CN102583605A - Multifunctional laminated distilled water preparation device - Google Patents

Multifunctional laminated distilled water preparation device Download PDF

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CN102583605A
CN102583605A CN2012100267263A CN201210026726A CN102583605A CN 102583605 A CN102583605 A CN 102583605A CN 2012100267263 A CN2012100267263 A CN 2012100267263A CN 201210026726 A CN201210026726 A CN 201210026726A CN 102583605 A CN102583605 A CN 102583605A
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ppm
zero
structural unit
water
main housing
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CN102583605B (en
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许世颐
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Abstract

The invention relates to a structure unit for a distilled water preparation device and a multifunctional laminated distilled water preparation device comprising the structure unit. The structure unit comprises a main shell, a non-distilled water storage tank, a non-distilled water diversion pipe, a structure unit interlayer support frame and a distilled water output guiding tube. The multilayer distilled water preparation device is formed by at least one structure unit and a base vessel, can be used for preparing distilled water in a heating or non-heating state, and has the advantages of large unit area and spatial preparation quantity, and convenience in carrying. In addition, the structure unit can be used for collecting rainwater or used as a common liquid container when being inverted.

Description

Multi-functional stacked zero(ppm) water preparation facilities
Technical field
The present invention relates to a kind of structural unit and zero(ppm) water preparation facilities, particularly a kind of multi-functional stacked zero(ppm) water preparation facilities that is used for the structural unit of zero(ppm) water preparation facilities and comprises this structural unit.
Background technology
One of preparation method of zero(ppm) water makes former water evaporation condensing and recycling afterwards; Utilize this method to prepare in the existing preparation facilities of zero(ppm) water; Electric heating or the microwave heatings of adopting prepare zero(ppm) water more, and it all need consume lot of energy, and manufacturing cost is high; And complex structure, be unfavorable for penetration and promotion.And, existing zero(ppm) water preparation facilities function singleness, as utilize type of heating to prepare the device of zero(ppm) water; Under situation about not heating, then can not obtain zero(ppm) water, and mostly existing zero(ppm) water preparation facilities is one-piece construction; In the time zero(ppm) water need not being prepared, often, cause waste just by idle.Existing thus zero(ppm) water preparation facilities can not satisfy extensively universal and with the requirement that simple structure, less cost prepare zero(ppm) water, have further improved space.
Summary of the invention
Deficiency to prior art the objective of the invention is to: a kind of multi-functional structural unit that is used for the zero(ppm) water preparation facilities is provided;
Another purpose of the present invention is: a kind of multi-functional stacked zero(ppm) water preparation facilities that comprises at least one said structural unit is provided.
The complex structure that exists with effective solution existing structure, single and because the limited and wasting problem of function of preparation zero(ppm) water mode.
For realizing above-mentioned purpose, one of technical scheme that the present invention adopts:
A kind of structural unit that is used for the zero(ppm) water preparation facilities is provided, it is characterized in that, comprising: main housing, non-zero(ppm) water holding tank and structural unit interlayer support frame, wherein,
Said main housing is a rotator; Have and be from the centre to dull circular-arc end face and the bottom surface that descends, both sides; And this bottom center position has circular open, seamlessly transits with the transition cambered surface between said end face and said bottom surface, forms the annular groove of collecting zero(ppm) water;
Said structural unit interlayer support frame is with respect to the symmetric hollow cylindrical structure of the turning axle of said main housing rotator, and said structural unit interlayer support frame is fixed in said main housing top and its top is provided with loop bracket;
Said non-zero(ppm) water holding tank is with respect to the symmetric hollow cylindrical of the turning axle of said main housing rotator, its be positioned at said main housing top and and said main housing between for being tightly connected, and be positioned at said structural unit interlayer support frame inboard;
Wherein, In said main housing end face connection non-zero(ppm) water thrust-augmenting nozzle is set; This non-zero(ppm) water thrust-augmenting nozzle be communicated with said main housing inner with said non-zero(ppm) water holding tank, and, be communicated with near the outboard end place at the annular groove of said main housing a zero(ppm) water output duct be set.
In optimized technical scheme: the bus of the end face of said main housing rotator farthest position from the center to the decentering is a dull curve that descends; The bus of the bottom surface of said main housing rotator is a dull curve that descends from the nearest position of decentering to extreme lower position; The bus of the said transition cambered surface of said main housing rotator farthest position from the extreme lower position to the decentering is a dull curve that rises, and the plane, place of place, the edge of the said circular open of the bottom surface of said main housing circle is perpendicular to the turning axle of said main housing rotator.
