CN109386148B - Indoor salt steaming sweat-curing health care medical system - Google Patents

Abstract

The invention belongs to the technology of medical care equipment, in particular to an indoor salt steaming sweat rehabilitation medical system, wherein a first gas purifier, a gas heater and a first gas pump are sequentially matched and added in a first wall body towards the direction from top to bottom; a second gas purifier, a gas cache tank and a second gas pump are sequentially matched and arranged in the second wall body towards the direction from top to bottom, and a humidifier is matched and arranged in the gas cache tank; a support fixed on the substrate in a mode of being supported by the substrate is fixedly arranged in a space, which is positioned above the substrate, of the lower part of the indoor room, a fluidization gas conveying pipe, a humidifying gas conveying pipe and a supporting bottom plate are sequentially and fixedly arranged on the support in a suspended mode towards the direction from bottom to top, and a salt sand fluidization pool is formed in the space, which is positioned between the substrate and the supporting bottom plate, of the lower part of the indoor room. The invention reasonably improves the supply quantity and the temperature and the humidity of trace elements attached to the salt material in unit time, and is beneficial to fully exerting the medical health care effect of salt steaming on human bodies.

Description

Indoor salt steaming sweat-curing health care medical system

Technical Field

The invention belongs to the technology of medical care equipment, in particular to an indoor salt steaming sweat-curing medical system.

Background

The sweat therapy is firstly recorded in a book of a silk book ' fifty two diseases ' from a Mawangdui, and the traditional Chinese medical sweat therapy ' can remove dirt and odor body heat ', strengthen yang and strengthen power and prolong the life ' is recorded in ' four medical dictionary '; zhang Zhongjing of Donghan (Shang Han dynasty's treatise on Cold-induced diseases) and jin Kui Yao Lloyd; jin Dynasty, elbow rear; tang dynasty, qianjin Fang; "Tai Ping Hui Fang" by the Tai medical in North Song period; the Ming dynasty Li Zhen (the best mode of materia Medica) is recorded in a large quantity, and relates to the internal, external, gynecological and pediatric families. Twelve healthy meridians and eight odd meridians of the human body are stimulated by heat effect to promote menstruation, unblock qi and blood, thus achieving the aim of building up body, especially aiming at diseases such as rheumatism, rheumatoid diseases, sciatica, wind-cold-dampness type neck, shoulder, waist and leg pain, gout, puerperal wind, physiological pain, hypertension, refractory obesity, fatty liver, cerebral apoplexy sequela and the like, adopts sweat therapy, has no toxic or side effect, achieves the purposes of dispelling wind and cold, activating blood and dissolving stasis, diminishing inflammation and promoting diuresis, activating the channels and collaterals, expelling toxin and eliminating fat, and is an unprecedented health-care good method.

Han Shihan steaming has a history of about six hundred years, and is a leisure and health-care mode for warming yellow mud and various stones, and for people or sitting or lying down, and is used for dispelling wind, dispelling cold, warming body, activating blood and Wen Fujing faces, is rapidly accepted and accepted by Chinese in a short time, and gradually becomes an enthusiastic and tougher way for people.

Salt therapy as early as during the second war, the residents of Eninterior petalol, germany, have treated the Kluyveromyces as a fire-hole. Surprisingly, they found that at each attack, the person who was in the heart had little cough and breathed smoother. Later scientists demonstrated that many people suffering from asthma, chronic bronchitis and other respiratory diseases who used salt caverns as air-raid holes at the time are cured, while the immunity of healthy people is enhanced and no longer catch a cold. European people have long placed special clinics in salt caverns to alleviate respiratory problems for patients. This therapy is known as "cave treatment".

Salt hole therapy is the use of salt stones and salts from dead sea, himalayan and elsewhere to help patients improve respiration, accelerate physical rehabilitation, enhance nutrient absorption and care. Relaxation therapy is indistinguishable from beneficial negatively charged particles. The air in the salt cavern contains selenium, iodine, calcium, potassium, magnesium and many other trace elements contained in natural salts from around the world. The purpose of salt caverns is to achieve and maintain a desired microclimate. The microclimate has stable temperature, humidity and ion components and is rich in trace elements beneficial to human body. Israel also proposes a method of treating respiratory diseases with salts, and patients receiving such treatment commonly experience relief.

The son of Kjeldahl Teng Bam frequently infects diseases of the upper respiratory tract shortly after birth. For this reason, he looks at a few doctors with his children, and tries various therapies, but the effect is less obvious. Finally, he thinks of an ancient "salt therapy". Salt therapy is the process of leaving a patient in a room built with salt. Because salt can absorb moisture in the air, and in a dry environment, salt blocks can be decomposed into salt particles with very small particles, and in the environment, patients can relieve symptoms of dyspnea caused by asthma, allergy and the like through breathing. Since the son feels good after receiving the treatment, kesi Teng Bam decides to introduce "salt therapy" into israel, and today kesi Teng Bam's "salt therapy" clinic has 15 rooms built with huge salt blocks. The general patient can go to the room built by the huge salt blocks for twice salt therapy every week. Salt therapy clinics are popular among people.

