CN202190634U - Underwater automatic cleaning device for seawater fence cultivation netting - Google Patents

Underwater automatic cleaning device for seawater fence cultivation netting Download PDF

Info

Publication number
CN202190634U
CN202190634U CN2011201619576U CN201120161957U CN202190634U CN 202190634 U CN202190634 U CN 202190634U CN 2011201619576 U CN2011201619576 U CN 2011201619576U CN 201120161957 U CN201120161957 U CN 201120161957U CN 202190634 U CN202190634 U CN 202190634U
Authority
CN
China
Prior art keywords
etting
rectangular
netting
seawater
net
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN2011201619576U
Other languages
Chinese (zh)
Inventor
敖志辉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN2011201619576U priority Critical patent/CN202190634U/en
Application granted granted Critical
Publication of CN202190634U publication Critical patent/CN202190634U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Classifications

    • 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
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/80Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
    • Y02A40/81Aquaculture, e.g. of fish

Abstract

Disclosed is an underwater automatic cleaning device for seawater fence cultivation netting. A complete device is additionally mounted on the outer side of the seawater fence cultivation netting and comprises two rows or a plurality of rows of elongated float net scrapers according to different seawater depths of cultivation sea areas, the elongated float net scrapers are vertically spaced in mutual parallel according to tidal ranges and vertically and sequentially connected through hanging ropes, and submarine sinkers are connectedly arranged below the hanging ropes. The fence netting is segmented into a plurality of sections through transverse pull ropes, and the vertical length of each section of the netting is equal to the average tidal range of the sea area for the netting while reinforcement sinkers are fittingly mounted below two lowermost transverse pull ropes of the netting. An elongated wooden block of each elongated float net scraper is provided with round holes, and a guide rope fixed to the upper end of the netting passes through the round holes of the elongated wooden blocks to be sequentially connected with the transverse pull ropes of the netting. The underwater automatic cleaning device can be used for automatic underwater cleaning of the fence netting under fluctuation of tides and fluctuation of sea waves. The underwater automatic cleaning device has the advantages that the cost of cleaning the seawater fence cultivation netting is reduced, no labor is needed, no energy is consumed, and the underwater automatic cleaning device is zero in emission and free of pollution.

