signal from the sequencer 41, so that the liquid 13 containing nanobubbles is adjusted from the nozzle 16 by the electric pressure reducing valve 44 and jumps out. Come. Thereby, the anus can be washed.

  When the anus cleaning is completed, the ejection of the liquid 13 containing nanobubbles can be stopped by operating the operation switch 40 (pressing “stop” on the operation switch 40).

  Next, when “flow” of the operation switch 40 is pressed, the second electric valve 46 is opened, and the cleaning water 37 containing nanobubbles is supplied from the cleaning port 14 arranged at the upper part of the toilet body 10. The toilet body 10 flows out from the periphery of the top so that it can be cleaned as a whole.

  The production of nanobubbles by the nanobubble generator 20 will be described. Nanobubbles are manufactured through a first stage and a second stage. In the first stage, first, the gas-liquid mixing circulation pump 21 is driven to supply air through the suction pipe 26 and cleaning water to the microbubble generator 22 through the third pipe 34.

  Next, cleaning water and air are mixed and stirred in the microbubble generator 22 by rotating the impeller. By adjusting the rotation of stirring the mixture of the washing water and air, a gas-liquid two-phase fluid that rotates at high speed is generated at the center of the microbubble generator 22, so that gas is generated at the center of the microbubble generator 22. Is formed.

  Furthermore, the turning speed of the gas-liquid two-phase fluid differs between the outlet of the microbubble generator 22 and the inlet of the fourth pipe 35. For example, if the rotational speed of the gas-liquid two-phase fluid at the outlet of the microbubble generator 22 is 500 rpm / second to 600 rpm, the gas-liquid two-phase fluid is transferred to the center of the microbubble generator 22. A heading pressure (negative pressure (negative pressure)) is generated. A portion of the gas-liquid two-phase fluid generated by this negative pressure is called a “negative pressure forming portion”.

  Since the gas-liquid two-phase fluid is compressed by the negative pressure, the cavity is thinned like a tornado and air contained in the gas-liquid two-phase fluid is automatically supplied to the cavity. Thereby, shear force and crushing force are generated for the gas-liquid two-phase fluid, and microbubbles can be generated from the gas-liquid two-phase fluid.

  As described above, in the first stage, the microbubble generator 22 moves the washing water and air at high speed fluid motion, thereby controlling the pressure hydrodynamically and sucking gas from the negative pressure forming portion. Thereby, a negative pressure part is formed and microbubbles are generated. If it explains easily and more easily, microbubble cloudy water will be manufactured by carrying out the self-supplied mixing dissolution of the washing water and air effectively, and pumping. In the present specification, the “negative pressure part” refers to a region in the gas-liquid two-phase fluid where the pressure is smaller than the surroundings.

  Next, the second stage will be described. In the second stage, the microbubbles generated in the first stage are pumped to the first gas shearing section 24 through the fourth pipe 35. The first gas shearing section 24 is provided with a stirring blade (impeller) (not shown) and a rotation speed controller (inverter) for controlling the rotation speed of the impeller similarly to the gas-liquid mixing circulation pump 21. For this reason, the microbubbles can be fluidized at high speed to be thinned like a tornado.

  In the second stage, the speed of the high-speed fluid motion of the microbubble is set to be higher than the speed of the high-speed fluid motion of the gas-liquid two-phase fluid. Further, the piping size of the first gas shearing part 24 is set to be thinner than that of the microbubble generating part 22. Thereby, a rotational shear flow can be generated in the microbubble. Since a shearing force is generated by this rotating shear flow, the microbubbles can be sheared and crushed. In this way, nanobubbles can be generated from the microbubbles.

  In addition, an extremely high temperature limit reaction field is formed in the microbubble by the rotating shear flow. Thereby, the local part of a microbubble will be in a high temperature / high pressure state, and a free radical will arise. Therefore, free radicals have a strong oxidizing action. According to this, since the nanobubble contains the free radical, bacteria and viruses can be sterilized by the oxidizing action.

  Thus, in the second stage, the microbubbles generated in the first stage are supplied to the first gas shearing part 24 through the third pipe 34. And the said 1st gas shearing part is made to make high-speed fluid motion, and a microbubble is sheared and crushed with the shear force which arises by this fluid motion. Thereby, nanobubbles can be generated. The above is the mechanism of the nanobubble generator 20.

  In the above description, the cleaning water is supplied to the microbubble generator 22 through the third pipe 34. However, the present invention is not limited to this, and a desired liquid other than the cleaning water can also be used.

