CN112744937A - Complete equipment for seawater desalination membrane treatment and process thereof - Google Patents

Complete equipment for seawater desalination membrane treatment and process thereof Download PDF

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Publication number
CN112744937A
CN112744937A CN202011507236.6A CN202011507236A CN112744937A CN 112744937 A CN112744937 A CN 112744937A CN 202011507236 A CN202011507236 A CN 202011507236A CN 112744937 A CN112744937 A CN 112744937A
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filtering
crushing
box body
dredging
floating
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CN202011507236.6A
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CN112744937B (en
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冯晓强
李洋
甄宗晴
王艺蓉
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Qingdao Qingshui Jinmo High Tech Co ltd
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Qingdao Qingshui Jinmo High Tech Co ltd
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/44Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2103/00Nature of the water, waste water, sewage or sludge to be treated
    • C02F2103/08Seawater, e.g. for desalination
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2303/00Specific treatment goals
    • C02F2303/16Regeneration of sorbents, filters
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/124Water desalination
    • Y02A20/131Reverse-osmosis

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  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Filtration Of Liquid (AREA)

Abstract

The invention relates to a complete set of equipment for treating a seawater desalination membrane and a process thereof, wherein the equipment comprises a seawater desalination membrane component; the front part of the seawater desalination membrane component is provided with a membrane front filtering device for filtering seawater and/or a membrane front separating device for separating seaweed seawater. The invention has reasonable design, compact structure and convenient use.

Description

Complete equipment for seawater desalination membrane treatment and process thereof
Technical Field
The invention relates to a complete set of equipment for seawater desalination membrane treatment and a process thereof.
Background
Sea water desalination, i.e. the desalination of sea water to produce fresh water, is an open source incremental technology for realizing the utilization of water resources. The currently used methods for desalinating seawater include a seawater freezing method, an electrodialysis method, a distillation method, a reverse osmosis method, and an ammonium carbonate ion exchange method, and the currently applied reverse osmosis membrane method and the distillation method are the mainstream in the market. The distillation method has high energy consumption and gradually loses economic benefits. Reverse osmosis, also commonly referred to as ultrafiltration, separates seawater from fresh water by a semi-permeable membrane that allows only solvent to permeate but not solutes to permeate. In general, fresh water diffuses through the semipermeable membrane to the seawater side, so that the liquid level on the seawater side gradually rises until a certain height, and the process is permeation. The reverse osmosis method has the advantages of low energy consumption, high effluent quality, less equipment investment, short construction period, small occupied area, low operation cost and the like, and along with the continuous progress of reverse osmosis membrane technology, the reverse osmosis membrane technology is more and more emphasized by people, and the market share is rapidly improved. The seawater desalination membrane (reverse osmosis membrane) is a key factor determining the seawater desalination effect.
The existing seawater desalination membrane basically takes a polyamide structure as a main part, firstly a porous polysulfone supporting layer is prepared on a non-woven fabric substrate, and then a cross-linked aromatic polyamide functional layer is obtained on the porous polysulfone supporting layer through the interfacial polymerization reaction of m-phenylenediamine and trimesoyl chloride. For example, in patents CN 104474928 and CN202010106041.4, a preparation method of a high-performance seawater desalination membrane, the prepared seawater desalination membrane, and a protection device for a seawater desalination membrane in CN201921037421.6, the front-end filtration equipment is simple, but with serious seawater pollution, enteromorpha spreads in the main sea area, which seriously affects the seawater filtration, so how to reduce the burden of the filtration equipment and turn the enteromorpha into fertilizer becomes a technical problem which needs to be solved urgently.
Disclosure of Invention
The invention aims to solve the technical problem of providing complete equipment for seawater desalination membrane treatment and a process thereof.
In order to solve the problems, the technical scheme adopted by the invention is as follows:
a complete set of equipment for seawater desalination membrane treatment comprises a seawater desalination membrane component; the front part of the seawater desalination membrane component is provided with a membrane front filtering device for filtering seawater and/or a membrane front separating device for separating seaweed seawater.
A seawater desalination membrane treatment complete equipment comprises a pre-membrane filtering device; the pre-membrane filtration device comprises a first seaweed removing device for crushing whole seaweed and/or a second seaweed removing device for filtering the crushed seaweed.
A seawater desalination membrane treatment complete equipment comprises a first sea grass removing device; it comprises a first filtering box body; at least one of the following schemes is included in the first filtering box body;
in the scheme a, the floating impurity filtering device comprises a floating filtering box body, wherein an inlet is communicated with the first filtering box body, and the liquid level of the floating filtering box body is communicated with the liquid level of the first filtering box body; the wall of the inner cavity of the floating filter box body is connected with a floating partition plate positioned on the output side of the inlet, the floating partition plate divides the floating filter box body into a floating buffer cavity communicated with the inlet, and a floating output channel communicated with the floating buffer cavity and positioned between the end part of the floating partition plate and the wall of the inner cavity corresponding to the floating filter box body is arranged in the floating filter box body; a floating rotary shaft group with a shifting hand is arranged at the floating output channel, and floating channel clearance channels are distributed at the end part of the floating isolation plate along the height direction so as to pass through the shifting hand of the floating rotary shaft group; the shifting hand sequentially circulates from the floating filtering box body to the floating filtering box body through the floating channel gap channel, the floating buffer cavity and the floating output channel and returns to the floating filtering box body so as to shift the suspended matters into the floating filtering box body in a one-way mode and block the suspended matters from returning to the floating output channel; the floating channel gap passes through seawater and blocks sundries with set size from passing through;
an included angle alpha between the lateral protrusion between the gap channels and the cross exposed part of the poking hand when the lateral protrusion enters is a right angle or an obtuse angle so as to remove impurities attached to the poking hand into the floating filter box body;
according to the scheme b, the seaweed smashing device comprises a smashing taper hole inner spiral sleeve which is horizontally arranged in the first filtering box body and provided with a spiral blade on the inner conical side wall, a smashing fixing support coaxially corresponds to the small port of the spiral sleeve in the smashing taper hole, a smashing Archimedes spiral driving disc rotates on the smashing fixing support, and a smashing fixing guide disc which is axially distributed with smashing fixing guide grooves is arranged at the front end of the smashing Archimedes spiral driving disc;
a crushing synchronous moving sliding seat which radially moves on the crushing fixed guide groove and is meshed with the Archimedes spiral of the crushing Archimedes spiral driving disc to drive at the same speed; a crushing rotary cutter set is rotated on the synchronous moving slide seat at the same crushing speed, and a crushing cutter set cleaning brush is arranged at the far end of the crushing fixed guide groove and is used for removing sundries attached to the crushing rotary cutter set; a crushing central feeding taper spiral sheet is rotated at the center of the crushing fixed guide disc, and the small end of the crushing central feeding taper spiral sheet is positioned at the small end opening of a spiral sleeve in the crushing taper hole and is used for receiving seaweed fed by the spiral sleeve in the crushing taper hole; the crushing rotary cutter group moves towards the center to cut off the seaweed centrifugally thrown out and/or wound on the crushing central feeding taper spiral piece in a rotating way;
and/or scheme c, the crushing and fishing device comprises a lifter which is obliquely arranged, the lower part of the lifter is positioned in the first filtering box body, and the lifter is provided with a crushing lifter hopper so as to fish out the seaweed; the root part of the hopper of the crushing lifter is hinged on the hopper of the crushing lifter, and the head part of the hopper of the crushing lifter is connected on the lifter through a crushing traction spring;
a crushing top cleaning rotary brush is arranged at the direction change position of the hoister to be in rotary contact with the back surface of the mesh of the hopper of the crushing hoister;
the input end of the crushed material conveying belt is arranged below the back of the elevator to receive the falling impurities of the hopper of the crushing elevator.
