CN111498265A

CN111498265A - Novel hydrogen-rich water low pressure container

Info

Publication number: CN111498265A
Application number: CN202010403413.XA
Authority: CN
Inventors: 吝旭华; 杨小峰; 张代军
Original assignee: Zhejiang Jinquan Environmental Technology Co ltd
Current assignee: Zhejiang Jinquan Environmental Technology Co ltd
Priority date: 2020-05-13
Filing date: 2020-05-13
Publication date: 2020-08-07

Abstract

The novel hydrogen-rich water low-pressure container comprises a hollow barrel body, wherein the barrel body comprises a barrel opening formed in the top end of the barrel body and an inflation inlet formed in the bottom of the barrel body, an inner container used for storing hydrogen-rich water is sleeved in the barrel body, an impact type water outlet device is detachably fixed on the barrel opening through a trapezoidal hoop, a disinfection cover body is detachably sleeved above the barrel body, an anti-collision ring is sleeved in the middle of the barrel body, a base is detachably fixed at the bottom of the barrel body, the base is a heatable base, and a first-aid device is fixed at the position, close to the barrel opening, of the barrel body.

Description

Novel hydrogen-rich water low pressure container

Technical Field

The invention relates to the technical field of hydrogen-rich water low-pressure containers, in particular to a novel hydrogen-rich water low-pressure container.

Background

The Water-based plain Water (Hydrogen Water) is directly named as the original name of Japanese, the research on the Hydrogen-based plain Water starts from the first Hydrogen biological paper of natural medicine 2007, the general knowledge tells people that Hydrogen is insoluble in Water, in chemical experiments on Hydrogen preparation in middle schools, a drainage method is adopted to collect Hydrogen, the main reason is that the Hydrogen is insoluble in Water, actually, the Hydrogen is not soluble in Water, the solubility is really low, if the concentration of pure Hydrogen is 0.92 mmol/L when Water is dissolved at 20 ℃, the concentration and the stability of saturated Hydrogen are improved and maintained, the problem is the problem of the application of Hydrogen medical science, the invention of the domestic nano gas-liquid mixing technology overcomes the scientific problem that Hydrogen is difficult to dissolve in Water, the physical method is adopted to enable Water to uniformly wrap Hydrogen molecules, the Hydrogen is stably combined, the Hydrogen concentration and the stability of saturated Hydrogen are improved and maintained, the invention of the Hydrogen medical application is a scientific research problem that the Hydrogen-based nano gas-liquid mixing technology is a new health care beverage which is expected to be developed from the pure Hydrogen-enriched Water, the environmental protection, the drinking Water consumption of the drinking Water and the development of the drinking Water, the health care, the drinking Water, the health care and the drinking Water, the environmental protection of the drinking Water consumption of people, the drinking Water, the health care, the consumption of the drinking Water, the health care, the drinking Water, the nutrition, the health care and the health care of people, the health care of the drinking Water, the health care and the environmental protection, the development of the drinking Water, the environmental protection, the development of the consumption of the human body, the.

In the prior art, hydrogen-rich water is stored and transported mostly by adopting a hydrogen-rich water low-pressure container, the hydrogen-rich water is placed in an inner container, the inner container is placed in a sealed pressure-bearing barrel body, the hydrogen-rich water low-pressure container has certain requirements on the pressure-bearing capacity of the barrel body, if the pressure-bearing capacity of the low-pressure container is insufficient, dangerous accidents such as explosion and rupture of the low-pressure container can easily occur, the Chinese practical patent is CN201721015093.0 discloses a hydrogen-rich water turnover barrel, the transportation of the hydrogen-rich water is facilitated by the sealed turnover barrel provided with an aluminum foil bag, but a ball valve is directly connected with a water nozzle interface of a sealing cover, the sealing effect of the ball valve is not very good, the hydrogen-rich water is easily overflowed during the transportation of the turnover barrel, the ball valve is directly protruded out of the turnover barrel and is easily collided to cause damage, and when water is injected into a water inlet and outlet pipe inside the hydrogen-, affecting the hydrogen rich water content. Hydrogen is a chemical element, is located the first in the periodic table of elements, its penetrability is very strong, and activity is also very strong, so adopt the aluminium foil can solve its problem of penetrability, but it is also easy to produce the reaction with the aluminium foil because activity is very strong, chinese utility patent is a hydrogen-rich water pressure vessel that CN201920557324.3 disclosed, it adopts the antibiotic inlayer of PE and the outer compound bag of aluminium foil, but PE is plastics, it still can react with hydrogen molecule, most importantly present low pressure vessel only is used for storing hydrogen-rich water, and the function is very limited, can not realize functions such as heating, disinfection, first aid.

Disclosure of Invention

The invention aims to solve the existing problems and provides a novel hydrogen-rich water low-pressure container which has good sealing performance, high hydrogen content, heating, sterilizing and first-aid functions and realizes the multifunction of the hydrogen-rich water low-pressure container.