The national population is the country with the largest population of the old world, the social development enters a new stage, the population aging is accelerated, the proportion of the 'empty nest' old is continuously increased, the problems of resident health management and population aging are increasingly prominent, and the requirements of middle-high grade professional health maintenance service for national health and aged people are sharply increased. However, the supply amount per unit time and the temperature and humidity of trace elements attached to salt materials in a natural salt cavern and a salt house manually built by salt blocks are not sufficiently improved, and in addition, the structure of the conventional salt steaming sweat therapy technology system capable of simulating the physical environment of the natural salt cavern or salt house to perform salt therapy on a human body is not perfect and mature, and the medical health care effect of salt steaming on the human body cannot be fully exerted, so that the technology of middle-high-grade professional health care equipment related to salt therapy needs to be improved.

Disclosure of Invention

The invention aims to provide an indoor salt steaming sweat-curing medical system, which can reasonably improve the supply amount and the temperature and the humidity of trace elements attached to salt materials in unit time, has a more perfect and mature structure, and is beneficial to fully exerting the medical health-care effect of salt steaming on human bodies.

The purpose of the invention is realized in the following way: the indoor salt steaming sweat rehabilitation medical system comprises a first wall body and a second wall body, wherein the inner surfaces of the first wall body and the second wall body are opposite and are not contacted, the wall bodies are fixed on the upper plate surface of a base plate in a mode of being distributed on the periphery of the base plate, a top plate is horizontally fixed on the top end of the wall body, the wall bodies, the top plate and the base plate enclose an indoor room, and doors for opening or closing the indoor room are arranged on the rest parts of the wall bodies except the first wall body and the second wall body; the first wall body and the second wall body are hollow, so that the respective inner wall side and outer wall side of the first wall body and the second wall body respectively correspond to each other to form an inner wall shell wall and an outer wall shell wall; the first wall body is internally provided with a first gas purifier, a gas heater and a first air pump in a sequentially matched mode from top to bottom, the air inlet of the first gas purifier is communicated with the atmosphere, the air outlet of the first gas purifier is communicated with the air inlet of the gas heater through a first connecting pipe, and the air outlet of the gas heater is communicated with the air inlet of the first air pump through a second connecting pipe; the second wall body is internally provided with a second gas purifier, a gas cache tank and a second gas pump in a matching way in the direction from top to bottom, the gas inlet of the second gas purifier is communicated with a gas source comprising the atmosphere, the gas outlet of the second gas purifier is communicated with the gas inlet of the gas cache tank through a third connecting pipe, the gas cache tank is internally provided with a humidifier in a matching way, the part, adjacent to the outer wall shell wall of the second wall body, of the gas cache tank is provided with a first perforation penetrating through the shell wall of the second wall body in the thickness direction, the part, adjacent to the gas cache tank, of the outer wall shell wall of the second wall body is provided with a second perforation penetrating through the wall body in the thickness direction of the second wall body, the penetrating pipe simultaneously penetrates through the first perforation and the second perforation and is mutually fixed in a static sealing way, the water inlet of the humidifier is connected to a water source through the penetrating pipe, a spray opening of the humidifier is exposed in a tank cavity inside the gas cache tank, and the gas outlet of the gas cache tank is communicated with the gas inlet of the second gas pump through a fourth connecting pipe; the base plate is arranged in a plane shape and horizontally, a bracket which is fixed on the base plate in a mode of being supported by the base plate is fixedly arranged in a space, which is positioned above the base plate, of the lower part of the indoor room, a fluidization gas conveying pipe, a humidifying gas conveying pipe and a supporting bottom plate are sequentially and fixedly arranged on the bracket in a suspended mode towards the direction from bottom to top, a salt sand fluidization pool is formed in the space, which is positioned between the base plate and the supporting bottom plate, of the lower part of the indoor room, the fluidization gas conveying pipes are horizontally arranged and uniformly distributed on the same horizontal plane where the fluidization gas conveying pipes are positioned, fluidization gas spraying through holes which are uniformly distributed in the length direction of the fluidization gas conveying pipes and penetrate through the peripheral wall of the fluidization gas conveying pipes along the peripheral wall of the fluidization gas conveying pipes are downwards arranged in a mode of being in clearance fit with the base plate, and are pointed at the base plate; the humidifying gas conveying pipes are uniformly distributed and arranged in parallel on the same horizontal plane where the humidifying gas conveying pipes are positioned, humidifying gas spraying through holes which are uniformly distributed in the length direction of the humidifying gas conveying pipes and penetrate through the peripheral wall of the humidifying gas conveying pipes along the peripheral wall thickness direction of the humidifying gas conveying pipes are arranged at the top of the humidifying gas conveying pipes, and all orifices on the peripheral wall of the humidifying gas conveying pipes are upwards arranged in a clearance fit manner with the upper surface of the substrate in the salinized sand fluidization pool and point to the supporting bottom plate; the supporting bottom plate is arranged horizontally in a plane, is provided with air inlets which are uniformly distributed in the width and length directions of the supporting bottom plate and penetrate through the plate body along the thickness direction of the supporting bottom plate, an air outlet which penetrates through the body along the thickness direction of the wall body is formed in the part, close to the top plate, of the wall body or the top plate, and is communicated with the atmosphere, and an electric valve capable of opening or closing the air outlet is arranged in the air outlet; the air outlet of the first air pump is communicated with the head end pipe orifice of each fluidizing gas conveying pipe through a fifth connecting pipe, and then is communicated with the salt sand fluidizing pool through a corresponding fluidizing gas conveying pipe and a corresponding fluidizing gas spraying through hole, and the tail end pipe orifices of all the fluidizing gas conveying pipes are respectively provided with a first plugging plate for plugging the tail end pipe orifices; the air outlet of the second air pump is communicated with the head end pipe orifice of each humidifying gas conveying pipe through a sixth connecting pipe, and then is communicated with the salt sand fluidization pool through the corresponding humidifying gas conveying pipe and the corresponding humidifying gas injection through hole, and the tail end pipe orifices of all the humidifying gas conveying pipes are respectively fixedly provided with a second plugging plate for plugging the tail end pipe orifices of the humidifying gas conveying pipes; the salt sand fluidization pool is communicated with the indoor room through an air inlet hole.

