CN104829022A - Starfish-like deep-sea small and medium-sized seawater desalination apparatus - Google Patents
Starfish-like deep-sea small and medium-sized seawater desalination apparatus Download PDFInfo
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- CN104829022A CN104829022A CN201510221772.2A CN201510221772A CN104829022A CN 104829022 A CN104829022 A CN 104829022A CN 201510221772 A CN201510221772 A CN 201510221772A CN 104829022 A CN104829022 A CN 104829022A
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- reverse osmosis
- permeable membranes
- osmosis semi
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- membranes assembly
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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
- Y02A20/131—Reverse-osmosis
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- Physical Water Treatments (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
Abstract
The invention relates to a starfish-like deep-sea small and medium-sized seawater desalination apparatus which is composed of a regular pentagon bottom cylinder, five pretreatment and reverse osmosis semipermeable membrane module resonance units, an ozone sterilizer, an ultraviolet sterilizer and a water storage tank. The whole structure is placed 30 meters below the sea level. Under the seawater pressure at the depth of 30 meters below the sea level, seawater enters a pretreatment resonance filter barrel; seawater which has undergone pretreatment enters a first-stage reverse osmosis semipermeable membrane module barrel, and seawater undergoes reverse osmosis to output fresh water; after second-stage and third-stage reverse osmosis desalinations, seawater enters the ultraviolet sterilizer and the ozone sterilizer, and fresh water is outputted through the water storage tank; sea waves push the reverse osmosis semipermeable membrane module barrels to fluctuate up and down with a floating drum so as to break balance of a spring system and perform resonance; the pretreatment resonance filter barrel and the reverse osmosis semipermeable membrane module barrels move and resonate for scale removal; and through left and right ultrasonic scaler connector pipes, reverse osmosis semipermeable membrane modules undergo permeable membrane ultrasonic scaling.
Description
Technical field: belong to ocean exploitation and field of sea water desalting technology.
Background technology:
The exploitation of sea water desaltination, utilize sea water desaltination, being focus in recent years, is one of green water source.
Fresh-water generator is converted into fresh water seawater, is incorporated to domestic water, ecological and environmental protection.
Method for desalting seawater mainly contains: distillation method, electroosmose process and reverse osmosis method, wherein: distillation method is mainly used in the place of large-scale sea water desaltination and energy abundance; Electroosmose process utilizes ion-exchange membrane under electric field action, be separated the anions and canons in salt solution, thus salt concentration in freshwater room is reduced and obtains a kind of membrane separation technique of fresh water, but exist comparatively strict to water quality requirement, the shortcomings such as pre-treatment, bad adaptability need be carried out to former water; Reverse osmosis method, reverse osmosis semi-permeable membranes is utilized to desalinize seawater, ratio of desalinization is very high, so be widely used in sea water desaltination, but have in seawater: silt, particle, bacterium, algae and other microorganisms, be easy to stick with paste dead filter screen and reverse osmosis semi-permeable membranes, need often cleaning, also need high-pressure booster to pressurize could work, bad adaptability, is unsuitable for middle-size and small-size sea water desaltination; This patent proposes a kind of method for this reason: pre-processing assembly and reverse osmosis semi-permeable membranes assembly are set to spring resonance unit, carry out resonance self-cleaning dirt, ultrasonic apparatus for eliminating sludge scale removal is added in reverse osmosis semi-permeable membranes link, utilize the pressure of deep sea water to carry out desalination by reverse osmosis, achieve the miniaturization of sea water desaltination, flexibility, give away from the island in land and the water supply of maritime facilities, suitability is strong, provides amenities for the people, save energy.