In optimized technical scheme: the vertex of the inwall lower end of said zero(ppm) water output duct is lower than said circular open edge.
In optimized technical scheme: the shape of said non-zero(ppm) water holding tank is a hollow cylindrical, and the external diameter of said non-zero(ppm) water holding tank is less than or equal to the diameter of said circular open.
In optimized technical scheme: said non-zero(ppm) water thrust-augmenting nozzle is communicated with the non-central location that is fixed on said main housing; And be positioned at the inside that the above part of said main housing end face is positioned at said non-zero(ppm) water holding tank, and its upper surface is lower than the upper surface of said non-zero(ppm) water holding tank.
In optimized technical scheme: the lateral cross section diameter of said structural unit interlayer support frame is greater than said non-zero(ppm) water holding tank diameter and less than the maximum outside diameter of main housing, the shape of the shape of the loop bracket on the said structural unit interlayer support frame top and the annular groove lowest part of said main housing fits like a glove.
For realizing above-mentioned purpose, two of the technical scheme that the present invention adopts:
A kind of multi-functional stacked zero(ppm) water preparation facilities is characterized in that, comprises that at least one is according to the technical scheme one described pedestal vessel that are used for the structural unit of zero(ppm) water preparation facilities and are positioned at the below of said at least one structural unit.
In optimized technical scheme: the upper edge of said pedestal vessel has identical geometrical shape with the loop bracket of the said structural unit interlayer support frame of said structural unit.
In optimized technical scheme: range upon range of between said each structural unit according to upper and lower mode; The said loop bracket of this layer said structural unit interlayer support frame supports the said transition cambered surface lowest part of said main housing of the structural unit of last layer with the mode of tight contact; Thereby the structural unit of stable support last layer; And, the said non-zero(ppm) water holding tank of this layer structural unit combine closely the last layer structural unit said main housing and do not contact the inside top surface of the said main housing of last layer; Wherein, Between the said non-zero(ppm) water thrust-augmenting nozzle of said each structural unit and the angle of the angle at center be between 30 ° to 330 °; And; The said zero(ppm) water output duct of said each structural unit is positioned at non-overlapping position, and, form enclosed space between undermost structural unit and the said pedestal vessel in said each structural unit.
In optimized technical scheme, can also have the lid that can the said non-zero(ppm) water thrust-augmenting nozzle upper end of the structural unit of the superiors in said each structural unit be covered.
Compared with prior art, the advantage that adopts the present invention of technique scheme to have is:
1, owing to can adjust the number of plies of this modular construction as required and then increase surface-area and the space that this zero(ppm) water preparation facilities is used to prepare zero(ppm) water, can increase work efficiency.
2, owing to can select to rely on different modes such as type of heating, envrionment temperature or illumination to prepare zero(ppm) water, so the present invention has the characteristics of applying flexible.
3, this single structure unit can be used as general container when being inverted, as is used to collect rainwater etc., therefore, can reduce the vacancy rate of device, thereby reduce cost.
In sum, the present invention can be widely used in the preparation of laboratories such as household distilled water, school or R&D institution with zero(ppm) water.
Description of drawings
Fig. 1 is the center section plan of structural unit of the present invention;
Fig. 2 is the outside drawing of structural unit of the present invention;
Fig. 3 is the skeleton view of structural unit of the present invention;
Fig. 4 is the outside drawing of the present invention that comprises a structural unit;
Fig. 5 is the vertical view of two structural units that stack of the present invention;
Fig. 6 is the range upon range of work synoptic diagram of the present invention under non-heated condition that three structural units are arranged.
Fig. 7 is the range upon range of work synoptic diagram of the present invention under heated condition that three structural units are arranged.
Description of reference numerals: 1-structural unit; The 11-main housing; The non-zero(ppm) water holding tank of 12-; The non-zero(ppm) water thrust-augmenting nozzle of 13-; 14-structural unit interlayer support frame; 15-zero(ppm) water output duct; 2-pedestal vessel; The 3-lid; The non-zero(ppm) water of 4-; 5-zero(ppm) water; The position of the non-zero(ppm) water thrust-augmenting nozzle in a-upper strata; The position of the non-zero(ppm) water thrust-augmenting nozzle of a1-lower floor; B-upper strata zero(ppm) water output duct; B1-lower floor zero(ppm) water output duct; C-upper strata main housing; Bracing frame between d-superstructure unit layer; The non-zero(ppm) water holding tank in e-upper strata; θ-angle.