A seawater desalination membrane treatment complete equipment comprises a second sea grass removing device, a second filtering box body and a second filtering box body, wherein the second sea grass removing device comprises a first filtering box body; at least one of the following schemes is arranged in the second filtering box body;
according to the scheme I, the automatic dredging device comprises a middle filter screen device, and is arranged between the second filter box body and the first filter box body of the first seaweed removing device;
the second filter box body is connected with an intermediate net dredging spur row group through a spring so as to
A dredging guide sleeve and a dredging upper guide wheel are arranged above the second filtering box body; a dredging lower guide wheel and a dredging upper floating object are arranged in the first filtering box body;
one end of the dredging and pulling rope is arranged in the middle net dredging and burred row group and is connected with the dredging and upper floating object after sequentially passing through the dredging and guiding sleeve, the dredging and upper guiding wheel and the dredging and lower guiding wheel;
when the middle filter screen device is blocked, and the liquid level of the first filter box body rises to a set height, the middle screen dredging spur row group is drawn by the dredging traction rope to move forwards to enter the middle filter screen device so as to dredge the filter screen holes; the middle net dredging and burling row group is a pyramid;
when the liquid level of the first filtering box body descends, the dredging floating objects descend, and the middle net dredging spur row group leaves the filter net holes under the action of the spring;
scheme II, the secondary fishing device comprises a secondary fishing rotary gear disc arranged above the second filtering box body; a secondary fishing center seat is arranged at the center of the secondary fishing rotary gear disc, a secondary indexing support seat is arranged at the edge of the secondary fishing rotary gear disc, a secondary fishing rotary driving part is arranged at one end of the secondary fishing rotary gear disc, and a secondary hinge connecting rod assembly and a center transmission shaft are respectively connected between a bearing seat of the secondary fishing rotary driving part and a bearing seat of the secondary fishing center seat and between the bearing seat of the secondary indexing support seat and the bearing seat of the secondary fishing center seat; a direction machine in transmission connection with a central transmission shaft is arranged in the secondary fishing central seat, and the output end of the direction machine is connected with a secondary fishing auger through the transmission shaft in the secondary indexing support seat; a secondary rotating part is arranged on the secondary indexing support seat, and a secondary fishing auger is connected to the secondary rotating part; the lower end of the secondary fishing auger is positioned in the second filtering box body to output the sundries; when the secondary fishing rotary gear disc drives the secondary fishing auger to swing upwards, the attached sundries are cleaned;
in the scheme III, the output filtering device comprises a self-filtering middle mesh screen arranged in the second filtering box body, and the self-filtering middle mesh screen is connected to the inner wall of the second filtering box body through a self-filtering side mesh screen to form a V-shaped cavity;
the lower end of the V-shaped cavity is communicated with the input end of the seawater desalination membrane component;
a self-filtering dredging push rod is arranged in the V-shaped cavity, a self-filtering driving hinge rod is hinged to the self-filtering dredging push rod, and self-filtering hinge support rods positioned on two sides of the self-filtering dredging push rod are arranged in the V-shaped cavity; the self-filtering side swinging rod is hinged to the self-filtering hinged support rod, a self-filtering sliding block is hinged to one end of the self-filtering side swinging rod and hinged to the self-filtering driving hinged rod, and self-filtering side thimbles are distributed on the outer side wall of the self-filtering side swinging rod and enter strip-shaped meshes of the self-filtering side mesh screen;
in the V-shaped cavity, a self-filtering top swing L rod corresponding to the self-filtering middle mesh screen, a self-filtering side swing tail part at the other end of the self-filtering side swing rod, wherein the self-filtering side swing tail part is used for shifting one end of the self-filtering top swing L rod, and a self-filtering top external shifting arm is arranged at the other end of the self-filtering top swing L rod to enter strip-shaped meshes in the self-filtering middle mesh screen;
and/or scheme IV, the automatic dredging device comprises a middle filter screen device, and is arranged between the second filter box body and the first filter box body of the first seaweed removing device;
the second filter box body is connected with an intermediate net dredging spur row group through a spring so as to
A dredging guide sleeve and a dredging upper guide wheel are arranged above the second filtering box body; the second filtering box body is internally provided with a dredging upper floater;
one end of the dredging and pulling rope is arranged in the middle net dredging and burred row group and is connected with the dredging and upper floating objects after sequentially passing through the dredging and guiding sleeve and the dredging and upper guiding wheel;
when the middle filter screen device is blocked, the liquid level of the second filter box body rises to a set height, the middle screen dredging spur row group is drawn by the dredging traction rope to move forwards to enter the middle filter screen device so as to dredge the filter screen holes;
when the liquid level of the second filtering box body rises, the dredging upper floating objects rise, and the middle net dredging spur row group leaves the filter net holes under the action of the spring.
A seawater desalination membrane treatment process comprises the following steps;
firstly, separating mixed seaweed in seawater to be filtered by a membrane pre-separation device;
then, filtering the to-be-desalinated water by using a pre-membrane filtering device;
secondly, the seawater desalination membrane module desalinates the filtered seawater;
wherein, in the separation of the mixed sea grass in the sea water to be filtered, at least one of the following steps is included;
crushing whole seaweed by a first seaweed removing device;
and/or step two, filtering the crushed seaweed by a second seaweed removing device.
