CN209583682U - Utilize the multistage sink sea water desalination processing unit of combustion heat energy - Google Patents
Utilize the multistage sink sea water desalination processing unit of combustion heat energy Download PDFInfo
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- CN209583682U CN209583682U CN201821316577.3U CN201821316577U CN209583682U CN 209583682 U CN209583682 U CN 209583682U CN 201821316577 U CN201821316577 U CN 201821316577U CN 209583682 U CN209583682 U CN 209583682U
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- Prior art keywords
- recessed
- endothelium
- crust
- sink
- heat energy
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/124—Water desalination
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- Heat Treatment Of Water, Waste Water Or Sewage (AREA)
Abstract
The utility model discloses a kind of multistage sink sea water desalination processing units using combustion heat energy, comprising: recessed endothelium, multiple sinks, recessed crust, connector, ring cover and collection bottle;Wherein, each sink include inclined plate as frustum cone side or cylindrical side and be connected between recessed endothelium and inclined plate as frustum cone side or the bottom plate of annulus;The recessed crust surrounds the recessed endothelium, is connected by connector therebetween;The multiple sink is successively connected on the side wall of the recessed endothelium at intervals by bottom plate, is thus arranged among the space surrounded by the recessed crust and the recessed endothelium;It is threadedly coupled between the ring cover and the top circumference of the recessed crust and the top circumference of the recessed endothelium, thus seals the space;The bottom of the recessed crust is formed with opening, and the collection bottle and the opening are tightly connected.
Description
Technical field
The utility model relates to water-treatment technology fields, more particularly to a kind of multistage sink seawater using combustion heat energy
Desalt processing device.
Background technique
Island and coastline are nearby one of people's outdoor travel, the important place of exploration, and freshwater resources are rare here, but
There are a large amount of seawater, seawater cannot directly drink biology to mankind etc. drinking-water cause extreme difficulties, on the spot to seawater into
Row desalt processing be can yet be regarded as a kind of mode for preferably obtaining fresh water.There is volume more in the existing device for carrying out desalt processing to seawater
Greatly, the problem of cannot being convenient for carrying, and higher cost, desalt processing are inefficient.
Consequently, it is desirable to which one kind is at low cost, be convenient for carrying, desalt processing is high-efficient, utilizes sufficient seawater to combustion heat energy
Desalting plant.
Utility model content
In order to overcome the deficiencies in the prior art, the utility model provides a kind of multistage sink using combustion heat energy
Sea water desalination processing unit and its application method.
One side according to the present utility model provides a kind of multistage sink sea water desalination processing using combustion heat energy
Device, comprising: recessed endothelium 10, multiple sinks (11,11 '), recessed crust 12, connector 13, ring cover 14 and collection bottle 15;
Wherein, each sink (11,11 ') includes inclined plate 112 as frustum cone side or cylindrical side and is connected in recessed
Between skin 10 and inclined plate 112 as frustum cone side or the bottom plate 113 of annulus;
The recessed crust 12 surrounds the recessed endothelium 10, is connected by connector 13 therebetween;The multiple sink
(11,11 ') it is successively connected on the side wall of the recessed endothelium 10, is thus arranged in by described recessed at intervals by bottom plate 113
Among the space that crust 12 and the recessed endothelium 10 are surrounded;
Screw thread between the top circumference of the top circumference and the recessed endothelium 10 of the ring cover 14 and the recessed crust 12
Connection, thus seals the space;
The bottom of the recessed crust 12 is formed with opening, and the collection bottle 15 is tightly connected with the opening.
An embodiment according to the present utility model, the recessed endothelium 10 and recessed crust 12 are essentially conical side surface or ball
Face.
An embodiment according to the present utility model, 113 bottom plate of bottom plate tilts down, thus as inverted round stage
Side.
An embodiment according to the present utility model, the collection bottle 15 are tightly connected with the open-top screw thread.
An embodiment according to the present utility model, the recessed endothelium 10, multiple sinks (11,11 '), recessed crust 12,
Connector 13, ring cover 14 and collection bottle 15 are made of stainless steel.
Another aspect according to the present utility model also provides a kind of method for desalting seawater, including to described in the utility model
The multistage sink sea water desalination processing unit using combustion heat energy carry out heating to handle seawater, such as by combustion gas, plant
Body, solid fossil fuels are placed in recessed endothelium 10 and carry out combustion heating.
An embodiment according to the present utility model, the method for desalting seawater further include dripping in the collection bottle 15
Enter edible oil.
The utility model has the advantages that multistage sink increases water surface area in the utility model, evaporation process is accelerated;Burning is every one
The layer recessed endothelium of stainless steel material accelerates evaporation of seawater directly to heating of seawater;Sink increases Water vapor condensation area;Entirely
Device is hollow to float on whole device on the water surface, can be recessed outer subcutaneous by combustion heating seawater on the upside of recessed endothelium
Side can cool down to Water vapor condensation main region by seawater, conducive to the condensation of vapor;It is open structure above recessed endothelium,
Conducive to the progress of burning;Device inner sealing keeps pressure in device larger with the progress of evaporation, is conducive to evaporation process.In addition
The present apparatus can be according to water requirement making device size, and weight is small, is convenient for carrying, at low cost.
