CN207091137U - Water quality converter - Google Patents
Water quality converter Download PDFInfo
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- CN207091137U CN207091137U CN201720881536.8U CN201720881536U CN207091137U CN 207091137 U CN207091137 U CN 207091137U CN 201720881536 U CN201720881536 U CN 201720881536U CN 207091137 U CN207091137 U CN 207091137U
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Abstract
A kind of water quality converter, including body, hydrone processing structure and structure is refined again.Body opens up a water inlet and a delivery port, enclose the runner of structure one, and with refinement portion again and again, wherein, then the portion of refinement encloses the passage of structure one, runner communicates with passage, water inlet communicates with delivery port one of which with runner, and another one communicates with passage, and wherein external water source enters air stream enter runner from water inlet, subsequently into passage, finally flowed outwardly from delivery port.Hydrone processing structure is located at runner and the water source to entering air stream enter runner is filtered, refines, pressurizes and reduce the effect such as flow velocity.Structure is refined again be located at refine portion again and the water source to entering passage carries out refining effect again.Water source can equably be filtered, refine, pressurize, reduce flow velocity and is refined into again small molecule water body by the utility model.
Description
Technical field
The utility model is related to a kind of water quality converter, it is especially a kind of to filter, refine, pressurize, reduce flow velocity and
The water quality converter at water source is refined again.
Background technology
The purposes at water source is a lot, in addition to drinkable, be alternatively arranged as clean article and be used.Water in living environment now
Source, it there are mostly and many are unfavorable for drinking or reduce penetration and the impurity of cleaning strength.Moreover water source is mainly with macromolecular
The kenel of water body is present in generation, and macromolecular water body detergency is poor, so needing coordinates interface activating agent to remove article
On greasy dirt.Therefore, water source in large natural environment need further conversion water quality can drink, or lifted its penetration and
Cleaning strength, degreased with profit.
Existing water quality converter includes a shell, a Venturi tube and a vortex generating means.Venturi tube and vortex produce
Device is located at enclosure;The effect of Venturi tube mainly increases pressure and flow velocity;The effect of vortex generating means is mainly produced
Raw vortex so that the gas being externally entering is sufficiently mixed with water source and produces multiple microbubbles in the case where intensely agitating.By
This, such a water quality converter can flow out the high rotating speed of high pressure and with microbubble water source, have purify water, sterilize, effect of economizing on water
The clean effect of energy and low chemical cleaner demand, can be widely used in the every profession and trades such as industry, cultivation, medical treatment, beauty.
However, such a existing water quality converter does not have filter material, so without filtering, refinement, pressurization and the effect for reducing flow velocity
Fruit so that contain substantial amounts of impurity into the water source of Venturi tube and vortex generating means, micel is larger, and hydraulic pressure is small, and flow velocity is fast,
So as to which still there is impurity at the water source of final output, be refined into that the effect of small molecule water body is poor, and hydraulic pressure is too small, water outlet excessive velocities without
It is stable.
Furthermore the structure of such a existing water quality converter is excessively complicated, is not easy to manufacture, is also not easy to assembly, cost is high, kills
Bacterium effect is poor.
Utility model content
Main purpose of the present utility model is to provide a kind of water quality converter, can equably filter, refine, pressurizeing,
Reduce flow velocity and refine water source again so that the water source of final output can equably be filtered, refined, pressurization, reduce flow velocity and
Small molecule water body is refined into again.
Another object of the present utility model is to provide a kind of water quality converter, and it is outstanding to slow down the flow velocity effect at water source, tool
There is the effect of stable water outlet.
A further object of the present utility model is to provide a kind of water quality converter, is that can reach production by simple structure
Raw high pressure, high rotating speed, there is microbubble and the clean water source by filtering, filter effect is good, easy to manufacture, good assembling, into
This is low, and bactericidal effect is good.
In order to reach foregoing purpose, the utility model will provide a kind of water quality converter, including a body, a hydrone
Processing structure and structure is refined again and again.
Body opens up a water inlet and a delivery port, encloses the runner of structure one, and with refinement portion again and again, wherein, then refine
Portion encloses the passage of structure one, and runner communicates with passage, and water inlet communicates with delivery port one of which with runner, another one and passage phase
It is logical, wherein, external water source enters air stream enter runner from water inlet, subsequently into the passage for refining portion again, finally from delivery port to outflow
Go out.
Hydrone processing structure is located at runner, and the water source to entering air stream enter runner is filtered, refines, pressurizes and reduce stream
Speed etc. acts on.
Structure is refined again and is located at the portion that refines again, and the water source to entering passage carries out refining effect again.
It is preferred that body includes a housing, a pedestal and a dividing plate, the top of housing opens up water inlet, and pedestal is located at shell
The bottom of body and the bottom of pedestal open up the delivery port, and housing encloses structure runner jointly with pedestal, and water inlet communicates with runner, dividing plate
Including a rake and a vertical component effect, rake extends downwardly through the lower section of water inlet from the side of roof towards the runner of runner
And extend laterally to the madial wall of runner, vertical component effect extended downwardly from one end of roof of the rake away from runner and with stream
The bottom wall in road keeps a segment distance, so as to which runner is separated into a narrow sidepiece, a wide sidepiece and a bottom side, bottom side by the dividing plate
It is communicated between the bottom of narrow sidepiece and the bottom of wide sidepiece, then refines the bottom that portion extends upward through runner from the bottom wall of runner
Sidepiece enters the wide sidepiece of air stream enter runner and is resisted against the side of the vertical component effect of dividing plate, and passage is communicated in the wide sidepiece and delivery port of runner
Between.
It is preferred that the portion of refinement opens up an air admission hole again, air admission hole runs through the external annulus for refining portion again and is communicated in passage
Between exterior space or a gas source;Wherein, then refine structure and include a vortex generating means and a Water outlet, vortex production
Generating apparatus is located at passage, and air admission hole is located at the side of vortex generating means, and Water outlet is located at passage and close to refining portion again
One water outlet end and open up multiple pores.
It is preferred that the portion of refinement extends through delivery port again and some exposes to delivery port, air admission hole positioned at refining again
Portion exposes to the part of delivery port.