A seawater desalination membrane treatment process at least comprises one of the following treatment steps of a first sea grass removal device,
s1.0, sending seawater into a first filtering box body;
s1.1, a seaweed smashing device is used; firstly, crushing seawater of mixed seaweed conveyed to a small end by a rotary vortex generated by the rotation of a spiral sleeve in a conical hole, and performing primary rotary cutting by using a spiral blade; then, the crushing central feeding taper spiral sheet is rotated to carry the small end of the spiral sleeve in the crushing taper hole to output and move forward, the crushing central feeding taper spiral sheet is subjected to secondary rotary cutting, and the seaweed is thrown out through centrifugal force; then, the crushing Archimedes spiral driving disc is driven to rotate, so that the autorotation crushing synchronous moving slide seat synchronously moves towards the center in the radial direction at the same speed, seaweed wound on the crushing central feeding taper spiral piece is cut in a rotary mode, the seaweed thrown out by the crushing central feeding taper spiral piece is cut in a rotary mode, and three rotary cutting is achieved; then, the crushing Archimedes spiral driving disc rotates reversely to drive, so that the autorotation crushing synchronous moving slide seat synchronously moves radially to the edge at the same speed, the seaweed wound on the crushing rotating cutter set is pulled, pulled and cut in a rotary manner, and the rotary cutting of four times is realized; secondly, the crushing cutter group cleaning brush removes sundries attached to the crushing rotary cutter group;
s1.2, the smashing and fishing device is characterized in that firstly, a hoister works, and a smashing hoister hopper drags out the seaweed; then, the hopper of the crushing lifter is lifted and turned backwards, so that the seaweed falls to the input end of the crushed object conveyor belt and is output; then, for the inverted crushing elevator hopper, the crushing top cleaning rotary brush is in rotary contact with the back of the mesh of the crushing elevator hopper so as to poke down the attachments blocking the mesh of the crushing elevator hopper, and meanwhile, the crushing traction spring is matched to realize vibration blanking of the crushing elevator hopper;
s1.3, filtering by means of floating impurities; at first, the rotatory bank of shafts group of planking dials the hand and circulates in proper order from the filtration box that floats through the passageway of floating passageway clearance, the buffering cavity that floats and the output channel that floats, returns the filtration box that floats, dials the plankton one-wayly in the filtration box that floats and is blockked to return the output channel that floats, simultaneously, will mix with the sea water of plankton from first filtration box and bring into the buffering cavity that floats of filtration box that floats to will adhere to in the debris of dialling the hand get rid of the filtration box that floats.
A seawater desalination membrane treatment process, at least comprising one of the following treatment steps of a second sea grass removal device,
s2.0, firstly, the seawater output from the first sea grass removing device enters a second filtering box body through a middle filtering net device;
s2.1, executing S2.11 and/or S2.12 by means of an automatic dredging device;
s2.11, firstly, after the liquid level of the first filtering box body is raised to a set height due to the blockage of the middle filtering screen device, the middle net dredging spurt row group is pulled to move forwards to enter the middle filtering screen device through a dredging pulling rope so as to dredge the filtering screen holes; then, when the liquid level of the first filtering box body descends, the dredging floating objects descend, and the middle net dredging spur row group leaves the filter net holes under the action of the spring;
s2.12, firstly, after the liquid level of the second filtering box body is reduced to a set height due to blockage of the middle filtering net device, the middle net dredging spurt row group is pulled to move forwards to enter the middle filtering net device through a dredging pulling rope so as to dredge the filtering net holes; then, when the liquid level of the second filtering box body rises, the dredging upper floating objects rise, and the middle net dredging spur row group leaves the filter net holes under the action of the spring;
s2.2, with the aid of a secondary fishing device, firstly, rotating the secondary fishing rotary gear disc to enable the secondary fishing auger to face downwards; then, the secondary fishing rotary driving part drives the steering gear to rotate through the central transmission shaft, and the steering gear drives the secondary fishing auger to rotate through the transmission shaft so as to output sundries; then, when the secondary fishing auger is wound by sundries, the secondary fishing rotary gear disk drives the secondary fishing auger to swing upwards so as to clean the attached sundries;
s2.3, by means of the output filtering device, firstly, seawater enters the V-shaped cavity through the self-filtering middle mesh screen and the self-filtering side mesh screen; then, when the blockage occurs, the self-filtering dredging push rod drives the outer top of the hinge rod through the self-filtering to ensure that the self-filtering side swinging rod swings outwards, and the self-filtering side thimble enters the strip-shaped meshes of the self-filtering side mesh screen to dredge; then, stir from straining side swing afterbody and shake L pole one end from straining top, stir the arm and get into from straining in the bar mesh in the middle part mesh screen from straining the top outward to the mediation.
The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.
Drawings
Fig. 1 is a schematic diagram of the overall use structure of the invention.
Fig. 2 is a schematic view of a first filter configuration of the present invention.
Fig. 3 is a schematic view of a second filter configuration of the present invention.
Fig. 4 is a schematic diagram of the output filter configuration of the present invention.
Wherein: 1. a seawater desalination membrane component; 2. a pre-membrane filtration device; 3. a pre-membrane separation device; 4. a first seaweed removal device; 5. a second sea weed removing device; 6. a floating impurity filtering device; 7. a seaweed crushing device; 8. a crushing and fishing device; 9. a crushed material conveyor belt; 10. a middle screen device; 11. the middle net dredges the group of the stabs; 12. an automatic dredging device; 13. a secondary fishing device; 14. an output filter device; 15. a first filter box; 16. a second filter box; 17. a floating filter box body; 18. a floating buffer cavity; 19. a floating rotary shaft bank; 20. a floating partition plate; 21. a floating channel clearance channel; 22. a floating output channel; 23. a spiral sleeve in the crushing conical hole; 24. crushing the fixed support; 25. crushing an Archimedes spiral driving disc; 26. crushing and fixing the guide disc; 27. a crushing fixing guide groove; 28. synchronously moving the sliding seat at the same speed for crushing; 29. crushing the rotary cutter set; 30. a crushing cutter group cleaning brush; 31. crushing a central feeding tapered spiral sheet; 32. a crushing hoist hopper; 33. crushing the pulling spring; 34. crushing the top and cleaning the rotating brush; 35. a dredging guide sleeve; 36. leading an upper guide wheel; 37. leading the lower guide wheel; 38. dredging the floating objects; 39. dredging a traction rope; 40. fishing out the rotating gear disc for the second time; 41. a secondary hinged connecting rod component; 42. a secondary fishing rotation driving part; 43. secondary fishing of the center seat; 44. a secondary indexing support seat; 45. fishing out the screw conveyor for the second time; 46. self-filtering the middle mesh screen; 47. self-filtering side screens; 48. a self-filtering dredging push rod; 49. a self-filtering drive hinge rod; 50. a self-filtering hinged support rod; 51. a self-filtering slide block; 52. a self-filtering side oscillating lever; 53. a self-filtering side thimble; 54. self-filtering side swing tail; 55. swinging the L-shaped rod from the top of the filter; 56. the top of the self-filtering device is provided with an outer stirring arm.