Summary of the invention:
The present invention relates to the middle-size and small-size fresh-water generator in a kind of imitative starfish formula deep-sea, it is by cylinder at the bottom of regular pentagon and 5 pre-treatment and reverse osmosis semi-permeable membranes element resonance unit, ozone sterilizer, ultraviolet sterilizer and water tank form, one-piece construction to be placed under sea 30 meters of dark positions, under the sea pressure effect of this degree of depth, seawater enters pre-treatment resonance filter vat, first-stage reverse osmosis semi-permeable membranes assembly bucket is entered through pretreated seawater, seawater generation reverse osmosis exports fresh water, afterwards again after secondary and three grades of desalinations by reverse osmosis, enter ultraviolet sterilizer and ozone sterilizer, fresh water is exported through water tank, wave promotes reverse osmosis semi-permeable membranes assembly bucket and floating drum fluctuates, the balance having broken spring system resonates, pretreated lauter tub and reverse osmosis semi-permeable membranes assembly bucket move and scale removal of resonating occur, by left and right ultrasonic cleaner connecting leg, permeable membrane ultrasound wave descaling is carried out to reverse osmosis semi-permeable membranes assembly.
Scheme one, cylinder at the bottom of regular pentagon and reverse osmosis semi-permeable membranes assembly bucket are set
Cylinder at the bottom of regular pentagon is set, at the bottom of regular pentagon, cylinder inside sets gradually ozone sterilizer, ultraviolet sterilizer and water tank, between ozone sterilizer with ultraviolet sterilizer, arrange water pipe be connected, arrange water pipe between ultraviolet sterilizer with water tank to be connected, at the bottom of regular pentagon cylinder 5 outer side walls on, correspondence arranges 5 pre-treatment and reverse osmosis semi-permeable membranes element resonance unit, the arranged outside reverse osmosis semi-permeable membranes assembly bucket of pre-treatment and reverse osmosis semi-permeable membranes element resonance unit, utilize the pressure of cylinder at the bottom of regular pentagon and reverse osmosis semi-permeable membranes assembly bucket and surge reverse osmosis and resonance scale removal.
Scheme two, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit are set
The structure of pre-treatment and reverse osmosis semi-permeable membranes element resonance unit is as follows: the resonate shell of filter vat and first-stage reverse osmosis semi-permeable membranes assembly bucket of pre-treatment is rigidly connected, three grades of reverse osmosis semi-permeable membranes assembly buckets, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets are all set to both-end axle construction, the two end axles of first-stage reverse osmosis semi-permeable membranes assembly bucket is installed and is connected on the end axis hole of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A, another of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A organizes the two end axles that stomidium installs two-pass reverse osmosis semi-permeable membranes assembly bucket, shell and the connecting leg crossbeam of two-pass reverse osmosis semi-permeable membranes assembly bucket are rigidly connected, the two ends of connecting leg crossbeam and left ultrasonic cleaner connecting leg B, right ultrasonic cleaner connecting leg B perpendicular rigid is connected, the dead eye of the lower end of left ultrasonic cleaner connecting leg B and right ultrasonic cleaner connecting leg B installs the two end axles of three grades of reverse osmosis semi-permeable membranes assembly buckets, at the bottom of the shell of three grades of reverse osmosis semi-permeable membranes assembly buckets and regular pentagon, the outer side wall of cylinder is rigidly connected, right ultrasonic cleaner connecting leg A arranges spring with the centre of right ultrasonic cleaner connecting leg B and is connected, composition reverse osmosis semi-permeable membranes assembly unit spring resonance unit, wave breaks spring balancing, drive the scale removal of reverse osmosis semi-permeable membranes element resonance.
Scheme three, ozone sterilizer, ultraviolet sterilizer and water tank are set
At the bottom of regular pentagon, cylinder inside sets gradually ozone sterilizer, ultraviolet sterilizer and water tank, between ozone sterilizer with ultraviolet sterilizer, arrange water pipe be connected, arrange water pipe between ultraviolet sterilizer with water tank to be connected, first-stage reverse osmosis semi-permeable membranes assembly bucket, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets with water pipe be set between ozone sterilizer be connected, water tank is arranged output water pipe.
Scheme four, anchor chain is set
For making the middle-size and small-size fresh-water generator in this imitative starfish formula deep-sea be positioned sea, anchor chain being set, casting anchor on submerged reef, location on the one hand, on the other hand, it makes the middle-size and small-size fresh-water generator in this imitative starfish formula deep-sea go against the stream, and forces it to head sea fluctuating reverse osmosis.