It is preferred that refining structure again includes an adapter, adapter is located at located at the top of vortex generating means and spiral shell
The inside in portion is refined again and opens up an axis hole, and the axis hole of adapter communicates with runner, and Water outlet is located at vortex generating means
Bottom and enclose the microbubble of structure one first produce space;Wherein, vortex generating means open up a multiple first longitudinal furrows, circular groove, more
Individual first traverse furrow, a collector groove and multiple second traverse furrows, first longitudinal furrow are located at the inside of vortex generating means and one
End communicates with the axis hole of adapter respectively, and circular groove is located on the outside of vortex generating means, first traverse furrow be respectively communicated with
Between first longitudinal furrow and circular groove, collector groove is located at the lower section of first traverse furrow, by one between first traverse furrow
Baffle plate separates, and produces space with the first microbubble through the bottom of vortex generating means and communicate, second traverse furrow point
It is not communicated between circular groove and collector groove, the circular groove of the position correspondence vortex generating means of air admission hole.
It is preferred that the outstanding air inlet pipe of the external annulus for refining portion again, the lateral wall of housing open up a jack, air inlet pipe
Extend through runner and insert jack, air admission hole runs through air inlet pipe, be communicated in passage and exterior space or gas source it
Between.
It is preferred that refining structure again includes an adapter, adapter is located at located at the top of vortex generating means and spiral shell
The water inlet end in portion is refined again and opens up an axis hole, and the axis hole of adapter communicates with runner, one first micro- gas of water outlet head circumference structure
Bubble produces space, and a segment distance is kept between vortex generating means and Water outlet and one second microbubble is defined in the passage
Space is produced, the first microbubble produces space and communicated with the second microbubble generation space;Wherein, vortex generating means open up multiple
First longitudinal furrow, a circular groove, multiple first traverse furrows, a collector groove and multiple second traverse furrows, first longitudinal furrow produce positioned at vortex
The inside of device and its one end communicates with the axis hole of adapter respectively, circular groove is located on the outside of vortex generating means, described
First traverse furrow is respectively communicated between first longitudinal furrow and circular groove, and collector groove is located at the lower section of first traverse furrow, and described
Separated between first traverse furrow by a baffle plate, and space phase is produced with the second microbubble through the bottom of vortex generating means
Logical, second traverse furrow is respectively communicated between circular groove and collector groove, the circular groove of the position correspondence vortex generating means of air admission hole.
It is preferred that hydrone processing structure includes one first block filter material, one second block filter material and the filter of multiple graininess
Material, the first block filter material have multiple holes and are located at narrow sidepiece, and the second block filter material has multiple holes and is located at wide sidepiece
And around the first half for refining portion again, partial particulate shape filter material is located at the top of narrow sidepiece and between water inlet and the first block filter
Between the top of material, partial particulate shape filter material is located at the bottom of narrow sidepiece, the bottom of wide sidepiece and bottom side and between first, the
Between the bottom of two block filter materials and around the lower half for refining portion again, partial particulate shape filter material is located at the top of wide sidepiece and Jie
Between the top for the block filter material in top and second for refining portion again.It is preferred that the first block filter material and the second block filter material are
Far-infrared ray ceramic, the graininess filter material are far-infrared ray ceramic, medical stone, tourmaline, phyllite, zeolite, calcium sulfite
Or its combination.
It is preferred that water quality converter further includes a filter, located at the top for refining portion again and the wide side of housing is extended to
The madial wall in portion and the vertical component effect of dividing plate;Wherein, hydrone processing structure includes multiple graininess filter materials, and it is narrow to be respectively arranged on this
Sidepiece, bottom side and wide sidepiece are located at the space below the bottom surface of filter, and around refining portion again, the wide sidepiece be located at every
The space more than top surface of net is without any filter material.It is preferred that the graininess filter material be far-infrared ray ceramic, medical stone, electrically
Stone, phyllite, zeolite, calcium sulfite or its combination.
It is preferred that body includes a housing, a pedestal and a sleeve, the top of housing opens up water inlet, and pedestal is located at shell
The bottom of body, the bottom of pedestal open up delivery port in place of the side wall of pedestal, and housing encloses structure runner, water inlet jointly with pedestal
Communicated with runner, sleeve is located at water inlet, opens up a sleeve axis hole inside it, and its side wall opens up an open-work, inside sleeve axis hole
One ramp is set, and open-work is located at the opposite of ramp and is communicated between sleeve axis hole and runner, then refines portion from runner
Bottom wall upwardly extend, its side is resisted against the madial wall of housing, and opposite side is resisted against the opposite side of the open-work of sleeve, and top is supported
The top of housing is against, passage is communicated between runner and delivery port.
It is preferred that the portion of refinement opens up an air admission hole again, air admission hole runs through the external annulus for refining portion again and is communicated in passage
Between exterior space or a gas source;Wherein, then refine structure and include a vortex generating means and a Water outlet, vortex production
Generating apparatus is located at passage, and air admission hole is located at the side of vortex generating means, and Water outlet is located at passage and close to refining portion again
One water outlet end and open up multiple pores.
It is preferred that the portion of refinement extends through delivery port again and some exposes to delivery port, air admission hole positioned at refining again
Portion exposes to the part of delivery port.
It is preferred that refining structure again includes an adapter, adapter is located at located at the top of vortex generating means and spiral shell
The inside in portion is refined again and opens up an axis hole, and the axis hole of adapter communicates with runner, and Water outlet is located at vortex generating means
Bottom and enclose the microbubble of structure one first produce space;Wherein, vortex generating means open up a multiple first longitudinal furrows, circular groove, more
Individual first traverse furrow, a collector groove and multiple second traverse furrows, first longitudinal furrow are located at the inside of vortex generating means and one
End communicates with the axis hole of adapter respectively, and circular groove is located on the outside of vortex generating means, first traverse furrow be respectively communicated with
Between first longitudinal furrow and circular groove, collector groove is located at the lower section of first traverse furrow, by one between first traverse furrow
Baffle plate separates, and produces space with the first microbubble through the bottom of vortex generating means and communicate, second traverse furrow point
It is not communicated between circular groove and collector groove, the circular groove of the position correspondence vortex generating means of air admission hole.
It is preferred that the lateral wall of housing opens up a transfer port, air admission hole communicates with transfer port, to be communicated in passage and outside
Between space or gas source.