Detailed Description
As shown in fig. 1 to 4, the seawater desalination membrane treatment plant of the present embodiment includes a seawater desalination membrane module 1; the front part of the seawater desalination membrane component 1 is provided with a front membrane filtering device 2 for filtering seawater and/or a front membrane separating device 3 for separating seaweed seawater.
The seawater desalination membrane treatment complete equipment comprises a pre-membrane filtering device 2; the pre-membrane filtration device 2 comprises a first seaweed removing device 4 for crushing whole seaweed and/or a second seaweed removing device 5 for filtering the crushed seaweed.
The seawater desalination membrane treatment complete equipment comprises a first sea grass removing device 4; it comprises a first filtering tank 15; at least one of the following aspects is included in the first filter housing 15;
in the scheme a, the floating impurity filtering device 6 comprises a floating filtering box body 17, an inlet of which is communicated with the first filtering box body 15, and the liquid level of which is communicated; the inner cavity wall of the floating filter box body 17 is connected with a floating partition plate 20 positioned at the output side of the inlet, the floating partition plate 20 divides the floating filter box body 17 into a floating buffer cavity 18 communicated with the inlet, and a floating output channel 22 communicated with the floating buffer cavity 18 and positioned between the end part of the floating partition plate 20 and the inner cavity wall corresponding to the floating filter box body 17 is arranged in the floating filter box body 17; a floating rotary shaft group 19 with a hand-poking is arranged at the floating output channel 22, and floating channel gap channels 21 are distributed at the end part of the floating isolation plate 20 along the height direction so as to pass through the hand-poking of the floating rotary shaft group 19; the shifting hands sequentially circulate from the floating filter box body 17 through the floating channel gap channel 21, the floating buffer cavity 18 and the floating output channel 22 and return to the floating filter box body 17 so as to shift the suspended matters into the floating filter box body 17 in one direction and block the suspended matters from returning to the floating output channel 22; the floating channel gap channel 21 passes through the seawater in a gap manner and blocks sundries with set sizes from passing through;
an included angle alpha between the lateral protrusion between the gap channels 21 and the cross exposed part of the hand plectrum when the lateral protrusion enters is a right angle or an obtuse angle so as to remove impurities attached to the hand plectrum into the floating filter box body 17;
according to the scheme b, the seaweed smashing device 7 comprises a smashing taper hole inner spiral sleeve 23 which is horizontally arranged in the first filtering box body 15 and provided with spiral blades on the inner taper side wall, a smashing fixing support 24 is coaxially and correspondingly arranged at the small port of the smashing taper hole inner spiral sleeve 23, a smashing Archimedes spiral driving disc 25 is rotatably arranged on the smashing fixing support 24, and a smashing fixing guide disc 26 which is axially distributed with smashing fixing guide grooves 27 is arranged at the front end of the smashing Archimedes spiral driving disc 25;
a crushing synchronous moving slide 28 which radially moves on the crushing fixed guide groove 27 and is meshed with and driven by the Archimedes spiral of the crushing Archimedes spiral driving disc 25 at the same speed; a crushing rotary cutter set 29 is rotated on the synchronous moving slide seat 28 at the same crushing speed, and a crushing cutter set cleaning brush 30 is arranged at the far end of the crushing fixed guide groove 27 and is used for removing sundries attached to the crushing rotary cutter set 29; a crushing central feeding taper spiral sheet 31 is rotated at the center of the crushing fixed guide disc 26, the small end of the crushing central feeding taper spiral sheet is positioned at the small end opening of the spiral sleeve 23 in the crushing taper hole and receives seaweed fed by the spiral sleeve 23 in the crushing taper hole; the crushing rotary cutter set 29 moves towards the center to cut off the seaweed centrifugally thrown out and/or wound on the crushing central feeding taper spiral piece 31 in a rotating way;
and/or scheme c, the crushing and fishing device 8 comprises a lifter which is obliquely arranged, the lower part of the lifter is positioned in the first filtering box body 15, and the lifter is provided with a crushing lifter hopper 32 so as to fish out the seaweed; the root of the crushing elevator hopper 32 is hinged on the crushing elevator hopper 32, and the head of the crushing elevator hopper 32 is connected on the elevator through a crushing traction spring 33;
a crushing top cleaning rotary brush 34 is arranged at the direction change position of the hoister so as to be in rotary contact with the back surface of the mesh of the crushing hoister hopper 32;
an input end of the crushed material conveyor belt 9 is arranged below the back surface of the elevator to receive the sundries falling from the hopper 32 of the crushing elevator.
The seawater desalination membrane treatment complete equipment comprises a second sea grass removing device 5, a second filtering box 16 and a second filter tank, wherein the second sea grass removing device comprises a first filter tank body and a second filter tank body; at least one of the following solutions is provided in the second filter housing 16;
in the scheme I, the automatic dredging device 12 comprises a middle filter screen device 10 which is arranged between a second filter box body 16 and a first filter box body 15 of the first seaweed removing device 4;
an intermediate net leading spur row group 11 is connected in the second filter box body 16 through a spring so as to
A dredging guide sleeve 35 and a dredging upper guide wheel 36 are arranged above the second filter box body 16; a lower guide wheel 37 and an upper floating object 38 are arranged in the first filtering box body 15;
a dredging traction rope 39, one end of which is arranged in the middle net dredging spur row group 11, and is connected with the dredging upper floater 38 after sequentially passing through the dredging guide sleeve 35, the dredging upper guide wheel 36 and the dredging lower guide wheel 37;
after the middle filter screen device 10 is blocked, and the liquid level of the first filter box body 15 rises to a set height, the middle screen dredging spur row group 11 is drawn by the dredging drawing rope 39 to move forwards to enter the middle filter screen device 10 so as to dredge the filter screen holes; the middle net dredging and burrowing group 11 is a pyramid;
when the liquid level of the first filtering box body 15 descends, the dredging upper floating objects 38 descend, and the middle net dredging spur row group 11 leaves the filtering net holes under the action of the spring;
