The manufacturing device of integral type hydrogen-rich water
Technical field
Present invention relates particularly to a kind of preparation facilities of integral type hydrogen-rich water.
Background technique
Hydrogen-rich water, also known as hydrogen be soaked or the plain water of water, usually will be to the bubble hydrogen generated after water electrolysis system soluble in water
It is standby to form.
The world the PCT patent of invention (103038176 B of Authorization Notice No. CN) for having obtained China's authorization discloses one kind
" Portable hydrogen-rich water generator ", it includes water glass;Electrolytic cell is arranged in water glass lower part;Slot cover;And cup lid,
Above-mentioned electrolytic cell includes negative electrode, positive electrode, macroion exchange resin membrane, gasket, and including that can place drinking-water
The sink mounts of cup;Electrolytic cell is separated negative electrode and positive electrode and structure using macroion exchange resin membrane as boundary
At positive electrode is located at the lower section of negative electrode, and includes sealing in the edge on macroion exchange resin membrane two sides
Pad.
Above-mentioned apparatus is made of the relatively independent water storage device of two parts, wherein the water storage device (i.e. bucket) on the left side
In water drained by water supplying pipe and float valve in open sink mounts, for anode electrolysis plate electrolysis use, the storage on the right
Electrolysis of the water installations (i.e. water glass) for catholyte plate uses.As noted previously, as the water storage tank of sink mounts is to open
Formula is exposed in air for a long time, can generate secondary pollution to electrolysis water, and have an impact to electrolytic zinc-coated steel sheet.Although being located at
The gas that the anode electrolysis plate of lower section generates is oxidant, but since water storage tank opening is exposed in air, so oxidant gas
Body can be reduced quickly, be unable to reach the effect of prevention and treatment secondary pollution.Furthermore when water glass leaves sink mounts, it can generate
The phenomenon that dripping.
The ion concentration height of general drinking water (comprising by pure water, mineral water etc.) is unable to standard on current market
Change and determines, and the height of water ions content understands actual influence to the manufacturing time and molten hydrogen content for being electrolysed hydrogen-rich water.
Therefore, a kind of hydrogen-rich water making device is needed in the prior art, it can effectively avoid the secondary pollution of electrolysis water, prolong
The service life of long electrolytic zinc-coated steel sheet and water dripping phenomenon is avoided to generate, it can stability and high efficiency under the conditions of the drinking water of different ions content
Work can efficiently prepare the high hydrogen-rich water of molten hydrogen content and shorten the time of manufacture hydrogen-rich water.
Summary of the invention
The object of the present invention is to overcome the deficiencies of the prior, and providing a kind of can effectively avoid the two of electrolysis water
Secondary pollution, the service life for extending electrolytic zinc-coated steel sheet, the manufacturing device for the integral type hydrogen-rich water for avoiding water dripping phenomenon from generating.
The present invention is achieved by the following technical solutions: a kind of manufacturing device of integral type hydrogen-rich water, including water glass,
The upper end of the water glass is provided with the first water filling port and the second water filling port, and the water glass is internally provided with and first note
First water storage cavity of mouth of a river connection and the second water storage cavity for be connected to second water filling port, second water storage cavity is by from the
The longitudinal extending cavity and be laterally extended cavity structure from what the lower, transverse of longitudinal extending cavity extended that two water filling ports extend downwardly
At L shape cavity, first water storage cavity is located at the top for being laterally extended cavity, first water storage cavity and the cross
To cation-exchange membrane is provided between extending cavity, cathode electricity is respectively arranged with above and below the cation-exchange membrane
Solution plate and anode electrolysis plate, the catholyte plate, the anode electrolysis plate are located at first water storage cavity and the cross
Into extending cavity.
The upper end of the water glass is provided with the cup lid for closing the first water filling port and the second water filling port, and the cup lid is set
It is equipped with the water outlet being connected to first water filling port.
The catholyte plate, the anode electrolysis plate by titanium plate and are set to the platinum layer on titanium plate surface and constitute.
The cation-exchange membrane is enhanced cation-exchange membrane, which includes that cation is handed over
It changes membrane body and is coated on the reinforcement screen cloth of the cation-exchange membrane outer body.
The bottom of second water storage cavity is provided with water level sensor.
The bottom of second water storage cavity is provided with cationic exchange mechanism, and the cation exchange mechanism includes cation
Exchanger resin and the PP filter cotton for being set to cation exchange resin upper end and lower end.