Description

The device that seawater enclosure culture, net enclosure culture etting cleans under water automatically
Technical field
The utility model relates to agriculture marine enclosure culture, net enclosure culture, the device that etting is cleaned under water automatically.
Background technology
Marine enclosure culture, net enclosure culture etting places seawater for a long time, and some marine organisms will be attached on the etting, thereby has increased the weight of etting, has influenced the inside and outside water body exchange of fence, must regularly clean this work to etting and will carry out 5-6 time every year.The method of removing at present attachment on the etting mainly be artificial change etting-with etting with ship drag disembarkation through Exposure to Sunlight, wheel load, beat, the seashore cleans and removes the attachment on the etting.The method that etting is cleaned in this manual work on the bank can cause severe contamination to seashore, and the disembarkation of ship haul etting also can consume diesel oil and discharging carbonic acid gas.Giant is adopted in some area, and perhaps the method for submersible machine driving gauze brush is cleaned the attachment-diesel engine consumption oil on the etting, and the motor power consumption also needs personnel to cooperate.
Above-mentioned method all exist take a lot of work, power consumption and pollution problem.
Summary of the invention
Clean etting and take a lot of work, consume energy and in order to overcome prior art the pollution of sea environment; It is power with the fluctuation of morning and evening tides and the dipping and heaving of wave that the utility model adopts a kind of; At any time the device that under water etting is cleaned automatically can be prevented and kill off the attachment on the etting from the source.
The technical scheme that the utility model technical solution problem is adopted is: install a covering device additional in the outside of enclosure culture, net enclosure culture etting; This device is according to culturing the sea water advanced difference in marine site; Space out up and down and be parallel to each other by tidal range by two rows or many platoon leaders bar buoy net scraper; Connect rectangular buoy net scraper successively up and down through the hanging rope, the following seabed sinker that connects of hanging rope.Rectangular buoy net scraper on this device is to be scraped through screw by rectangular flitch and the rectangular net of plastics to assemble.The fence etting is divided into a plurality of sections with horizontal stay cord, and the distance up and down of each section equals the mean range in this etting marine site of living in, and at nethermost two the horizontal stay cord fit beneath reinforcing bar sinkers of etting.On the rectangular flitch of rectangular buoy net scraper circular hole is arranged, guide rope is fixed on the etting upper end and from the circular hole of rectangular flitch, passes the horizontal stay cord that connects successively on the etting.When high tide, the float of etting top hauls the rectangular relatively buoy net scraper of etting with the sea rise and moves upward; When seawater at ebb tide, along with the whereabouts on sea, the rectangular relatively buoy net scraper of etting moves downward.Etting according to tide every day rectangular relatively buoy net scraper realize two up and down strokes under water, the distance of its stroke equals tidal range.In said process when the sea of wave on etting forms; Etting can rise to certain height by wave with the float above the etting; Fall after rise then, etting is this to be that the motion of the rectangular relatively buoy net scraper of power has impulsive force and makes fouling organism can't on etting, adhere to existence with the wave.This device can rely on the fluctuation of morning and evening tides and the dipping and heaving of wave to realize cleaning automatically the fence etting under water.
The beneficial effect of the utility model is: improve mariculture standardized production level, reduce that seawater enclosure culture, net enclosure culture etting cleans that cost is low, not recruitment, do not consume energy, zero-emission, pollution-free.
Description of drawings
The technical scheme of the utility model being implemented below in conjunction with accompanying drawing further specifies:
Fig. 1 is the structure chart of the rectangular buoy net scraper device of the utility model.
Fig. 2 is rectangular buoy net scraper component-assembled figure.
Fig. 3-the 1st, the rectangular net of plastics is scraped the front view of (11), Fig. 3-the 2nd, the rectangular net of plastics is scraped the vertical view of (11), Fig. 3-the 3rd, the rectangular net of plastics is scraped the cross section A-A of (11), Fig. 3-the 4th, the rectangular net of plastics is scraped the cross section B-B of (11).
Fig. 4 is the seabed sinker.
Fig. 5 is a fence etting sketch map.
Fig. 6-1, Fig. 6-the 2nd, rectangular buoy net scraper device fundamental diagram.
Fig. 7-1 and Fig. 7 the-the 2nd, to the supplementary notes figure of Fig. 6-1.
6. connection cords in Fig. 1,7. rectangular buoy net scraper, 8. hanging rope, 10. seabed sinker, the rectangular net of 11. plastics is scraped.
5. guide ropes in Fig. 2.
1. floats in Fig. 5,2. etting, 3. horizontal stay cord, 4. etting sinker.
9. reinforcing bar sinkers in Fig. 6-1; A represent full towards the time sea the position; B representes the position on time of low water sea; C representes the position in seabed, Fig. 6-the 1st, full towards the time the rectangular relatively buoy net scraper device of the etting residing location drawing, Fig. 6-the 2nd, low towards the time the rectangular relatively buoy net scraper device of the etting residing location drawing.
Embodiment
In Fig. 1; A plurality of rectangular buoy net scrapers (7) are spaced out up and down and are parallel to each other by tidal range; Connect rectangular buoy net scraper (7) up and down successively through hanging rope (8); Connect seabed sinker (10) below the hanging rope, couple together through connection cord (6) the rectangular buoy net scraper (7) that each is adjacent then and form a rectangular buoy net scraper device.
In Fig. 2, the rectangular net of plastics to be scraped (11) be screwed composition rectangular buoy net scraper (7) on rectangular flitch, guide rope (5) passes from the circular hole of rectangular flitch.
In Fig. 3-1, Fig. 3-2, Fig. 3-3, Fig. 3-4; The rectangular net of plastics is scraped available injection molding machine of plastic single injection-molded; The outline that single net is scraped be at the bottom of two part spherical crowns to the coinciding together of the end, the size that its single net is scraped should be that its part is deep in the mesh of etting according to the big or small setting principle of etting mesh.