Embodiment
Below in conjunction with accompanying drawing, technical characterictic of the present invention and advantage are done more detailed explanation, so that the present invention can more fully be understood.
At first, describe in conjunction with the technical characterictic and the function of Fig. 1,2 and 3 pairs of structural units of the present invention, structural unit 1 of the present invention comprises following five parts:
Main housing 11; Being used to condense and store zero(ppm) water, and connecting and support for other parts provide, is the rotator of a hollow; Have and be from the centre to dull circular-arc end face and the bottom surface that descends, both sides; And the bottom center position has circular open, seamlessly transits with the transition cambered surface between end face and bottom surface, forms the annular groove of collecting zero(ppm) water; The bus of main housing 11 end faces farthest position from the center to the decentering is a dull curve that descends, and can be moved laterally by the center to guarantee agglomerative zero(ppm) water; The bus of main housing 11 bottom surfaces is a dull curve that descends from the nearest position of decentering to extreme lower position; And the bus of transition cambered surface farthest position from the extreme lower position to the decentering is a dull curve that rises, and said bottom center has a circular open.
Zero(ppm) water output duct 15; The zero(ppm) water that is used for being collected in main housing 11 annular groove places exports in the middle of other containers; Its said annular groove that is communicated with main housing 11 is near outer end, and the vertex of the inwall lower end of zero(ppm) water output duct 15 is lower than the circular open edge of main housing 11.When the zero(ppm) water water level of main housing 11 edges was higher than certain position, zero(ppm) water can flow out automatically, need not to intervene.
In Fig. 1; A, 2 of B represent any 2 points on the inboard circular open edge of main housing 11 respectively; C is the vertex of the inwall lower end of zero(ppm) water output duct; A, B and 3 of C should satisfy: the distance between A and the B should be complementary with the external diameter of non-zero(ppm) water holding tank 12, so that form airtight space between the adjacent two layers structural unit 1.A and B are in same level attitude (that is, the plane, place of this circular open place circle is perpendicular to the turning axle of main housing 11 rotatoies) in a longitudinal direction, and this lengthwise position should be higher than the residing lengthwise position of a C;
Non-zero(ppm) water holding tank 12; Be used to the main housing 11 storing non-zero(ppm) water and seal adjacent last layer; Be that non-zero(ppm) water holding tank 12 shapes are the side of a cylinder and the external diameter with diameter of the circular open that is less than or equal to main housing 11; Make the main housing 11 of last layer become airtight space, reduce water vapor scattering and disappearing to the external world;
Non-zero(ppm) water thrust-augmenting nozzle 13 under no heating condition, is used for that the non-zero(ppm) water holding tank 12 of last layer is reached certain elevation of water surface more non-zero(ppm) water afterwards and imports the non-zero(ppm) water holding tank 12 of one deck down.Having under the heating condition, be used for following one deck accumulative high-pressure water vapor is discharged into this layer.Non-zero(ppm) water thrust-augmenting nozzle 13 is fixed on the non-central location of main housing 11; And upper part is positioned at the inside of non-zero(ppm) water holding tank 12; Be used for being communicated with main housing 11 inner and non-zero(ppm) water holding tanks 12, its upper surface should be lower than the upper surface of non-zero(ppm) water holding tank 12;
Structural unit interlayer support frame 14; Be positioned at main housing 11 end faces; The shape of structural unit interlayer support frame 14 is sides of a cylinder, and its cross-sectional diameter is greater than the diameter of non-zero(ppm) water holding tank 12 and less than the maximum outside diameter of main housing 11, and its top has an annular carriage; This carriage can closely contact with the lowest part of the annular groove of the main housing 11 of last layer structural unit 1; Support last layer structural unit 1 thereby can be used in, make between the main housing 11 of non-zero(ppm) water holding tank 12 and last layer of this layer of adjacent two structural units 1 and form closed structure, and the non-zero(ppm) water holding tank 12 of this layer does not contact the inside top surface of the main housing 11 of last layer.
Shown in Figure 4 is the outside drawing of the present invention that comprises a structural unit; Wherein structural unit 1 places pedestal vessel 2 tops, wherein, because the upper edge of pedestal vessel 2 has identical geometrical shape with the loop bracket of structural unit interlayer support frame 14 upper ends; Therefore; The upper edge of pedestal vessel 2 can be combined closely with the annular groove of main housing 11, thus, forms closed structure between structural unit 1 and the pedestal vessel 2.