Scheme five, operation
The pressure of deep sea water is utilized to carry out desalination by reverse osmosis, by pre-processing assembly and reverse osmosis semi-permeable membranes element resonance unit, carry out resonance self-cleaning dirt, by ultrasonic apparatus for eliminating sludge, reverse osmosis semi-permeable membranes is taken out stains automatically, achieve the miniaturization of sea water desaltination, flexibility, give away from the island in land and the water supply of maritime facilities, suitability is strong, provides amenities for the people, save energy.
Above schemes synthesis defines the middle-size and small-size fresh-water generator in a kind of imitative starfish formula deep-sea.
Core content of the present invention: the middle-size and small-size fresh-water generator in a kind of imitative starfish formula deep-sea, cylinder at the bottom of regular pentagon is set, at the bottom of regular pentagon, cylinder inside sets gradually: ozone sterilizer, ultraviolet sterilizer and water tank, between ozone sterilizer with ultraviolet sterilizer, arrange water pipe A be connected, arrange water pipe B between ultraviolet sterilizer with water tank to be connected, at the bottom of regular pentagon cylinder individual outer side wall on, five pre-treatment and reverse osmosis semi-permeable membranes element resonance unit are set, the structure of each pre-treatment and reverse osmosis semi-permeable membranes element resonance unit is as follows: the resonate shell of filter vat and first-stage reverse osmosis semi-permeable membranes assembly bucket of pre-treatment is rigidly connected, three grades of reverse osmosis semi-permeable membranes assembly buckets, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets are all set to both-end axle construction, the first-stage reverse osmosis semi-permeable membranes assembly bucket axle of first-stage reverse osmosis semi-permeable membranes assembly bucket is installed and is connected on the axis hole of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A, another of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A organizes the two end axles that stomidium installs the reverse osmosis semi-permeable membranes assembly of two-pass reverse osmosis semi-permeable membranes assembly bucket, shell and the connecting leg crossbeam of two-pass reverse osmosis semi-permeable membranes assembly bucket are rigidly connected, the two ends of connecting leg crossbeam and left ultrasonic cleaner connecting leg B, right ultrasonic cleaner connecting leg B perpendicular rigid is connected, the dead eye of the lower end of left ultrasonic cleaner connecting leg B and right ultrasonic cleaner connecting leg B installs the two end axles of three grades of reverse osmosis semi-permeable membranes assembly buckets, at the bottom of the shell of three grades of reverse osmosis semi-permeable membranes assembly buckets and regular pentagon, the outer side wall of cylinder is rigidly connected, right ultrasonic cleaner connecting leg A arranges spring with the centre of right ultrasonic cleaner connecting leg B and is connected, composition reverse osmosis semi-permeable membranes assembly unit spring resonance unit, first-stage reverse osmosis semi-permeable membranes assembly bucket, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets with water pipe C be set between ozone sterilizer be connected, water tank is arranged output water pipe, at the bottom of regular pentagon, the bottom of cylinder arranges anchor chain, the top of cylinder at the bottom of regular pentagon arranges outer tube and fresh water output tube.
Pre-processing assembly and reverse osmosis semi-permeable membranes assembly are set to spring resonance unit, carry out resonance self-cleaning dirt, add ultrasonic apparatus for eliminating sludge in reverse osmosis semi-permeable membranes link and carry out scale removal, the pressure of deep sea water is utilized to carry out desalination by reverse osmosis, one-piece construction to be placed under sea 30 meters of dark positions, under this place's sea pressure effect, seawater enters pre-treatment resonance filter vat, first-stage reverse osmosis semi-permeable membranes assembly bucket is entered through pretreated seawater, seawater generation reverse osmosis exports fresh water, this exports fresh water again through two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets, after secondary desalination, connected by water pipe C and enter ozone sterilizer, enter water tank afterwards, enter fresh water output tube by output water pipe to export, wave promotes reverse osmosis semi-permeable membranes assembly bucket and floating drum fluctuates, because surge and buoyancy official post and pre-treatment are resonated the relative changing of the relative positions of cylinder at the bottom of filter vat and regular pentagon, break the balance of reverse osmosis semi-permeable membranes assembly unit spring system, resonate, pre-treatment resonance filter vat, also there is scale removal of resonating in the motion of first-stage reverse osmosis semi-permeable membranes assembly bucket two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets, by the semi-permeable membranes ultrasound wave descaling of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A to one-level motion semi-permeable membranes assembly bucket and second degree of motion semi-permeable membranes assembly bucket and three grades of motion semi-permeable membranes assembly buckets, the fresh water exported through three grades of reverse osmosis semi-permeable membranes assembly buckets is connected in ozone sterilizer through water pipe C, be connected in ultraviolet sterilizer through water pipe A after after sterilization, store through ultraviolet sterilizer and be connected in water tank through water pipe B, after being formed after storing, fresh water exports through water pipe.