It is preferred that refining structure again includes an adapter, adapter is located at located at the top of vortex generating means and spiral shell
The inside in portion is refined again and opens up an axis hole, and the axis hole of adapter communicates with runner, the production of the microbubble of water outlet head circumference structure one first
Raw space, a segment distance is kept between vortex generating means and Water outlet and one second microbubble is defined in passage and produces sky
Between;Wherein, vortex generating means open up multiple first longitudinal furrows, a circular groove, multiple first traverse furrows, a collector groove and multiple second horizontal strokes
Ditch, first longitudinal furrow is located at the inside of vortex generating means and its one end communicates with the axis hole of adapter respectively, circular groove ring
Located at the outside of vortex generating means, first traverse furrow is respectively communicated between first longitudinal furrow and circular groove, collector groove position
Separated between the lower section of first traverse furrow, with first traverse furrow by a baffle plate, and through vortex generating means
Bottom and with the second microbubble produce space communicate, second traverse furrow is respectively communicated between circular groove and collector groove, air admission hole
Position correspondence vortex generating means circular groove.
It is preferred that the opposite side for refining portion again opens up a window, water quality converter further includes two filters, two filter difference
Refine the top of structure located at window and again, what the opposite side of the open-work of sleeve was resisted against and closed part is arranged on window
The filter of mouth;Wherein, hydrone processing structure includes multiple graininess filter materials, located at runner and around refining portion again.Preferably
Ground, the graininess filter material are far-infrared ray ceramic, medical stone, tourmaline, phyllite, zeolite, calcium sulfite or its combination.
The effect of the utility model, is that it is possible to equably filter, refines, pressurizes, reducing flow velocity and refine water source again, makes
Obtaining the water source of final output can equably be filtered, refine, pressurize, reduce flow velocity and be refined into small molecule water body again.By
Experiment test, the breadth of nuclear magnetic resonance half of the small molecule water body is about 65 hertz.It is not only suitable for drinking, and penetration and washes
The lifting degree of resulting net force reaches most perfect condition.Furthermore the flow velocity effect that the utility model slows down water source is very outstanding, have steady
Make the effect of water.In addition, the utility model be able to can reach by simple structure produces high pressure, high rotating speed, with micro-
Bubble and the clean water source by filtering, filter effect is good, easy to manufacture, and good assembling, cost is low, and bactericidal effect is good.
Brief description of the drawings
Figure 1A is the stereogram of the first embodiment of water quality converter of the present utility model.
Figure 1B is the exploded view of the first embodiment of water quality converter of the present utility model.
Fig. 1 C are the sectional view of the first embodiment of water quality converter of the present utility model.
Fig. 1 D are the first embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Fig. 1 E are that the vortex generating means of the first embodiment of water quality converter of the present utility model produce the signal of vortex
Figure.
Fig. 2A is the exploded view of the second embodiment of water quality converter of the present utility model.
Fig. 2 B are the sectional view of the second embodiment of water quality converter of the present utility model.
Fig. 2 C are the second embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Fig. 3 A are the exploded view of the 3rd embodiment of water quality converter of the present utility model.
Fig. 3 B are the sectional view of the 3rd embodiment of water quality converter of the present utility model.
Fig. 3 C are the 3rd embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Fig. 4 A are the exploded view of the fourth embodiment of water quality converter of the present utility model.
Fig. 4 B are the sectional view of the fourth embodiment of water quality converter of the present utility model.
Fig. 4 C are the fourth embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Fig. 5 A are the exploded view of the 5th embodiment of water quality converter of the present utility model.
Fig. 5 B are the sectional view of the 5th embodiment of water quality converter of the present utility model.
Fig. 5 C are the 5th embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Fig. 6 A are the exploded view of the sixth embodiment of water quality converter of the present utility model.
Fig. 6 B are the sectional view of the sixth embodiment of water quality converter of the present utility model.
Fig. 6 C are the sixth embodiment filtering of water quality converter of the present utility model, refinement, pressurization, reduce flow velocity and thin again
The schematic diagram of change.
Wherein, description of reference numerals is as follows:
The end of 1 tap
10 bodies
11 water inlets
12 delivery ports
13 runners
131 narrow sidepieces
132 wide sidepieces
133 bottom sides
14 refine portion again
1401 water inlet ends
1402 water outlet ends
141 passages
1411 second microbubbles produce space
142 external annulus
143 air admission holes
144 air inlet pipe
145 windows
15 housings
151 jacks
152 transfer ports
16 pedestals
17 dividing plates
171 rakes
172 vertical component effects
18 sleeves
181 sleeve axis holes
182 open-works
183 ramps
20 hydrone processing structures
21 first block filter materials
211 holes
22 second block filter materials
221 holes
23rd, 24,25,26 graininess filter material
30 refine structure again
31 vortex generating means
311 first longitudinal furrows
312 circular grooves
313 first traverse furrows
314 collector grooves
315 second traverse furrows
316 baffle plates
32 Water outlets
321 pores
322 first microbubbles produce space
33 adapters
331 axis holes
40th, 41,42 filter
Embodiment
Coordinate schema and reference to do more detailed description to embodiment of the present utility model below, make to be familiar with ability
The technical staff in domain can implement according to this after this specification is studied carefully.
Figure 1A to Fig. 1 C is referred to, Figure 1A is the stereogram of the first embodiment of water quality converter of the present utility model, is schemed
1B is the exploded view of the first embodiment of water quality converter of the present utility model, and Fig. 1 C are water quality converter of the present utility model
The sectional view of first embodiment, the utility model provide a kind of water quality converter, including a body 10, a hydrone processing structure
20 and again and again refine structure 30.
