CN104429892A - Artificially-constructed reef - Google Patents
Artificially-constructed reef Download PDFInfo
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- CN104429892A CN104429892A CN201410206804.7A CN201410206804A CN104429892A CN 104429892 A CN104429892 A CN 104429892A CN 201410206804 A CN201410206804 A CN 201410206804A CN 104429892 A CN104429892 A CN 104429892A
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- algal reef
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
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Abstract
The invention discloses an artificially-constructed reef. By means of the artificially-constructed reef, the suspension depth of the reef can be controlled, and multiplication can be carried out in the middle layer, the upper middle layer or the lower middle layer of a water sea. The artificially-constructed reef is composed of a buoyancy force device, a body rod piece, a plurality of algal reef supporting bodies and connecting ropes; each algal reef supporting body comprises a hemispheric supporting support, a connecting vertical sleeve fixed to the middle of the hemispheric supporting support and a plurality of algal reef attachment base blocks arranged on the hemispheric supporting support, and each algal reef attachment base block is fixed to the corresponding hemispheric supporting support through an installation rope. A limiting stopping block is arranged at one end of the body rod piece, threads are arranged at the other end of the body rod piece, and a locking nut is arranged on the threads. Each algal reef supporting body is arranged on the body rod piece in a sleeving mode through the corresponding connecting vertical sleeve, the body rod piece and the algal reef supporting bodies are hung to the lower portion of the buoyancy force device through the connecting ropes, one end of each connecting rope is connected with the buoyancy force device, and the other end of each connecting rope is connected with the end, close to the locking nut, of the body rod piece.
Description
Technical field
The present invention relates to a kind of artificial algal reef, be specifically related to a kind of artificial constructed reefs thrown in coastal marine site.
Background technology
Artificial algal reef is the artificial reef body of breeding algae specially, be people for being arranged in waters, for marine algae provides the place of growth and breeding; Thus attract the aquatic animals such as fishes and shrimps to carry out forage to algae field, breed, and to reach optimization environments such as subsea, the object of protection, propagation fishery resources; And algae is in process of growth; the organic substance of N, P synthesis self in water can be absorbed by photosynthesis; and discharge oxygen; reduce N, P concentration of water body; water purifying environment, can prevent and administer the eutrophication in waters with can be saved. and improve water area ecological environment, restrain " red tide " outburst; absorb heavy metal ion, protect the marine environment.On the other hand, the economic worth that sea jungle is created is very large, and marine alga itself has industry, edible, medical value.
Current artificial algal reef mostly is sinking type algal reef, will sink down into seabed after namely algal reef renders to marine site, can only build algae field in seabed; And cannot utilize middle level, waters, at the middle and upper levels or middle lower floor breed, thus how to utilize further middle level, waters, at the middle and upper levels or middle lower floor breed, to water purifying environment, improving water area ecological environment is significantly.
Such as, China Patent Publication No. CN202680165U, publication date on January 23rd, 2013, the name of innovation and creation is called a kind of reefs transplanted for marine alga, comprise reinforcing bar base and algal reef matrix two parts, described reinforcing bar base and algal reef matrix are Split type structure, and described algal reef matrix is the domed shape be made up of concrete material, described reinforcing bar base is connected with in the middle of algal reef matrix by the vertical joints on it, and described algal reef matrix is provided with the preformed hole for placing little reef segment.The reefs for marine alga transplanting of this application case is similarly sinking type algal reef.
Such as, China Patent Publication No. CN102657072A, publication date on September 12nd, 2012, the name of innovation and creation is called a kind of fixing means of artificial graft's algal reef, and the method comprises the following steps, with the impact drilling in the natural cay matrix in object sea area; By coupling assembling, the artificial algal reef of all size and shape is fixed in nature cay matrix.This application case is similarly sinking type algal reef.