Shown in Figure 5 is the vertical view of two structural units that stack 1; Wherein O is the center of two structural units; A is the position of the non-zero(ppm) water thrust-augmenting nozzle in upper strata, and b is a upper strata zero(ppm) water output duct, and c is the upper strata main housing; D is a bracing frame between the superstructure unit layer, and e is the non-zero(ppm) water holding tank in upper strata.A1 is the position of the non-zero(ppm) water thrust-augmenting nozzle of lower floor, and b1 is lower floor's zero(ppm) water output duct.O is designated as θ to the angle between the line of a and a1; Then θ meets the following conditions: 30 °<θ<330 °; The unitary non-zero(ppm) water thrust-augmenting nozzle of double-layer structure contacts to avoid up and down; And make the zero(ppm) water output duct be distributed in the position that does not coincide in the outside of structural unit, make things convenient for collected outside zero(ppm) water.
As shown in Figure 6; Adopt the mode of illumination to prepare zero(ppm) water (perhaps utilizing envrionment temperature); Multi-functional stacked zero(ppm) water preparation facilities is put, wherein, range upon range of between each structural unit according to upper and lower mode; The loop bracket of this layer structural unit interlayer support frame 14 closely contact the structural unit that supports last layer main housing 11 annular groove so that support the structural unit of last layer; And, combine closely into closed structure between the non-zero(ppm) water holding tank 12 of this layer structural unit and the main housing 11 of last layer structural unit, and the non-zero(ppm) water holding tank 12 of this layer does not contact the inside top surface of the said main housing 11 of last layer; Be beneficial to flow down along main housing 11 inside top surface at the zero(ppm) water water droplet that main housing 11 inside top surface form; And this zero(ppm) water accumulates at end face, the formed annular groove of transition cambered surface and the bottom surface place of main housing 11, and when the water level of zero(ppm) water reached the downside inwall highest point of zero(ppm) water output duct 15, zero(ppm) water will flow to specified containers via zero(ppm) water output duct 15.
During enforcement; Non-zero(ppm) water is injected the unitary non-zero(ppm) water holding tank 12 of top level structure; When rising, the water level in the non-zero(ppm) water holding tank 12 will flow to down downwards along non-zero(ppm) water thrust-augmenting nozzle 13 in the non-zero(ppm) water holding tank 12 of one deck structural unit above behind the upper end of non-zero(ppm) water thrust-augmenting nozzle 13; Water level in the non-zero(ppm) water holding tank 12 of following one deck will flow to down downwards in the non-zero(ppm) water holding tank 12 of one deck structural unit along non-zero(ppm) water thrust-augmenting nozzle 13 behind the upper end above the non-zero(ppm) water thrust-augmenting nozzle 13 of this layer; So circulation flows in the pedestal vessel 2 and forms certain water level (not letting non-zero(ppm) water overflow pedestal vessel 2) up to non-zero(ppm) water, and the upper end of the unitary non-zero(ppm) water thrust-augmenting nozzle 13 of top level structure is covered to avoid the water vapor in the device to leak with lid 3.So so long-time placement just can be collected zero(ppm) water at the outer fringe position of the main housing 11 of structural unit 1, will flow out from zero(ppm) water output duct 15 after the water level of zero(ppm) water reach a certain height to supply collections.It is influential to the preparation speed of zero(ppm) water to install residing illumination condition, and illumination is strong more, and preparation speed is fast more, otherwise slow more.Non-zero(ppm) water in device exhausts; Non-zero(ppm) water is injected in continuation in the unitary non-zero(ppm) water holding tank 12 of top level structure; And the upper end that makes its water level the surpass non-zero(ppm) water thrust-augmenting nozzle 13 rejuvenate flow process of beginning of laying equal stress on; After making water level in the pedestal vessel 2 reach proper level, promptly can work on.