Body 10 opens up a water inlet 11 and a delivery port 12, encloses the runner 13 of structure one, and with refinement portion 14 again and again.Its
In, then refine portion 14 and enclose the passage 141 of structure one, runner 13 communicates with passage 141, water inlet 11 and the one of which of delivery port 12 and stream
Road 13 communicates, and another one communicates with passage 141.Wherein, external water source enters air stream enter runner 13 from water inlet 11, subsequently into refining again
In the passage 141 in portion 14, finally flowed outwardly from delivery port 12.In the present embodiment, body 10 includes a housing 15, a pedestal
16 and a dividing plate 17;The top of housing 15 opens up the water inlet 11;Pedestal 16 is located at the bottom of housing 15 and the bottom of pedestal 16
Open up the delivery port 12;Housing 15 and pedestal 16 enclose the structure runner 13 jointly, and water inlet 11 communicates with runner 13;Dividing plate 17 includes
One rake 171 and a vertical component effect 172, rake 171 from the side of roof towards the runner 13 of runner 13 extend downwardly through into
The lower section at the mouth of a river 11 and the madial wall for extending laterally to runner 13, vertical component effect 172 is from roof of the rake 171 away from runner 13
One end extend downwardly and keep a segment distance with the bottom wall of runner 13, so as to which runner 13 is separated into a narrow sidepiece by dividing plate
131st, a wide bottom side 133 of sidepiece 132 and one, bottom side 133 are communicated in the bottom of narrow sidepiece 131 and the bottom of wide sidepiece 132
Between;Portion 14 is refined again extends upward through bottom side 133 into wide sidepiece from the bottom wall (that is, the top of pedestal 16) of runner 13
132 and the side of vertical component effect 172 is resisted against, passage 141 is communicated between wide sidepiece 132 and delivery port 12.Wherein, then portion is refined
14 open up an air admission hole 143, and air admission hole 143 runs through the external annulus 142 for refining portion 14 again and is communicated in passage 141 and outside sky
Between or a gas source (not shown) between.
Hydrone processing structure 20 is located at runner 13, and the water source to entering air stream enter runner 13 filtered, refined, being pressurizeed and
The effect such as flow velocity is reduced, as shown in Figure 1 C.In the present embodiment, hydrone processing structure 20 include one first block filter material 21,
One second block filter material 22 and multiple graininess filter materials 23,24,25;First block filter material 21 has multiple holes 211 and is located at
Narrow sidepiece 131;Second block filter material 22 has multiple holes 221 and located at wide sidepiece 132 and around the outer shroud for refining portion 14 again
The first half of wall 142;Partial particulate shape filter material 23 is located at the top of narrow sidepiece 131 and between 11 and first block filter material of water inlet
Between 21 top, partial particulate shape filter material 24 located at the bottom of narrow sidepiece 131, the bottom of wide sidepiece 132 and bottom side 133 and
Between the bottom of the first block 21 and second block filter material 22 of filter material and around the lower half for the external annulus 142 for refining portion 14 again
Portion, partial particulate shape filter material 25 is located at the top of wide sidepiece 132 and between the top and the second block filter material 22 for refining portion 14 again
Top between.Wherein, the first block 21 and second block filter material 22 of filter material is far-infrared ray ceramic, the graininess filter material
23rd, 24,25 be far-infrared ray ceramic, medical stone, tourmaline, phyllite, zeolite, calcium sulfite or its combination;So, first is block
The material of filter material 21, the second block filter material 22 and the graininess filter material 23,24,25 is not so limited, any to have filtering
The material of function can all be used as the first block filter material 21, the second block filter material 22 and the graininess filter material 23,24,25, and
And cover among the scope of the utility model, first give chat it is bright.
Structure 30 is refined again be located at refine portion 14 again and the water source to entering passage 141 carries out refining effect again.It is brighter
Really say, then refine structure 30 to include a vortex generating means 31 and a Water outlet 32, vortex generating means 31 are located at passage
141, air admission hole 143 is located at the side of vortex generating means 31, and Water outlet 32 is located at passage 141 and close to refining portion 14 again
One water outlet end 1402 and open up multiple pores 321.In the present embodiment, then refine portion 14 and extend through delivery port 12 and have
A part exposes to delivery port 12, and air admission hole 143 is located at refines the part that portion 14 exposes to delivery port 12 again;Structure 30 is refined again
Also include an adapter 33, adapter 33 is located at located at the top of vortex generating means 31 and spiral shell refines the inside in portion 14 simultaneously again
And an axis hole 331 is opened up, the axis hole 331 of adapter 33 communicates with runner 13;Water outlet 32 encloses the microbubble of structure one first and produces sky
Between 322.Converged it is preferred that vortex generating means 31 open up multiple first longitudinal furrows 311, a circular groove 312, multiple first traverse furrows 313, one
Collect groove 314 and multiple second traverse furrows 315;First longitudinal furrow 311 is located at the inside of vortex generating means 31 and its one end point
Do not communicated with the axis hole 331 of adapter 33;Circular groove 312 is located on the outside of vortex generating means 31;First traverse furrow 313 divides
It is not communicated between first longitudinal furrow 311 and circular groove 312;Collector groove 314 is located at the lower section of first traverse furrow 313, with institute
State and separated by a baffle plate 316 between the first traverse furrow 313, and through the bottom of vortex generating means 31 and with the first microbubble
Space 322 is produced to communicate;Second traverse furrow 315 is respectively communicated between circular groove 312 and collector groove 314;The position of air admission hole 143
Put the circular groove 312 of corresponding vortex generating means 31.
The first embodiment that Fig. 1 D and Fig. 1 E, Fig. 1 D are water quality converter of the present utility model is referred to filter, refine, add
Pressure, flow velocity and the schematic diagram refined again are reduced, Fig. 1 E are the vortex production of the first embodiment of water quality converter of the present utility model
Generating apparatus produces the schematic diagram of vortex.Water inlet 11 is connected to the end 1 of a tap first and opens tap so that
One water source enters the top of the narrow sidepiece 131 of air stream enter runner 13 by the end 1 and water inlet 11 of tap.When water source enters air stream enter runner
During the top of 13 narrow sidepiece 131, can first touch the graininess filter material 23 positioned at herein, with carry out preliminary filtering, refinement,
Pressurization and the effect for reducing flow velocity.Water source can also further slow down its flow velocity in the rake 171 for striking dividing plate 17 herein.