Further include pedestal, wiring board is provided in the pedestal, base upper surface is provided with the bottom with circuit board electrical connection
Seated connection contact, the bottom surface of the water glass correspond to base contacts and select the drinking-water for being provided with and being electrically connected with electrical part inside water glass
Cup contact point, the base contacts point are touched with the water glass contact point.
The water glass is provided with the ventilation mouth being connected to longitudinal extending cavity, and the horizontal position of the ventilation mouth is high
Cavity is laterally extended in described.
The portion that has vacant position is arranged in the middle section position of longitudinal extending cavity in the water glass, and the ventilation mouth is set to this
The bottom in vacancy portion.
The ventilation mouth is provided with automatic open close leak-proof device, which includes sealing baffle, setting
In sealing the guide rod of baffle lower end and being sheathed on the spring of guide rod lower end, the sealing baffle is located at the ventilation mouth
Top, the water glass correspond to the guide rod and are provided with pilot hole, and guide rod is passed down through the pilot hole from the drink
The lower end of cup is stretched out, and the bottom of the water glass, which is provided with, supports edge, and the upper end of the spring supports this and supports edge, spring
The lower end of the guide rod is fixed in lower end.
The beneficial effects of the present invention are: in the present invention, water glass is designed using integrated built-in, avoid there may be
Secondary pollution, the generation for the phenomenon that extending the service life of electrolytic zinc-coated steel sheet, avoiding water dripping.When work, in reinforced sun
Under the collective effect of ionic membrane and cation exchange resin, electrolysis time is shortened, and different ions content can be corresponded to
Water quality requirement.
Detailed description of the invention
Fig. 1 is overall structure diagram of the invention;
Fig. 2 is the structural schematic diagram of enhanced cation-exchange membrane;
Fig. 3 is the structural schematic diagram of automatic open close leak-proof device open state;
Fig. 4 is the structural schematic diagram of automatic open close leak-proof device closed state.
In figure: 1- water glass;The first water filling port of 2-;The second water filling port of 3-;The first water storage cavity of 4-;The second water storage cavity of 5-;
The longitudinal direction 6- extending cavity;7- is laterally extended cavity;8- cation-exchange membrane;9- cation-exchange membrane ontology;10- reinforces screen cloth;
11- catholyte plate;12- anode electrolysis plate;13- ventilation mouth;14- vacancy portion;15- cup lid;16- water outlet;The induction of 17- water level
Device;18- cation exchange mechanism;19- pedestal;20- seals baffle;21- guide rod;22- supports edge;23- spring.
Specific embodiment
Below in conjunction with attached drawing, the present invention is described in detail.
As shown in Figure 1, a kind of manufacturing device of integral type hydrogen-rich water, including water glass 1, the upper end of water glass 1 are provided with
First water filling port 2 and the second water filling port 3, water glass 1 be internally provided with the first water storage cavity 4 being connected to the first water filling port 2 and with
Second water storage cavity 5 of the second water filling port 3 connection, the second water storage cavity 5 are longitudinal extended cavity by extending downwardly from the second water filling port 3
Body 6 and the L shape cavity for being laterally extended cavity 7 and constituting extended from the lower, transverse of longitudinal extending cavity 6, the first water storage cavity 4
Positioned at the top for being laterally extended cavity 7, the first water storage cavity 4 and it is laterally extended between cavity 7 and is provided with cation-exchange membrane 8, sun
Catholyte plate 11 and anode electrolysis plate 12, catholyte plate 11, anode are respectively arranged with above and below amberplex 8
Electrolytic zinc-coated steel sheet 12 is located at the first water storage cavity 4 and is laterally extended in cavity 7.
In the present invention, the direct Contact cathod electrolytic zinc-coated steel sheet 11 of water in the first water storage cavity 4 of water glass 1, the hydrogen of generation
It steeps soluble in water.Water in second water storage cavity 5 directly contacts anode electrolysis plate 12, the oxygen bubbles generated during the work time.Make
Used time, the water that can will directly drink are put into the first water storage cavity 4 and the second water storage cavity 5 of water glass 1, are powered, are passed through electrolysis
The bubble hydrogen that mode generates is dissolved in the water of the first water storage cavity 4, produces that hydrogen is soaked, and is generated in the water of the second water storage cavity 5
Oxygen discharge cup outside.
Since water glass 1 uses integrated built-in structure, all reaction process all occur inside water glass 1, to keep away
The generation for having exempted from secondary pollution problem increases the service life of electrolytic zinc-coated steel sheet, while 1 lower part of water glass does not have dripping phenomenon.