Accompanying drawing illustrates:
Accompanying drawing is structure iron of the present invention, is wherein respectively: 1, ultraviolet sterilizer, 2, water pipe A, 3, water pipe B, 4, water tank, 5, ozone sterilizer, 6, cylinder at the bottom of regular pentagon, 7, cylinder sidewall at the bottom of regular pentagon, 8, pre-treatment resonance filter vat, 9, first-stage reverse osmosis semi-permeable membranes assembly bucket, 10, first-stage reverse osmosis semi-permeable membranes assembly bucket axle, 11, right ultrasonic cleaner connecting leg A, 12, two-pass reverse osmosis semi-permeable membranes assembly bucket, 13, spring, 14, connecting leg crossbeam, 15, right ultrasonic cleaner connecting leg B, 16, three grades of reverse osmosis semi-permeable membranes assembly buckets, 17, water pipe C, 18, export water pipe, 19, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit A, 20, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit B, 21, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit C, 22, pre-treatment and reverse osmosis semi-permeable membranes element resonance cells D, 23, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit E, 24, left ultrasonic cleaner connecting leg A, 25, left ultrasonic cleaner connecting leg B, 26, anchor chain, 27, outer tube, 28, fresh water output tube.
Embodiment:
Cylinder 6 at the bottom of regular pentagon is set, at the bottom of regular pentagon, cylinder 6 inside sets gradually: ozone sterilizer 5, ultraviolet sterilizer 1 and water tank 4, between ozone sterilizer 5 with ultraviolet sterilizer 1, arrange water pipe A3 be connected, arrange water pipe B3 between ultraviolet sterilizer 1 with water tank 4 to be connected, at the bottom of regular pentagon cylinder 65 outer side walls on, 5 pre-treatment and reverse osmosis semi-permeable membranes element resonance unit are set, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 19, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 20, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 21, pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 22 and pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 23, the structure of pre-treatment and reverse osmosis semi-permeable membranes element resonance unit 23 is as follows: resonate filter vat 8 of pre-treatment is rigidly connected with the shell of first-stage reverse osmosis semi-permeable membranes assembly bucket 9, three grades of reverse osmosis semi-permeable membranes assembly buckets 9, two-pass reverse osmosis semi-permeable membranes assembly bucket 12 and three grades of reverse osmosis semi-permeable membranes assembly buckets 16 are all set to both-end axle construction, the first-stage reverse osmosis semi-permeable membranes assembly bucket axle 10 of first-stage reverse osmosis semi-permeable membranes assembly bucket 9 is installed and is connected on the axis hole of right ultrasonic cleaner connecting leg A11 and left ultrasonic cleaner connecting leg A24, another of right ultrasonic cleaner connecting leg A11 and left ultrasonic cleaner connecting leg A24 organizes the two end axles that stomidium installs the reverse osmosis semi-permeable membranes assembly of two-pass reverse osmosis semi-permeable membranes assembly bucket 12, shell and the connecting leg crossbeam 14 of two-pass reverse osmosis semi-permeable membranes assembly bucket 12 are rigidly connected, the two ends of connecting leg crossbeam 14 and left ultrasonic cleaner connecting leg B25, right ultrasonic cleaner connecting leg B15 perpendicular rigid is connected, the dead eye of the lower end of left ultrasonic cleaner connecting leg B25 and right ultrasonic cleaner connecting leg B15 installs the two end axles of three grades of reverse osmosis semi-permeable membranes assembly buckets 16, at the bottom of the shell of three grades of reverse osmosis semi-permeable membranes assembly buckets 16 and regular pentagon, the outer side wall 7 of cylinder is rigidly connected, right ultrasonic cleaner connecting leg A11 arranges spring with the centre of right ultrasonic cleaner connecting leg B15 and is connected, composition reverse osmosis semi-permeable membranes assembly unit spring resonance unit, first-stage reverse osmosis semi-permeable membranes assembly bucket 9, two-pass reverse osmosis semi-permeable membranes assembly bucket 12 and three grades of reverse osmosis semi-permeable membranes assembly buckets 16 with water pipe C17 be set between ozone sterilizer 5 be connected, water tank 4 is arranged and exports water pipe 18, at the bottom of regular pentagon, the bottom of cylinder 6 arranges anchor chain, the top of cylinder 6 at the bottom of regular pentagon arranges outer tube 27 and fresh water output tube 28.
