CN107473335A - Compression-resistant type hydrogen-rich cup - Google Patents

Abstract

The invention discloses a kind of compression-resistant type hydrogen-rich cup, including cup, hydrogen-oxygen electrolysis unit is provided with cup；Hydrogen-oxygen electrolysis unit includes box body, lid, minus plate, ionic membrane and positive plate；The upper surface of box body is provided with electrolytic cell and the anode board slot communicated with electrolytic cell, and positive plate is contained in negative electrode board slot and positioned at the top of electrolytic cell；Lid is provided with axially extending bore, and the lower surface of lid is provided with the negative electrode board slot communicated with axially extending bore, and minus plate is contained in negative electrode board slot and positioned at the lower section of axially extending bore；Box body and lid fit sealing, ionic membrane are clamped between minus plate and positive plate；The lower surface of minus plate is close in the upper surface of ionic membrane, and the upper surface of positive plate is close in the lower surface of ionic membrane.The hydrogen-oxygen electrolysis unit of the hydrogen-rich cup has stronger anti-pressure ability, effectively ionic membrane can be avoided to deform upon, so as to ensure the quality of hydrogen rich water.

Description

Compression-resistant type hydrogen-rich cup

Technical field

The present invention relates to hydrogen-rich water generating device technical field, more particularly to a kind of compression-resistant type hydrogen-rich cup.

Background technology

Hydrogen rich water, as the term suggests it is exactly the water rich in hydrogen.Hydrogen rich water is containing hydrogen, water for the effect essence of health The carrier of hydrogen is only used as, itself does not play a role.After drinking hydrogen rich water, hydrogen is faster absorbed by intestines and stomach than water and enters blood Liquid, each organ-tissue of whole body is transported by systemic blood circulation.The biological action of hydrogen is to remove activity in vivo oxygen Or free radical, human body is because ultraviolet irradiation, environmental pollution, vigorous exercise, Smoking And Drinking, fatigue, psychological air pressure are excessive, medicine etc. Reason can produce excess activity oxygen radical, and oxidative damage caused by active oxygen radical increase is a variety of diseases of human body and aging Major reason；Another big feature of hydrogen is biological safety, and high concentration hydrogen, which is applied to mankind's diving, more than 50 years history, Do not find that any breathing high pressure hydrogen has overt toxicity effect.Related at present on hydrogen treating with improving the research field of health And：Cancer, artery sclerosis, hypertension, hyperglycaemia, high fat of blood, gout, liver and kidney disease, rheumatoid, allergy, asthma, old age are silly Slow-witted, Parkinson, depression etc. more than 70 plants disease.

The hydrogen-rich cup of prior art includes cup and cup, is provided with electrolytic cell in cup, hydrogen-oxygen is fixed with electrolytic cell Electrolysis unit, described hydrogen-oxygen electrolysis unit is the core component of hydrogen-rich cup, for hydrone to be electrolyzed to produce into hydrogen ion and oxygen Ion.Hydrogen-oxygen electrolysis unit includes minus plate, ionic membrane and the positive plate set gradually from top to bottom.The hydrogen rich water of prior art Edge after cup combines minus plate, ionic membrane and positive plate is fixed in electrolytic cell, minus plate and ionic membrane and positive plate with It is to form cavity between ionic membrane, during electrolysis water, caused hydrogen ion is more and more in cup, above and below ionic membrane The pressure born can be uneven, and the pressure on the upside of ionic membrane can be more than the pressure of downside, so as to cause ionic membrane to deform upon, office Portion is stretched, and the oxygen on the downside of ionic membrane and ozone is escaped and is run up, is dissolved in water, so as to influence the matter of water in cup Amount.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of compression-resistant type hydrogen-rich cup, the hydrogen-oxygen electrolysis of the hydrogen-rich cup Component has stronger anti-pressure ability, effectively ionic membrane can be avoided to deform upon, so as to ensure the quality of hydrogen rich water.

The technical solution of the present invention is to provide a kind of compression-resistant type hydrogen-rich cup with following structure, including cup, Hydrogen-oxygen electrolysis unit is provided with described cup；Described hydrogen-oxygen electrolysis unit include box body, lid, minus plate, ionic membrane and Positive plate；The upper surface of described box body is provided with electrolytic cell and the anode board slot communicated with electrolytic cell, described positive plate house In described negative electrode board slot and positioned at the top of described electrolytic cell；Described lid is provided with axially extending bore, described box The lower surface of lid is provided with the negative electrode board slot communicated with described axially extending bore, and described minus plate is contained in described negative electrode board slot Lower section interior and positioned at described axially extending bore；Described box body and lid fit sealing, described ionic membrane are clamped in described Minus plate and positive plate between；It is close to the lower surface of described minus plate, described ion in the upper surface of described ionic membrane It is close to the upper surface of described positive plate in the lower surface of film.