The working principle of the invention is as follows: adding natural salt materials with particle sizes small enough to generate a size showing a fluidization state through a fluidized bed technology into a salt sand fluidization pond (generally, the particle sizes of the natural salt materials are required to be equal to those of common sand particles, if the particle sizes of the natural salt materials are not small enough, salt sand with the size showing the fluidization state through the fluidized bed technology still needs to be grinded into salt sand with the size showing the fluidization state through a salt grinding mechanical device in advance), forming a salt sand bed in the salt sand fluidization pond by the natural salt materials, wherein the depth of the salt sand bed is required to be uniform and the depth (height) of the salt sand bed is required to be smaller than the height of a supporting bottom plate, namely, a proper height gap is kept between the top surface of the salt sand bed and the supporting bottom plate; the filtered and sterilized normal temperature gas (air) pipe of the first gas purifier is conveyed into the gas heater for heating, the first gas pump conveys the high temperature gas pipe with proper air pressure and proper heat degree suitable for human body and high temperature into the fluidization gas conveying pipe, then salt sand at the bottom of the salt sand bed in the salt sand fluidization pool is sprayed downwards from the fluidization gas spraying through holes and is sprayed on the upper surface of the substrate through the salt sand at the bottom of the salt sand bed, the salt sand cannot enter the fluidization gas conveying pipe through the downwards arranged holes on the peripheral wall of the fluidization gas conveying pipe through the fluidization gas spraying through holes, the air flow sprayed on the upper surface of the substrate is blocked by the substrate and is forced to strongly impact the salt sand in the salt sand bed from bottom to top, the physical parameters of the air flow output by the first air pump are regulated, then, the fluidization of the salt sand bed is realized through the fluidized bed technology, the high-temperature air flow upwards passes through the salt sand bed through the fluidized bed effect, then, the salt sand particles of the salt sand bed are suspended in the upwards flowing high-temperature air, the salt sand shows a phenomenon similar to the fluid state under the action of the air flow, the salt sand is heated in the process of upwards flowing through the salt sand by the high-temperature air flow, trace elements such as selenium, iodine, calcium, potassium, magnesium and the like which are beneficial to human bodies and are contained in the salt sand are continuously upwards transported by the upwards flowing channel of the high-temperature air flow in the salt sand through the upwards flowing channel of the high-temperature air flow, as the particles of the salt sand are upwards migrated through the action of the relatively stable high-temperature air flow flowing upwards through the salt sand, when salt sand particles which are reflected by a substrate and move upwards by one beam of high-temperature air flow are moved upwards to the top surface of a salt sand bed, the salt sand particles which are moved upwards by the other beam of high-temperature air flow collide with each other, part of the salt sand particles are moved downwards to the bottom of the salt sand bed again under the action of the high-temperature air flow, and are moved upwards along with the high-temperature air flow again, and the salt sand particles are moved upwards by the high-temperature air flow in a vertical way similar to the boiling state of liquid after fluidization and collide with each other, so that the salt sand is further released by accompanying microelements, namely the trace elements carried by the salt sand heated by the high-temperature air flow are moved upwards; the high-temperature airflow not only can play a role in extracting trace elements in the salt sand by heating the salt sand, but also can prevent the salt sand from absorbing moisture to crystallize or agglomerate by heating the salt sand to dry the salt sand, in addition, even if a small part of the salt sand is crystallized with water, the high-temperature airflow can separate water in the salt sand from the salt sand by heating and evaporating the water by heat supply and then carry water vapor of the trace elements which are obtained from the salt sand by dissolving when the water passes through the salt sand in the high-temperature airflow direction upwards through the vent holes; the proper height clearance is kept between the top surface of the salt sand bed and the supporting bottom plate, so that salt sand particles can be prevented from being carried by upward flowing high-temperature air flow to flow into an indoor room through the air inlet holes and be accumulated on the upper surface of the supporting bottom plate; at the same time, the normal temperature gas (drier air) filtered and disinfected by the second gas purifier is conveyed into the gas cache tank, the humidifier humidifies the normal temperature gas entering the gas cache tank to a certain degree, the second air pump sprays the normal temperature gas with proper humidity upwards from the humidifying gas spraying through hole into the gas mixing flow space between the humidifying gas conveying pipe and the supporting base plate at the upper part of the salt sand fluidization pool through the humidifying gas conveying pipe by proper air pressure, the wet normal temperature gas is evenly mixed with the high temperature gas which continuously flows upwards into the gas mixing flow space to form a salt therapy (salt therapy sweat steam) gas which has proper temperature and humidity and carries trace elements and can act on the skin and respiratory system of a human body, and the salt therapy gas flows upwards into an indoor room through air inlets evenly distributed on the supporting base plate and evenly fills the indoor room so as to form a gaseous physical environment with proper temperature (acceptable higher temperature of the human body) and proper humidity and rich trace elements in the air in the indoor room; the trace elements of the salt therapy gas obtained from the salt sand act on a human body in an indoor room in a molecular state or an ionic state in a gaseous physical environment, and as the salt therapy gas has obvious humidity, the trace elements in the molecular state or the ionic state in the salt sand are dissolved in suspended water vapor which is contained in a limited space dispersed in the indoor room in the salt therapy gas and act on the skin or respiratory system of the human body together with the water vapor which is kept in a vapor state, so that the human body is released by the salt sand after being fully heated in the gaseous physical environment, and the salt therapy gas is transported to the indoor room by the salt therapy gas and the evaporation of the water vapor carried by the salt therapy gas are combined with the purpose of spontaneous perspiration and toxin expelling by the physiological function of the human body, thereby achieving the sweat therapy purposes of helping the human body to improve respiration, accelerate body rehabilitation, enhance nutrition absorption and health care, and the salt therapy (salt therapy sweat) gas always flows from bottom to top in the indoor room, and finally flows back to the atmosphere through an air outlet hole (when an electric valve is opened).