  When the anus is washed using the toilet of this embodiment, the anus is washed with a liquid containing nanobubbles. Nanobubbles are so fine that they can enter through the anus and into the rectum. Here, since the nanobubble is negatively charged, it has a property of adhering to bacteria, viruses, or organic substances on the surface in contact with the water or the nanobubble. That is, the nanobubble has a bactericidal action and a cleaning action. In addition, since nanobubbles exist stably in water for more than one week, the above bactericidal action and cleaning action can be sustained for a long time. Therefore, when the anal cleaning device of this embodiment is used, the anus and rectum can be cleaned cleanly, and diseases that develop in the anus such as the heel can be prevented.

  As described above, since the nanobubbles are ejected from the first pipe 32 to the toilet flushing water storage tank 30, the washing water 37 contains nanobubbles. For this reason, the inner wall of a conventional toilet body has a problem that dirt adheres to it when used for a long time. However, in the toilet of this embodiment, the cleaning water 37 containing nanobubbles is used every time it is used. Since the inner wall of the toilet body 10 can be reliably washed and sterilized, the inner wall of the toilet body 10 can be kept clean.

  Moreover, since nanobubbles are ultrafine, they are easily absorbed from the skin and mucous membranes and taken into capillaries. As a result, nanobubbles travel around the entire body, increasing the blood flow of the user. Moreover, since sensory nerves are stimulated by nanobubbles, release of insulin-like growth factor-1 into the blood can be promoted. That is, by washing the anus with nanobubbles, the user's blood flow and the amount of IGF-1 in the blood can be increased.

  When IGF-1 in the blood increases, blood sugar can be lowered, so that diabetes can be improved. Furthermore, IGF-1 suppresses protein degradation, lowers blood pressure, improves cardiac function (cardiac effect), suppresses arteriosclerosis, improves hyperlipidemia, improves insulin resistance, increases cognitive function, antidepressant action, Alzheimer's disease Prevention and improvement, gastric ulcer suppression, liver function enhancement, skin enhancement, reproductive function activation, muscle mass increase, bone density increase, wrinkle and sagging improvement, hair growth action, wound healing promotion, red blood cell production promotion, anti-inflammatory action, and It has an immune function activation effect by activation of natural killer cells. Therefore, the increase in IGF-1 in the blood can improve the health of the user and improve various diseases. Therefore, the anal cleaning device can be used for treatment of diseases.

  The disease is not particularly limited, and is a central nervous system disease (eg, depression, dementia, Alzheimer's disease, etc.), cardiovascular disease (eg, angina, hypotension, hypertension, arteriosclerosis, etc.) , Metabolic diseases (for example, diabetes, insulin resistance disease, etc.), digestive system diseases (for example, gastric ulcer and / or cirrhosis), blood and immune system diseases (for example, thrombosis, leukemia, etc.), genitourinary system Examples include diseases (for example, reproductive dysfunction), musculoskeletal diseases (for example, myopathy, osteoporosis, etc.), skin diseases (for example, wrinkles, skin aging), hair diseases (for example, hair loss), and the like. The disease may be only one type or two or more types.

  When the toilet 1 is used, for example, the anus may be washed for about 10 to 20 minutes. Thereby, since the anus can be cleaned and sterilized, a disease that develops in the anus such as a heel can be prevented. In addition, since nanobubbles are absorbed from the anal skin or mucous membrane, the blood flow rate of the user can be increased and the amount of IGF-1 in the blood can be increased. According to this, since IGF-1 has the physiological action mentioned above, it can improve the health of the user and various diseases. Therefore, the toilet 1 can be used for treatment of diseases. Note that the anal cleaning time is not limited to the above value, and the user of the toilet can appropriately determine a desired value.

  In addition, when the anus is washed using the toilet 1, the user preferably takes a drug. According to this, the anus can be washed using the liquid 13 containing nanobubbles while the drug is present in the user's body. As described above, the blood flow of the user and the amount of IGF-1 in the blood can be increased by washing the anus with the liquid 13 containing nanobubbles. Increased blood flow can promote the circulation of drugs taken into the body. IGF-1 also has the effect of increasing the pharmacological action of the drug. Therefore, the pharmacological action of the taken drug can be enhanced. Therefore, the amount of drug to be taken can be reduced.

  The timing of taking the drug may be before the anus cleaning or during the anus cleaning. Further, the timing of washing the anus is not particularly limited as long as the drug taken is present in the user's body, but it is particularly preferable that the time when the blood concentration of the drug taken is highest. Thereby, since the amount of the drug affected by the effect of enhancing the pharmacological action of the drug caused by washing of the anus is maximum, the pharmacological action of the taken drug can be most enhanced.

  Nanobubbles are bubbles that have a diameter of 1 μm or less, preferably 100 nm to 200 nm, and can exist in water for a long period of time, preferably one week or more.