As shown in Figure 7, wherein, the structure of each structural unit and constituted mode and shown in Figure 6 roughly the same in the multi-functional stacked zero(ppm) water preparation facilities, its difference is that lid 3 is not covered in the upper end of the non-zero(ppm) water thrust-augmenting nozzle 13 of top level structure unit 1 in this embodiment.During enforcement, at first in pedestal vessel 2, inject competent non-zero(ppm) water (not letting non-zero(ppm) water overflow pedestal vessel 2), on pedestal vessel 2, put the range upon range of structural unit 1 identical afterwards with there not being heating condition.Pedestal vessel 2 are heated; The water vapor that evaporation or boiling are produced successively rises along the non-zero(ppm) water thrust-augmenting nozzle 13 of each layer; Main housing 11 inboards of structural unit 1 of the process zero(ppm) water droplet that all can condense; Run up to the annular groove position of the main housing 11 that flows to structural unit 1 after a certain amount of and accumulation there, run up to behind certain water level to flow out and supply to collect from zero(ppm) water output duct 15.Because can produce HP steam after the boiling of the non-zero(ppm) water in the pedestal vessel 2, so the upper end of the non-zero(ppm) water thrust-augmenting nozzle 13 of top level structure unit 1 lid 3 not reduces the pressure in the device in order to the discharge section water vapor.Non-zero(ppm) water in pedestal vessel 2 exhausts, and needs range upon range of structural unit 1 is lifted, and in pedestal vessel 2, injects non-zero(ppm) water, the work of reinstatement continued again.
Wherein, structural unit 1 can adopt the good material of resistance toheat with pedestal vessel 2, and for example structural unit 1 can adopt transparent material high temperature resistant, fast light photograph, with the abundant energy of absorb light photograph or environment under non-heated condition; The good material of for example dark (like black, the Vandyke brown etc.) heat absorption capacity of etc.ing of 2 employings of pedestal vessel heats non-zero(ppm) water with the abundant energy of absorb light photograph or environment under non-heated condition apace, is beneficial to prepare efficiently zero(ppm) water.
Wherein, Range upon range of structural unit the number of plies can the material that is adopted adjust according to actual needs in the scope that can bear; More than be that example has been explained its preparation principle to have the unitary zero(ppm) water preparation facilities of three-decker; And the principle of work of said zero(ppm) water preparation facilities is all identical, repeats no more at this.
Compared with prior art, the advantage that adopts the present invention of technique scheme to have is:
1, owing to can adjust the number of plies of this modular construction as required and then increase surface-area and the space that this zero(ppm) water preparation facilities is used to prepare zero(ppm) water, can increase work efficiency.
2, owing to can select to rely on different modes such as type of heating, envrionment temperature or illumination to prepare zero(ppm) water, so the present invention has the characteristics of applying flexible.
3, this single structure unit can be used as general container when being inverted, as is used to collect rainwater etc., therefore, can reduce the vacancy rate of device, thereby reduce cost.
To sum up, the present invention can be widely used in the preparation of laboratories such as household distilled water, school or R&D institution with zero(ppm) water.
More than explanation is just illustrative for the purpose of the present invention; And nonrestrictive, those of ordinary skills understand, under the situation of spirit that does not break away from claim and limited and scope; Can make many modifications, variation or equivalence, but all will fall within protection scope of the present invention.

Claims (10)

1. a structural unit that is used for the zero(ppm) water preparation facilities is characterized in that, comprising: main housing, structural unit interlayer support frame and non-zero(ppm) water holding tank, wherein,
Said main housing is the rotator of a hollow; Have and be from the centre to dull circular-arc end face and the bottom surface that descends, both sides; And this bottom center position has circular open, seamlessly transits with the transition cambered surface between said end face and said bottom surface, forms the annular groove of collecting zero(ppm) water;
Said structural unit interlayer support frame is with respect to the symmetric hollow cylindrical structure of the turning axle of said main housing rotator; Said structural unit interlayer support frame is fixed in said main housing top and its top is provided with loop bracket, and this loop bracket has the shape that the annular groove lowest part with said main housing fits like a glove;
Said non-zero(ppm) water holding tank is with respect to the symmetric hollow cylindrical structure of the turning axle of said main housing rotator, its be positioned at said main housing top and and said main housing between for being tightly connected, and be positioned at said structural unit interlayer support frame inboard;
Wherein, In said main housing end face connection non-zero(ppm) water thrust-augmenting nozzle is set; It is inner that this non-zero(ppm) water thrust-augmenting nozzle is communicated with the inner and said non-zero(ppm) water holding tank of said main housing, and, be communicated with a zero(ppm) water output duct at the annular groove of said main housing near the outboard end place.
2. the structural unit that is used for the zero(ppm) water preparation facilities according to claim 1; It is characterized in that; The bus of the end face of said main housing rotator farthest position from the center to the decentering is a dull curve that descends; The bus of the bottom surface of said main housing rotator is a dull curve that descends from the nearest position of decentering to extreme lower position; The bus of the said transition cambered surface of said main housing rotator farthest position from the extreme lower position to the decentering is a dull curve that rises, and the plane, place of place, the edge of the said circular open of the bottom surface of said main housing circle is perpendicular to the turning axle of said main housing rotator.