After above structure, compression-resistant type hydrogen-rich cup of the invention, compared with prior art, there is advantages below：

Due to the present invention compression-resistant type hydrogen-rich cup hydrogen-oxygen electrolysis unit include box body, lid, minus plate, ionic membrane and Positive plate, described box body and lid fit sealing, described ionic membrane are clamped between described minus plate and positive plate；Institute The lower surface of described minus plate is close in the upper surface for the ionic membrane stated, and described anode is close in the lower surface of described ionic membrane The upper surface of plate, greatly reduces the cavity between minus plate and ionic membrane and positive plate and ionic membrane, also makes minus plate, ionic membrane And the more firm stable of the package assembly between positive plate three, so as to greatly improve the anti-pressure ability of hydrogen-oxygen electrolysis unit.

As an improvement, sealed between described minus plate upper surface and the bottom land of negative electrode board slot by negative electrode sealing ring.Adopt After such a structure so that the sealing effectiveness between minus plate and negative electrode board slot is preferable.

As an improvement, sealed between described positive plate lower surface and the bottom land of anode board slot by anode seal circle.Adopt After such a structure so that the sealing effectiveness between positive plate and anode board slot is preferable.

As an improvement, described box body is provided with exhaust passage, one end of described exhaust passage connects with electrolytic cell, institute The other end for the exhaust passage stated is in communication with the outside.After adopting the structure, described exhaust passage can be by the oxygen in electrolytic cell Gas and ozone discharge.

As an improvement, the upside of one end of described exhaust passage is provided with breach, described breach and described positive plate Groove connects with electrolytic cell.After adopting the structure, the oxygen at the top of electrolytic cell and ozone can be discharged by described breach.

As an improvement, the other end of described exhaust passage located at described box body upper surface on, described lid with The opening position that the other end of described exhaust passage is corresponding is provided with steam vent；The other end of described exhaust passage with it is described Steam vent aligns and is interconnected.After adopting the structure, the gas of the other end of described exhaust passage is discharged from steam vent.

As an improvement, pass through fastener fit sealing between described box body and lid.After adopting the structure, box body with Fastening effect is preferable between lid.

As an improvement, described box body edge is evenly distributed with multiple nuts along its circumference, described lid edge along its Multiple bolts hole circumferentially are evenly distributed with, bolt passing through bolt hole screws with corresponding nut.After adopting the structure, structure letter Fastening effect between list and box body and lid is preferable, and connection is relatively stable.

As an improvement, the lower surface of described lid is provided with multiple locating dowels, the upper surface of described box body is provided with multiple Positioning hole, described locating dowel are plugged in corresponding positioning hole.After adopting the structure, match somebody with somebody between described box body and lid It is higher to close precision.

As an improvement, it is provided with absorbent wool in described electrolytic cell and positioned at the downside of described positive plate.Using such a knot After structure, described absorbent wool can absorb water the waste water in electrolytic cell, while can also play a part of moisturizing to positive plate, so that anode Plate energy normal work.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 2 is the configuration schematic diagram of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 3 is the dimensional structure diagram of the cup of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 4 is the configuration schematic diagram of the cup of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 5 is the dimensional structure diagram of the hydrogen-oxygen electrolysis unit of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 6 is the configuration schematic diagram of the hydrogen-oxygen electrolysis unit of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 7 is the dimensional structure diagram of the lid of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 8 is the dimensional structure diagram of the lid of another angle of the compression-resistant type hydrogen-rich cup of the present invention.

Fig. 9 is the dimensional structure diagram of the box body of the compression-resistant type hydrogen-rich cup of the present invention.

Figure 10 is the part assembling structure schematic diagram of the compression-resistant type hydrogen-rich cup of the present invention.

Figure 11 is the part assembling structure schematic diagram of the compression-resistant type hydrogen-rich cup of the present invention.