  When the diameter of the nanobubbles is in the above range, the surface area of the nanobubbles per unit area can be increased, so that the nanobubbles can be satisfactorily contacted with bacteria, organic substances, skin, or mucous membranes. Therefore, the above-described nanobubble bactericidal action, cleaning action, blood flow increasing action, and blood IGF-1 content increasing action can be made more excellent.

  In this specification, a bubble (bubble) is a bubble that rises in water and bursts and disappears on the surface of the water. Microbubbles are fine bubbles having a diameter of more than 1 μm and not more than 50 μm, shrinking in water and eventually disappearing (complete dissolution). Micro-nano bubbles are bubbles in which micro-bubbles and nano-bubbles are mixed.

  Although the present embodiment is a toilet, in terms of content, it is also a blood flow and insulin-like growth factor increasing device that increases blood flow and insulin-like growth factor. When the toilet of this embodiment is used for a long time, the function of the living body such as recovery of immune function is recovered simultaneously with the increase of blood flow volume and insulin-like growth factor. Therefore, the same effect can be expected with a small amount of drug.

  Conventionally, bubbles have been absorbed from the skin surface only in a small amount because of their large diameter. However, since nanobubbles are very fine, they are easily absorbed from the skin and mucous membranes and taken into capillaries. As a result, the nanobubbles travel with the blood throughout the body, and as a result, the blood flow and the amount of insulin-like growth factor-1 in the blood can be increased. In addition, although it is secondary, the blood flow volume is increased, so that there is an effective therapeutic effect on the disease.

[Embodiment 2]
The following will describe another embodiment of the present invention with reference to FIG. Configurations other than those described in the second embodiment are the same as those in the first embodiment. For convenience of explanation, members having the same functions as those shown in the drawings of the first embodiment are given the same reference numerals, and explanation thereof is omitted.

  FIG. 2 is a schematic diagram showing a schematic configuration of another toilet according to the present embodiment. The toilet of this embodiment includes a liquid storage tank 50 for storing a desired liquid, and can supply the desired liquid stored in the liquid storage tank 50 to the gas-liquid mixing circulation pump 21. This is different from the first embodiment. As shown in FIG. 2, the liquid storage tank 50 is provided with a storage tank pump 51, an upper lid 52, a drug pipe 53, an underwater agitator 54, and a pump base 56.

  The liquid storage tank 50 is charged with a drug, and stirred and dissolved by an underwater stirrer 54 installed in the liquid storage tank 50 to produce a chemical solution 55. The arrangement of the liquid storage tank 50 is not particularly limited, and may be determined according to the conditions of the installation location. For example, it may be arranged at the same height as the toilet seat 11. The chemical liquid 55 is a liquid containing a drug. The liquid is not particularly limited, and examples thereof include water and a phosphate buffer solution.

  The medicinal solution 55 is added to the toilet flushing water reservoir 30 through the drug pipe 53 by the reservoir pump 51 installed on the pump stand 56. Thereby, the wash water stored in the toilet bowl wash water storage tank 30 contains the drug. More specifically, the storage tank pump 51 is operated by pressing “wet” with the operation switch 40.

  Here, it is preferable that the storage tank pump 51 is operated only for the time set by the sequencer 41. According to this, the time zone in which the storage tank pump 51 is operated is short, and the storage tank pump 51 is operated simultaneously from the point of time when the “wet” on the operation switch 40 is pressed. The sequencer 41 can be adjusted so that the drug is hardly contained in the washing water when “flow” is pressed with the operation switch 40. As a result, the washing water containing the drug can be prevented from flowing into the toilet main body 10, so that the drug can be prevented from being wasted.

  Moreover, it is preferable that the said drug piping 53 is installed near the 2nd piping 33 with which the toilet bowl washing water reservoir 30 is equipped. According to this, since the drug can be supplied to the gas-liquid mixing circulation pump 21 before diffusing into the washing water, almost all of the drug can be effectively used for the production of nanobubbles.

  In this way, since the wash water containing the drug is supplied from the drug pipe 53 to the gas-liquid mixing and circulating pump 21, a liquid containing nanobubbles containing the drug (hereinafter referred to as “drug nanobubbles”) is manufactured. I can do it. That is, in the liquid containing the drug nanobubble, the drug is present in the liquid portion outside the nanobubble. Here, the central part of the nanobubble is a gas, and the outside is a liquid. That is, the outer liquid portion is an outer liquid constituting the nanobubble. More specifically, in the liquid containing the drug nanobubble, the drug is present at the interface between the liquid portion and the gas portion of the nanobubble.