Detailed description of the invention
Fig. 1 is the multistage sink sea water desalination processing dress using combustion heat energy according to one embodiment of the utility model
The structural schematic diagram set.
Fig. 2 is shown according to the recessed endothelium of one embodiment of the utility model and the structure of a sink connected to it
It is intended to.
Specific embodiment
The utility model is described in further detail in the following with reference to the drawings and specific embodiments, but not as practical to this
Novel restriction.
Fig. 1 is the multistage sink sea water desalination processing dress using combustion heat energy according to one embodiment of the utility model
The structural schematic diagram set.Fig. 2 is the recessed endothelium and a sink connected to it according to one embodiment of the utility model
Structural schematic diagram.
As illustrated in fig. 1 and 2, the utility model can wrap using the multistage sink sea water desalination processing unit of combustion heat energy
Include recessed endothelium 10, multiple sinks (11,11 '), recessed crust 12, connector 13, ring cover 14 and collection bottle 15.Below with reference to attached
Figure illustrates all parts.
Recessed endothelium 10 can be essentially conical side surface or spherical surface;Recessed crust 12 is placed around recessed endothelium 10.Therefore, phase
Ying Di, recessed crust 12 also may be substantially of conical side surface or spherical surface, and only its radius or volume are greater than recessed endothelium 10, thus exist
Therebetween a space is formed.
As shown, it is formed with connector 13 in the space that both recessed endothelium 10 and recessed crust 12 are formed, the connection
Part for example can be to be made of stainless steel material cylindrical body, and both ends are fixed on the downside of recessed endothelium 10 and the upside of recessed crust 12
Thus face branch concave endothelium 10 and consolidates the space.Such as multiple connectors can be set, such as be evenly spaced apart setting 2
It is a, 3 or 4.The setting of connector 13 should not interfere the setting of sink (11,11 ').In addition, recessed endothelium 10 and recessed crust
Both 12 can for example be made of metal such as stainless steel.
With reference to Fig. 1, multiple sinks (11,11 ') are arranged in the space that both recessed endothelium 10 and recessed crust 12 are formed,
More specifically, multiple sinks (11,11 ') are successively arranged at intervals on the downside of recessed endothelium 10.Two are shown in Fig. 1
Sink (11,11 '), it should be appreciated that the number of sink can according to need and change.
Fig. 2 is the structural schematic diagram of recessed endothelium and a sink connected to it according to an embodiment.It should
Understand, illustrate a sink and be intended merely to more easily illustrate the utility model, similar multiple sinks can be set.With reference to figure
2, each sink (11,11 ') include as frustum cone side or cylindrical side inclined plate 112 (inclination of inclined plate 112 is shown to extend in Fig. 2,
Therefore formed frustum cone side) and be connected between recessed endothelium 10 and inclined plate 112 as frustum cone side or the bottom plate 113 of annulus
(inclined plate 112 is shown in Fig. 2 and tilts down extension, therefore forms frustum cone side).
In this way, bottom plate 113 and inclined plate 112 constitute the sink with a constant volume, Ke Yiyong by recessed endothelium 10
Seawater to accommodate certain is evaporated.Bottom plate 113 tilts down extension, be thus formed in bottom plate 113 lateral surface and
Condensed water on the lateral surface of inclined plate 112 can hurtle down onto recessed crust 12.
Bottom plate 113 can also horizontally extend in the middle part of the inner surface of recessed endothelium 10, and such bottom plate 113 is formed as annulus
Shape.Inclined plate 112 can also be extended vertically upward since bottom plate 113, and such inclined plate 112 may be constructed cylindrical side or column
Body side surface.
Angle that position that connector 13, bottom plate 113 are contacted with the downside surface of recessed endothelium 10, bottom plate 113 tilt down,
The height that inclined plate 112 upwardly extends appropriate can be arranged, so that not interfering the evaporation of seawater in multiple sinks and being condensed into
It is quasi-.
With reference to Fig. 1, the top circumference and the recessed endothelium 10 of the ring cover 14 of the utility model and the recessed crust 12
It is threadedly coupled between top circumference, thus seals the space.Such as the top circumference of the internal diameter of ring cover and recessed endothelium 10
Internal diameter is suitable, and the outer diameter of ring cover 14 is suitable with the internal diameter of top circumference of recessed crust 12.In recessed endothelium 10 and recessed crust 12
It is formed with screw thread on the respective lateral surface (for the space) of top circumference, correspondingly in the inner circumferential flange of ring cover
Outside and peripheral outer lips inside on form corresponding screw thread, therefore can be connected through a screw thread, using ring cover 14 come spiral shell
Line connects both recessed endothelium 10 and recessed crust 12, and seals the space.