In Fig. 4, the available reinforced concrete prefabricated moulding of seabed sinker (10), also available reinforcing bar is formed, and packed stone of also available nylon wire or sand are formed seabed sinker (10).
In Fig. 5, with horizontal stay cord (3) etting (2) is divided into a plurality of sections, the distance up and down of each section equals the mean range in this etting marine site of living in, except the nethermost section.
In Fig. 6-1, Fig. 6-2, guide rope (5) is fixed on etting upper end and the circular hole from each rectangular buoy net scraper flitch passes the horizontal stay cord (3) (seeing Fig. 7-2) that connects successively on the etting.When guide rope (5) is scraped (7) generation relative motion at etting (2) with respect to rectangular net, can play guide effect and avoid rectangular buoy net scraper (7) too to break away from etting (2).
In the below of two horizontal row stay cords (3) of etting lowermost section by adorning two placing of reinforcement sinkers (9).
When at the incoming tide; The rectangular relatively buoy net scraper of etting (2) (7) moves upward; Full towards the time under the float above the etting (1) buoyancy function, can make seabed sinker (10) break away from the seabed; Move to the bottom of each etting section through hanging rope (8) relative etting (2) under the action of gravity of seabed sinker (10) like each rectangular buoy net scraper (7) of Fig. 6-1; Lean on guide rope (5) to be positioned at the top of horizontal stay cord (3), the part weight that the part weight that (guide rope (5) links together with horizontal stay cord (3)) guide rope this moment (5) is not only being born seabed sinker (10) is also being born reinforcing bar sinker (9) requires guide rope (5) certain tensile strength to be arranged to alleviate the whole load-bearing burden of etting.
When at ebb tide; Along with sea falling etting (2) moves downward; Seabed sinker (10) falls into the influence that the seabed does not receive etting top float (1) buoyancy, and this moment, each rectangular buoy net scraper (7) kept certain distance through hanging rope (8) and seabed under self buoyancy function, and etting continuous integral body whereabouts under the action of gravity of reinforcing bar sinker (9); Fig. 6-2 representes the time of low water, and the relative etting (2) of rectangular buoy net scraper (7) moves upward to the top of each etting section.
Etting (2) is realized two strokes up and down under water according to tide rectangular relatively buoy net scraper every day (7).
In said process when the sea of wave on etting forms; Etting (2) can rise to certain height by wave with the float above the etting (1); Under the action of gravity of reinforcing bar sinker (9) on the etting, fall after rise then, etting is this to be that the motion of the rectangular relatively buoy net scraper of power has impulsive force and makes fouling organism can't on etting, adhere to existence with the wave.This device can rely on the fluctuation of morning and evening tides and the dipping and heaving of wave to realize cleaning automatically the fence etting under water.
Reinforcing bar sinker (9) can not only make the etting following sea fall after rise, can also alleviate etting undue drift under the impact of trend.The weight principle of a bottom placing of reinforcement sinker (9) is only by an etting section counterweight; And the counterweight (when bottom placing of reinforcement sinker (a 9) low tide falls into the seabed) of a top row's reinforcing bar sinker (9) should bear the counterweight of all etting sections above it; Total counterweight of two placing of reinforcement sinkers (9) is to be advisable for 8 kilograms with reference to every gross weight along long rice with the present embodiment according to experiment.
The buoyancy size that the every linear meter of rectangular buoy net scraper (7) produces can be calculated through following method with the required weight of the every linear meter of seabed sinker (10): (amounting to decimetre to keep the two-decimal point size)
Adopt common 0.8 decimeter thick, 1.0 decimeters wide kahikateas are cooked rectangular flitch
Then the area of section of rectangular flitch is: S=0.6 decimetre * 1.0 decimeter=0.6 decimeter 2
If the total length of rectangular flitch is the L=10 decimetre
Then rectangular flitch cumulative volume is: V=S * L=0.6 decimetre 2* 10 decimeters=6 decimeters 3
The proportion of seawater is at least d=1
The buoyancy that the rectangular flitch of then every linear meter can produce in seawater at least is: F floats=V * d=6 kilogram
The proportion of kahikatea flitch is d=0.41
The own wt of the rectangular flitch of then every linear meter kahikatea is: G=V * d=6 * 0.41=2.46 kilogram
The consideration kahikatea is soaked proportion for a long time and can increase to some extent in water, select 1.2 to be enhancement coefficient
The weight of the rectangular flitch of then every linear meter kahikatea is: G=6 * 0.41 * 1.2=2.95 kilogram
The net buoyancy that the rectangular flitch of then every linear meter kahikatea is produced is: floating=6 kilograms-2.95 kilograms=3.05 kilograms of F.Be used to overcome net is scraped and etting (2) between frictional force.
The weight of the every linear meter of seabed sinker is relevant with the gross buoyancy that rectangular buoy net scraper produces, and the gross buoyancy that produces with the every linear meter of present embodiment (see figure 1) 4 row's buoy net scrapers is: F=4 * 3.05 kilogram=12.2 kilograms
The weight of seabed sinker (10) should be decided according to the ability to bear of above-mentioned result of calculation and etting float (1); The gross buoyancy that produced greater than kahikatea flitch float in the marine total force that can produce of seabed sinker (10) in principle; At least be 1.5 times of its F gross buoyancy, i.e. 12.2 kilograms * 1.5=18.3 kilogram.So that when the seawater full sea, can produce enough pulling force, overcome the gross buoyancy that rectangular flitch makes progress, it is pulled to the bottom (seeing Fig. 6-1) of each etting section.
Total counterweight of two placing of reinforcement sinkers (9) is to be advisable for 8 kilograms with reference to the every gross weight along long rice of two placing of reinforcement sinkers (9) with the present embodiment according to experiment.
By the foregoing description requirement adjustment float (1), full towards the time seabed sinker (10) break away from the seabed fully, float (1) has 1/3 volume to expose the sea.

