CN108532570A

CN108532570A - A kind of floating algae collection dehydration device

Info

Publication number: CN108532570A
Application number: CN201810301905.0A
Authority: CN
Inventors: 黄展明; 李标; 周森; 郑永旭
Original assignee: GUANGZHOU SPT ENVIRONMENTAL PROTECTION
Current assignee: GUANGZHOU SPT ENVIRONMENTAL PROTECTION
Priority date: 2018-04-04
Filing date: 2018-04-04
Publication date: 2018-09-14

Abstract

The invention discloses a kind of floating algaes to collect dehydration device, including collection module and dewatering module, collection module has water inlet, dewatering module has water pump and centrifugal dehydrator, detachable filter bag is equipped in dewaterer, water-supply-pipe is equipped between water inlet, water pump and centrifugal dehydrator, water is transported to centrifugal dehydrator by water pump from water inlet, and water pump uses diaphragm pump.Diaphragm pump generates pressure difference to convey liquid by the variation of pumping cylinder internal volume, this floating algae collects the characteristics of dehydration device does not stir impact liquid using diaphragm pump, cyanobacteria group will not be smashed when conveying is by the water that cyanobacteria pollutes, the power of centrifugal dehydrator can so be mitigated, the density requirements of filter bag are reduced, it is with good economic efficiency.The invention administers field for algae pollution.

Description

A kind of floating algae collection dehydration device

Technical field

The present invention relates to algae pollutions to administer field, and dehydration device is collected more particularly to a kind of floating algae.

Background technology

In pond, landscape water also has eutrophication, wherein will cause blue algae bloom, pollutes water quality, injures the shoal of fish, Cyanobacteria is easily spread soluble easily in water, it is more difficult to be removed.There are two types of the modes of removal cyanobacteria at present, the first is toward droplet input condensation medicine Object is simultaneously consolidated water and cyanobacteria, finally handles simultaneously；Second is manually to stand on ship, and indigo plant is collected using net is scraped Algae post-processes.The first way has used drug condensation, more or less can secondary pollution water body, cannot comprehensively purified water. Second of way is manual operation, it should be apparent that has the shortcomings that inefficiency.It is substantially seldom drawn water using machine, then Allow water and cyanobacteria simultaneously by scraping net, this is because water pump can break up algae group during conveying, cause it is common scrape net without Method filters, although the mesh density for scraping net can be improved, the filter efficiency and purchase cost of scraping net at this time can be all substantially increased, It is no longer economical and practical.

In conclusion tackling blue algae bloom currently without cost-effective measure.

Invention content

The purpose of the present invention is to provide one kind, and blue algae group can be avoided broken, improved and filters out algae ability and efficiency Floating algae collect dehydration device.

The technical solution used in the present invention is：

A kind of floating algae collection dehydration device, including collection module and dewatering module, collection module have water inlet, are dehydrated mould Block has water pump and centrifugal dehydrator, and detachable filter bag, water inlet, water pump and centrifugal dehydration are equipped in dewaterer Water-supply-pipe is equipped between machine, water is transported to centrifugal dehydrator by water pump from water inlet, and water pump uses diaphragm pump.

As the improvement of said program, dewatering module further includes the pedestal for carrying diaphragm pump, centrifugal dehydrator and water-supply-pipe.

As the improvement of said program, each water-supply-pipe uses hose.

As the improvement of said program, collection module includes the holder of collector pipe and carrying collector pipe, is had on collector pipe Several pores as water inlet, a diameter of 3~6mm of each pore are connected between collector pipe and water pump by water-supply-pipe, are propped up There is frame buoyancy system holder to be made to suspend, and each pore is made to be at 4~6cm of underwater.

As the improvement of said program, collection module further includes the pull rod moved for towing bracket.

As the improvement of said program, collector pipe is horizontally mounted, collector pipe it is closed at both ends, several pores are in collector pipe Side wall.

As the improvement of said program, buoyancy system includes several floating balls, and at least one floating ball is not completely in the water surface Under.

As the improvement of said program, connected by first connecting rod between each floating ball and holder, between collector pipe and holder It is connected by second connecting rod, each first connecting rod is screw rod, and each first connecting rod passes through floating ball and spiral shell is arranged in the upper and lower ends of floating ball The fixed floating ball of mother, second connecting rod is telescopic rod.

As the improvement of said program, three floating balls are arranged in buoyancy system, see three floating ball distributions triangular in shape with overlooking.