The technical innovation of the invention is to apply the fluidized bed technology and the humidification technology to a salt steam sweat therapy technical system which can simulate the physical environment of a natural salt cavity or salt house in nature to carry out salt therapy on a human body. The invention reasonably improves the supply quantity and the temperature and the humidity of trace elements attached to the salt material in unit time, has more perfect and mature structure, and is beneficial to fully exerting the medical health care effect of salt steaming on human bodies.

Drawings

FIG. 1 is a schematic view of the overall front cross-sectional structure of the present invention;

fig. 2 is an enlarged sectional schematic view of a portion of fig. 1.

Detailed Description

As shown in fig. 1 and 2, the indoor salt steaming sweat-curing medical system comprises a first wall 17 and a second wall 20, the inner surfaces of which are opposite and are not contacted, the walls are fixed on the upper plate surface of a base plate 33 in a mode of being distributed on the periphery of the base plate 33, a top plate 5 is horizontally fixed on the top end of the walls, the top plate 5 and the base plate 33 are enclosed into an indoor room 30, and the rest parts of the walls except the first wall 17 and the second wall 20 are provided with doors for opening or closing the indoor room 30; the first wall 17 and the second wall 20 are hollow, so that the respective inner wall side and outer wall side respectively form an inner wall shell wall and an outer wall shell wall; the first wall 17 is internally provided with a first gas purifier 1, a gas heater 10 and a first gas pump 16 in a matching way in the upward-downward direction, the gas inlet of the first gas purifier 1 is communicated with the atmosphere, the gas outlet of the first gas purifier 1 is communicated with the gas inlet of the gas heater 10 through a first connecting pipe 8, and the gas outlet of the gas heater 10 is communicated with the gas inlet of the first gas pump 16 through a second connecting pipe 14; the second wall body 20 is internally provided with a second gas purifier 7, a gas cache tank 13 and a second gas pump 18 in a matching way in the direction from top to bottom, the gas inlet of the second gas purifier 7 is communicated with a gas source comprising the atmosphere, the gas outlet of the second gas purifier 7 is communicated with the gas inlet of the gas cache tank 13 through a third connecting pipe 9, the gas cache tank 13 is internally provided with a humidifier 11 in a matching way, the part of the gas cache tank 13 adjacent to the outer wall shell wall of the second wall body 20 is provided with a first perforation penetrating through the shell wall of the second wall body 20 along the thickness direction, the part of the outer wall shell wall of the second wall body 20 adjacent to the gas cache tank 13 is provided with a second perforation 12 penetrating through the wall body along the thickness direction, the penetrating pipe simultaneously penetrates through the first perforation and the second perforation 12 and is mutually fixed in a static sealing way with the first perforation, the water inlet of the humidifier 11 is connected with a water source through a penetrating pipe, the spraying port of the humidifier 11 is exposed in the inner tank cavity of the gas cache tank 13, and the gas outlet of the gas cache tank 13 is communicated with the gas inlet of the second gas pump 18 through a fourth connecting pipe 15; the base plate 33 is arranged horizontally in a plane shape, a bracket 23 which is fixed on the base plate 33 in a manner of being supported by the base plate 33 is fixedly arranged in a space which is positioned above the base plate 33 and is close to the base plate 33 at the lower part of the indoor room 30, a fluidization gas conveying pipe 31, a humidifying gas conveying pipe 25 and a supporting bottom plate 24 are sequentially and fixedly arranged on the bracket 23 in a suspending manner from bottom to top, a salt sand fluidization pool is formed in the space between the base plate 33 and the supporting bottom plate 24 at the lower part of the indoor room 30, a natural salt material with the granularity small enough to generate a size which can be in a fluidization state through the fluidized bed technology is added in the salt sand fluidization pool, a salt sand bed 29 is formed in the salt sand fluidization pool by the natural salt