in the scheme II, the secondary fishing device 13 comprises a secondary fishing rotary gear disc 40 arranged above the second filter box body 16; a secondary fishing center seat 43 is arranged at the center of the secondary fishing rotary gear disc 40, a secondary indexing support seat 44 is arranged at the edge of the secondary fishing rotary gear disc 40, a secondary fishing rotary driving part 42 is arranged at one end of the secondary fishing rotary gear disc 40, and a secondary hinge connecting rod assembly 41 and a center transmission shaft are respectively connected between a bearing seat of the secondary fishing rotary driving part 42 and a bearing seat of the secondary fishing center seat 43 and between a bearing seat of the secondary indexing support seat 44 and a bearing seat of the secondary fishing center seat 43; a direction machine in transmission connection with a central transmission shaft is arranged in the secondary fishing central seat 43, and the output end of the direction machine is connected with a secondary fishing auger 45 through a transmission shaft in a secondary indexing support seat 44; a secondary rotating part is arranged on the secondary indexing support seat 44, and a secondary fishing auger 45 is connected to the secondary rotating part; the lower end of the secondary fishing screw conveyor 45 is positioned in the second filtering box body 16 so as to output sundries; when the secondary fishing rotary gear disk 40 drives the secondary fishing auger 45 to swing upwards, the attached sundries are cleaned;
in the embodiment III, the output filter device 14 includes a self-filtering middle mesh screen 46 disposed in the second filter box 16, and the self-filtering middle mesh screen 46 is connected to the inner wall of the second filter box 16 through a self-filtering side mesh screen 47 to form a V-shaped cavity;
the lower end of the V-shaped cavity is communicated with the input end of a seawater desalination membrane module 1;
a self-filtering dredging push rod 48 is arranged in the V-shaped cavity, a self-filtering driving hinge rod 49 is hinged to the self-filtering dredging push rod 48, and self-filtering hinge support rods 50 positioned at two sides of the self-filtering dredging push rod 48 are arranged in the V-shaped cavity; a self-filtering side swinging rod 52 is swung on the self-filtering hinged support rod 50, a self-filtering slide block 51 is hinged at one end of the self-filtering side swinging rod 52 to be hinged with a self-filtering driving hinged rod 49, and self-filtering side thimbles 53 are distributed on the outer side wall of the self-filtering side swinging rod 52 to enter strip-shaped meshes of the self-filtering side mesh screen 47;
in the V-shaped cavity, a self-filtering top swing L-rod 55 corresponding to the self-filtering middle mesh screen 46, a self-filtering side swing tail 54 at the other end of the self-filtering side swing rod 52, the self-filtering side swing tail 54 for shifting one end of the self-filtering top swing L-rod 55, and a self-filtering top outward shifting arm 56 at the other end of the self-filtering top swing L-rod 55 to enter the strip-shaped mesh in the self-filtering middle mesh screen 46;
and/or scheme IV, the automatic dredging device 12, including the intermediate filtering net device 10, is arranged between the second filtering box 16 and the first filtering box 15 of the first seaweed removing device 4;
an intermediate net leading spur row group 11 is connected in the second filter box body 16 through a spring so as to
A dredging guide sleeve 35 and a dredging upper guide wheel 36 are arranged above the second filter box body 16; the second filter box 16 is provided with a dredging upper float 38;
a dredging traction rope 39, one end of which is arranged in the middle net dredging spur row group 11, and the dredging traction rope is connected with the dredging upper floater 38 after sequentially passing through the dredging guide sleeve 35 and the dredging upper guide wheel 36;
after the middle filter screen device 10 is blocked to cause the liquid level of the second filter box body 16 to rise to a set height, the middle screen dredging spur row group 11 is drawn by the dredging drawing rope 39 to move forwards to enter the middle filter screen device 10 to dredge the filter screen holes;
when the liquid level of the second filter box 16 rises, the dredging floater 38 rises, and the middle net dredging spur row group 11 leaves the filter net holes under the action of the spring.
The seawater desalination membrane treatment process comprises the following steps;
firstly, separating the mixed seaweed in the seawater to be filtered by a membrane pre-separation device 3;
then, the pre-membrane filtration device 2 filters the water to be desalinated;
secondly, the seawater desalination membrane module 1 carries out desalination treatment on the filtered seawater;
wherein, in the separation of the mixed sea grass in the sea water to be filtered, at least one of the following steps is included;
step one, crushing whole seaweed by a first seaweed removing device 4;
and/or step two, filtering the crushed seaweed by a second seaweed removing device 5.
The seawater desalination membrane treatment process of the embodiment at least comprises one of the following treatment steps of the first sea grass removing device 4,
s1.0, sending seawater into a first filtering box body 15;
s1.1, by means of a seaweed crushing device 7; firstly, the spiral sleeve 23 in the crushing conical hole rotates to generate a rotating vortex to flow to the seawater of the mixed seaweed conveyed to the small end, and the spiral blade is used for rotary cutting for one time; then, the crushing central feeding taper spiral piece 31 is rotated to carry the small end of the spiral sleeve 23 in the crushing taper hole to output and move forward, the crushing central feeding taper spiral piece 31 carries out secondary rotary cutting, and seaweed is thrown out through centrifugal force; then, the crushing archimedes spiral driving disc 25 is driven to rotate, so that the autorotation crushing synchronous moving slide seat 28 synchronously moves towards the center in the radial direction at the same speed, seaweed wound on the crushing central feeding taper spiral piece 31 is cut in a rotary manner, the seaweed thrown out by the crushing central feeding taper spiral piece 31 is cut in a rotary manner, and three rotary cutting is realized; then, the crushing archimedes spiral driving disc 25 is driven to rotate reversely, so that the autorotation crushing synchronous moving slide seat 28 synchronously moves towards the edge at the same speed in a radial direction, so as to pull, cut and rotary cut the seaweed wound on the crushing rotary cutter set 29, and realize the rotary cutting for four times; secondly, the crushing cutter group cleaning brush 30 removes the foreign matters attached to the crushing rotary cutter group 29;
s1.2, the crushing and fishing device 8 firstly operates the hoister, and the crushing hoister hopper 32 fishes out the seaweed; then, the crushing elevator hopper 32 is lifted, turned backwards and overturned, so that the seaweed falls to the input end of the crushed object conveyor belt 9 and is output; then, for the inverted crushing elevator hopper 32, the crushing top cleaning rotary brush 34 is in rotary contact with the back surface of the mesh of the crushing elevator hopper 32 to poke down the attachments blocking the mesh of the crushing elevator hopper 32, and meanwhile, the crushing traction spring 33 is matched to realize vibration blanking of the crushing elevator hopper 32;
s1.3, by means of a floating impurity filtering device 6; firstly, the floating rotary shaft group 19 hands off sequentially and circularly pass through the floating channel gap channel 21, the floating buffer cavity 18 and the floating output channel 22 from the floating filter box body 17 and return to the floating filter box body 17, so that the suspended matters are unidirectionally stirred into the floating filter box body 17 and blocked to return to the floating output channel 22, and simultaneously, the seawater mixed with the suspended matters is brought into the floating buffer cavity 18 of the floating filter box body 17 from the first filter box body 15, and the impurities attached to the hands off are removed into the floating filter box body 17.