  Therefore, the liquid 13 containing drug nanobubbles is ejected from the nozzle 16. For this reason, when the anus is washed with the liquid 13 containing drug nanobubbles, the drug is absorbed from the anal skin and rectal mucosa together with the nanobubbles and taken into capillaries. Thereby, since the said drug goes around the whole body, without being decomposed | disassembled by the internal organ, the pharmacological action of the said drug can be exhibited effectively. Therefore, the disease can be effectively treated by washing the anus with the liquid 13 containing the drug nanobubbles.

  Although it does not specifically limit as said drug, For example, the drug used for the treatment of epilepsy, such as a sicon extract, ethyl aminobenzoate, dibucaine hydrochloride, hydrocortisone, and fradiomycin sulfate. One type of these drugs may be used, or two or more types may be used.

  For example, in the case where the disease is a hemorrhoid, if the anus is washed for about 10 to 20 minutes with the liquid 13 containing nanobubbles containing the drug used for the treatment of the above-described hemorrhoids, the nanobubbles from the anal skin or the rectal mucosa At the same time, the drug of vaginal medicine is sufficiently absorbed, so that effective vaginal treatment can be performed. In this case, when the anal washing is completed by operating the operation switch 40 (pressing “stop” on the operation switch 40), the treatment of the hemorrhoids is also completed. Note that the toilet of this embodiment can also be used to treat diseases other than epilepsy.

  In addition, when the user takes a drug when the anus is washed using the toilet 1, the drug contained in the drug nanobubble and the drug to be taken are the same or different two or more kinds of drugs. It is preferable. When the same drug is used in each of the drug contained in the liquid 13 containing nanobubbles and the drug to be taken, a pharmacological effect can be expected in which a desired action can be expected in a small amount.

  In addition, when two or more different drugs are used in the drug contained in the drug nanobubble and the drug to be taken, various drugs can be taken into the body, so that the pharmacological action of the drug is effectively exhibited. I can do it. Therefore, the disease can be effectively treated. In addition, it is possible to take a drug that is difficult to be decomposed by an organ, and to take a drug that is easily decomposed by an organ from the skin of the anus and rectum mucosa into the body. Thereby, a drug can be prescribed from the viewpoint of degradability in the body.

  In the above description, the drug is introduced into the liquid storage tank 50, but a detergent may be added for the purpose of cleaning the inside of the toilet body 10. According to this, since the detergent is contained in the washing water, the inside of the toilet body 10 can be washed very cleanly.

  In the above description, the drug is put into the liquid storage tank 50, but a crude drug may be put in place of the drug. Thereby, the nanobubble containing a crude drug (henceforth "herbal medicine nanobubble") can be manufactured similarly to the said drug nanobubble. That is, in the liquid containing the herbal medicine nanobubble, the herbal medicine is present in the liquid portion outside the nanobubble. Here, the central part of the nanobubble is a gas, and the outside is a liquid. That is, the outer liquid portion is an outer liquid constituting the nanobubble. More specifically, in the liquid containing the herbal medicine nanobubble, the herbal medicine is present at the interface between the liquid portion and the gas portion of the nanobubble.

  Therefore, when the anus is washed with the liquid 13 containing herbal nanobubbles, the herbal medicine is absorbed from the anal skin and rectal mucosa along with the nanobubbles and taken into the capillaries. Thereby, since the above-mentioned crude drug goes around the whole body without being decomposed by internal organs, the pharmacological action of the above-mentioned crude drug can be effectively exhibited. Therefore, various diseases can be effectively treated by washing the anus with the liquid containing the herbal medicine nanobubbles.

  The above-mentioned crude drugs are generic names for those that are used for medicinal purposes by simply processing and preparing plants, animals, minerals, etc. as they are or by cutting, crushing, and drying them to the extent that their properties are not changed. Examples include, but are not limited to, yellowfin, elderberry, elephant, mugwort, saxifrage, ginger leaf, citron, crested chamomile, nematode, chimpanzee, and carrot. Moreover, one type of these crude drugs may be used, or two or more types may be used.

  Further, both the drug and the crude drug may be put into the liquid storage tank 50. Thereby, since the pharmacological action of the drug and the pharmacological action of the herbal medicine act cooperatively on the user of the toilet, the disease can be treated very effectively.

  Moreover, in this Embodiment, the chemical | medical solution 55 is added to the washing | cleaning water 37, and the washing | cleaning liquid containing the chemical | medical solution 55 is supplied to the gas-liquid mixing circulation pump 21 via the 2nd piping 33, However, It is not limited to this. For example, the drug pipe 53 and the second pipe 33 and / or the suction pipe 26 may be directly connected. According to this, since the chemical solution can be supplied to the gas-liquid mixing circulation pump 21 without diffusing into the washing water, all of the drug can be effectively used for the production of nanobubbles.