The technical solution of the invention is as follows:

the utility model provides a novel hydrogen-rich water low pressure container, its including the staving, the staving is oval-shaped upright bucket for longitudinal section, the staving is including the bung hole of shaping in the staving top and the inflation inlet of shaping in the staving bottom, the staving endotheca has the inner bag that is used for storing hydrogen-rich water, can dismantle through trapezoidal staple bolt on the bung hole and be fixed with striking formula play hydrophone, staving top detachable cover is equipped with the disinfection cover body, staving middle part cover is equipped with the anticollision circle, its bottom of staving can be dismantled and be fixed with the base, the staving is close to bung hole department and is fixed with first aid device.

Preferably, the longitudinal section of the base is isosceles trapezoid, the top of the base is provided with an opening and is formed with a first installation cavity matched with the bottom of the barrel body, the base is a heatable base, the side surface of the base is provided with a plug groove, a plug used for connecting a power line is fixed in the plug groove, and an electric heating wire and a temperature controller are embedded in the base.

Preferably, the disinfecting cover body is cylindrical and comprises a second installation part formed at the bottom of the disinfecting cover body, the size and shape of the second installation cavity are matched with the end, close to the barrel opening, of the barrel body, an ozone generating device is fixed on the inner wall of the second installation cavity, and the ozone generating device comprises a lithium battery, a micro ozone generator and a time controller, wherein the micro ozone generator is electrically connected with the lithium battery.

Preferably, an annular limiting ring extending towards the outside of the barrel body is formed on the barrel opening, an annular limiting groove is formed in the upper surface of the limiting ring, a convex ring matched with the limiting ring is formed at the opening end of the inner container, and a protrusion matched with the limiting groove is formed in the lower surface of the convex ring.

Preferably, the first-aid device comprises an air outlet, the air outlet is located close to the barrel opening, an air outlet valve is fixed on the air outlet, an air inlet pipe is fixed on the air outlet and located between the inner container and the inner wall of the barrel body, and the air inlet pipe extends to a position 3-4 CM away from the bottom of the barrel body from the air outlet.

Preferably, the impact type water outlet device comprises a first water outlet part and a second water outlet part detachably fixed on the first water outlet part, and the second water outlet part is fixed on the first water outlet part through a locking part.

Preferably, the first water outlet component is a funnel shell, and comprises a water outlet portion and a transition cavity formed at the lower end of the water outlet portion, the shape and size of one end of the transition cavity, which is far away from the water outlet portion, are matched with the barrel opening, a water inlet sleeve is fixed in the water outlet portion through threads, the water inlet sleeve is a hollow cylinder with an opening at the bottom, a limiting plate is formed in the water inlet sleeve, a circular through hole is formed in the center of the limiting plate, a water outlet is formed in the center of the upper surface of the water inlet sleeve, a plug body matched with the circular through hole is inserted in the circular through hole in a sleeved mode, the plug body comprises a plug rod and a plug core, the plug rod can move up and down along the axial line direction of the water inlet sleeve, the plug core penetrates through the water outlet and is matched with the water outlet in shape and size, and a sealing sheet is formed on the inner, the sealing sheet is tightly attached to the inner side surface of the water outlet, a second compression spring is sleeved between the plug rod and the sealing sheet, one end of the second compression spring tightly abuts against the sealing sheet, the other end of the second compression spring tightly abuts against the limiting sheet, a water outlet hole is formed in the limiting sheet, the second water outlet component is a hollow cylinder, a water inlet hole is formed in the lower surface of the second water outlet component, a push rod is sleeved in the water inlet hole in an inserting manner and penetrates through the upper surface and the lower surface of the second water outlet component, a push block is formed at one end, located at the lower surface of the second water outlet component, of the push rod, an extrusion block is formed at the other end of the lower surface of the second water outlet component, the push block and the extrusion block are both located outside the second water outlet component, the diameter of the push rod, which is close to the push block part, is smaller than the diameter of the, the push rod is sleeved with a third compression spring, a limiting boss is formed at the position, far away from the push block, of the push rod, one end of the third compression spring abuts against the limiting boss, the other end of the third compression spring abuts against the lower surface of the second water outlet component, and a water outlet pipe is fixed above the limiting boss of the second water outlet component.

Preferably, the locking member comprises a locking sleeve, the locking sleeve is fixed on the water outlet part in a tight fit manner, a limiting groove is formed in the outer wall of the water outlet part, the limiting groove is 2-4 mm away from the top end of the water outlet part, a plurality of cylindrical through holes are formed in the outer circumference of the side wall of the water outlet part, the through holes are 4-6 mm away from the top end of the water outlet part 33, locking balls are assembled in the through holes in a sliding manner, the locking balls are positioned in the through holes and move along the axial lead direction of the through holes, the diameter of the through holes is equal to that of the locking balls, two ends of the through holes are bent 0.3-0.5 mm towards the locking balls, the diameter of each locking ball is larger than the length D of the through hole, a conical locking block is formed on the inner wall of the locking sleeve and close to the locking balls, and the outer diameter size of the conical locking block is gradually reduced along the, its lower extreme top of toper latch segment is tight the outer wall of play water portion, and its mid portion top is tight locking ball, toper latch segment lower surface with be fixed with first compression spring between the inside wall of spacing groove, first compression spring one end is fixed in on the inside wall of spacing groove, its other end is fixed in the lower surface of toper latch segment.