3. the structural unit that is used for the zero(ppm) water preparation facilities according to claim 1 is characterized in that, the vertex of the inwall lower end of said zero(ppm) water output duct is lower than said circular open edge.
4. the structural unit that is used for the zero(ppm) water preparation facilities according to claim 1 is characterized in that, the external diameter of said non-zero(ppm) water holding tank is less than or equal to the diameter of said circular open.
5. the structural unit that is used for the zero(ppm) water preparation facilities according to claim 1; It is characterized in that; Said non-zero(ppm) water thrust-augmenting nozzle is communicated with the non-central location that is fixed on said main housing; And be positioned at the inside that the above part of said main housing end face is positioned at said non-zero(ppm) water holding tank, and its upper surface is lower than the upper surface of said non-zero(ppm) water holding tank.
6. the structural unit that is used for the zero(ppm) water preparation facilities according to claim 1; It is characterized in that; The lateral cross section diameter of said structural unit interlayer support frame is greater than said non-zero(ppm) water holding tank diameter and less than the maximum outside diameter of main housing, the shape of the lowest part of the shape of said loop bracket and the annular groove of said main housing fits like a glove.
7. a multi-functional stacked zero(ppm) water preparation facilities is characterized in that, comprises at least one pedestal vessel that are used for the structural unit of zero(ppm) water preparation facilities and are positioned at the below of said at least one structural unit according to claim 1.
8. multi-functional stacked zero(ppm) water preparation facilities according to claim 7 is characterized in that, the upper edge of said pedestal vessel has identical geometrical shape with the loop bracket of the said structural unit interlayer support frame of said structural unit.
9. multi-functional stacked zero(ppm) water preparation facilities according to claim 7; It is characterized in that; Range upon range of between said each structural unit according to upper and lower mode; The said loop bracket of this layer said structural unit interlayer support frame supports the said annular groove lowest part of said main housing of the structural unit of last layer with the mode of tight contact; Thereby the structural unit of stable support last layer, and, the said non-zero(ppm) water holding tank of this layer structural unit combine closely the last layer structural unit said main housing and do not contact the inside top surface of the said main housing of last layer; Wherein, Between the said non-zero(ppm) water thrust-augmenting nozzle of said each structural unit and the angle of the angle at center be between 30 ° to 330 °; And; The said zero(ppm) water output duct of said each structural unit is positioned at non-overlapping position, and, form enclosed space between undermost structural unit and the said pedestal vessel in said each structural unit.
10. multi-functional stacked zero(ppm) water preparation facilities according to claim 7 is characterized in that, also has the lid that can the said non-zero(ppm) water thrust-augmenting nozzle upper end of the structural unit of the superiors in said each structural unit be covered.
CN 201210026726 2012-02-07 2012-02-07 Multifunctional laminated distilled water preparation device Active CN102583605B (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114162894A (en) * 2021-12-17 2022-03-11 中国水利水电科学研究院 Outdoor wall-mounted solar distillation water purifier with energy-saving effect

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Publication number Priority date Publication date Assignee Title
CN87214864U (en) * 1987-10-28 1988-09-21 大连工学院 Tower multiple-effect water distiller with low-laying preheater
US5286350A (en) * 1992-12-14 1994-02-15 Huang Shan Meng Water distiller
CN2165910Y (en) * 1993-07-10 1994-05-25 戴长川 Self-condensating distilling device
CN2500668Y (en) * 2001-08-06 2002-07-17 刘佳锋 Water distiller
CN2785675Y (en) * 2005-03-21 2006-06-07 韦建永 Efficient energy-saving distilled-water machine

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN87214864U (en) * 1987-10-28 1988-09-21 大连工学院 Tower multiple-effect water distiller with low-laying preheater
US5286350A (en) * 1992-12-14 1994-02-15 Huang Shan Meng Water distiller
CN2165910Y (en) * 1993-07-10 1994-05-25 戴长川 Self-condensating distilling device
CN2500668Y (en) * 2001-08-06 2002-07-17 刘佳锋 Water distiller
CN2785675Y (en) * 2005-03-21 2006-06-07 韦建永 Efficient energy-saving distilled-water machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114162894A (en) * 2021-12-17 2022-03-11 中国水利水电科学研究院 Outdoor wall-mounted solar distillation water purifier with energy-saving effect
CN114162894B (en) * 2021-12-17 2023-01-24 中国水利水电科学研究院 Outdoor wall-mounted solar distillation water purifier with energy-saving effect

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