Then, water source is by the hole 211 of the first block filter material 21, to carry out second filtering, refinement, pressurization and the work for reducing flow velocity
With.Again come, water source by the bottom of the narrow sidepiece 131 positioned at runner 13, the bottom of wide sidepiece 132 and bottom side 133 and between
Graininess filter material 24 between the bottom of first block filter material 21 and the bottom of the second block filter material 22, to carry out the 3rd mistake
Filter, refinement, pressurization and the effect for reducing flow velocity.Then, water source is by the hole 221 positioned at the second block filter material 22, to carry out
4th filtering, refinement, pressurization and the effect for reducing flow velocity.Come again, water source passes through the graininess positioned at the top of wide sidepiece 132
Filter material 25, to carry out the 5th filtering, refinement, pressurization and the effect for reducing flow velocity.By hydrone processing structure 20 and dividing plate
The Multi-channel filtering of 17 rake 171, refinement, pressurization and reduce flow velocity effect water source, its with just from the end 1 of tap
Compared during input, be filtered been considerably impurity, hydrone is also refined smaller, and hydraulic pressure also increases, and flow velocity is also suitable
Ground is slow.Then, smaller, the hydraulic pressure that clean, hydrone is refined increase and the slow water source of flow velocity enters passage 141.Water source
When by passage 141, the axis hole 331 of adapter 33 is first passed through, it is vertical to enter described the first of vortex generating means 31
Ditch 311.After water source longitudinally flows through first longitudinal furrow 311 down, outwards turn and enter first traverse furrow 313;Then, water
Source is laterally outwardly passed through after first traverse furrow 313, and turning enters circular groove 312;Water source longitudinally flow through down circular groove 312 it
Afterwards, second traverse furrow 315 is entered to inside turn;Water source lateral inward is passed through after second traverse furrow 315, into collector groove
314.Wherein, gas by air admission hole 143 enter vortex generating means 31 circular groove 312 in, so as to water source in circular groove 312 with
Gas is sufficiently mixed and produces multiple microbubbles in the case where intensely agitating.Thereby, water source can produce it is high-revolving vortex and
More tiny subset is refined into again, then entering the first microbubble with turbulent state produces space 322, and intensely
Surge is lower to produce more microbubbles.Finally, water source passes through the pore 321 of Water outlet 32 again so that the microbubble quilt
The pore 321 cuts into more tiny microbubble.Finally, it can equably be filtered from the water source of the present embodiment outflow, be thin
Change, pressurize, reduce flow velocity, improve rotating speed, there are more tiny microbubbles and be refined into small molecule water body again, when micro- gas
When bubble explosion, it impacts the cell membrane that power is enough to break up bacterium, to reach excellent bactericidal effect.Thereby, this practicality
It is new to reach generation high pressure, high rotating speed by simple structure, there is microbubble and the clean water source by filtering,
Filter effect is good, easy to manufacture, and good assembling, cost is low, and bactericidal effect is good.
Furthermore by experiment test, the breadth of nuclear magnetic resonance half for the small molecule water body that the utility model is obtained is about 65
Hertz.It is not only suitable for drinking, and the lifting degree of penetration and cleaning strength reaches most perfect condition.Above-mentioned cleaning strength is such as with clear
Exemplified by managing oil stain, using small molecule water body possessed characteristic in itself, by penetrating into the gap of oil stain and attaching surface, and then subtract
The adhesion of few oil stain and contact surface area, reduction oil stain and attaching surface, now, user is i.e. using containing described small
The cloth body of molecule water body easily by oil stain wipe remove, for deoiling, decontamination there is height convenience, without coordinates interface live
Property agent.
In addition, reduction flow velocity effect of the utility model for water source is very outstanding so that the water source of final output is with slow
Slow flow velocity water outlet, there is the effect for stablizing water outlet.
Fig. 2A and Fig. 2 B are referred to, Fig. 2A is the exploded view of the second embodiment of water quality converter of the present utility model, is schemed
2B is the sectional view of the second embodiment of water quality converter of the present utility model.Second embodiment and first embodiment difference
It is, the spiral shell of adapter 33 is located at the water inlet end 1401 for refining portion 14 again, is protected between vortex generating means 31 and Water outlet 32
Hold a segment distance and defined in passage 141 one second microbubble produce space 1411, the first microbubble produce space 322 with
And collector groove 314 all communicates with the second microbubble space 1411, then refine the outstanding air inlet pipe of external annulus 142 in portion 14
144, the lateral wall of housing 15 opens up a jack 151, and air inlet pipe 144 extends through runner 13 and inserts jack 151;Air admission hole
143 run through air inlet pipe 144, to be communicated between passage 141 and exterior space or gas source, and the vortex production of its position correspondence
The circular groove 312 of generating apparatus 31.
Fig. 2 C are referred to, Fig. 2 C are the second embodiment filtering of water quality converter of the present utility model, refine, pressurize, drop
Low flow velocity and the schematic diagram refined again.Second embodiment produces with first embodiment to be filtered, refines, pressurizeing, reduces flow velocity, improve
Rotating speed, have more tiny microbubbles and be refined into again small molecule water body principle and result it is identical, difference is only
It is, gas is entered by the air admission hole 143 in air inlet pipe 144 in the circular groove 312 of vortex generating means 31, so as to which water source exists
It is sufficiently mixed in circular groove 312 with gas and produces multiple microbubbles in the case where intensely agitating, is then sequentially led to turbulent state
Cross the second microbubble and produce the microbubble of space 1411 and first generation space 322, and produced more in the case where intensely agitating
Microbubble.
Refer to the exploded view for the 3rd embodiment that Fig. 3 A and Fig. 3 B, Fig. 3 A are water quality converter of the present utility model, figure
3B is the sectional view of the 3rd embodiment of water quality converter of the present utility model.In the third embodiment, water quality converter more wraps
Include a filter 40, located at the top for refining portion 14 again and extend to the wide sidepiece of housing 10 madial wall and dividing plate 17 hang down
Straight portion 172.Hydrone processing structure 20 only includes multiple graininess filter materials 26, be respectively arranged on narrow sidepiece 131, bottom side 133 with
And wide sidepiece 132 is located at the space below the bottom surface of filter 40, and around portion 14 is refined again, wide sidepiece 132 is located at filter 40
Top surface more than space without any filter material.In addition, remaining structure is identical with first embodiment.And the effect master of filter 40
If graininess filter material 26 is avoided to be stuck in the water inlet end 1401 for refining portion 14 again or even drop in passage 141, after influenceing
The effect of continuous refining effect again.
Fig. 3 C are referred to, Fig. 3 C are the 3rd embodiment filtering of water quality converter of the present utility model, refine, pressurize, drop
Low flow velocity and the schematic diagram refined again.Water inlet 11 is connected to the end 1 of tap first and opens tap so that water
Air stream enter runner 13 is entered in source by the end 1 and water inlet 11 of tap, touches graininess filter material 26, to carry out preliminary mistake
Filter, refinement, pressurization and the effect for reducing flow velocity;Meanwhile water source strikes the rake 171 of dividing plate 17 and further slows down its stream
Speed.After completing preliminary filtering, refinement, pressurization and the effect of reduction flow velocity, water source enters back into passage 141 by filter 40,
Down-stream is then identical with first embodiment.