Preferably, the outer side surface of the second water outlet part is provided with a ball limiting groove, the size and shape of the ball limiting groove are matched with the locking ball, a sealing groove is formed in the inner side wall of the water outlet part above the plug core, and a sealing ring is fixed in the sealing groove.

Preferably, the trapezoidal hoop comprises a hoop body and a fastening piece for locking the hoop body (the inner side surface of the hoop body is provided with a trapezoidal groove, and the opening size of the trapezoidal groove (103) is gradually reduced from the inner side surface of the hoop body to the outer side surface of the hoop body.

The invention has the advantages of

1. The novel hydrogen-rich water low-pressure container comprises the heating base, the emergency treatment device and the disinfection cover body, so that the hydrogen-rich water is stored in a sealed mode, the problem that the existing hydrogen-rich water low-pressure container is single in function is solved, the heating, disinfecting and emergency treatment functions are realized, the functions of the hydrogen-rich water low-pressure container are added, and the experience feeling and the safety and sanitation degree of a user are greatly improved.

2. The barrel body of the novel hydrogen-rich water low-pressure container is made of stainless steel materials with the thickness of 1.2-1.5 mm, and hydrogen is a chemical element and is positioned at the first position in the periodic table of the elements, so that the novel hydrogen-rich water low-pressure container is high in penetrability, the quality guarantee period is only 3-5 days if the novel hydrogen-rich water low-pressure container is sealed in a glass container, and the quality guarantee period is 30-35 days if the novel hydrogen-rich water low-pressure container is sealed in a plastic container.

3. According to the novel hydrogen-rich water low-pressure container, the middle part of the barrel body is sleeved with the anti-collision ring, and the anti-collision ring can shield the welding port due to the existence of the welding port in the middle of the barrel body, so that the attractiveness of the barrel body is improved, the barrel body can be protected, and the phenomenon that collision sound is generated due to collision of stainless steel materials between the barrel bodies in the conveying process of the barrel body is avoided.

4. According to the novel hydrogen-rich water low-pressure container, the barrel body can be fixed on the base, the base is a heatable base, the barrel body can be stabilized to prevent the barrel body from toppling over, and meanwhile, when the novel hydrogen-rich water low-pressure container is in winter or a drinker needs warm water, the hydrogen-rich water in the barrel body is heated, so that the requirements and the use experience of the client are increased.

5. The novel hydrogen-rich water low-pressure container comprises an impact type water outlet device, wherein the impact type water outlet device comprises a first water outlet part and a second water outlet part, the second water outlet part is fixed on the first water outlet part through a locking part, the impact type water outlet device is detachably mounted through the locking part, the novel hydrogen-rich water low-pressure container is convenient to transport in the process of transporting the hydrogen-rich water low-pressure container, the transport volume is reduced, and meanwhile, the damage condition of the impact type water outlet device in the transport process is avoided. The first water outlet component can realize water outlet through the extrusion and impact of the second water outlet component, the tightness of the hydrogen-rich water low-pressure container is increased, and leakage of hydrogen molecules is prevented.

6. The novel hydrogen-rich water low-pressure container comprises the emergency treatment device, oxygen is injected through the inflation inlet, the effect of water outlet can be achieved by extruding the hydrogen-rich water in the inner container through the pressure of the oxygen, and meanwhile, emergency treatment and self rescue are carried out when people are in danger of oxygen deficiency, so that the life safety of people is guaranteed.

7. The novel hydrogen-rich water low-pressure container comprises the disinfection cover body, so that the hydrogen-rich water low-pressure container is disinfected, and the sanitation and health of drinking water of people are guaranteed.

8. According to the novel hydrogen-rich water low-pressure container, the sealing groove is formed in the inner side wall of the water outlet part and is positioned above the plug core, the sealing rings are fixed in the sealing groove, and the number of the sealing grooves is 2, so that the technical effect of double sealing rings is realized, and the sealing performance of the impact type water outlet device is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a novel low-pressure hydrogen-rich water container according to the present invention;

FIG. 2 is a schematic view of the barrel structure of the present invention;

FIG. 3 is a schematic view of the structure of the inner container of the present invention;

FIG. 4 is a schematic view of a base structure of the present invention;

FIG. 5 is a front view of the bucket body of the present invention;

FIG. 6 is a perspective view of the barrel of the present invention;

FIG. 7 is a schematic view of the bottom of the bucket body of the present invention;

fig. 8 is a schematic view of the emergency device of the present invention;

FIG. 9 is a perspective view of the disinfecting cover of the present invention;

FIG. 10 is a schematic view of the impact type water outlet device of the present invention;

FIG. 11 is a schematic view of the pressing state of the impact type water outlet device of the present invention;

FIG. 12 is an enlarged schematic view of a via of the present invention;

FIG. 13 is a schematic view of a trapezoidal hoop structure according to the present invention;

fig. 14 is an enlarged view of the bung of the present invention.