Referring to Fig. 1, the upper end of water glass 1 is provided with the cup lid 15 for closing the first water filling port 2 and the second water filling port 3,
Cup lid 15 is provided with the water outlet 16 being connected to the first water filling port 2.In use, will be in the first water storage cavity 4 by water outlet 16
Hydrogen is soaked to be poured out, and is drunk for user.
As shown in Fig. 2, cation-exchange membrane 8 is enhanced cation-exchange membrane 8, which is wrapped
It includes cation-exchange membrane ontology 9 and is coated on the reinforcement screen cloth 10 in 9 outside of cation-exchange membrane ontology.Enhanced cation is handed over
The main function for changing film 8 is: in electrolytic process, the cation being laterally extended in cavity 7 can be through this film, into the first storage
In water cavity 4.Enhanced cation-exchange membrane 8 is to increase to reinforce screen cloth 10 on the surface of plain edition amberplex, to increase
Add it to draw high intensity, improve current strength, so as to shorten electrolysis time.The service life of film itself is also increased simultaneously.
Catholyte plate 11, anode electrolysis plate 12 by titanium plate and are set to the platinum layer on titanium plate surface and constitute.Platinum is set
The purpose of layer gold is to guarantee the service life of electrolytic zinc-coated steel sheet for strengthening electric current intensity.
As shown in Figure 1, the bottom of the second water storage cavity 5 is provided with water level sensor 17, water level sensor 17 is used for second
Under 5 exsiccosis of water storage cavity, water deficient reminding function is shown on pedestal 19, facilitates client's moisturizing.
The bottom of second water storage cavity 5 is provided with cationic exchange mechanism 18, and cationic exchange mechanism 18 includes that cation is handed over
It changes resin and is set to the PP filter cotton of cation exchange resin upper end and lower end.The effect of cation exchange resin is to stablize electricity
The cations in slot are solved, more cation permeable cation-exchange membranes 8 is reached in first water storage cavity 4, increases its production
The quantity and stability of raw hydrogen, while helping to shorten electrolysis time.PP filter cotton was used for the impurity in drainage.This device
It is replaceable property.
As shown in Figure 1, being provided with wiring board in pedestal 19 the invention also includes pedestal 19,19 upper surface of pedestal is provided with
With 19 contact point of pedestal of circuit board electrical connection, the bottom surface of water glass 1 correspond to 19 contact point of pedestal be provided with in water glass 1
1 contact point of water glass of portion's electrical part electrical connection, 19 contact point of pedestal is touched with 1 contact point of water glass.Pedestal 19 has micro- electricity
Compensation function is flowed, after manufacture hydrogen is soaked, if water glass 1 continues to be placed on pedestal 19, the program on wiring board will be after
It is continuous that micro-current is provided, for maintaining the molten hydrogen content of drinking water in water glass 1.
Referring to Fig. 1, water glass 1 is provided with the ventilation mouth 13 being connected to longitudinal extending cavity 6, the horizontal position of ventilation mouth 13
Higher than cavity 7 is laterally extended, to avoid gas reverse counterflow.
The portion 14 that has vacant position is arranged in the middle section position of longitudinal extending cavity 6 in water glass 1, and ventilation mouth 13 is set to the vacancy portion
14 bottom.
Water glass 1 is in such a way that mechanical or electronic type opens ventilation mouth, in 12 electrolytic process of anode electrolysis plate, this
When water glass 1 on pedestal 19, the gases such as oxygen of generation, ventilation mouth 13 automatically opens, so that oxygen sufficiently naturally drains;When
In any plane, ventilation mouth 13 also opens simultaneously water glass 1;During water glass 1 pours, ventilation mouth 13 is automatically closed.
It is below the mechanical mode opened, close ventilation mouth 13.
As shown in Figure 3, Figure 4, ventilation mouth 13 is provided with automatic open close leak-proof device, which includes envelope
Mouth baffle 20, the guide rod 21 for being set to sealing 20 lower end of baffle and the spring 23 for being sheathed on 21 lower end of guide rod, sealing gear
Plate 20 is located at the top of ventilation mouth 13, and water glass 1 corresponds to guide rod 21 and is provided with pilot hole, and guide rod 21 is passed down through guiding
Hole is stretched out from the lower end of water glass 1, and the bottom of water glass 1, which is provided with, to be supported along 22, and the upper end of spring 23 is supported this and supported along 22,
The lower end of guide rod 21 is fixed in the lower end of spring 23.
Finally it should be noted that the above content is merely illustrative of the technical solution of the present invention, rather than the present invention is protected
The limitation of range, the simple modification or equivalent replacement that those skilled in the art carry out technical solution of the present invention,
All without departing from the spirit and scope of technical solution of the present invention.