material, the fluidization gas conveying pipe 31 is horizontally arranged and is distributed in parallel on the same horizontal plane where the natural salt sand fluidization gas conveying pipe is positioned, fluidization gas spraying through holes 32 which are uniformly distributed in the length direction of the fluidization gas conveying pipe 31 and penetrate through the peripheral wall of the fluidization gas conveying pipe along the peripheral wall, and orifices on the peripheral wall of the fluidization gas spraying through holes 32 are arranged in a manner of being directed downward to the base plate 33 in a clearance fit with the base plate 33; the humidifying gas conveying pipes 25 are uniformly distributed and arranged in parallel on the same horizontal plane where the humidifying gas conveying pipes are located, the top of each humidifying gas conveying pipe 25 is provided with humidifying gas spraying through holes 27 which are uniformly distributed in the length direction of the humidifying gas conveying pipe and penetrate through the peripheral wall of each humidifying gas conveying pipe 25 along the peripheral wall thickness direction of the humidifying gas conveying pipe, and all orifices of the humidifying gas spraying through holes 27 on the peripheral wall of each humidifying gas conveying pipe 25 are upwards arranged in a clearance fit manner with the upper surface of the substrate 33 in the salt and sand fluidized pool 28 and are directed to the supporting bottom plate 24; the supporting bottom plate 24 is arranged horizontally in a plane, the supporting bottom plate 24 is provided with air inlets 26 which are uniformly distributed in the width and length directions of the supporting bottom plate 24 and penetrate through the plate body of the supporting bottom plate 24 along the thickness direction of the supporting bottom plate, the part, close to the top plate 5, of the upper part of the wall body or the top plate 5 is provided with air outlets which penetrate through the body of the wall body along the thickness direction and are communicated with the atmosphere, and the air outlets are provided with electric valves capable of opening or closing the air outlets; the air outlet of the first air pump 16 is communicated with each fluidizing gas conveying pipe 31 through a fifth connecting pipe 19 and the head end pipe orifice of each fluidizing gas conveying pipe 31, and then is communicated with the salt sand fluidizing tank 28 through the corresponding fluidizing gas conveying pipe 31 and the corresponding fluidizing gas spraying through holes 32, and the tail end pipe orifices of all the fluidizing gas conveying pipes 31 are respectively provided with a first plugging plate 34 for plugging the tail end pipe orifices thereof; the air outlet of the second air pump 18 is communicated with the head end pipe orifice of each humidifying gas conveying pipe 25 through a sixth connecting pipe 21, and then is communicated with a salt sand fluidization pool 28 through the corresponding humidifying gas conveying pipe 25 and a corresponding humidifying gas spraying through hole 27, and the tail end pipe orifices of all the humidifying gas conveying pipes 25 are respectively and fixedly provided with a second plugging plate 22 for plugging the tail end pipe orifices thereof; the salt sand fluidization pool 28 communicates with the indoor room 30 through the intake aperture 26.

As shown in fig. 1 and 2, a hanging bracket 3 is fixedly arranged on the lower surface of a top plate 5 in an indoor room 30, infrared irradiation lamps 4 uniformly distributed in the horizontal plane direction are fixedly hung on the hanging bracket 3, and the irradiation direction of the infrared irradiation lamps 4 is vertically downward; the infrared light emitted from the infrared irradiation lamp 4 can supply heat to the human body by irradiating the skin of the human body on the basis that the high-temperature gas sprayed through the fluidizing gas spraying through hole 32 supplies heat to the human body in the indoor room 30, and accelerate the perspiration and toxin expelling of the human body.

As shown in fig. 1 and 2, the fluidizing gas transporting pipe 31 and the humidifying gas transporting pipe 25 are spatially parallel to each other or spatially perpendicular to each other, so as to enhance the mixing degree of the trace element-rich high-temperature gas and the wet normal-temperature gas ejected from the fluidizing gas ejecting through holes.