In the figure: the water outlet device comprises a barrel body 1, a barrel opening 2, a limiting ring 21, a limiting groove 22, a second water outlet part 32, a push rod 322, a push block 323, a limiting boss 324, an extrusion block 325, a third compression spring 326 and a water outlet pipe 327; the water outlet part 33, the transition cavity 34, the convex ring 35, the handle 38, the limiting groove 331, the through hole 332, the sealing ring 339, the locking member 36, the locking sleeve 361, the locking ball 362, the tapered locking block 363, the first compression spring 364, the water inlet sleeve 37, the limiting sheet 371, the plug rod 373, the plug core 374, the second compression spring 375, the sealing sheet 377, the water outlet 378, the disinfecting cover body 4, the second installation cavity 41, the ozone generator 42, the rubber ring 43, the anti-collision ring 5, the base 6, the plug connector 61, the first installation cavity 62, the emergency device 7, the air outlet 71, the air inlet pipe 72, the inflation inlet 8, the inner container 9, the convex ring 91, the protrusion 92, the trapezoidal hoop 10, the hoop body 101, the fastener 102 and the trapezoidal groove 103.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "inside", "inner", "etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected or detachably connected; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature; in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

As shown in fig. 1-14, a novel hydrogen-rich water low-pressure container comprises a barrel body 1, the barrel body 1 is a vertical barrel with an oval longitudinal section, the barrel body 1 comprises a barrel opening 2 formed at the top end of the barrel body 1, an inward concave depressed part is formed at the central position of the bottom of the barrel body 1, an inflation inlet 8 is formed in the depressed part, thereby preventing the inflation inlet 8 from contacting the ground when the barrel body 1 is placed on the ground, and the inner container 9 for storing hydrogen-rich water is sleeved in the inflation inlet and the barrel body 1, the barrel mouth 2 is detachably fixed with an impact type water outlet device through a trapezoidal hoop 10, the upper part of the barrel body 1 is detachably sleeved with a disinfection cover body 4, the outer middle part cover of staving 2 is equipped with anticollision circle 5, its bottom demountable installation of staving 2 has base 6, staving 2 is close to bung hole 2 department and is fixed with first aid device 7.

Specifically, the barrel body 1 is made of stainless steel with the thickness of 1.2 mm-1.5 mm, the sealing performance of the barrel body to hydrogen molecules is quite good, the quality guarantee period for storing hydrogen-rich water is 10-12 months, hydrogen is a chemical element and is located at the first position in an element periodic table, the penetrability of the barrel body is quite strong, the quality guarantee period is only 3-5 days if the barrel body is sealed in a glass container, the quality guarantee period is 30-35 days if the barrel body is sealed in a plastic container, Chinese practical patent is a hydrogen-rich water low-pressure container disclosed by CN201920557324.3, the hydrogen-rich water is sealed in the plastic container, the sealing performance of the barrel body is far superior to that of a hydrogen-rich water pressure container of CN201920557324.3 in Chinese practical patent, the inner container 9 is made of silica gel, the hydrogen molecules are not only strong in penetrability and strong in activity, chemical reaction can easily occur with other substances, and the silica gel material is stable in property and far superior to that of a tin foil material and a practical special use of a hydrogen-rich water rotary barrel disclosed by CN201721015093.0 in Chinese practical patent, and the The PE material of the hydrogen-rich water low-pressure container disclosed in CN201920557324.3 is utilized.

Specifically, the bung 2 is a hollow cylinder, the outer diameter of the bung 2 is smaller than the outer diameter of the barrel 1, an annular limiting ring 21 extending to the outside of the barrel 1 is formed on the bung 2, the outer diameter of the limiting ring 21 is larger than the outer diameter of the bung 2 by 1CM to 1.2CM, and an annular limiting groove 22 is formed on the upper surface of the limiting ring 21. Its size shape of inner bag 9 with staving 1 cooperatees, the open end shaping of inner bag 9 have with spacing ring 21 cooperatees bulge loop 91, its lower surface shaping of bulge loop 91 have with spacing recess 22 matched with arch 92, during concrete installation, with inner bag 9 stopper advance staving 1 in, arch 92 imbeds spacing recess 22 and fixes, can prevent simultaneously the leakage of the interior oxygen of low pressure container, the external diameter of bulge loop 91 is less than the external diameter of spacing ring 21.

Specifically, 1 overcoat of staving is equipped with anticollision circle 5, anticollision circle 5 is rubber or silica gel material, and this material softness can play the guard action, because there is the welding mouth at 1 middle part of staving, anticollision circle 5 is playing and is hiding the welding mouth, when improving staving 1's pleasing to the eye degree, can also play the effect of protection staving 1, and in 1 transportation process of staving, can be because the material of stainless steel bumps and produce the sound of colliding between the staving 1, anticollision circle 5 can play and prevent the staving 1 between the noise of producing simultaneously of bumping.