Refer to the exploded view for the fourth embodiment that Fig. 4 A and Fig. 4 B, Fig. 4 A are water quality converter of the present utility model, figure
4B is the sectional view of the fourth embodiment of water quality converter of the present utility model.In the fourth embodiment, water quality converter more wraps
Include filter 40, located at the top for refining portion 14 again and extend to the wide sidepiece of housing 10 madial wall and dividing plate 17 it is vertical
Portion 172.Hydrone processing structure 20 only includes multiple graininess filter materials 26, be respectively arranged on narrow sidepiece 131, bottom side 133 and
Wide sidepiece 132 is located at the space below the bottom surface of filter 40, and around portion 14 is refined again, wide sidepiece 132 is located at filter 40
Space more than top surface is without any filter material.In addition, remaining structure is identical with second embodiment.And the effect of filter 40 is main
It is to avoid graininess filter material from being stuck in the water inlet end 1401 for refining portion 14 again or even drop in passage 141, influences follow-up
The effect of refining effect again.
Fig. 4 C are referred to, Fig. 4 C are the fourth embodiment filtering of water quality converter of the present utility model, refine, pressurize, drop
Low flow velocity and the schematic diagram refined again.Water inlet 11 is connected to the end 1 of tap first and opens tap so that water
Air stream enter runner 13 is entered in source by the end 1 and water inlet 11 of tap, touches graininess filter material 26, to carry out preliminary mistake
Filter, refinement, pressurization and the effect for reducing flow velocity;Meanwhile water source strikes the rake 171 of dividing plate 17 and further slows down its stream
Speed.After completing preliminary filtering, refinement, pressurization and the effect of reduction flow velocity, water source enters back into passage 141 by filter 40,
Down-stream is then identical with second embodiment.
Refer to the exploded view for the 5th embodiment that Fig. 5 A and Fig. 5 B, Fig. 5 A are water quality converter of the present utility model, figure
5B is the sectional view of the 5th embodiment of water quality converter of the present utility model.In the 5th embodiment, the bottom of pedestal 16 is leaned on
Delivery port 12 is opened up in place of the side wall of nearly pedestal 16, body 10 substitutes the dividing plate 17 of previous embodiment with a sleeve 18;Sleeve 18
A sleeve axis hole 181 is opened up located at water inlet 11, inside it, its side wall opens up an open-work 182, and the inside of sleeve axis hole 181 is set
One ramp 183, open-work 182 are located at the opposite of ramp 183 and are communicated between sleeve axis hole 181 and runner 13, then carefully
The side in change portion 14 is resisted against the madial wall of housing 15, and opposite side is resisted against the opposite side of the open-work 182 of sleeve 18 and opened up
One window 145, top are resisted against the top of housing 15;Water quality converter further includes two filters 41,42,41,42 points of two filter
Window 145 and the top of structure 30 She Yu not be refined again, the opposite side of the open-work 182 of sleeve 18 is resisted against and closes portion
The filter 41 for being arranged on window 145 divided;Hydrone processing structure 20 only includes graininess filter material 26, located at runner 13 and ring
Around refining portion 14 again.In addition, remaining structure is identical with first embodiment.And the effect of two filter 41,42 is mainly kept away
Exempt from graininess filter material 26 to drop in the effect in passage 141, influenceing follow-up refining effect again.
Fig. 5 C are referred to, Fig. 5 C are the 5th embodiment filtering of water quality converter of the present utility model, refine, pressurize, drop
Low flow velocity and the schematic diagram refined again.Water inlet 11 is connected to the end 1 of tap first and opens tap so that water
Air stream enter runner 13 is entered in source by the end 1 and water inlet 11 of tap, touches graininess filter material 26, to carry out preliminary mistake
Filter, refinement, pressurization and the effect for reducing flow velocity;Meanwhile water source strikes the ramp 183 of sleeve 18 and further slows down its stream
Speed.After completing preliminary filtering, refinement, pressurization and the effect of reduction flow velocity, water source enters passage 141 by filter 41, so
Pass through filter 42 again afterwards;Down-stream is then identical with first embodiment.
Refer to the exploded view for the sixth embodiment that Fig. 6 A and Fig. 6 B, Fig. 6 A are water quality converter of the present utility model, figure
6B is the sectional view of the sixth embodiment of water quality converter of the present utility model.In the sixth embodiment, the bottom of pedestal 16 is leaned on
Delivery port 12 is opened up in place of the side wall of nearly pedestal 16, body 10 substitutes the dividing plate 17 of previous embodiment with a sleeve 18;Sleeve 18
A sleeve axis hole 181 is opened up located at water inlet 11, inside it, its side wall opens up an open-work 182, and the inside of sleeve axis hole 181 is set
One ramp 183, open-work 182 are located at the opposite of ramp 183 and are communicated between sleeve axis hole 181 and runner 13, then carefully
The side in change portion 14 is resisted against the madial wall of housing 15, and opposite side is resisted against the opposite side of the open-work 182 of sleeve 18 and opened up
One window 145, top are resisted against the top of housing 15;Water quality converter further includes two filters 41,42,41,42 points of two filter
Window 145 and the top of structure 30 She Yu not be refined again, the opposite side of the open-work 182 of sleeve 18 is resisted against and closes portion
The filter 41 for being arranged on window 145 divided;Hydrone processing structure 20 only includes graininess filter material 26, located at runner 13 and ring
Around refining portion 14 again;The lateral wall of housing 15 opens up a transfer port 152, and air admission hole 143 communicates with transfer port 152, to be communicated in
Between passage 141 and exterior space or gas source;The spiral shell of adapter 33 is located at the inside for refining portion 14 again.In addition, remaining
Structure is identical with second embodiment.And the effect of two filter 41,42 mainly avoids graininess filter material 26 from dropping in passage 141
It is interior, influence the effect of follow-up refining effect again.
Fig. 6 C are referred to, Fig. 6 C are the sixth embodiment filtering of water quality converter of the present utility model, refine, pressurize, drop
Low flow velocity and the schematic diagram refined again.Water inlet 11 is connected to the end 1 of tap first and opens tap so that water
Air stream enter runner 13 is entered in source by the end 1 and water inlet 11 of tap, touches graininess filter material 26, to carry out preliminary mistake
Filter, refinement, pressurization and the effect for reducing flow velocity;Meanwhile water source strikes the ramp 183 of sleeve 18 and further slows down its stream
Speed.After completing preliminary filtering, refinement, pressurization and the effect of reduction flow velocity, water source enters passage 141 by filter 41, so
Pass through filter 42 again afterwards;Down-stream is then identical with second embodiment.