Beneficial effects of the present invention：Diaphragm pump generates pressure difference to convey liquid by the variation of pumping cylinder internal volume, this floats algae The characteristics of dehydration device does not stir impact liquid using diaphragm pump is collected, cyanobacteria will not be smashed when conveying is by the water that cyanobacteria pollutes Group, can so mitigate the power of centrifugal dehydrator, reduce the density requirements of filter bag, with good economic efficiency.

Description of the drawings

The invention will be further described below in conjunction with the accompanying drawings：

Fig. 1 is the overall schematic that floating algae collects dehydration device.

Specific implementation mode

Arrow in Fig. 1 indicates drainage flow state.

Referring to Fig.1, the present invention is a kind of floating algae collection dehydration device, specifically includes two big modules, is on the left of Fig. 1 respectively Dewatering module on the right side of collection module and Fig. 1, collection module are placed in water, and there is collection module water inlet, dewatering module to put It sets on the coast, the two is connected to by water-supply-pipe 7.

Dewatering module includes mainly water pump, centrifugal dehydrator 11 and carrying the two pedestal 8, and the pedestal 8 is not using Rust steel or other metals make, while centrifugal dehydrator 11 is equipped with detachable filter bag 12, and water pump is as dewatering module Input terminal sewage is transported to centrifugal dehydrator 11 from water inlet, centrifugal dehydration pump is retained in cyanobacteria in filter bag 12, from Water after the heart can go back to pond with direct emission.Dewatering module may be mounted on the bank, the platform that can also be mounted on the water surface.It must Strategic point, water pump use diaphragm pump 9, diaphragm pump 9 to generate pressure difference by the variation of pumping cylinder internal volume to convey liquid, this floating algae is collected The characteristics of dehydration device does not stir impact liquid using diaphragm pump 9 will not smash cyanobacteria group when conveying is by the water that cyanobacteria pollutes, The power of centrifugal dehydrator 11 can so be mitigated, reduce the density requirements of filter bag 12, it is with good economic efficiency.Diaphragm Pump 9 is by sewage transport to centrifugal dehydrator 11, replaceable filter bag 12, old filter bag 12 after collecting a certain amount of floating algae And its internal cyanobacteria can directly abandon or dry burial processing after inactivation as rubbish from cooking.

It is compared with the water pump in other, the flow of diaphragm pump 9 is on the low side, the draining so diaphragm pump 9 cannot absorb water in large quantities.In It is to need pointedly to collect cyanobacteria, then just need optimization design collection module to improve the filter efficiency of whole device, The especially position of the water inlet of design collection module.

Collection module includes the holder 3 of collector pipe 1 and carrying collector pipe 1, has several as water inlet on collector pipe 1 Pore.In view of the size of cyanobacteria group is 3~6mm, then a diameter of 3~6mm of each pore, can enter water to avoid Pump Suction In extra impurity avoid water-supply-pipe 7 to block such as plastic flakes or water plant etc, water pump avoided to damage.Simultaneously collector pipe 1 with It is connected to by water-supply-pipe 7 between water pump.In view of cyanobacteria is suspended in the depth of underwater 5cm more, preferably, holder 3 is set Setting buoyancy system makes holder 3 suspend, and each pore is made steadily to be at 4~6cm of underwater.This design can just make up The small disadvantage of 9 flow of diaphragm pump, the two cooperation bring out the best in each other, and are effectively improved filter efficiency.

Buoyancy can be generated there are many scheme, it can be common that changeable volume and density, such as holder 3 itself use lightweight material Material is done greatly using enclosed construction, while volume, just can generate buoyancy.But come from saving increased production cost production efficiency It says, the floating ball 4 of holder 3 is connected to preferably, buoyancy system includes several；Water is moving, and can impact branch to a certain extent Frame 3, as long as floating ball 4 not completely not in underwater, buoyancy has the range rationally fluctuated, buoyancy and collection module there are one but Gravity be in dynamic equilibrium.Holder 3 steadily suspends, and water inlet also can steadily be in suitable absorption cyanobacteria naturally Depth.