Claims (3)

1. the device that cleans automatically under water of seawater enclosure culture, net enclosure culture etting; It is characterized in that: install a covering device additional in the outside of enclosure culture, net enclosure culture etting; This device is spaced out up and down and is parallel to each other by tidal range by two rows or many platoon leaders bar buoy net scraper (7) according to culturing the sea water advanced difference in marine site, connects rectangular buoy net scraper (7) successively up and down through hanging rope (8); Connect seabed sinker (10) below the hanging rope (8); Rectangular buoy net scraper (7) on this device is to scrape (11) by rectangular flitch and the rectangular net of plastics to assemble through screw, and fence etting (2) is divided into a plurality of sections with horizontal stay cord (3), and the distance up and down of each section equals the mean range in this etting marine site of living in; And at nethermost two the horizontal stay cords of etting (3) fit beneath reinforcing bar sinkers (9); On the rectangular flitch on the rectangular buoy net scraper (7) circular hole is arranged, guide rope (5) is fixed on upper end and the circular hole from rectangular flitch of etting (2) and passes the horizontal stay cord (3) that connects successively on the etting, when high tide; The float (1) of etting top hauls the rectangular relatively buoy net scraper of etting (2) (7) and moves upward with the sea come-up; When seawater at ebb tide; Along with the rectangular relatively buoy net scraper of whereabouts etting (2) (7) on sea moves downward; Etting (2) is realized two strokes up and down under water according to tide rectangular relatively buoy net scraper every day (7); The distance of its stroke equals tidal range; When the sea of wave on etting formed, etting can rise to certain height by wave with the float above the etting (1), under the action of gravity of reinforcing bar sinker (9), falls after rise then in said process; Etting (2) is that the motion of the rectangular relatively buoy net scraper of power (7) has impulsive force and makes fouling organism can't on etting, adhere to existence with the wave, and this device can rely on the fluctuation of morning and evening tides and the dipping and heaving of wave to realize cleaning automatically the fence etting under water.
2. the device that seawater enclosure culture, net enclosure culture etting according to claim 1 cleans under water automatically, it is characterized in that: the rectangular buoy net scraper (7) that connection cord (6) is adjacent with each couples together.
3. the device that seawater enclosure culture, net enclosure culture etting according to claim 1 cleans under water automatically is characterized in that: the available reinforced concrete prefabricated moulding of seabed sinker (10), and also available reinforcing bar is formed, and packed stone of also available nylon wire or sand are formed.
CN2011201619576U 2011-05-12 2011-05-12 Underwater automatic cleaning device for seawater fence cultivation netting Expired - Fee Related CN202190634U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2011201619576U CN202190634U (en) 2011-05-12 2011-05-12 Underwater automatic cleaning device for seawater fence cultivation netting