The seawater desalination membrane treatment process of the embodiment at least comprises one of the following treatment steps of the second sea grass removing device 5,
s2.0, firstly, the seawater output from the first sea weed removing device 4 enters the second filtering box body 16 through the middle filter screen device 10;
s2.1, performing S2.11 and/or S2.12 by means of the automatic grooming device 12;
s2.11, firstly, after the liquid level of the first filtering box body 15 rises to a set height due to the blockage of the middle filtering net device 10, the middle net dredging and bur row group 11 is drawn by a dredging and pulling rope 39 to move forwards to enter the middle filtering net device 10 so as to dredge the filtering net holes; then, when the liquid level of the first filtering box body 15 descends to lead the dredging upper floating object 38 to descend, the middle net dredging spur row group 11 leaves the filtering net holes under the action of the spring;
s2.12, firstly, after the liquid level of the second filtering box body 16 is lowered to a set height due to the blockage of the middle filtering net device 10, the middle net dredging and bur row group 11 is drawn by a dredging and pulling rope 39 to move forwards to enter the middle filtering net device 10 so as to dredge the filtering net holes; then, when the liquid level of the second filter box 16 rises, the dredging upper floating object 38 rises, and the middle net dredging spur row group 11 leaves the filter net holes under the action of the spring;
s2.2, by means of the secondary fishing device 13, firstly, the secondary fishing rotary gear disc 40 rotates, so that the secondary fishing screw conveyor 45 faces downwards; then, the secondary fishing rotation driving part 42 drives the steering gear to rotate through the central transmission shaft, and the steering gear drives the secondary fishing auger 45 to rotate through the transmission shaft so as to output sundries; then, when the secondary fishing auger 45 is wound by the sundries, the secondary fishing rotary gear disk 40 drives the secondary fishing auger 45 to swing upwards so as to clean the attached sundries;
s2.3, by means of the output filtering device 14, firstly, seawater enters the V-shaped cavity through the self-filtering middle mesh screen 46 and the self-filtering side mesh screen 47; then, when the blockage occurs, the self-filtration dredging push rod 48 pushes the self-filtration driving hinge rod 49 outwards, so that the self-filtration side swinging rod 52 swings outwards, and the self-filtration side ejector pin 53 enters the strip-shaped meshes of the self-filtration side part mesh screen 47 for dredging; the self-filtering side swing tail 54 then pulls one end of the self-filtering top swing L-bar 55, and the self-filtering top outside pull arm 56 enters the strip-shaped mesh in the self-filtering middle mesh screen 46 for dredging.
The technical schemes of the invention can be reasonably combined or used independently. The sea water desalination membrane component 1 realizes desalination treatment, the pre-membrane filtering device 2 realizes fine filtration, and the pre-membrane separating device 3 realizes physical separation of enteromorpha, which is the innovation point of the invention.
The first sea grass removing device 4 cuts and salvages enteromorpha, kelp, weeds and the like, and the second sea grass removing device 5 realizes secondary salvage. The floating impurity filtering device 6 is used for storing floaters such as impurity foam, grass and the like in a one-way mode and stopping the floaters at the same time by utilizing an impurity foam net of a washing machine and a station outlet rotating device. Sea grass reducing mechanism 7 utilizes the tapering to realize gathering together the effect, realizes that quartic flight cuts, avoids smashing and winding, utilizes archimedes' spiral line principle, realizes smashing rotary knife group 29 radial movement, realizes pulling open, has realized dragging apart of sea grass. The crushing and fishing device 8 realizes fishing by utilizing a lifter principle, realizes output by the crushed material conveying belt 9, realizes vibration falling by utilizing a spring, realizes the movement of the intermediate net dredging and burrowing group 11 by utilizing buoyancy and liquid level lifting generated by blocking by utilizing the intermediate net device 10, and matching with the spring, calculating gravity, spring force, buoyancy and the like, and the pyramid is convenient for seawater to pass through.
The secondary fishing device 13 realizes the output of the auger and regularly swings to take down the winding on the auger, so that the cleaning is convenient. The output filtering device 14 combines the umbrella principle and the seesaw lever principle to realize the output of the seawater grid hole before the output. The invention realizes the treatment of the sea grass and the enteromorpha before the seawater desalination treatment.

Claims (7)

1. A seawater desalination membrane treatment complete equipment is characterized in that: comprises a seawater desalination membrane component (1); a pre-membrane filtering device (2) for filtering seawater and/or a pre-membrane separating device (3) for separating sea water from seaweed are/is arranged in front of the seawater desalination membrane component (1).
2. A seawater desalination membrane treatment complete equipment is characterized in that: comprises a pre-membrane filtration device (2); the pre-membrane filtration device (2) comprises a first seaweed removal device (4) for comminuting whole seaweed and/or a second seaweed removal device (5) for filtering the comminuted seaweed.