As shown in fig. 1 and 2, the fluidizing gas injecting through-hole 32 has a straight line segment shape; among any two adjacent fluidizing gas injection through holes 32 on the same fluidizing gas transporting pipe 31, one of the fluidizing gas injection through holes 32 is inclined toward one side of the same fluidizing gas transporting pipe 31 in a direction perpendicular to the length direction of the fluidizing gas transporting pipe 31 and is 45 ° with respect to the horizontal plane, and the other fluidizing gas injection through hole 32 is inclined toward the other side of the same fluidizing gas transporting pipe 31 in a direction perpendicular to the length direction of the fluidizing gas transporting pipe 31 and is 45 ° with respect to the horizontal plane, and the space included angle of the two adjacent fluidizing gas injection through holes 32 is 90 °, so as to improve the distribution uniformity of the trace element-rich high temperature gas downwardly injected from the fluidizing gas injection through holes 32 onto the upper surface of the substrate 33 on the upper surface of the substrate 33.

As shown in fig. 1 and 2, among any two adjacent fluidizing gas transporting pipes 31, the arrangement positions of fluidizing gas injecting holes 32 uniformly distributed in the longitudinal direction of one of the fluidizing gas transporting pipes 31 are arranged at the bottom of the other fluidizing gas transporting pipe 31, and the orthographic projections of the arrangement positions of fluidizing gas injecting holes 32 uniformly distributed in the longitudinal direction of the other fluidizing gas transporting pipe 31 on the vertical plane are staggered from each other so as not to overlap with each other, so as to improve the distribution uniformity of the trace element-rich high-temperature gas sprayed downward from the fluidizing gas injecting holes 32 onto the upper surface of the substrate 33 on the upper surface of the substrate 33.

As shown in fig. 1 and 2, the humidified gas injection through-hole 27 has a straight line segment shape; among any two adjacent humidification gas injection through holes 27 on the same humidification gas transport tube 25, one of the humidification gas injection through holes 27 is inclined toward one side of the same humidification gas transport tube 25 in a direction perpendicular to the longitudinal direction of the humidification gas transport tube 25 and at an angle of 45 ° to the horizontal plane, and the other humidification gas injection through hole 27 is inclined toward the other side of the same humidification gas transport tube 25 in a direction perpendicular to the longitudinal direction of the humidification gas transport tube 25 and at an angle of 45 ° to the horizontal plane, and the space included angle of the two adjacent humidification gas injection through holes 27 is 90 °, so as to improve the distribution uniformity of the wet normal temperature gas ejected upward from the humidification gas injection through holes 27 onto the lower surface of the support base plate 24 on the lower surface of the support base plate 24.

As shown in fig. 1 and 2, among any two adjacent humidified gas delivery pipes 25, the arrangement positions of the humidified gas injection through holes 27 uniformly distributed in the longitudinal direction of one of the humidified gas delivery pipes 25 and the orthographic projections of the arrangement positions of the humidified gas injection through holes 27 uniformly distributed in the longitudinal direction of the other humidified gas delivery pipe 25 on the vertical plane are staggered from each other so as not to overlap each other, so that the distribution uniformity of the wet normal temperature gas sprayed upward from the humidified gas injection through holes 27 onto the lower surface of the support base plate 24 on the lower surface of the support base plate 24 is improved.

As shown in fig. 1 and 2, the air intake holes 26 are provided in a straight-line segment shape and vertically arranged to guide the salt therapy (salt therapy sweat steam) air to be ejected vertically upward from the air intake holes 26 into the indoor room 30.

As shown in fig. 1 and 2, the arrangement positions of the fluidization gas injection through holes 32 in the width and/or length directions of the support base plate 24 are offset from the orthographic projections of the arrangement positions of the humidification gas injection through holes 27 in the width and/or length directions of the support base plate 24 on a horizontal plane so as not to overlap with each other, so that the mixing degree of the trace element-rich high-temperature gas and the humidity-containing normal-temperature gas injected from the fluidization gas injection through holes is improved; the arrangement positions of the humidification gas injection through holes 27 in the width and/or length direction of the support base plate 24 are staggered from each other and do not overlap with the orthographic projection of the arrangement positions of the air inlet holes 26 in the width and/or length direction of the support base plate 24 on the horizontal plane; since the humidified gas injection through holes 27 and the gas inlet holes 26 are arranged to be staggered with each other, the humidified normal temperature gas injected upward from the humidified gas injection through holes 27 to the lower surface of the support base plate 24 is blocked from being injected directly upward into the indoor room 30 through the gas inlet holes 26 in a straight line, and therefore, each bundle of the humidified normal temperature gas injected upward from the humidified gas injection through holes 27 is dispersed and flowed on the lower surface of the support base plate 24 to improve the uniformity of the distribution of the humidified normal temperature gas injected upward from the humidified gas injection through holes 27 to the lower surface of the support base plate 24 on the lower surface of the support base plate 24, and the dispersed and flowed humidified gas injection through holes 27 are then sufficiently mixed with the upward flowed high temperature gas to improve the mixing degree of the trace element-rich high temperature gas injected from the fluidized gas injection through holes and the humidified normal temperature gas.