Shown in figure：1st, cup, 101, joint, 102, body, 103, connector, 2, cup, 201, screwed hole, 202, axle Set, 3, hydrogen-oxygen electrolysis unit, 301, box body, 302, lid, 303, minus plate, 304, ionic membrane, 305, positive plate, 306, electrolysis Groove, 307, anode board slot, 308, axially extending bore, 309, negative electrode board slot, 310, negative electrode sealing ring, 312, exhaust passage, 313, row Stomata, the 314, the 3rd sealing ring, 315, locating dowel, 316, positioning hole, 317, connecting shaft, 318, anode seal circle, 319, first Seal groove, 4, controller, the 5, first sealing ring, the 6, second sealing ring.

Embodiment

The invention will be further described with specific embodiment below in conjunction with the accompanying drawings.

Refer to shown in Fig. 1 to Fig. 4, compression-resistant type hydrogen-rich cup of the invention, including cup 1 and cup 2；Described cup Hydrogen-oxygen electrolysis unit 3 is provided with 2；The upper surface of described cup 2 is provided with the screwed hole with beverage bottle universal standard bore 201, described screwed hole 201 is connected with the electrolytic cell 306 of hydrogen-oxygen electrolysis unit 3；The lower end of described cup 1 is connected with With the joint 101 of the described intracavity inter-connection of cup 1, described joint 101 is externally provided with screw thread, and the described screw thread of joint 101 connects It is connected in described screwed hole 201.

Described cup 1 includes body 102 and connector 103；Described body 102 is connected with described connector 103, Described body 102 is threadedly coupled with described connector 103；Described joint 101 is located under described connector 103 On surface, the described inner chamber of joint 101 and the described intracavity inter-connection of connector 103.

Refer to shown in Fig. 5 to Figure 11, described hydrogen-oxygen electrolysis unit 3 includes box body 301, lid 302, minus plate 303rd, ionic membrane 304 and positive plate 305；The upper surface of described box body 301 is provided with described electrolytic cell 306 and and electrolytic cell The 306 anode board slots 307 communicated, described positive plate 305 are contained in described anode board slot 307 and are located at described electrolysis The top of groove 306；Described lid 302 is provided with axially extending bore 308, the lower surface of described lid 302 be provided with it is described The negative electrode board slot 309 that axially extending bore 308 communicates, described minus plate 303 are contained in described negative electrode board slot 309 and are located at institute The lower section for the axially extending bore 308 stated；Described box body 301 and the fit sealing of lid 302, described ionic membrane 304 are clamped in institute Between the minus plate 303 and positive plate 305 stated；It is close under described minus plate 303 upper surface of described ionic membrane 304 The upper surface of described positive plate 305 is close in surface, the lower surface of described ionic membrane 304.The described upper surface of minus plate 303 Sealed between the bottom land of negative electrode board slot 309 by negative electrode sealing ring 310.The described lower surface of positive plate 305 and anode board slot Sealed between 307 bottom land by anode seal circle 318.In described electrolytic cell 306 and under described positive plate 305 Side is provided with absorbent wool (not shown).

Downside in described cup 2 positioned at described described hydrogen-oxygen electrolysis unit 3 is additionally provided with electric-controlled box, described electricity Controller 4, described minus plate 303 and positive plate 305 are provided with control box to be connected with the described circuit of controller 4.

Described box body 301 is provided with exhaust passage 312, and one end and the electrolytic cell 306 of described exhaust passage 312 connect Logical, the other end of described exhaust passage 312 is in communication with the outside.The upside of one end of described exhaust passage 312 is provided with breach, Described breach connects with described anode board slot 307 and electrolytic cell 306.The other end of described exhaust passage 312 is located at institute On the upper surface for the box body 301 stated, described lid 302 opening position corresponding with the other end of described exhaust passage 312 Provided with steam vent 313；The other end of described exhaust passage 312 aligns and is interconnected with described steam vent 313.Described 314 are sealed by the 3rd sealing ring between box body 301 and lid 302, the 3rd described sealing ring 314 is located at described exhaust and led to The other end in road 312 and the opening position of steam vent 313；The 3rd described sealing ring 314 is used to avoid the gas in exhaust passage 312 Body is escaped between box body 301 and lid 302.

Pass through fastener fit sealing between described box body 301 and lid 302.The described edge of box body 301 is along its week To multiple nuts are evenly distributed with, described lid edge is evenly distributed with multiple bolts hole along its circumference, and bolt passes through bolt Hole screws with corresponding nut.The lower surface of described lid 302 is provided with multiple locating dowels 315, described box body 301 it is upper Surface is provided with multiple positioning holes 316, and described locating dowel 315 is plugged in corresponding positioning hole 316.Described screwed hole and spiral shell Female more than four are preferable, and in this specific embodiment, the quantity of described screwed hole and nut is eight.