Such as, China Patent Publication No. CN103609424A, publication date on March 25th, 2014, the name of innovation and creation is called a kind of composite type artificial algal reef, comprise into algal reef and seedling reef, described one-tenth algal reef comprises a solid base, solid base upper surface inlays the shape metal framework identical with upper surface with size, shell mesh bag is provided with in metal framework, a metal stud is inlayed in upper surface center, a steel loop is welded in vertical rod upper end, some seedling ropes are fixed between metal framework and steel loop, described seedling reef is fastened on into the side of algal reef solid base, with marine alga seedling on seedling reef.The artificial algal reef of this application case is similarly sinking type algal reef.
Summary of the invention
The first object of the present invention mostly is sinking type algal reef to overcome artificial algal reef of the prior art, cannot utilize middle level, waters, at the middle and upper levels or middle lower floor breed, there is provided one can control the algal reef suspension degree of depth, make full use of middle level, waters, at the middle and upper levels or middle lower floor carry out the artificial constructed reefs of breeding.
The present invention's another object on the first object basis avoids, because wave fluctuation is comparatively large, suspension reefs being fluctuated acutely to imitate, and the artificial constructed reefs causing the marine alga that algal reef adheres to be destroyed.
Technical scheme of the present invention is:
Artificial constructed reefs comprises a buoyant device, main body rod member, some algal reef supporters and connecting rope; Described algal reef supporter comprises hemispherical bracing frame, cover and some algal reef attachment matrixs be arranged on hemispherical bracing frame are found in the connection be fixed in the middle part of hemispherical bracing frame, each algal reef attachment matrix is respectively equipped with wire rope handling through hole, and being respectively equipped with installing rope in wire rope handling through hole on each algal reef attachment matrix, each algal reef attachment matrix is fixed on hemispherical bracing frame respectively by installing rope; The lower end that cover is found in described connection is positioned at the below of hemispherical bracing frame, and the upper end connecting vertical cover is positioned at the top of hemispherical bracing frame; One end of described main body rod member is provided with positive stop, and the other end is provided with screw thread and screw thread is provided with locking nut; Each algal reef supporter is set on main body rod member respectively by the vertical cover of connection, and each algal reef supporter distributes successively along main body rod member; Described main body rod member and each algal reef supporter are suspended on below buoyant device by connecting rope, and one end of connecting rope is connected with buoyant device, and the other end is connected with the main body Rod end near locking nut.
The algal reef supporter of this programme is suspended in waters by buoyant device, and the degree of depth that can hang by regulating the length of connecting rope control algal reef supporter, in middle level, waters, at the middle and upper levels or middle lower floor breed, make full use of water area resource.
As preferably, algal reef attachment matrix is made up of foam concrete, and algal reef attachment matrix surface inserting has some shells.Because algal reef attachment matrix is made up of foam concrete, foam concrete not only quality is light, and has a large amount of holes; Thus algal reef attachment matrix is extremely conducive to algae attachment; Further algal reef attachment matrix surface inserting has some shells, its coarse holdfast being easy to algae is held, presses close to ecosystem, make the easier set of algae strain and breeding.
As preferably, algal reef attachment matrix is evenly distributed on the medial surface of hemispherical bracing frame, and on each algal reef attachment matrix, on a side at the center of hemispherical bracing frame, be attached with the marine alga seedling of artificial culture.Algal reef supporter due to this programme is the hemispherical bracing frame toward lower recess, and algal reef attachment matrix is fixed on the medial surface of hemispherical bracing frame; The hemispherical supporting construction of depression can build metastable subenvironment, is conducive to shellfish algae and multiplies and lives, and just inoculates corresponding shellfish algae and other biology, contribute to the species abundance that increases sharply before also can dropping into marine usage.On the other hand, the hemispherical supporting construction of depression can increase the long-pending availability of unit seawater surface, and algae strain is in concave surface surface thereof or the three-dimensional set of vertical elevation, imitates the environment of precipitous seabed cay, is conducive to the growth of marine alga.