It the foregoing is only to explain preferred embodiment of the present utility model, be not intended to according to this do the utility model
Any formal limitation, therefore, it is all have make relevant any modification of the present utility model or change under identical creation spirit
More, the category that the utility model is intended to protection should be all included in.
Claims (19)
- A kind of 1. water quality converter, it is characterised in that including:One body, a water inlet and a delivery port are opened up, enclose the runner of structure one, and with refinement portion again and again, wherein, this is refined again Portion encloses the passage of structure one, and the runner communicates with the passage, and the water inlet communicates with the delivery port one of which with the runner, another one Communicated with the passage, wherein, external water source enters the runner from the water inlet, in the passage for refining portion again subsequently into this, most Flowed outwardly afterwards from the delivery port;One hydrone processing structure, located at the runner, and the water source to entering the runner is filtered, is refined, pressurizeed and dropped Low flow velocity etc. acts on;AndStructure is refined again and again, refines portion again located at this, and the water source to entering the passage carries out refining effect again.
- 2. water quality converter according to claim 1, it is characterised in that the body include a housing, a pedestal and one every Plate, the top of the housing open up the water inlet, and the pedestal opens up the delivery port located at the bottom of the bottom of the housing and the pedestal, The housing and the pedestal enclose the structure runner jointly, and the water inlet communicates with the runner, and the dividing plate is vertical including a rake and one Portion, the rake extend downwardly through the lower section of the water inlet from the side of roof towards the runner of the runner and extended laterally To the madial wall of the runner, the vertical component effect extended downwardly from one end of roof of the rake away from the runner and with the runner Bottom wall keep a segment distance, one narrow sidepiece, a wide sidepiece and a bottom side, the bottom side are separated into by the dividing plate so as to the runner Portion is communicated between the bottom of the narrow sidepiece and the bottom of the wide sidepiece, this refine again portion upwardly extended from the bottom wall of the runner it is logical The bottom side for crossing the runner enters the wide sidepiece of the runner and is resisted against the side of the vertical component effect of the dividing plate, and the passage is communicated in this Between the wide sidepiece and the delivery port of runner.
- 3. water quality converter according to claim 2, it is characterised in that the portion of refinement opens up an air admission hole again for this, the air inlet Hole refines the external annulus in portion through this and is communicated between the passage and exterior space or a gas source again;Wherein, this refines structure again includes a vortex generating means and a Water outlet, and the vortex generating means are located at the passage, should Air admission hole is located at the side of the vortex generating means, and the Water outlet refines a delivery port in portion located at the passage and close to this again Hold and open up multiple pores.
- 4. water quality converter according to claim 3, it is characterised in that the portion of refinement extends through the delivery port and had again for this A part exposes to the delivery port, and the air admission hole is located at this, and the portion of refinement exposes to the part of the delivery port again.
- 5. water quality converter according to claim 4, it is characterised in that this refines structure again includes an adapter, this turn Joint refines the inside in portion located at this and opens up an axis hole again located at the top of the vortex generating means and spiral shell, the adapter Axis hole communicated with the runner, the Water outlet located at the bottom of the vortex generating means and enclose the microbubble of structure one first produce it is empty Between;Wherein, the vortex generating means open up multiple first longitudinal furrows, a circular groove, multiple first traverse furrows, a collector groove and multiple Two traverse furrows, first longitudinal furrow is located at the inside of the vortex generating means and its one end axis hole phase with the adapter respectively Logical, the circular groove is located on the outside of the vortex generating means, and first traverse furrow is respectively communicated with first longitudinal furrow and the ring Between ditch, the collector groove is located at the lower section of first traverse furrow, is separated between first traverse furrow by a baffle plate, and pass through Wear the bottom of the vortex generating means and produce space with first microbubble and communicate, second traverse furrow is respectively communicated with the ring Between ditch and the collector groove, the circular groove of the position correspondence of the air admission hole vortex generating means.
- 6. water quality converter according to claim 3, it is characterised in that the external annulus outstanding one for refining portion again enter Tracheae, the lateral wall of the housing open up a jack, and the air inlet pipe extends through the runner and inserts the jack, and the air admission hole passes through The air inlet pipe is worn, to be communicated between the passage and exterior space or the gas source.
- 7. water quality converter according to claim 6, it is characterised in that this refines structure again includes an adapter, this turn Joint refines the water inlet end in portion located at this and opens up an axis hole, this turn again located at the top of the vortex generating means and spiral shell The axis hole of joint communicates with the runner, and the microbubble of water outlet head circumference structure one first produces space, and the vortex generating means go out with this A segment distance is kept between head and one second microbubble is defined in the passage and produces space, first microbubble produces empty Between with second microbubble produce space communicate;Wherein, the vortex generating means open up multiple first longitudinal furrows, a circular groove, multiple first traverse furrows, a collector groove and multiple Two traverse furrows, first longitudinal furrow is located at the inside of the vortex generating means and its one end axis hole phase with the adapter respectively Logical, the circular groove is located on the outside of the vortex generating means, and first traverse furrow is respectively communicated with first longitudinal furrow and the ring Between ditch, the collector groove is located at the lower section of first traverse furrow, is separated between first traverse furrow by a baffle plate, and pass through Wear the bottom of the vortex generating means and produce space with second microbubble and communicate, second traverse furrow is respectively communicated with the ring Between ditch and the collector groove, the circular groove of the position correspondence of the air admission hole vortex generating means.
- 8. the water quality converter according to any one of claim 2 to 7, it is characterised in that the hydrone processing structure bag Include one first block filter material, one second block filter material and multiple graininess filter materials, the first block filter material have multiple holes and Located at the narrow sidepiece, the second block filter material has multiple holes and refines the upper half in portion again located at the wide sidepiece and around this Portion, partial particulate shape filter material are located at the top of the narrow sidepiece and between the tops of the water inlet and the first block filter material, Partial particulate shape filter material is located at the bottom of the narrow sidepiece, the bottom of the wide sidepiece and the bottom side and between this first, second piece The lower half in portion is refined between the bottom of shape filter material and around this again, partial particulate shape filter material is located at the top of the wide sidepiece and Jie Refined again between the top in portion and the top of the second block filter material in this.