Specifically, base 6 is the heatable base, and its open-top and shaping have with 1 bottom matched with first installation cavity 62 of staving for improve the stability of staving 1, base 6 is the plastics material, because the wearability of plastics material is good, the degree of depth of first installation cavity 62 is 10CM ~ 12CM, base 6 internal fixation has the heating module, and the plug groove has been seted up to its side, plug inslot is fixed with bayonet joint 61 that is used for connecting power cord and heating module, the heating module is including burying electric heating wire and the temperature controller in base 6. The temperature controller and the electric heating wire are conventional in the field, so that the detailed description is omitted. The temperature controller controls the temperature to be 20-30 ℃, the content of hydrogen is not damaged while the drinking water temperature is increased, the base 6 is used for stabilizing the barrel body 1 under the ordinary condition to prevent the barrel body from toppling over, when the barrel body is in winter or a drinker needs to heat, one end of a power line is inserted into the plug-in connector 61, the other end of the power line is connected to a power supply, the heating function can be realized, and the barrel body 1 is made of stainless steel, so that the heat conduction effect is better, and the hydrogen-rich water can be rapidly heated.

Specifically, the impact water outlet device comprises a first water outlet component 31 and a second water outlet component 32 detachably fixed on the first water outlet component 31, the second water outlet component 32 is fixed on the first water outlet component 31 through a locking member 36, the first water outlet component 31 is a funnel housing, and comprises a water outlet portion 33 and a transition cavity 34 formed at the lower end of the water outlet portion 33, the shape and size of one end of the transition cavity 34 far away from the water outlet portion 33 are matched with the barrel mouth 2, a convex ring 35 matched with the limiting ring 21 is formed at one end of the transition cavity 34 far away from the water outlet portion 33, the outer diameter of the convex ring 35 is equal to the outer diameter of the limiting ring 21, so that the trapezoidal hoop 10 is facilitated to tightly fix the first water outlet component 31 and the barrel mouth 2, a water inlet sleeve 37 is fixed inside the water outlet portion 33 through a thread, and the water inlet sleeve 37 is a hollow cylinder with an opening at the bottom, the distance from the top end of the water inlet sleeve 37 to the top end of the water outlet part 33 is 4CM to 6CM, a limiting piece 371 is formed in the water inlet sleeve 37, a circular through hole is formed in the center of the limiting piece 371, a plug rod 373 matched with the circular through hole is inserted in the circular through hole in a sleeved mode, a cylindrical plug core 374 is formed at the top end of the plug rod 373, a water outlet is formed in the center of the upper surface of the water inlet sleeve 37, the diameter of the water outlet is equal to that of the plug core 374, the plug core 374 is located in the water outlet, the top end of the plug core 374 is 2mm to 4mm higher than the outer side surface of the water outlet, a sealing piece 377 is formed on the inner side surface of the water outlet on the plug core 374, a sealing ring is fixed on the outer side surface of the sealing piece 377 is tightly attached to the inner side surface of the water outlet, and, the second compression spring 375 is sleeved between the plug rod 373 and the sealing piece 377 to prevent the leakage of hydrogen, one end of the second compression spring 375 is tightly pressed against the sealing piece 377, the other end of the second compression spring 375 is tightly pressed against the limiting piece 371, the limiting piece 371 is provided with a water outlet 378 to ensure the smoothness of the hydrogen-rich water outlet, the second water outlet component 32 is a hollow cylinder, the lower surface of the second water outlet component 32 is provided with a water inlet, a push rod 322 is inserted and sleeved in the water inlet, the push rod 322 penetrates through the upper surface and the lower surface of the second water outlet component 32, one end of the push rod 322, which is positioned on the lower surface of the second water outlet component 32, is formed with a push block 323, the other end of the push rod 322 is formed with an extrusion block 325, the distance between the extrusion block 325 and the second water outlet component 32 is larger than the height of the plug core, the push block 323 and the extrusion block 325 are both positioned outside the second water outlet component 32, and the, the push block 323 is a cone which gradually reduces towards the water outlet direction, the bottom surface of the push block 323 is attached to the outer surface of the water inlet hole, the diameter of the bottom surface of the push block 323 is larger than that of the water inlet hole, a third compression spring 326 is sleeved on the push rod 322, a limiting boss 324 is formed at the position, far away from the push block 323, on the push rod 322, one end of the third compression spring 326 tightly supports the limiting boss 324, the other end of the third compression spring 326 tightly supports the lower surface of the second water outlet component 32, and a water outlet pipe 327 is fixed above the limiting boss 324 of the second water outlet component 32. Second compression spring 375 and third compression spring 326 overcoat are equipped with the silica gel protective sheath, owing to be the silica gel material can be at any time second compression spring's flexible and extrusion, can also play the effect of protection second compression spring 375 and third compression spring 326 simultaneously, prevent that it from influencing its performance because rust under hydrogen-rich water's effect for a long time.

Specifically, the maximum diameter of the push block 323 is smaller than the diameter of the water outlet, when the second water outlet member 32 is installed in the first water outlet member 31, the push block 323 is attached to the plug 374, in a specific operation, the pressing block 325 is pressed, the third compression spring 326 is compressed under force, the push block 323 moves towards the plug 374 along the axial line direction thereof, the push block 323 pushes the plug 374 downwards, the second compression spring 375 is compressed under force, at this time, the plug 374 is located below the inner side surface of the water outlet, and hydrogen-rich water flows out of the water outlet through the water outlet 378 and enters the water inlet under the extrusion of oxygen, and finally flows out of the water outlet 327 for people to drink.