As preferably, buoyant device comprises gasbag, the vertical sleeve of central authorities and be arranged on and keep away unrestrained fuze mechanism in central vertical sleeve, the vertical sleeve of described central authorities is arranged on the middle part in gasbag, and the two ends up and down of central vertical sleeve are each passed through gasbag, and be positioned at outside gasbag, be tightly connected between the lateral surface of the vertical sleeve of gasbag and central authorities; The vertical sleeve of described central authorities cylindrically, and the upper/lower terminal of central vertical sleeve close; Describedly keep away unrestrained fuze mechanism and comprise the upper piston body, the lower piston body that are arranged in central vertical sleeve that can slide along central authorities vertical sleeves, connect the connecting rod of upper and lower two-piston body, coaxially be arranged on the leading-off rods on lower piston body, be arranged on central vertical sleeve medial surface and the inner vent be connected with gasbag and being arranged on central vertical sleeve medial surface and the outer vent be positioned at above gasbag; On the vertical sleeve medial surface of described central authorities, be positioned at below lower piston body and be provided with spacing block set, described leading-off rods is positioned at below lower piston body, and the lower end of leading-off rods is toward downward-extension, and through central vertical sleeve lower surface, be positioned at outside central vertical sleeve; Described leading-off rods is arranged with and upper and lower two-piston body can be made up to move and make upper piston body against the first Compress Spring of the vertical sleeve inner top surface of central authorities; The spacing between upper and lower two-piston body is less than along central vertical quill spacing upwards between described inside and outside two air vents, and when the lower end abutment of piston body is on spacing block set instantly, inner vent is between upper and lower two-piston body, and outer vent is positioned at above upper piston body; When upper piston body sleeve inner top surface vertical against central authorities, inside and outside two air vents are all between upper and lower two-piston body; The described connecting rope end winding support be connected with buoyant device is in the lower end of leading-off rods.
When wave is larger, such as there are 5 grades of billows, 6 grades of billow (wave height 2 ~ 6 meters), now under the effect of wave buoyant device by drive algal reef supporter and on the upper and lower big ups and downs of marine alga, cause that the marine alga that algal reef supporter adheres to is torn, destruction etc.; And the algal reef of this programme is when wave is larger, keep away unrestrained fuze mechanism the gas fraction in gasbag to be discharged, the buoyancy of buoyant device is made to be less than the gravity sum of buoyant device and each algal reef supporter, buoyant device and each algal reef supporter are sunk to seabed, thus effectively avoid because wave fluctuation is larger, the algal reef supporter suspended is fluctuated acutely, and causes the marine alga that algal reef supporter adheres to be destroyed.
As preferably, in each algal reef supporter, the connection of adjacent with the positive stop of a main body rod member algal reef supporter founds the storage rope case and lifting rope self adaptation levitating device that put and be provided with upper end open, and storage rope case and lifting rope self adaptation levitating device are all positioned at the top of the hemispherical bracing frame of this algal reef supporter, be placed with lifting rope in storage rope case, described lifting rope self adaptation levitating device comprises ball float, balancing weight, is arranged on and connects the vertical mounting blocks put, contiguous block, is arranged on the vertical pilot hole on mounting blocks and is slidably arranged on vertically to excite bar in vertical pilot hole, described contiguous block is positioned at above storage rope case, contiguous block is provided with dodges hole, step down breach and with dodge hole and parallel, and through the spacing hole of breach of stepping down, describedly vertically excite bar to pass to dodge hole, bar is vertically excited to be provided with, lower two limited blocks, and on, lower position block is positioned at the relative both sides of contiguous block, described lower position block is between contiguous block and mounting blocks, and vertically excite on bar, the second Compress Spring is provided with between lower position block and mounting blocks, described upper limit position block is provided with spacing peg, this spacing peg is plugged in spacing hole, and when upper limit position block is resisted against on contiguous block, spacing peg is through breach of stepping down, vertical the putting of the connection at lifting rope self adaptation levitating device place is provided with spacing ring, and spacing ring is positioned at and vertically excites immediately below bar, described balancing weight is hung on the lower end vertically exciting bar by lanyard, described lanyard is through spacing ring and hemispherical bracing frame, and balancing weight is positioned at the below of the hemispherical bracing frame of the algal reef supporter at lifting rope self adaptation levitating device place, described ball float is provided with link, and one end of described lifting rope is fixed on link, and the other end is fixed on bottom storage rope case, and the buoyancy of ball float is greater than the gravity of lifting rope.