[Embodiment 3]
The following will describe another embodiment of the present invention with reference to FIG. The configuration other than that described in the third embodiment is the same as that of the second embodiment. For convenience of explanation, members having the same functions as those shown in the drawings of the second embodiment are given the same reference numerals and explanation thereof is omitted.

  FIG. 3 is a schematic diagram showing a schematic configuration of the toilet of the present embodiment. The toilet of the present embodiment is different from the second embodiment in that a second gas shearing portion 29 is provided at the outlet of the second pipe 33. Although the said 2nd gas shearing part 29 is not specifically limited, For example, the product (Babitus HYK-20) of Kyowa Kikai Co., Ltd. can be used.

  The second gas shearing part 29 may be the same as or separate from the first gas shearing part 24. Further, the second gas shearing part 29 may be used under the same conditions as the first gas shearing part 24 or may be used under different conditions.

  Here, if the second gas shearing portion 29 and the first gas shearing portion 24 are the same and used under the same conditions, the nanobubbles generated in the second gas shearing portion 29 are transferred to the first gas shearing portion 24. It can be the same as the generated nanobubbles. Thereby, since the particle size distribution of nanobubbles can be made uniform, the nanobubble density can be increased. Therefore, it is possible to satisfactorily make contact between the nanobubbles and the fungus, organic substance, skin, or mucous membrane. Therefore, the above-described bactericidal action, cleaning action, blood flow increasing action, and blood IGF-1 content increasing action of the nanobubbles can be made more excellent.

  That is, in the present embodiment, the second gas shearing portion 29 is disposed between the first gas shearing portion 24 and the electric pressure reducing valve 44 and is connected by the first pipe 32. Thereby, in the second stage described above, the microbubbles that could not be completely sheared and crushed by the first gas shearing section 24 can be sheared and crushed by the same principle as the first gas shearing section 24. In this way, nanobubbles can be generated from the microbubbles. In addition, an ultra high temperature limit reaction field is formed in the microbubble by the rotating shear flow.

  Thereby, the local part of a microbubble will be in a high temperature / high pressure state, and a free radical will arise. Therefore, free radicals have a strong oxidizing action. According to this, since the nanobubble contains the free radical, bacteria and viruses can be sterilized by the oxidizing action.

  Thus, by providing the second gas shearing portion 29, the particle size density of the nanobubbles generated by the nanobubble generator 20 can be increased. Therefore, it is possible to further improve the above-described nanobubble cleaning action, bactericidal action, and the effect of promoting the blood circulation of the user.

  Next, the operation status of the anus cleaning device 1 in the present embodiment will be described. When the “wet” switch of the operation switch 40 is pressed, a signal is transmitted to the sequencer 41 via the first signal line 42, and further, the signal from the sequencer 41 passes through the second signal line 43 to It is transmitted to the liquid mixing / circulation pump 21. As a result, the electric needle valve 23 is opened, the gas-liquid mixing circulation pump 21 is started, and nanobubbles are manufactured.

  Then, nanobubbles with higher particle size density (hereinafter referred to as “high density nanobubbles”) are ejected into the toilet flushing water storage tank 30 by the second gas shearing portion 29. Thereby, high-density nanobubbles are contained in the washing water. When “flow” of the operation switch 40 is pressed, the second electric valve 46 is opened, and the cleaning water 37 containing high-density nanobubbles is supplied from the cleaning port 14 arranged at the upper part of the toilet body 10. The toilet body 10 flows out from the periphery of the top so that it can be cleaned as a whole.

  Moreover, in this Embodiment, although the 2nd gas shearing part 29 is provided in the discharge port of the 2nd piping 33, it is not limited to this, It can provide in the desired location of the desired 1st piping 32. . For example, the second gas shearing part 29 may be provided between the first gas shearing part 24 and the branch point 38. According to this, the liquid containing the high-density nano bubbles generated by the second gas shearing part 29 can be ejected to the toilet flushing water reservoir 30 and ejected from the nozzle 16.

  The second gas shearing part 29 may be provided between the electric pressure reducing valve 44 and the branch point 38. According to this, a liquid containing high-density nanobubbles generated by the second gas shearing portion 29 can be ejected from the nozzle 16.

[Embodiment 4]
The following will describe still another embodiment of the present invention with reference to FIG. The configuration other than that described in the fourth embodiment is the same as that of the third embodiment. For convenience of explanation, members having the same functions as those shown in the drawings of Embodiment 3 are given the same reference numerals, and explanation thereof is omitted.