It as preferred embodiment, is connected by first connecting rod 5 between each floating ball 4 and holder 3, collector pipe 1 and holder 3 Between connected by second connecting rod 2, each first connecting rod 5 is screw rod, and each first connecting rod 5 passes through floating ball 4 and up and down the two of floating ball 4 End setting nut fixes floating ball 4, and second connecting rod 2 is telescopic rod.Assuming that holder 3 is static, this is designed so that floating ball 4 and collector pipe The height of 1 opposite brackets 3 is adjustable, so copes with the cyanobacteria of underwater different depth.Further, buoyancy system is arranged three and floats Ball 4 sees three 4 distributions triangular in shape of floating ball with overlooking, and is three vertex of triangle respectively, and 3 points are floated at face, so distribution Ball 4 can topple to avoid holder 3 is unexpected；Adaptably, holder 3 is also overlapped to form triangle by three third connecting rods, three first The lower end of connecting rod 5 is each passed through and fixes the lap-joint of adjacent two third connecting rod.In this case each first connecting rod 5 is upper Lower both ends can make full use of.2 inner hollow of second connecting rod can allow water-supply-pipe 7 to be inserted into.

As the improvement of said program, collector pipe 1 is horizontally mounted, collector pipe 1 it is closed at both ends, several pores be in catchments The side wall of pipe 1 is provided with row's pore in the present embodiment.Water-supply-pipe 7 is inserted into from the interlude of collector pipe 1 at this time.

As the improvement of said program, collection module further includes the pull rod 6 moved for towing bracket 3.Pull rod 6 is wherein One end can connect first connecting rod 5 or holder 3 or collector pipe 1 or floating ball 4, can draw collection module in a word.Pull rod 6 is deposited In the movement for making manually controllable collection device, collection device can be also fixed on to mobility waters at one.

As preferred embodiment, each water-supply-pipe 7 uses hose, easy to use and equipment arrangement.

Certainly, the design creation is not limited to the above embodiment, and the combination of the various embodiments described above different characteristic also may be used To reach good effect.Those skilled in the art can also make equivalent change under the premise of without prejudice to spirit of that invention Shape or replacement, these equivalent modifications or replacement are all contained in the application claim limited range.

Claims

1. a kind of floating algae collects dehydration device, it is characterised in that：Including collection module and dewatering module, the collection module has Water inlet, the dewatering module have water pump and centrifugal dehydrator (11), detachable filtering are equipped in the dewaterer Bag (12), is equipped with water-supply-pipe (7) between water inlet, water pump and centrifugal dehydrator (11), water is transported to by water pump from water inlet Centrifugal dehydrator (11), the water pump use diaphragm pump (9).

2. floating algae according to claim 1 collects dehydration device, it is characterised in that：The dewatering module further include carrying every The pedestal (8) of membrane pump (9), centrifugal dehydrator (11) and water-supply-pipe (7).

3. floating algae according to claim 2 collects dehydration device, it is characterised in that：Each water-supply-pipe (7) uses hose.

4. floating algae described in any one of claim 1 to 3 collects dehydration device, it is characterised in that：The collection module Holder (3) including collector pipe (1) and carrying collector pipe (1), has several as the thin of water inlet on the collector pipe (1) Hole, a diameter of 3~6mm of each pore, the collector pipe (1) are connected between water pump by water-supply-pipe (7), the holder (3) there is buoyancy system holder (3) to be made to suspend, each pore is made to be at 4~6cm of underwater.

5. floating algae according to claim 4 collects dehydration device, it is characterised in that：The collection module further includes for leading Draw the mobile pull rod (6) of holder (3).

6. floating algae according to claim 4 collects dehydration device, it is characterised in that：The collector pipe (1) is horizontally mounted, institute The closed at both ends of collector pipe (1) is stated, several pores are in the side wall of collector pipe (1).

7. floating algae according to claim 4 collects dehydration device, it is characterised in that：The buoyancy system includes that several are floating Ball (4), at least one floating ball (4) is not completely in underwater.

8. floating algae according to claim 7 collects dehydration device, it is characterised in that：Each floating ball (4) and holder (3) it Between connected by first connecting rod (5), connect by second connecting rod (2) between the collector pipe (1) and holder (3), each described the One connecting rod (5) is screw rod, and each first connecting rod (5) passes through floating ball (4) and fixed in the upper and lower ends of floating ball (4) setting nut Floating ball (4), the second connecting rod (2) are telescopic rod.

9. floating algae according to claim 8 collects dehydration device, it is characterised in that：Three floating balls are arranged in the buoyancy system (4), three floating ball (4) distributions triangular in shape are seen with overlooking.