Specifically, the locking member 36 includes a locking sleeve 361, the locking sleeve 361 is tightly fitted and fixed on the water outlet portion 33, a limiting groove 331 is formed on an outer wall of the water outlet portion 33, the limiting groove 331 is 2mm to 4mm away from a top end of the water outlet portion 33, a plurality of cylindrical through holes 332 are formed in an outer circumference of a side wall of the water outlet portion 33, the through holes 332 are 4mm to 5mm away from the top end of the water outlet portion 33, a locking ball 362 is slidably assembled in the through holes 332, the locking ball 362 is located in the through holes 332 and moves along an axial line direction of the through holes 332, a diameter of the through holes 332 is equal to a diameter of the locking ball 362, two ends of the through holes are bent 0.3mm to 0.5mm towards the locking ball 362, so that the locking ball 362 can slide in the through holes 332 but cannot slide out, the diameter of the locking ball 362 is greater than a length D of the through holes 332, a tapered locking block 363 is formed on the inner wall of the locking sleeve 361 near the locking ball 362, the outer diameter of the tapered locking block 363 is gradually reduced along the top end direction of the water outlet part 33, the lower end of the tapered locking block 363 tightly pushes against the outer wall of the water outlet part 33, the middle part of the tapered locking block 363 tightly pushes against the locking ball 362, a first compression spring 364 is fixed between the lower surface of the tapered locking block 363 and the inner side wall of the limiting groove 331, one end of the first compression spring 364 is fixed on the inner side wall of the limiting groove 331, and the other end of the first compression spring 364 is fixed on the lower surface of the tapered locking block 363. In a specific operation, when the second water outlet member 32 needs to be mounted on the first water outlet member 31, an external force acts in the direction B, the first compression spring 364 is compressed by a force, the locking sleeve 361 moves in the direction B, when the locking ball 362 is released by the pushing force of the tapered locking block 363, the locking sleeve 362 automatically moves in the direction of the outer side surface of the water outlet portion 33 to be in a natural state, the second water outlet member 32 is inserted into the first water outlet member 31, the acting force in the direction B is released, the first compression spring 364 expands and contracts, the locking sleeve 361 moves upward by the acting force of the first compression spring 364, the tapered locking block 363 pushes against the locking ball 362, the locking ball 362 moves in the direction of the inner side surface of the water outlet portion 33, and the second water outlet member 32 is fixed in the first water outlet member 31 in a pushing manner. Through retaining member 36 has realized the demountable installation of striking formula water outlet device, not only convenient transportation at the in-process of transporting hydrogen-rich water low pressure container reduces the volume of transportation, has avoided the damaged condition of striking formula water outlet device in the transportation simultaneously.

Specifically, a ball limiting groove 327 is formed on an outer side surface of the second water outlet member 32, the size and shape of the ball limiting groove 327 are matched with the locking ball 362, and when the second water outlet member 32 is inserted into the first water outlet member 31, the locking ball 362 is clamped in the ball limiting groove 327 to tightly push and fix the second water outlet member 32.

Specifically, a sealing groove is formed in the inner side wall of the water outlet portion 33 above the plug 374, a sealing ring 339 is fixed in the sealing groove, and the number of the sealing grooves is 2, so that the technical effect of double sealing rings is achieved, and the sealing performance of the impact water outlet device is improved.

Specifically, the trapezoidal hoop 10 comprises a hoop body 101 and a fastener 102 for locking the hoop body 101, wherein a trapezoidal groove 103 is formed in the inner side surface of the hoop body 101, the size of an opening of the trapezoidal groove 103 is gradually reduced from the inner side surface of the hoop body 101 to the outer side surface of the hoop body 101, the maximum opening size of the trapezoidal groove 103 is larger than the sum of the thicknesses of the limit ring 21 and the convex ring 35, and the minimum opening size of the trapezoidal groove 103 is smaller than the sum of the thicknesses of the limit ring 21 and the convex ring 35, so that the trapezoidal hoop 10 can tightly fix the first water outlet component 31 and the bung 2 and prevent hydrogen leakage. The invention adopts a mode of tightly fixing the first water outlet component 31 and the bung hole 2 through the trapezoidal hoop 10, so that the speed is high and the convenience is realized when hydrogen-rich water is filled into the low-pressure container, and the water injection speed from the anti-overflow structure of the hydrogen-rich water low-pressure container disclosed by the Chinese practical patent CN201920557324.3 is low and the inconvenience is extreme.

Specifically, the emergency device 7 includes an air outlet 71, the air outlet 71 is located near the bung 2, an air outlet valve is fixed on the air outlet 71, the air outlet valve is a one-way oxygen cylinder valve, when a person needs to inhale oxygen, an oxygen inhaling pipe is fixed at the air outlet valve 1, the air outlet valve is opened to inhale oxygen, the one-way oxygen cylinder valve is a conventional technology in the field, and therefore it is not described in detail, an air inlet pipe 72 is fixed at one end of the air outlet 71, the air inlet pipe 72 is located between the inner container 9 and the inner wall of the barrel 1, the air inlet pipe 72 extends from the air outlet 71 to a position 3CM to 4CM away from the bottom of the barrel 1, because oxygen lower than the bottom 3CM to 4CM of the barrel 1 is extremely low in pressure of water, and cannot be squeezed out by squeezing water to supply oxygen for the person to inhale oxygen, a conventional hydrogen-rich water low-pressure container injects air through an air, the air is positioned between the inner container 9 and the barrel body 1, and the hydrogen-rich water in the inner container 9 is extruded to flow out through the pressure of the air, while the oxygen is injected through the inflation inlet 8, so that the hydrogen-rich water in the inner container 9 can be extruded to flow out through the pressure of the oxygen conventionally, and meanwhile, the emergency treatment and self rescue are carried out when people are in danger of oxygen deficiency, and the life safety of people is guaranteed.