  FIG. 4 is a schematic diagram showing a schematic configuration of the toilet of the present embodiment. The toilet of this embodiment includes a suction pipe 26 for taking in a desired gas, and can supply the desired gas taken in from the suction pipe 26 to the gas-liquid mixing circulation pump 21. Is different from the third embodiment. That is, in the present embodiment, the gas-liquid mixing circulation pump 21 is connected to the liquefied carbon dioxide cylinder 60 through the suction pipe 26.

  Specifically, the carbon dioxide gas from the liquefied carbon dioxide gas cylinder 60 is decompressed by the decompression valve 61, and the amount of carbon dioxide gas is adjusted by the first valve 62. The amount of carbon dioxide gas supplied to the gas-liquid mixing circulation pump 21 by the electric needle valve 23 is adjusted to 0.7 L / min. As a result, carbon dioxide gas can be supplied to the gas-liquid mixing circulation pump 21. Note that the amount of carbon dioxide gas supplied to the gas-liquid mixing circulation pump 21 is not limited to the above numerical values, and those skilled in the art can appropriately change it to a desired value.

  Therefore, in the present embodiment, nanobubbles containing carbon dioxide (hereinafter referred to as “carbon dioxide nanobubbles”) can be produced. In the carbon dioxide nanobubbles, carbon dioxide is present in the gas portion inside the nanobubbles.

  According to this, since carbon dioxide is contained in nanobubbles that are easily absorbed from the skin and mucous membrane, carbon dioxide can be easily absorbed from the skin and mucous membrane by injecting the carbon dioxide nanobubbles into the anus. Thereby, the blood flow volume increasing action and blood circulation promoting action of carbon dioxide can be effectively exhibited.

  In the present embodiment, the gas sucked from the suction pipe 26 is carbon dioxide, but the present invention is not limited to this, and a desired gas can be sucked.

[Embodiment 5]
The following will describe still another embodiment of the present invention with reference to FIG. The configuration other than that described in the fifth embodiment is the same as that of the fourth embodiment. For convenience of explanation, members having the same functions as those shown in the drawings of Embodiment 4 are given the same reference numerals, and explanation thereof is omitted.

  FIG. 5 is a schematic diagram showing a schematic configuration of the toilet of the present embodiment. The present embodiment is different from the third embodiment in that the liquid containing the drug is further sucked from the suction pipe 26. That is, in the present embodiment, the gas-liquid mixing circulation pump 21 is further connected to the medicinal component tank 70 through the suction pipe 26. A liquid containing a drug 75 is stored in the medicinal component tank 70. The drug is a general term for substances used for treatment and prevention of diseases. The liquid is not particularly limited, and examples thereof include water and a phosphate buffer solution.

  In the present embodiment, the liquid in the medicinal component tank 70 is supplied to the gas-liquid mixing and circulating pump 21 through the suction pipe 26 by the medicinal component tank pump 71. Specifically, the amount of the liquid supplied by the second valve 72 is adjusted, and the amount of the liquid supplied to the gas-liquid mixing circulation pump 21 by the electric needle valve 23 is adjusted to 0.7 L / min. is doing. Note that the amount of liquid supplied to the gas-liquid mixing circulation pump 21 is not limited to the above numerical value, and can be appropriately changed by a person skilled in the art to a desired value.

  Therefore, in this embodiment, drug nanobubbles can be produced. In a liquid containing drug nanobubbles, the drug is present in the liquid portion outside the nanobubbles.

  According to this, since the drug 75 is contained in nanobubbles that are easily absorbed from the skin and mucous membrane, the drug 75 can be easily absorbed from the skin and mucous membrane by injecting the drug nanobubble into the anus. Thereby, since the drug 75 directly enters the capillary blood vessel, it can reach the target site of action without being decomposed by the organ. Therefore, the pharmacological effect of the drug 75 can be greatly enhanced.

  The drug 75 to be added is not particularly limited, and examples thereof include, but are not limited to, drugs used for the treatment of epilepsy such as coconut extract, ethyl aminobenzoate, dibucaine hydrochloride, hydrocortisone, and fradiomycin sulfate. One type of these drugs may be used, or two or more types may be used.

  In the present embodiment, carbon dioxide gas and a liquid containing a drug are supplied to the gas-liquid mixing circulation pump 21 through the single suction pipe 26. However, the present invention is not limited to this, and separate suction pipes are used. The gas-liquid mixing circulation pump 21 may be supplied via

  In the present embodiment, the liquid containing the drug is sucked from the suction pipe 26, but the present invention is not limited to this, and a desired liquid may be sucked. For example, a liquid containing a crude drug may be sucked. That is, as shown in FIG. 6, the gas-liquid mixing circulation pump 21 may be connected to the herbal medicine tank 80 through the suction pipe 26. The herbal medicine component tank 80 is filled with the herbal medicine 85 and the medicinal components are extracted. That is, a liquid containing the herbal medicine 85 is stored in the herbal medicine component tank 80. The liquid is not particularly limited, and examples thereof include water and a phosphate buffer solution.