After algal reef supporter sinks to seabed, the lifting rope self adaptation levitating device of this programme can discharge ball float, and drives lifting rope together to float by ball float; Like this after wave is decorporated, attendant can easily by lifting rope by buoyant device, algal reef supporter and on marine alga together pull-up, and again to inflate in gasbag, whole algal reef swum in marine site again, thus recover algae field.
As preferably, mounting blocks is made up of upper and lower two pieces of mounting blocks, and contiguous block is between upper and lower two mounting blocks, and described upper limit position block is between upper mounting blocks and contiguous block, and lower position block is between contiguous block and lower mounting blocks.
As preferably, the top of gasbag is provided with charging connector, and the bottom of gasbag is provided with floss hole, and is provided with seal plug in this floss hole.
As preferably, upper piston body and lower piston body side surface are respectively equipped with sealing ring.
The invention has the beneficial effects as follows:
One, the degree of depth that can hang by regulating the length of connecting rope control algal reef supporter, in middle level, waters, at the middle and upper levels or middle lower floor breed, make full use of water area resource.
Its two, effectively can avoid, because wave fluctuation is comparatively large, suspension reefs being fluctuated acutely, and cause marine alga that algal reef adheres to destroyed.
Its three, metastable subenvironment can be built, be conducive to shellfish algae and multiply and live; And the availability that unit seawater surface is long-pending can be increased, imitate the environment of precipitous seabed cay, be conducive to the growth of marine alga.
Accompanying drawing explanation
Fig. 1 is a kind of structural representation of a kind of artificial algal reef of the present invention.
Fig. 2 is a kind of structural representation of algal reef supporter of the present invention.
Fig. 3 is a kind of structural representation of algal reef of the present invention attachment matrix.
Fig. 4 is the partial enlarged drawing at A place in Fig. 1.
Fig. 5 is the partial enlarged drawing at B place in Fig. 4.
Fig. 6 is a kind of structural representation of the buoyant device in Fig. 1.
Fig. 7 is that a kind of artificial algal reef of the present invention is at a kind of structural representation running into a certain state in Wave Processes.
Fig. 8 is a kind of structural representation of the buoyant device in Fig. 7.
Fig. 9 is the schematic diagram that a kind of artificial algal reef of the present invention renders to a kind of practical application behind marine site.
Figure 10 is the schematic diagram that a kind of artificial algal reef of the present invention renders to the another kind of practical application behind marine site.