- 9. water quality converter according to claim 8, it is characterised in that the first block filter material and the second block filter material For far-infrared ray ceramic, the graininess filter material is far-infrared ray ceramic, medical stone, tourmaline, phyllite, zeolite, sulfurous acid Calcium or its combination.
- 10. the water quality converter according to any one of claim 2 to 7, it is characterised in that further include a filter, be located at The madial wall of wide sidepiece and the vertical component effect of the dividing plate that refine the top in portion again and extend to the housing;Wherein, the hydrone processing structure includes multiple graininess filter materials, is respectively arranged on the narrow sidepiece, the bottom side and the width Sidepiece is located at the space below the bottom surface of filter, and refines portion again around this, and the wide sidepiece is located at more than the top surface of the filter Space without any filter material.
- 11. water quality converter according to claim 10, it is characterised in that the graininess filter material is made pottery for far infrared Porcelain, medical stone, tourmaline, phyllite, zeolite, calcium sulfite or its combination.
- 12. water quality converter according to claim 1, it is characterised in that the body includes a housing, a pedestal and a set of Cylinder, the top of the housing open up the water inlet, and the pedestal is located at the bottom of the housing, and the bottom of the pedestal is close to the side of the pedestal The delivery port is opened up in place of wall, the housing and the pedestal enclose the structure runner jointly, and the water inlet is communicated with the runner, and the sleeve is set A sleeve axis hole is opened up in the water inlet, inside it, its side wall opens up an open-work, and a ramp is set inside the sleeve axis hole, The open-work is located at the opposite of the ramp and is communicated between the sleeve axis hole and the runner, and this refines portion from the runner again Bottom wall upwardly extends, and its side is resisted against the madial wall of the housing, and opposite side is resisted against the opposite side of the open-work of the sleeve, top The top of the housing is resisted against, the passage is communicated between the runner and the delivery port.
- 13. water quality converter according to claim 12, it is characterised in that the portion of refinement opens up an air admission hole again for this, and this enters Stomata refines the external annulus in portion through this and is communicated between the passage and exterior space or a gas source again;Wherein, this refines structure again includes a vortex generating means and a Water outlet, and the vortex generating means are located at the passage, should Air admission hole is located at the side of the vortex generating means, and the Water outlet refines a delivery port in portion located at the passage and close to this again Hold and open up multiple pores.
- 14. water quality converter according to claim 13, it is characterised in that this again the portion of refinement extend through the delivery port and Some exposes to the delivery port, and the air admission hole is located at this, and the portion of refinement exposes to the part of the delivery port again.
- 15. water quality converter according to claim 14, it is characterised in that this refines structure again includes an adapter, should Adapter refines the inside in portion located at this and opens up an axis hole again located at the top of the vortex generating means and spiral shell, the switching The axis hole of head communicates with the runner, and the Water outlet is located at the bottom of the vortex generating means and encloses the generation of the microbubble of structure one first Space;Wherein, the vortex generating means open up multiple first longitudinal furrows, a circular groove, multiple first traverse furrows, a collector groove and multiple Two traverse furrows, first longitudinal furrow is located at the inside of the vortex generating means and its one end axis hole phase with the adapter respectively Logical, the circular groove is located on the outside of the vortex generating means, and first traverse furrow is respectively communicated with first longitudinal furrow and the ring Between ditch, the collector groove is located at the lower section of first traverse furrow, is separated between first traverse furrow by a baffle plate, and pass through Wear the bottom of the vortex generating means and produce space with first microbubble and communicate, second traverse furrow is respectively communicated with the ring Between ditch and the collector groove, the circular groove of the position correspondence of the air admission hole vortex generating means.
- 16. water quality converter according to claim 13, it is characterised in that the lateral wall of the housing opens up a transfer port, The air admission hole communicates with the transfer port, to be communicated between the passage and exterior space or the gas source.
- 17. water quality converter according to claim 16, it is characterised in that this refines structure again includes an adapter, should Adapter refines the inside in portion located at this and opens up an axis hole again located at the top of the vortex generating means and spiral shell, the switching The axis hole of head communicates with the runner, and the microbubble of water outlet head circumference structure one first produces space, the vortex generating means and the water outlet A segment distance is kept between head and one second microbubble is defined in the passage and produces space;Wherein, the vortex generating means open up multiple first longitudinal furrows, a circular groove, multiple first traverse furrows, a collector groove and multiple Two traverse furrows, first longitudinal furrow is located at the inside of the vortex generating means and its one end axis hole phase with the adapter respectively Logical, the circular groove is located on the outside of the vortex generating means, and first traverse furrow is respectively communicated with first longitudinal furrow and the ring Between ditch, the collector groove is located at the lower section of first traverse furrow, is separated between first traverse furrow by a baffle plate, and pass through Wear the bottom of the vortex generating means and produce space with second microbubble and communicate, second traverse furrow is respectively communicated with the ring Between ditch and the collector groove, the circular groove of the position correspondence of the air admission hole vortex generating means.
- 18. the water quality converter according to any one of claim 12 to 17, it is characterised in that this refines the another of portion again Side opens up a window, and the water quality converter further includes two filters, and two filter is respectively arranged on the window and this refines structure again Top, the opposite side of the open-work of the sleeve is resisted against and closes the filter for being arranged on window of part;Wherein, the hydrone processing structure includes multiple graininess filter materials, and portion is refined again located at the runner and around this.
- 19. water quality converter according to claim 18, it is characterised in that the graininess filter material is made pottery for far infrared Porcelain, medical stone, tourmaline, phyllite, zeolite, calcium sulfite or its combination.
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CN201720881536.8U CN207091137U (en) | 2017-07-20 | 2017-07-20 | Water quality converter |
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CN201720881536.8U CN207091137U (en) | 2017-07-20 | 2017-07-20 | Water quality converter |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113562898A (en) * | 2020-04-29 | 2021-10-29 | 魏约翰 | Ultra-fine water molecular group processor and water treatment equipment thereof |
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2017
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113562898A (en) * | 2020-04-29 | 2021-10-29 | 魏约翰 | Ultra-fine water molecular group processor and water treatment equipment thereof |
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