3. A seawater desalination membrane treatment complete equipment is characterized in that: comprises a first sea grass removing device (4); it comprises a first filtering tank (15); at least one of the following schemes is included in the first filtering box body (15);
according to the scheme a, the floating impurity filtering device (6) comprises a floating filtering box body (17) with an inlet communicated with the first filtering box body (15) and a liquid level communicated with the first filtering box body; the inner cavity wall of the floating filter box body (17) is connected with a floating partition plate (20) positioned at the inlet and outlet sides, the floating filter box body (17) is divided into a floating buffer cavity (18) communicated with the inlet by the floating partition plate (20), and a floating output channel (22) which is communicated with the floating buffer cavity (18) and positioned between the end part of the floating partition plate (20) and the corresponding inner cavity wall of the floating filter box body (17) is arranged in the floating filter box body (17); a floating rotary shaft group (19) with a hand-poking is arranged at the floating output channel (22), and floating channel gap channels (21) are distributed at the end part of the floating isolation plate (20) along the height direction so as to pass through the hand-poking of the floating rotary shaft group (19); the shifting hands sequentially circulate from the floating filtering box body (17) through the floating channel gap channel (21), the floating buffer cavity (18) and the floating output channel (22) and return to the floating filtering box body (17) so as to shift the suspended matters into the floating filtering box body (17) in a one-way mode and block the suspended matters from returning to the floating output channel (22); the floating channel gap channel (21) passes through the seawater in a gap manner and blocks sundries with set sizes from passing through;
an included angle alpha between the lateral protrusion between the gap channels (21) and the cross exposed part of the poking hand when the lateral protrusion enters is a right angle or an obtuse angle so as to remove impurities attached to the poking hand into the floating filter box body (17);
according to the scheme b, the seaweed smashing device (7) comprises a smashing taper hole inner spiral sleeve (23) which is horizontally arranged in the first filtering box body (15) and provided with a spiral blade on the inner taper side wall, a smashing fixing support (24) is coaxially and correspondingly arranged at the small port of the smashing taper hole inner spiral sleeve (23), a smashing Archimedes spiral driving disc (25) is rotatably arranged on the smashing fixing support (24), and a smashing fixing guide disc (26) which is axially distributed with smashing fixing guide grooves (27) is arranged at the front end of the smashing Archimedes spiral driving disc (25);
a crushing synchronous moving slide seat (28) which radially moves on the crushing fixed guide groove (27) and is meshed with the Archimedes spiral of the crushing Archimedes spiral driving disk (25) for driving; a crushing rotary cutter set (29) is rotated on the synchronous moving slide seat (28) at the same crushing speed, and a crushing cutter set cleaning brush (30) is arranged at the far end of the crushing fixed guide groove (27) and is used for removing sundries attached to the crushing rotary cutter set (29); a crushing central feeding taper spiral sheet (31) is rotated at the center of the crushing fixed guide disc (26), and the small end of the crushing central feeding taper spiral sheet is positioned at the small end opening of the spiral sleeve (23) in the crushing taper hole and receives seaweed fed by the spiral sleeve (23) in the crushing taper hole; the crushing rotary cutter set (29) moves towards the center to cut off the seaweed centrifugally thrown out and/or wound on the crushing central feeding taper spiral piece (31) in a rotating way;
and/or scheme c, the crushing and fishing device (8) comprises a lifter which is obliquely arranged, the lower part of the lifter is positioned in the first filtering box body (15) and is provided with a crushing lifter hopper (32) so as to fish out the seaweed; the root part of the crushing elevator hopper (32) is hinged on the crushing elevator hopper (32), and the head part of the crushing elevator hopper (32) is connected on the elevator through a crushing traction spring (33);
a crushing top cleaning rotary brush (34) is arranged at the direction change position of the hoister to be in rotary contact with the back surface of the mesh of a crushing hoister hopper (32);
the input end of a crushed material conveyor belt (9) is arranged below the back surface of the hoister to receive the sundries falling from a hopper (32) of the crushing hoister.
4. A seawater desalination membrane treatment complete equipment is characterized in that: comprises a second sea grass removing device (5) which comprises a second filtering box body (16); at least one of the following schemes is arranged in the second filtering box body (16);
according to the scheme I, the automatic dredging device (12) comprises a middle filter screen device (10) which is arranged between a second filter box body (16) and a first filter box body (15) of a first seaweed removing device (4);
an intermediate net leading spur group (11) is connected in the second filtering box body (16) through a spring so as to
A dredging guide sleeve (35) and a dredging upper guide wheel (36) are arranged above the second filtering box body (16); a dredging lower guide wheel (37) and a dredging upper floating object (38) are arranged in the first filtering box body (15);
a dredging traction rope (39), one end of which is arranged in the middle net dredging bur row group (11), and the dredging traction rope is connected with the dredging upper floater (38) after sequentially passing through the dredging guide sleeve (35), the dredging upper guide wheel (36) and the dredging lower guide wheel (37);
when the middle filter screen device (10) is blocked, the liquid level of the first filter box body (15) rises to a set height, the middle screen dredging spur row group (11) is dragged to move forwards into the middle filter screen device (10) through the dredging and pulling rope (39) to dredge filter screen holes; the middle net dredging and burrowing group (11) is a pyramid;
when the liquid level of the first filtering box body (15) descends, the dredging upper floating objects (38) descend, and the middle net dredging spur row group (11) leaves the filter net holes under the action of the spring;
scheme II, the secondary fishing device (13) comprises a secondary fishing rotary gear disc (40) arranged above the second filtering box body (16); a secondary fishing center seat (43) is arranged at the center of the secondary fishing rotary gear disc (40), a secondary indexing support seat (44) is arranged at the edge of the secondary fishing rotary gear disc (40), a secondary fishing rotary driving part (42) is arranged at one end of the secondary fishing rotary gear disc (40), and a secondary hinge connecting rod assembly (41) and a center transmission shaft are respectively connected between a bearing seat of the secondary fishing rotary driving part (42) and a bearing seat of the secondary fishing center seat (43) and between a bearing seat of the secondary indexing support seat (44) and a bearing seat of the secondary fishing center seat (43); a direction machine in transmission connection with a central transmission shaft is arranged in the secondary fishing central seat (43), and the output end of the direction machine is connected with a secondary fishing auger (45) through a transmission shaft in a secondary indexing support seat (44); a secondary rotating part is arranged on the secondary indexing support seat (44), and a secondary fishing auger (45) is connected to the secondary rotating part; the lower end of the secondary fishing auger (45) is positioned in the second filtering box body (16) to output sundries; when the secondary fishing rotary gear plate (40) drives the secondary fishing auger (45) to swing upwards so as to clean the attached sundries;
scheme III, the output filtering device (14) comprises a self-filtering middle mesh screen (46) arranged in the second filtering box body (16), and the self-filtering middle mesh screen (46) is connected to the inner wall of the second filtering box body (16) through a self-filtering side mesh screen (47) to form a V-shaped cavity;
the lower end of the V-shaped cavity is communicated with the input end of a seawater desalination membrane component (1);
a self-filtering dredging push rod (48) is arranged in the V-shaped cavity, a self-filtering driving hinge rod (49) is hinged to the self-filtering dredging push rod (48), and self-filtering hinge support rods (50) positioned at two sides of the self-filtering dredging push rod (48) are arranged in the V-shaped cavity; the middle part of a self-filtering side swinging rod (52) swings on a self-filtering hinged support rod (50), one end of the self-filtering side swinging rod (52) is hinged with a self-filtering slide block (51) to be hinged with a self-filtering driving hinged rod (49), and self-filtering side thimbles (53) are distributed on the outer side wall of the self-filtering side swinging rod (52) to enter strip-shaped meshes of a self-filtering side mesh screen (47);
in the V-shaped cavity, a self-filtering top swing L rod (55) corresponding to the self-filtering middle mesh screen (46), a self-filtering side swing tail part (54) at the other end of the self-filtering side swing rod (52), wherein the self-filtering side swing tail part (54) is used for shifting one end of the self-filtering top swing L rod (55), and a self-filtering top external shifting arm (56) is arranged at the other end of the self-filtering top swing L rod (55) to enter strip-shaped meshes in the self-filtering middle mesh screen (46);
and/or scheme IV, the automatic dredging device (12) comprises a middle filter screen device (10) which is arranged between the second filtering box body (16) and the first filtering box body (15) of the first seaweed removing device (4);
an intermediate net leading spur group (11) is connected in the second filtering box body (16) through a spring so as to
A dredging guide sleeve (35) and a dredging upper guide wheel (36) are arranged above the second filtering box body (16); the second filtering box body (16) is provided with a dredging upper floater (38);
a dredging traction rope (39), one end of which is arranged in the middle net dredging bur row group (11) and is connected with the dredging upper floater (38) after sequentially passing through the dredging guide sleeve (35) and the dredging upper guide wheel (36);
when the middle filter screen device (10) is blocked, the liquid level of the second filter box body (16) is caused to rise to a set height, the middle screen dredging spur row group (11) is dragged to move forwards into the middle filter screen device (10) through a dredging and pulling rope (39) to dredge filter screen holes;
when the liquid level of the second filtering box body (16) rises, the dredging upper floating objects (38) rise, and the middle net dredging spur row group (11) leaves the filter net holes under the action of the spring.