One-piece construction to be placed under sea 30 meters of dark positions, under the sea pressure effect of this degree of depth, seawater enters pre-treatment resonance filter vat 8, first-stage reverse osmosis semi-permeable membranes assembly bucket 9 is entered through pretreated seawater, seawater generation reverse osmosis exports fresh water, afterwards again through two-pass reverse osmosis semi-permeable membranes assembly bucket 12 and three grades of reverse osmosis semi-permeable membranes assembly buckets 16, after 2 desalinations, connected by water pipe C17 and enter ozone sterilizer 5, enter water tank 4 afterwards, enter fresh water output tube 28 by output water pipe 18 to export, wave promotes reverse osmosis semi-permeable membranes assembly bucket and floating drum fluctuates, because surge and buoyancy official post and pre-treatment are resonated filter vat 8 and the relative changing of the relative positions of cylinder 6 at the bottom of regular pentagon, break the balance of reverse osmosis semi-permeable membranes assembly unit spring system, pre-treatment resonance filter vat 8 drives first-stage reverse osmosis semi-permeable membranes assembly bucket axle 10 to move and scale removal of resonating occurs, first-stage reverse osmosis semi-permeable membranes assembly bucket axle 10 drives right ultrasonic cleaner connecting leg A11 and left ultrasonic cleaner connecting leg A24 to swing with mobile, right ultrasonic cleaner connecting leg A11 and left ultrasonic cleaner connecting leg A24 drives the axle of two-pass reverse osmosis semi-permeable membranes assembly bucket 12 to rotate with mobile, drive the motion of the shell of two-pass reverse osmosis semi-permeable membranes assembly bucket 12 simultaneously and resonance scale removal occurs, the shell of two-pass reverse osmosis semi-permeable membranes assembly bucket 12 drives connecting leg crossbeam 14 to swing, connecting leg crossbeam 14 drives the axle of three grades of reverse osmosis semi-permeable membranes assembly buckets 16 to move and scale removal of resonating occurs, by the semi-permeable membranes ultrasound wave descaling of right ultrasonic cleaner connecting leg A11 and left ultrasonic cleaner connecting leg A24 to first-stage reverse osmosis semi-permeable membranes assembly bucket axle 10 and two-pass reverse osmosis semi-permeable membranes assembly bucket 12 and three grades of reverse osmosis semi-permeable membranes assembly buckets 16, first-stage reverse osmosis semi-permeable membranes assembly bucket axle 10 is connected in ultraviolet sterilizer 1 with the movement output fresh water of two-pass reverse osmosis semi-permeable membranes assembly bucket 12 and three grades of reverse osmosis semi-permeable membranes assembly buckets 16 through water pipe C17, enter in ozone sterilizer 5 again, be connected in ultraviolet sterilizer 1 through water pipe A3 after after sterilization, store through ultraviolet sterilizer 1 and be connected in water tank 4 through water pipe B3, after being formed after storing, fresh water exports through water pipe 18.