Specifically, the disinfection cover body 4 is the hollow cylinder form with sealed upper surface, and it is including the shaping in the second installation cavity 41 of the disinfection cover body 4 bottom, its big or small shape of second installation cavity 41 with the staving 1 is close to its bung hole 2 end and cooperatees, the interval between the second installation cavity 41 and the top of play water portion 33 is 2CM ~ 3CM to more do benefit to ozone apparatus to go out water portion 33 and disinfect, because it is the must passageway that hydrogen-rich water comes out to go out water portion 33, thereby ensures the cleanliness factor and the health nature of people's drinking water, second installation cavity 41 inner wall is fixed with ozone generating device 42, ozone generating device 42 is including the lithium cell and with lithium cell electric connection's miniature ozone generator and time controller, miniature ozone generator and time controller are the conventional setting in this field, so do not add the perplexing, when the micro ozone generator works, the triode drives the relay to pull in the circuit, the micro ozone generator works and disinfects, the time set by the time controller is 3-5 minutes, and after the timing time is up, the relay can pull in to drive the lithium battery to cut off the power supply, and the micro ozone generator stops working. The bottom of the disinfection cover body 4 is fixed with a sealing rubber ring 43, the inner diameter of the rubber ring 43 is smaller than the outer diameter of the barrel body 1 by 0.5 mm-1 mm, so that when the disinfection cover body 4 covers the barrel body 1, the rubber ring 43 is clamped on the barrel body 1 to play a role in fixing, the sealing performance of the whole disinfection cover body 4 is ensured, and the disinfection effect is improved.

In particular, a handle 38 may be secured to the transition chamber 34 to facilitate carrying the low pressure container of the present invention.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a novel hydrogen-rich water low pressure vessel, its characterized in that including cavity staving (1): staving (1) including the shaping in bung hole (2) at staving (1) top and shaping in inflation inlet (8) of staving (1) bottom, staving (1) endotheca has inner bag (9) that are used for storing hydrogen-rich water, can dismantle through trapezoidal staple bolt (10) on bung hole (2) and be fixed with striking formula water outlet device, staving (1) its top can be dismantled the cover and be equipped with the disinfection cover body (4), staving (2) overcoat is equipped with anticollision circle (5), staving (2) bottom demountable installation has base (6), staving (1) is close to bung hole (2) department and is fixed with first aid device (7).

2. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: the heating barrel is characterized in that the base (6) is in a horn shape, the diameter of the bottom of the base is larger than that of the top of the base, a first mounting cavity (62) matched with the bottom of the barrel body (1) is formed in the opening of the top of the base (6), a heating module is fixed in the base (6), a plug head groove is formed in the outer side surface of the base, a plug head (61) used for connecting a power line and the heating module is fixed in the plug head groove, and the heating module comprises an electric heating wire and a temperature controller which are buried in the base (6).

3. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: the sterilizing cover body (4) is cylindrical and comprises a second installation cavity (41) formed at the bottom of the sterilizing cover body (4), the size and shape of the second installation cavity (41) are matched with the end, close to the barrel opening (2), of the barrel body (1), an ozone generating device (42) is fixed on the inner wall of the second installation cavity (41), the ozone generating device (42) comprises a lithium battery, a micro ozone generator and a time controller, the micro ozone generator is electrically connected with the lithium battery, a sealing rubber ring (43) is fixed at the bottom of the sterilizing cover body (4), and the inner diameter of the rubber ring (43) is smaller than the outer diameter of the barrel body (1) by 0.5-1 mm.

4. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: the barrel opening (2) is in a hollow cylindrical shape, the outer diameter of the barrel opening (2) is smaller than that of the barrel body (1), an annular limiting ring (21) extending towards the outside of the barrel body (1) is formed on the barrel opening (2), an annular limiting groove (22) is formed in the upper surface of the limiting ring (21), a convex ring (91) matched with the limiting ring (21) is formed at the opening end of the inner container (9), and a bulge (92) matched with the limiting groove (22) is formed in the lower surface of the convex ring (91).

5. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: it is including gas outlet (71) first aid device (7), gas outlet (71) are located and are close to bung hole (2) department, be fixed with the air outlet valve on gas outlet (71), be fixed with intake pipe (72) on gas outlet (71), intake pipe (72) are located inner bag (9) with between staving (1) inner wall, intake pipe (72) are followed gas outlet (71) department extends to apart from staving (1) bottom 3CM ~ 4CM department always, inner bag 9 with be filled with oxygen between staving (1).

6. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: the impact type water outlet device comprises a first water outlet part (31) and a second water outlet part (32) detachably fixed on the first water outlet part (31), wherein the second water outlet part (32) is fixed on the first water outlet part (31) through a locking piece (36).

7. A novel low pressure vessel of hydrogen-rich water as claimed in claim 6, characterized in that: the first water outlet component (31) is in a funnel shell shape and comprises a water outlet part (33) and a transition cavity (34) formed at the lower end of the water outlet part (33), wherein the transition cavity (34) is far away from one end of the water outlet part (33), the shape and the size of the end of the transition cavity (34) are matched with the barrel mouth (2), a water inlet sleeve (37) is fixed in the water outlet part (33) through threads, the water inlet sleeve (37) is a hollow cylinder with an opening at the bottom, a limiting sheet (371) is formed in the water inlet sleeve (37), a circular through hole is formed in the center of the limiting sheet (371), a water outlet is formed in the center of the upper surface of the water inlet sleeve (37), a plug body matched with the circular through hole is inserted in the circular through hole in a sleeved mode, the plug body comprises a plug rod (373) and a plug core (374), and the plug rod (373) can move up and down along the axial lead direction of the water, the plug core (37) penetrates through the water outlet and is matched with the water outlet in size and shape, a sealing sheet (377) is formed at the inner side surface of the water outlet on the plug core (374), the sealing sheet (377) is tightly attached to the inner side surface of the water outlet, a second compression spring (375) is sleeved between the plug rod (373) and the sealing sheet (377), one end of the second compression spring (375) is tightly propped against the sealing sheet (377), the other end of the second compression spring is tightly propped against the limiting sheet (371), a water outlet hole (378) is formed in the limiting sheet (371), the second water outlet component (32) is a hollow cylinder, a water inlet hole is formed in the lower surface of the second water outlet component, a push rod (322) is inserted in the water inlet hole and sleeved with the push rod (322) penetrates through the upper surface and the lower surface of the second water outlet component (32), and a push block (323) is formed at one end, the other end of the water outlet pipe is molded with an extrusion block (325), the push block (323) and the extrusion block (325) are both positioned outside the second water outlet component (32), the diameter of the part of the push rod (322) close to the push block (323) is smaller than that of the water inlet hole, the push block (323) is a cone which is gradually reduced towards the water outlet, the bottom surface of the push block (323) is attached to the outer surface of the water inlet hole, a third compression spring (326) is sleeved on the push rod (322), a limit boss (324) is formed on the push rod (322) far away from the push block (323), one end of the third compression spring (326) is tightly pressed against the limit boss (324), the other end of the second water outlet component props against the lower surface of the second water outlet component (32), and a water outlet pipe (327) is fixed on the second water outlet component (32) above the limiting boss (324).

8. A novel low pressure vessel of hydrogen-rich water as claimed in claim 7, characterized in that: the locking piece (36) comprises a locking sleeve (361), the locking sleeve (361) is fixed on the water outlet portion (33) in a tight fit mode, a limiting groove (331) is formed in the outer wall of the water outlet portion (33), the limiting groove (331) is 2 mm-4 mm away from the top end of the water outlet portion (33), a plurality of cylindrical through holes (332) are formed in the outer circumference of the side wall of the water outlet portion (33), the distance between each through hole (332) and the top end of the water outlet portion (33) is 4 mm-6 mm, a locking ball (362) is assembled in each through hole 332 in a sliding mode, the locking ball (362) is located in each through hole (332) and moves along the axial lead direction of each through hole (332), the diameter of each through hole (332) is equal to that of the locking ball (362), the two ends of each through hole (332) bend 0.3 mm-0.5 mm towards the direction of the locking ball (362), and the diameter of each locking ball (362) is larger than the length D of, a conical locking block (363) is formed on the inner wall of the locking sleeve (361) and close to the locking ball (362), the outer diameter of the conical locking block (363) is gradually reduced along the top end direction of the water outlet portion (33), the lower end of the conical locking block (363) abuts against the outer wall of the water outlet portion (33), the middle portion of the conical locking block (363) abuts against the locking ball (362), a first compression spring (364) is fixed between the lower surface of the conical locking block (363) and the inner side wall of the limiting groove (331), one end of the first compression spring (364) is fixed on the inner side wall of the limiting groove (331), and the other end of the first compression spring (364) is fixed on the lower surface of the conical locking block (363).

9. A novel low pressure vessel of hydrogen-rich water as defined in claim 8, wherein: the outer side surface of the second water outlet component (32) is provided with a ball limiting groove (327), the size and the shape of the ball limiting groove (327) are matched with those of the locking balls (362), a sealing groove is formed in the inner side wall of the water outlet part (33) above the plug core (374), and a sealing ring (339) is fixed in the sealing groove.

10. A novel low pressure vessel of hydrogen-rich water as claimed in claim 1, characterized in that: the trapezoidal hoop (10) comprises a hoop body (101) and a fastener (102) for locking the hoop body (101), wherein a trapezoidal groove (103) is formed in the inner side face of the hoop body (101), and the opening size of the trapezoidal groove (103) is gradually reduced from the inner side face of the hoop body (101) to the outer side face of the hoop body.