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2011201619576U CN202190634U (en) 2011-05-12 2011-05-12 Underwater automatic cleaning device for seawater fence cultivation netting

Publications (1)

Publication Number Publication Date
CN202190634U true CN202190634U (en) 2012-04-18

Family

ID=45945569

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2011201619576U Expired - Fee Related CN202190634U (en) 2011-05-12 2011-05-12 Underwater automatic cleaning device for seawater fence cultivation netting

Country Status (1)

Country Link
CN (1) CN202190634U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104363755A (en) * 2012-05-08 2015-02-18 希康特罗尔控股有限公司 Offshore aquaculture system
CN113519427A (en) * 2021-07-12 2021-10-22 山东东盛澜渔业有限公司 Compound ecological net cage

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104363755A (en) * 2012-05-08 2015-02-18 希康特罗尔控股有限公司 Offshore aquaculture system
CN104363755B (en) * 2012-05-08 2017-03-08 希康特罗尔控股有限公司 Coastal waters aquaculture system
CN113519427A (en) * 2021-07-12 2021-10-22 山东东盛澜渔业有限公司 Compound ecological net cage

Similar Documents

Publication Publication Date Title
CN102771416A (en) Method for automatically cleaning seawater fence breeding netting underwater
CN103461241B (en) The multi-layer aquaculture net cage that a kind of safety is ecological
CN101403910B (en) Gravity force type deep water grille box prediction type control method and its special apparatus
CN101361470A (en) Tide wave and stream wave type ,esh-cage underwater automatic cleaning method and device
CN111802292B (en) Large-scale bottom-sitting type integrated culture fishing ground in deep open sea
CN112602641B (en) Small and medium-sized intelligent aquaculture net cage for island and reef open sea
CN106818453A (en) A kind of shellfish algae complex culture device
CN109329155A (en) A kind of etting baffle and separate system
CN113647351A (en) Floating type fishing light complementary system and fishing operation method thereof
CN2575983Y (en) Steel combined deepwater mesh box capable of sinking and floating
CN101375674B (en) Device for automatically cleaning square frame style net cage by tidal wave underwater
CN201194502Y (en) Device for automatically cleaning ring-shaped frame style net cage by tidal wave underwater
CN101375675B (en) Device for automatically cleaning ring-shaped frame style net cage by tidal wave underwater
CN202190634U (en) Underwater automatic cleaning device for seawater fence cultivation netting
CN212678092U (en) Formula of rising and sinking is bred fishing ground
CN203136791U (en) Land-based water-permeable culture device
CN109349165A (en) A kind of aquafarm development model
CN102476113A (en) Underwater automatic cleaning device for annular frame type net cage
CN208850441U (en) A kind of multi-mode with shock-absorbing function is breeded fish device
CN108834982B (en) Multi-mode fish farming device with shock-absorbing function
CN201871517U (en) Slotted net scrapper used on underground automatic cleaning device of net cage
CN201512808U (en) Offing wind electric base structure with functions of artificial reefs
CN208509809U (en) A kind of sea area Ban Wan tangleweed keeps hanging raft frame
CN201178630Y (en) Square frame type apparatus for automatically cleaning net cage underwater with tidal wave
CN202169267U (en) Square hollow frame type underwater automatic cleaning device for net cages

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20120418

Termination date: 20160512

CF01 Termination of patent right due to non-payment of annual fee