Claims (2)
1. the middle-size and small-size fresh-water generator in imitative starfish formula deep-sea, it is characterized by: cylinder at the bottom of regular pentagon is set, at the bottom of regular pentagon, cylinder inside sets gradually: ozone sterilizer, ultraviolet sterilizer and water tank, between ozone sterilizer with ultraviolet sterilizer, arrange water pipe A be connected, arrange water pipe B between ultraviolet sterilizer with water tank to be connected, at the bottom of regular pentagon cylinder individual outer side wall on, five pre-treatment and reverse osmosis semi-permeable membranes element resonance unit are set, the structure of each pre-treatment and reverse osmosis semi-permeable membranes element resonance unit is as follows: the resonate shell of filter vat and first-stage reverse osmosis semi-permeable membranes assembly bucket of pre-treatment is rigidly connected, three grades of reverse osmosis semi-permeable membranes assembly buckets, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets are all set to both-end axle construction, the first-stage reverse osmosis semi-permeable membranes assembly bucket axle of first-stage reverse osmosis semi-permeable membranes assembly bucket is installed and is connected on the axis hole of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A, another of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A organizes the two end axles that stomidium installs the reverse osmosis semi-permeable membranes assembly of two-pass reverse osmosis semi-permeable membranes assembly bucket, shell and the connecting leg crossbeam of two-pass reverse osmosis semi-permeable membranes assembly bucket are rigidly connected, the two ends of connecting leg crossbeam and left ultrasonic cleaner connecting leg B, right ultrasonic cleaner connecting leg B perpendicular rigid is connected, the dead eye of the lower end of left ultrasonic cleaner connecting leg B and right ultrasonic cleaner connecting leg B installs the two end axles of three grades of reverse osmosis semi-permeable membranes assembly buckets, at the bottom of the shell of three grades of reverse osmosis semi-permeable membranes assembly buckets and regular pentagon, the outer side wall of cylinder is rigidly connected, right ultrasonic cleaner connecting leg A arranges spring with the centre of right ultrasonic cleaner connecting leg B and is connected, composition reverse osmosis semi-permeable membranes assembly unit spring resonance unit, first-stage reverse osmosis semi-permeable membranes assembly bucket, two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets with water pipe C be set between ozone sterilizer be connected, water tank is arranged output water pipe, at the bottom of regular pentagon, the bottom of cylinder arranges anchor chain, the top of cylinder at the bottom of regular pentagon arranges outer tube and fresh water output tube.
2. one according to claim 1 imitates the middle-size and small-size fresh-water generator in starfish formula deep-sea, it is characterized by: pre-processing assembly and reverse osmosis semi-permeable membranes assembly are set to spring resonance unit, carry out resonance self-cleaning dirt, add ultrasonic apparatus for eliminating sludge in reverse osmosis semi-permeable membranes link and carry out scale removal, the pressure of deep sea water is utilized to carry out desalination by reverse osmosis, one-piece construction to be placed under sea 30 meters of dark positions, under this place's sea pressure effect, seawater enters pre-treatment resonance filter vat, first-stage reverse osmosis semi-permeable membranes assembly bucket is entered through pretreated seawater, seawater generation reverse osmosis exports fresh water, this exports fresh water again through two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets, after secondary desalination, connected by water pipe C and enter ozone sterilizer, enter water tank afterwards, enter fresh water output tube by output water pipe to export, wave promotes reverse osmosis semi-permeable membranes assembly bucket and floating drum fluctuates, because surge and buoyancy official post and pre-treatment are resonated the relative changing of the relative positions of cylinder at the bottom of filter vat and regular pentagon, break the balance of reverse osmosis semi-permeable membranes assembly unit spring system, resonate, pre-treatment resonance filter vat, also there is scale removal of resonating in the motion of first-stage reverse osmosis semi-permeable membranes assembly bucket two-pass reverse osmosis semi-permeable membranes assembly bucket and three grades of reverse osmosis semi-permeable membranes assembly buckets, by the semi-permeable membranes ultrasound wave descaling of right ultrasonic cleaner connecting leg A and left ultrasonic cleaner connecting leg A to one-level motion semi-permeable membranes assembly bucket and second degree of motion semi-permeable membranes assembly bucket and three grades of motion semi-permeable membranes assembly buckets, the fresh water exported through three grades of reverse osmosis semi-permeable membranes assembly buckets is connected in ozone sterilizer through water pipe C, be connected in ultraviolet sterilizer through water pipe A after after sterilization, store through ultraviolet sterilizer and be connected in water tank through water pipe B, after being formed after storing, fresh water exports through water pipe.
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