The upper surface of described lid 302 is provided with connecting shaft 317, and described connecting shaft 317 is axially arranged with described along it Screwed hole 201；Described screwed hole 201 is connected with described axially extending bore 308；The upper side wall of described cup 2 is provided with Axle sleeve 202, described connecting shaft 317 are linked in described axle sleeve 202.It is close that the upper surface of described lid 302 is provided with first Seal groove 319 and first seal groove 319 is located in described connecting shaft 317；It is provided with the first described seal groove 319 First sealing ring 5, pass through the first described sealing between the first described seal groove 319 and the described lower surface of joint 101 The sealing of circle 5.The second sealing ring 6, upper surface and the lower end of axle sleeve 202 of described lid 302 are sheathed with outside described connecting shaft 317 Sealed between face by the second described sealing ring 6.

In use, pure water is poured into cup 1, controller 4 is opened, minus plate 303 and positive plate 305 start electrolysis water, Slowly ion-permeable film reaches positive plate 305 to hydrone, in electrolytic process, produces hydrogen ion near minus plate 303, hydrogen from Son up runs and is dissolved in water, and is drunk for human body.Oxonium ion is produced near positive plate 305, cation is hindered by ionic membrane 304 Block in the downside of ionic membrane.Oxonium ion combines to form oxygen or ozone with oxonium ion, and oxygen or ozone pass through exhaust passage 312 discharges.

Claims (10)

1. A kind of 1. compression-resistant type hydrogen-rich cup, it is characterised in that：Including cup, hydrogen-oxygen electrolysis unit is provided with described cup；Institute The hydrogen-oxygen electrolysis unit stated includes box body, lid, minus plate, ionic membrane and positive plate；The upper surface of described box body is provided with electricity Solution groove and the anode board slot communicated with electrolytic cell, described positive plate are contained in described negative electrode board slot and are located at described electricity Solve the top of groove；Described lid is provided with axially extending bore, and the lower surface of described lid is provided with and described axially extending bore phase Logical negative electrode board slot, described minus plate are contained in described negative electrode board slot and positioned at the lower section of described axially extending bore；Institute The box body stated and lid fit sealing, described ionic membrane are clamped between described minus plate and positive plate；Described ion The lower surface of described minus plate is close in the upper surface of film, and the upper table of described positive plate is close in the lower surface of described ionic membrane Face.
2. 2. compression-resistant type hydrogen-rich cup according to claim 1, it is characterised in that：Described minus plate upper surface and minus plate Sealed between the bottom land of groove by negative electrode sealing ring.
3. 3. compression-resistant type hydrogen-rich cup according to claim 1 or 2, it is characterised in that：Described positive plate lower surface and sun Sealed between the bottom land of pole plate groove by anode seal circle.
4. 4. compression-resistant type hydrogen-rich cup according to claim 1, it is characterised in that：Described box body is provided with exhaust passage, One end of described exhaust passage connects with electrolytic cell, and the other end of described exhaust passage is in communication with the outside.
5. 5. compression-resistant type hydrogen-rich cup according to claim 4, it is characterised in that：The upside of one end of described exhaust passage Provided with breach, described breach connects with described anode board slot and electrolytic cell.
6. 6. the compression-resistant type hydrogen-rich cup according to claim 1 or 4, it is characterised in that：The other end of described exhaust passage On the upper surface of described box body, the described lid opening position corresponding with the other end of described exhaust passage is provided with Steam vent；The other end of described exhaust passage aligns and is interconnected with described steam vent.
7. 7. compression-resistant type hydrogen-rich cup according to claim 1, it is characterised in that：By tight between described box body and lid Firmware fit sealing.
8. 8. compression-resistant type hydrogen-rich cup according to claim 7, it is characterised in that：Described box body edge is circumferential uniform along it Be distributed with multiple nuts, described lid edge is evenly distributed with multiple bolts hole along its circumference, bolt passing through bolt hole with it is right The nut answered screws.
9. 9. compression-resistant type hydrogen-rich cup according to claim 1, it is characterised in that：The lower surface of described lid is provided with multiple Locating dowel, the upper surface of described box body are provided with multiple positioning holes, and described locating dowel is plugged in corresponding positioning hole.
10. 10. compression-resistant type hydrogen-rich cup according to claim 1, it is characterised in that：In described electrolytic cell and positioned at described The downside of positive plate be provided with absorbent wool.