As shown in fig. 1 and 2, the first and second sound insulation layers 2 and 6 are respectively and correspondingly and fixedly laid on the surfaces of the inner wall shells of the first and second walls 17 and 20 respectively located in the indoor room 30, so as to prevent noise generated when devices such as a gas purifier, a gas heater, a gas buffer tank, a humidifier, an air pump and a connecting pipe work from being transmitted into the indoor room 30 to the maximum extent.

As shown in fig. 1, the bracket 23 is fixed with the first wall 17 and the second wall 20 at the same time, so as to further improve the stability of the bracket 23.

Claims (10)

1. The indoor salt steaming sweat rehabilitation medical system comprises a first wall body and a second wall body, wherein the inner surfaces of the first wall body and the second wall body are opposite and are not contacted, the wall bodies are fixed on the upper plate surface of a base plate in a mode of being distributed on the periphery of the base plate, a top plate is horizontally fixed on the top end of the wall body, the wall bodies, the top plate and the base plate enclose an indoor room, and doors for opening or closing the indoor room are arranged on the rest parts of the wall bodies except the first wall body and the second wall body; the method is characterized in that: the first wall body and the second wall body are hollow, so that the respective inner wall side and outer wall side of the first wall body and the second wall body respectively correspond to each other to form an inner wall shell wall and an outer wall shell wall; the first wall body is internally provided with a first gas purifier, a gas heater and a first air pump in a sequentially matched mode from top to bottom, the air inlet of the first gas purifier is communicated with the atmosphere, the air outlet of the first gas purifier is communicated with the air inlet of the gas heater through a first connecting pipe, and the air outlet of the gas heater is communicated with the air inlet of the first air pump through a second connecting pipe; the second wall body is internally provided with a second gas purifier, a gas cache tank and a second gas pump in a matching way in the direction from top to bottom, the gas inlet of the second gas purifier is communicated with a gas source comprising the atmosphere, the gas outlet of the second gas purifier is communicated with the gas inlet of the gas cache tank through a third connecting pipe, the gas cache tank is internally provided with a humidifier in a matching way, the part, adjacent to the outer wall shell wall of the second wall body, of the gas cache tank is provided with a first perforation penetrating through the shell wall of the second wall body in the thickness direction, the part, adjacent to the gas cache tank, of the outer wall shell wall of the second wall body is provided with a second perforation penetrating through the wall body in the thickness direction of the second wall body, the penetrating pipe simultaneously penetrates through the first perforation and the second perforation and is mutually fixed in a static sealing way, the water inlet of the humidifier is connected to a water source through the penetrating pipe, a spray opening of the humidifier is exposed in a tank cavity inside the gas cache tank, and the gas outlet of the gas cache tank is communicated with the gas inlet of the second gas pump through a fourth connecting pipe; the base plate is arranged in a plane shape and horizontally, a bracket which is fixed on the base plate in a mode of being supported by the base plate is fixedly arranged in a space, which is positioned above the base plate, of the lower part of the indoor room, a fluidization gas conveying pipe, a humidifying gas conveying pipe and a supporting bottom plate are sequentially and fixedly arranged on the bracket in a suspended mode towards the direction from bottom to top, a salt sand fluidization pool is formed in the space, which is positioned between the base plate and the supporting bottom plate, of the lower part of the indoor room, the fluidization gas conveying pipes are horizontally arranged and uniformly distributed on the same horizontal plane where the fluidization gas conveying pipes are positioned, fluidization gas spraying through holes which are uniformly distributed in the length direction of the fluidization gas conveying pipes and penetrate through the peripheral wall of the fluidization gas conveying pipes along the peripheral wall of the fluidization gas conveying pipes are downwards arranged in a mode of being in clearance fit with the base plate, and are pointed at the base plate; the humidifying gas conveying pipes are uniformly distributed and arranged in parallel on the same horizontal plane where the humidifying gas conveying pipes are positioned, humidifying gas spraying through holes which are uniformly distributed in the length direction of the humidifying gas conveying pipes and penetrate through the peripheral wall of the humidifying gas conveying pipes along the peripheral wall thickness direction of the humidifying gas conveying pipes are arranged at the top of the humidifying gas conveying pipes, and all orifices on the peripheral wall of the humidifying gas conveying pipes are upwards arranged in a clearance fit manner with the upper surface of the substrate in the salinized sand fluidization pool and point to the supporting bottom plate; the supporting bottom plate is arranged horizontally in a plane, is provided with air inlets which are uniformly distributed in the width and length directions of the supporting bottom plate and penetrate through the plate body along the thickness direction of the supporting bottom plate, an air outlet which penetrates through the body along the thickness direction of the wall body is formed in the part, close to the top plate, of the wall body or the top plate, and is communicated with the atmosphere, and an electric valve capable of opening or closing the air outlet is arranged in the air outlet; the air outlet of the first air pump is communicated with the head end pipe orifice of each fluidizing gas conveying pipe through a fifth connecting pipe, and then is communicated with the salt sand fluidizing pool through a corresponding fluidizing gas conveying pipe and a corresponding fluidizing gas spraying through hole, and the tail end pipe orifices of all the fluidizing gas conveying pipes are respectively provided with a first plugging plate for plugging the tail end pipe orifices; the air outlet of the second air pump is communicated with the head end pipe orifice of each humidifying gas conveying pipe through a sixth connecting pipe, and then is communicated with the salt sand fluidization pool through the corresponding humidifying gas conveying pipe and the corresponding humidifying gas injection through hole, and the tail end pipe orifices of all the humidifying gas conveying pipes are respectively fixedly provided with a second plugging plate for plugging the tail end pipe orifices of the humidifying gas conveying pipes; the salt sand fluidization pool is communicated with the indoor room through an air inlet hole.