  In this case, the liquid is supplied to the gas-liquid mixing and circulation pump 21 through the suction pipe 26 by the herbal medicine component tank pump 81. Specifically, the amount of the liquid is adjusted by the third valve 82. The amount of the liquid supplied to the gas-liquid mixing circulation pump 21 by the electric needle valve 23 is adjusted to 0.7 L / min. Note that the amount of the liquid supplied to the gas-liquid mixing circulation pump 21 is not limited to the above numerical values, and can be appropriately changed by a person skilled in the art to a desired value.

  Accordingly, in this case, crude drug nanobubbles can be produced. In the herbal medicine nanobubble, the herbal medicine is present in the liquid portion outside the nanobubble. According to this, since the herbal medicine 85 is contained in the nanobubbles that are easily absorbed from the skin and the mucous membrane, and the herbal medicine nanobubbles are injected into the anus, the herbal medicine 85 can be easily absorbed from the skin and the mucous membrane. Thereby, since the crude drug 85 directly enters the capillary blood vessel, it can reach the intended action site without being decomposed by the organ. Therefore, the pharmacological effect of the crude drug 85 can be remarkably enhanced.

In addition, since the herbal medicine 85 is supplied directly from the suction pipe 26 to the gas-liquid mixing circulation pump 21, herbal medicine nanobubbles can be manufactured using the entire amount of the supplied herbal medicine 85. According to this, since the crude drug 85 is not wasted, the cost can be kept low. The added crude drug 85 is not particularly limited. For example, leaves of yellowfin, elderberry, mugwort, yukinoshita, shobu leaves, etc. , Yuzu, Toki, Chamomile, Senkyu, Chinpi, and Carrot. One type of these crude drugs may be used, or two or more types may be used.

  In the present embodiment, a liquid containing a crude drug and a liquid containing a drug may be simultaneously supplied to the gas-liquid mixing circulation pump 21. In this case, the liquid containing the crude drug and the liquid containing the drug may be supplied to the gas-liquid mixing / circulation pump 21 via the same suction pipe 26, or may be supplied to the gas-liquid mixing / circulation pump 21 via separate suction pipes. You may supply.

  Heretofore, the present invention has been described in which the anal cleaning device is integrally provided in the toilet bowl. However, the present invention is not limited to this and includes an anal cleaning apparatus that is not integrated with the toilet bowl. As such an anus cleaning device, for example, the nanobubble generator 20 and the nozzle 16 that ejects a liquid containing nanobubbles generated by the nanobubble generator 20 may be provided. According to this, since the liquid containing nanobubbles generated by the nanobubbles 20 is ejected from the nozzle 16, the anus can be washed. The anal cleaning device may also have the configuration described in the second, fourth, and fifth embodiments, like the toilet bowl of the present invention.

  The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

[Example 1]
Toilet wash water storage tank (TOTO, catalog number: SS type dew-proof sealed low tank, capacity: 50 liters), storage tank (TOTO, catalog number: SS type dew-proof sealed low tank) Type, capacity: 15 liters), gas-liquid mixing circulation pump (manufactured by Kyowa Kikai Co., Ltd., catalog number: some motors of Babilidas HYK-20: 1.5 kw, Kyowa Kikai Co., Ltd. is a pump manufacturer ), Micro bubble generation part (manufactured by Kyowa Kikai Co., Ltd., catalog number: part of Babilidas HYK-20, Kyowa Kikai Co., Ltd. is a special order for pump manufacturers. Electric needle valve (manufactured by Kyowa Kikai Co., Ltd., catalog number: part of Babidas HYK-20, Kyowa Kikai Co., Ltd. requested change from manufacturer) The first gas shearing part (manufactured by Kyowa Kikai Co., Ltd., catalog number: part of Babilidas HYK-20, but Kyowa Kikai Co., Ltd. requested the manufacturer to change the order. The second gas shearing part (manufactured by Kyowa Kikai Co., Ltd., catalog number: part of Babidas HYK-20, Kyowa Kikai Co., Ltd. requested a change to the manufacturer and made a special order. Was prepared for a commercially available toilet bowl (catalog number: modified version of CS-type dew-proof toilet), and a toilet bowl used in Example 1 was manufactured.