5. A seawater desalination membrane treatment process is characterized in that: comprises the following steps;
firstly, separating seaweed mixed in seawater to be filtered by a membrane pre-separation device (3);
then, the pre-membrane filtering device (2) filters the water to be desalinated;
secondly, the seawater desalination membrane component (1) carries out desalination treatment on the filtered seawater;
wherein, in the separation of the mixed sea grass in the sea water to be filtered, at least one of the following steps is included;
step one, crushing whole seaweed through a first seaweed removing device (4);
and/or step two, filtering the crushed seaweed by a second seaweed removing device (5).
6. A seawater desalination membrane treatment process is characterized in that: comprises at least one of the following processing steps of the first sea weed removing device (4),
s1.0, sending seawater into a first filtering box body (15);
s1.1, by means of a seaweed comminuting device (7); firstly, a spiral sleeve (23) in a crushing conical hole rotates to generate a rotary vortex to flow to the seawater of the mixed seaweed conveyed to a small end, and a spiral blade is used for rotary cutting for one time; then, the crushing central feeding taper spiral piece (31) is rotated to carry the small end of the spiral sleeve (23) in the crushing taper hole to output and move forward, the crushing central feeding taper spiral piece (31) is subjected to secondary rotary cutting, and seaweed is thrown out through centrifugal force; then, the crushing Archimedes spiral driving disc (25) is rotationally driven, so that the autorotation crushing synchronous moving slide seat (28) synchronously moves towards the center in the same speed and radial direction, seaweed wound on the crushing central feeding taper spiral piece (31) is rotationally cut, the seaweed thrown out by the crushing central feeding taper spiral piece (31) is rotationally cut, and three times of rotational cutting are realized; then, the crushing Archimedes spiral driving disc (25) is driven by reverse rotation, so that the autorotation crushing synchronous moving slide seat (28) synchronously moves towards the edge at the same speed and in the radial direction to pull, cut off and rotary cut the seaweed wound on the crushing rotary cutter set (29), and realize the rotary cutting for four times; secondly, the crushing cutter group cleaning brush (30) removes sundries attached to the crushing rotary cutter group (29);
s1.2, a crushing and fishing device (8) is used, firstly, a lifting machine works, and a crushing lifting machine hopper (32) is used for fishing out the seaweed; then, the hopper (32) of the crushing lifter is lifted and turned backwards, so that the seaweed falls to the input end of the crushed object conveyor belt (9) and is output; then, for the inverted crushing elevator hopper (32), the crushing top cleaning rotary brush (34) is in rotary contact with the back of the mesh of the crushing elevator hopper (32) so as to poke down the attachments blocking the mesh of the crushing elevator hopper (32), and meanwhile, the crushing traction spring (33) is matched to realize blanking under vibration on the crushing elevator hopper (32);
s1.3, filtering by means of a floating impurity filtering device (6); firstly, the floating rotary shaft group (19) dials hands in turn to circulate from the floating filter box body (17) through the floating channel gap channel (21), the floating buffer cavity (18) and the floating output channel (22), and returns to the floating filter box body (17), and the floating objects are unidirectionally dialed into the floating filter box body (17) and blocked to return to the floating output channel (22), and simultaneously, the seawater mixed with the floating objects is brought into the floating buffer cavity (18) of the floating filter box body (17) from the first filter box body (15), and the impurities attached to the dials hands are removed into the floating filter box body (17).
7. A seawater desalination membrane treatment process is characterized in that: comprises at least one of the following processing steps of the second sea weed removing device (5),
s2.0, firstly, the seawater output from the first sea weed removing device (4) enters a second filtering box body (16) through an intermediate filter screen device (10);
s2.1, executing S2.11 and/or S2.12 by means of an automatic dredging device (12);
s2.11, firstly, after the liquid level of the first filtering box body (15) is raised to a set height due to the blockage of the middle filtering net device (10), the middle net dredging and burdening row group (11) is dragged to move forwards into the middle filtering net device (10) through a dredging and pulling rope (39) so as to dredge the filtering net holes; then, when the liquid level of the first filtering box body (15) descends, the dredging upper floating object (38) descends, and the middle net dredging spur row group (11) leaves the filter net holes under the action of the spring;
s2.12, firstly, after the liquid level of the second filtering box body (16) is lowered to a set height due to the blockage of the middle filtering net device (10), the middle net dredging and bur row group (11) is drawn to move forwards into the middle filtering net device (10) through a dredging and pulling rope (39) so as to dredge the filtering net holes; then, when the liquid level of the second filtering box body (16) rises, the dredging upper floating object (38) rises, and the middle net dredging spur row group (11) leaves the filter net holes under the action of the spring;
s2.2, with the aid of the secondary fishing device (13), firstly, rotating the secondary fishing rotating gear disc (40) to enable the secondary fishing auger (45) to face downwards; then, the secondary fishing rotary driving part (42) drives the steering gear to rotate through a central transmission shaft, and the steering gear drives the secondary fishing auger (45) to rotate through the transmission shaft so as to output sundries; then, when the secondary fishing auger (45) is wound by sundries, the secondary fishing rotary gear disc (40) drives the secondary fishing auger (45) to swing upwards so as to clean the attached sundries;
s2.3, by means of the output filtering device (14), firstly, seawater enters the V-shaped cavity through the self-filtering middle mesh screen (46) and the self-filtering side mesh screen (47); then, when the blockage occurs, the self-filtering dredging push rod (48) drives the outer top of the hinge rod (49) through the self-filtering to lead the self-filtering side swinging rod (52) to swing outwards, and the self-filtering side thimble (53) enters the strip-shaped meshes of the self-filtering side mesh screen (47) to dredge; then, the self-filtering side swing tail part (54) pulls one end of the self-filtering top swing L rod (55), and the self-filtering top outer pull arm (56) enters strip-shaped meshes in the self-filtering middle mesh screen (46) to be dredged.
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CN115991520A (en) * 2023-03-23 2023-04-21 自然资源部第一海洋研究所 Seawater desalination device and seawater desalination control method

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