As shown in Figure 1, the bottom of the recessed crust 12 is formed with opening, the collection bottle 15 connects with opening sealing
It connects, such as can be tightly connected by screw thread.The collection bottle 15 can also for example be made of metal material such as stainless steel.
Water evaporation in collection bottle 15 in order to prevent can instill edible oil in collection bottle 15.Edible oil is diffused in fresh water face in this way
Upper formation oil film, prevents water evaporation.
Illustrate handling using the multistage sink sea water desalination processing unit of combustion heat energy using the utility model below
Seawater, to prepare fresh water.
In use, collection bottle 15 is connect by spiral with recessed crust 12 by user first, seawater is injected into sinks at different levels,
Notice that seawater not overflow outside sink in the process;Then seal endothelium crust and ring cover 14 by spiral, by whole device
It is put in seawater, since device is hollow, so whole device can float on the water surface, intradermal side is put into combustible and lights inside,
Burning accelerates the evaporation of seawater, and vapor condenses on the outside of ring cover, recessed crust upper side, sink, and flows into collection bottle 15
In.
In the present invention, multistage sink increases water surface area, accelerates evaporation process;Burn alternating floor stainless steel
The recessed endothelium of material accelerates evaporation of seawater directly to heating of seawater;Sink increases Water vapor condensation area;Whole device is hollow
Float on whole device on the water surface, recessed endothelium upper side can be by combustion heating seawater, and recessed crust downside can
To be cooled down by seawater to Water vapor condensation main region, conducive to the condensation of vapor;It is the open structure of spill above recessed endothelium,
Conducive to the progress and heating of burning, such as it can prevent external environment such as wind or seawater influence from burning;Device inner sealing,
With the progress of evaporation, keep pressure in device larger, is conducive to evaporation process.In addition the present apparatus can be big according to water requirement making device
It is small, and weight is small, is convenient for carrying, it is at low cost.
The above is only the preferable embodiment of the utility model, not appoints to the technical solution of the utility model
What formal limitation.All to make any simple modification to above embodiments according to the technical essence of the utility model, form becomes
Change and modify, each falls within the protection scope of the utility model.
Claims (5)
1. a kind of multistage sink sea water desalination processing unit using combustion heat energy, comprising: recessed endothelium (10), multiple sinks (11,
11 '), recessed crust (12), connector (13), ring cover (14) and collection bottle (15);
Wherein, each sink (11,11 ') includes inclined plate (112) as frustum cone side or cylindrical side and is connected to recessed endothelium
(10) between inclined plate (112) as frustum cone side or the bottom plate (113) of annulus;
The recessed crust (12) surrounds the recessed endothelium (10), is connected by connector (13) therebetween;The multiple sink
(11,11 ') it is successively connected on the side wall of the recessed endothelium (10), is thus arranged in by institute at intervals by bottom plate (113)
It states among the space that recessed crust (12) and the recessed endothelium (10) are surrounded;
Spiral shell between the top circumference of the top circumference and the recessed endothelium (10) of the ring cover (14) and the recessed crust (12)
Line connection, thus seals the space;
The bottom of the recessed crust (12) is formed with opening, and the collection bottle (15) and the opening are tightly connected.
2. the multistage sink sea water desalination processing unit according to claim 1 using combustion heat energy, wherein described recessed interior
Skin (10) and recessed crust (12) are essentially conical side surface or spherical surface.
3. the multistage sink sea water desalination processing unit according to claim 1 using combustion heat energy, wherein the bottom plate
(113) bottom plate tilts down, thus as the side of inverted round stage.
4. the multistage sink sea water desalination processing unit according to claim 1 using combustion heat energy, wherein described catchment
Bottle (15) and the open-top screw thread are tightly connected.
5. the multistage sink sea water desalination processing unit according to claim 1 using combustion heat energy, wherein described recessed interior
Skin (10), multiple sinks (11,11 '), recessed crust (12), connector (13), ring cover (14) and collection bottle (15) are by stainless
Steel is made.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821316577.3U CN209583682U (en) | 2018-08-15 | 2018-08-15 | Utilize the multistage sink sea water desalination processing unit of combustion heat energy |
Applications Claiming Priority (1)
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CN201821316577.3U CN209583682U (en) | 2018-08-15 | 2018-08-15 | Utilize the multistage sink sea water desalination processing unit of combustion heat energy |
Publications (1)
Publication Number | Publication Date |
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CN209583682U true CN209583682U (en) | 2019-11-05 |
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CN201821316577.3U Active CN209583682U (en) | 2018-08-15 | 2018-08-15 | Utilize the multistage sink sea water desalination processing unit of combustion heat energy |
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CN (1) | CN209583682U (en) |
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2018
- 2018-08-15 CN CN201821316577.3U patent/CN209583682U/en active Active
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