  And the toilet bowl was used on the following conditions to the patient A who has suffered from hemorrhoids for more than 10 years and is carrying out drug therapy exactly. That is, of the use conditions of the toilet bowl, the washing time is about 10 minutes, and the drug used is ethyl aminobenzoate.

  Then, the state of the heel before and after using the toilet bowl was compared. As a result, bleeding from the capillaries in the anal region was present at an average rate of 3 times / month before use, but there was no bleeding from the capillaries in the anal portion after use.

[Example 2]
A toilet similar to that used in Example 1 above was used. And the toilet bowl was used on the same conditions as the said Example 1 to the B patient who has suffered from hemorrhoids for 5 years or more and is implementing the pharmacotherapy exactly. Thereafter, the state of the heel before and after using the toilet bowl was compared. As a result, bleeding from the capillaries in the anal portion was present at an average rate of 4 times / month before use, but there was no bleeding from the capillaries in the anal portion after use.

Example 3
A toilet similar to that used in Example 1 above was used. And the toilet bowl was used on the same conditions as the said Example 1 to the C patient who has suffered from hemorrhoids for 2 years or more and has not performed drug therapy. Thereafter, the state of the heel before and after using the toilet bowl was compared. As a result, bleeding from the capillaries in the anal region was present at an average rate of 2 times / month before use, but there was no bleeding from the capillaries in the anal portion after use.

  According to the toilet of the present invention, the nanobubbles are ejected toward the anus, so that not only the anus can be washed and sterilized, but also the disease can be treated. Therefore, the toilet of the present invention can be used in various industries such as medical equipment and health care.

It is the schematic which shows typically one Embodiment of the toilet bowl of this invention. It is the schematic which shows typically one Embodiment of the said toilet bowl provided with the storage tank. It is the schematic which shows typically other one Embodiment of the toilet bowl of this invention. It is a figure which shows typically other one Embodiment of the toilet bowl of this invention. It is a figure which shows typically other one Embodiment of the toilet bowl of this invention. It is a figure which shows typically other one Embodiment of the toilet bowl of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Toilet 10 Toilet seat 12 Shower piping 13 Liquid containing nano bubble 14 Washing port 15 Toilet toilet water 16 Nozzle 20 Nano bubble generator 21 Gas-liquid mixing circulation pump 22 Micro bubble generating part 23 Electric needle valve 24 First gas shearing part 25 Lid 26 Suction Pipe 29 Second gas shearing part 30 Toilet bowl wash water reservoir 31 Ball tap 32 First pipe 33 Second pipe 34 Third pipe 35 Fourth pipe 36 Fifth pipe 37 Wash water 40 Operation switch 41 Sequencer 42 First signal line 43 Two signal lines 44 Electric pressure reducing valve 45 First electric valve 46 Second electric valve 50 Storage tank 51 Storage tank pump 52 Upper lid 53 Drug pipe 54 Underwater agitator 60 Liquefied carbon dioxide gas cylinder 61 Pressure reducing valve 62 First valve 70 Medicinal component tank 71 Medicinal effect Ingredient tank pump 72 Second valve 75 Drug 80 Crude drug ingredient tank 81 Raw Component tub pump 83 third valve 85 herbal

Claims (7)

A nanobubble generator for generating nanobubbles in a liquid;
An anal cleaning device comprising: a nozzle that ejects a liquid containing nanobubbles generated by the nanobubble generator. The nano bubble generator is
A gas-liquid mixing circulation pump that mixes gas and liquid to generate a gas-liquid two-phase fluid;
A microbubble generating unit that mixes and stirs the gas-liquid two-phase fluid generated by the gas-liquid mixing circulation pump and generates microbubbles in the gas-liquid two-phase fluid;
A first gas shearing section that generates a shearing force on the microbubbles generated by the microbubble generating section and generates nanobubbles in the gas-liquid two-phase fluid by shearing and crushing the microbubbles; The anal cleaning device according to claim 1, further comprising: It has a liquid storage tank that stores the desired liquid,
The anal cleaning device according to claim 2, wherein a desired liquid stored in the liquid storage tank can be supplied to the gas-liquid mixing circulation pump. It has a suction pipe for taking in the desired gas,
The anal cleaning device according to claim 2, wherein a desired gas taken in from the suction pipe can be supplied to the gas-liquid mixing circulation pump.   A toilet comprising the anal cleaning device according to any one of claims 1 to 4. It has a toilet flushing water reservoir,
A first pipe for sending a liquid containing nanobubbles generated by the nanobubble generator to the nozzle;
The toilet according to claim 5, further comprising a second pipe that sends a liquid containing nanobubbles generated by the nanobubble generator to the toilet flushing water reservoir.   The toilet according to claim 6, wherein a second gas shearing portion is provided at an outlet of the second pipe.

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