2. The indoor salt-steaming sweat-based medical system of claim 1, wherein: the lower plate surface of the top plate in the indoor room is fixedly provided with a hanging bracket, the hanging bracket is fixedly hung with infrared irradiation lamps uniformly distributed in the horizontal plane direction, and the irradiation direction of the infrared irradiation lamps is vertically downward.

3. The indoor salt-steaming sweat-based medical system of claim 1, wherein: the fluidization gas conveying pipe and the humidifying gas conveying pipe are mutually parallel or mutually perpendicular in space.

4. The indoor salt-steaming sweat-care medical system according to claim 3, wherein: the fluidization gas injection through hole is in a straight-line segment shape; among any two adjacent fluidizing gas injection through holes on the same fluidizing gas conveying pipe, one of the fluidizing gas injection through holes is inclined towards one side of the same fluidizing gas conveying pipe along the direction perpendicular to the length direction of the fluidizing gas conveying pipe and is 45 degrees relative to the horizontal plane, the other fluidizing gas injection through hole is inclined towards the other side of the same fluidizing gas conveying pipe along the direction perpendicular to the length direction of the fluidizing gas conveying pipe and is 45 degrees relative to the horizontal plane, and the space included angle of the two adjacent fluidizing gas injection through holes is 90 degrees.

5. The indoor salt-steaming sweat-care medical system according to claim 4, wherein: among any two adjacent fluidization gas conveying pipes, the arrangement positions of fluidization gas injection through holes uniformly distributed in the length direction of the bottom of one fluidization gas conveying pipe and the orthographic projection of the arrangement positions of fluidization gas injection through holes uniformly distributed in the length direction of the bottom of the other fluidization gas conveying pipe on the vertical plane are staggered and are not overlapped with each other.

6. The indoor salt-steaming sweat-care medical system according to claim 3, wherein: the humidifying gas spraying through hole is in a straight-line segment shape; among any two adjacent humidification gas injection through holes on the same humidification gas conveying pipe, one of the humidification gas injection through holes inclines towards one side of the same humidification gas conveying pipe along the direction perpendicular to the length direction of the humidification gas conveying pipe and forms an angle of 45 degrees relative to the horizontal plane, the other humidification gas injection through hole inclines towards the other side of the same humidification gas conveying pipe along the direction perpendicular to the length direction of the humidification gas conveying pipe and forms an angle of 45 degrees relative to the horizontal plane, and the space included angle of the two adjacent humidification gas injection through holes is 90 degrees.

7. The indoor salt-steaming sweat-based medical system of claim 6, wherein: among any two adjacent humidifying gas conveying pipes, the arrangement positions of humidifying gas injection through holes uniformly distributed in the length direction of one humidifying gas conveying pipe are arranged at the bottom of the humidifying gas conveying pipe, and the orthographic projections of the arrangement positions of humidifying gas injection through holes uniformly distributed in the length direction of the other humidifying gas conveying pipe on the vertical plane are staggered and are not overlapped with each other.

8. The indoor salt-steaming sweat-based medical system of claim 1, wherein: the air inlet hole is in a straight section shape and is vertically arranged.

9. The indoor salt-steaming sweat-based medical system of claim 1, wherein: the arrangement positions of the fluidization gas injection through holes in the width and/or length directions of the supporting bottom plate are staggered from each other and are not overlapped with the orthographic projection of the arrangement positions of the humidifying gas injection through holes in the width and/or length directions of the supporting bottom plate on a horizontal plane; the arrangement positions of the humidifying gas spraying through holes in the width and/or length direction of the supporting base plate are staggered with the orthographic projection of the arrangement positions of the air inlet holes in the width and/or length direction of the supporting base plate on the horizontal plane correspondingly and are not overlapped with each other.

10. The indoor salt-steaming sweat-based medical system of claim 1, wherein: the first sound insulation layer and the second sound insulation layer are respectively and correspondingly and fixedly laid on the surfaces of the inner wall shells of the first wall body and the second wall body, which are respectively positioned in the indoor room.