In figure: buoyant device 1; The vertical sleeve 2 of central authorities; Gasbag 3, charging connector 31, floss hole 32; Connecting rope 4; Lifting rope self adaptation levitating device 5, lanyard 51, balancing weight 52, upper mounting blocks 53a, lower mounting blocks 53b, vertically excites bar 54, upper limit position block 55, contiguous block 56,
Lower position block 57, the second Compress Spring 58, spacing ring 510, ball float 511, spacing peg 512, link 513, breach 514 of stepping down, spacing hole 515; Main body rod member 6, locking nut 61, positive stop 62; Algal reef supporter 7, hemispherical bracing frame 71, connects vertical cover 72, algal reef attachment matrix 73, wire rope handling through hole 74; Keep away unrestrained fuze mechanism 8, outer vent 81, upper piston body 82, inner vent 83, connecting rod 84, lower piston body 85, spacing block set 86, the first Compress Spring 87, leading-off rods 88; Storage rope case 9; Lifting rope 10; Spud pile 11; Pull rope 12; Connect buoyancy aid 13; Anchor line 14; Anchor 15.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the present invention is described in further detail:
As shown in Figure 1, Figure 2, Figure 3 shows, a kind of artificial algal reef comprises buoyant device 1, main body rod member 6, some algal reef supporters 7 and connecting rope 4.Algal reef supporter in the present embodiment is 3.Algal reef supporter comprises hemispherical bracing frame 71, and cover 72 and some algal reef attachment matrixs 73 be arranged on hemispherical bracing frame are found in the connection be fixed in the middle part of hemispherical bracing frame.Algal reef attachment matrix is made up of foam concrete.Algal reef attachment matrix surface inserting has some shells.Algal reef attachment matrix is regular polygon, and as equilateral triangle, square, regular pentagon, regular hexagon etc., the algal reef attachment matrix in the present embodiment is regular hexagon etc.Each algal reef attachment matrix is evenly distributed on the medial surface of hemispherical bracing frame.Each algal reef attachment matrix is respectively equipped with wire rope handling through hole 74 and is respectively equipped with installing rope in wire rope handling through hole on each algal reef attachment matrix.Each algal reef attachment matrix is fixed on hemispherical bracing frame respectively by installing rope, and namely each algal reef attachment matrix bundlees respectively by installing rope, is fixed on hemispherical bracing frame.Each algal reef adheres on matrix, on a side at the center of hemispherical bracing frame, is attached with the marine alga seedling of artificial culture.The lower end connecting vertical cover is positioned at the below of hemispherical bracing frame, and the upper end connecting vertical cover is positioned at the top of hemispherical bracing frame.One end (i.e. upper end) of main body rod member is provided with positive stop 62, and the other end (i.e. lower end) is provided with screw thread and screw thread is provided with locking nut 61.Each algal reef supporter is set on main body rod member respectively by the vertical cover of connection, and each algal reef supporter distributes successively along main body rod member.The positive stop direction of half and half spherical support frame all towards main body rod member is protruding.Main body rod member and each algal reef supporter are suspended on below buoyant device by connecting rope.
Storage rope case 9 and the lifting rope self adaptation levitating device 5 that cover 72 is provided with upper end open is found in the connection of as shown in Figure 1, Figure 4, Figure 5, in each algal reef supporter, adjacent with the positive stop of a main body rod member algal reef supporter.Storage rope case and lifting rope self adaptation levitating device are all positioned at the top of the hemispherical bracing frame of this algal reef supporter (i.e. the algal reef supporter at storage rope case place).Lifting rope is placed with in storage rope case.What lifting rope coiled from lower to upper in order is placed in storage rope case.Lifting rope is the high strength rope of lighter weight; Such as, high-strength nylon rope, the regular tenacity of 0.5 millimeter to 2 millimeters or the steel wire etc. of higher-strength; And the surface of this lifting rope is coated with waterproof coating.
Lifting rope self adaptation levitating device comprises ball float 511, balancing weight 52, is arranged on and is connecting the mounting blocks on vertical cover, contiguous block 56, is arranged on the vertical pilot hole on mounting blocks and is slidably arranged on vertically to excite bar 54 in vertical pilot hole.Mounting blocks is made up of upper and lower two pieces of mounting blocks 53a, 53b, and contiguous block is between upper and lower two mounting blocks.Contiguous block is positioned at above storage rope case.Contiguous block is provided with dodges hole, step down breach 514 and with dodge hole and to parallel and through the spacing hole 515 of breach of stepping down.Vertically excite bar to pass and dodge hole.Vertically excite bar to be provided with upper and lower two limited blocks 55,57, and upper and lower limited block is positioned at the relative both sides of contiguous block.Upper limit position block is between upper mounting blocks and contiguous block, and lower position block is between contiguous block and lower mounting blocks.Vertically excite on bar, between lower position block and mounting blocks and be arranged with the second Compress Spring 58, specifically, the second Compress Spring is between lower position block and lower mounting blocks.Upper limit position block is provided with spacing peg 512.Spacing peg with vertically excite bar parallel.This spacing peg is plugged in spacing hole, and when upper limit position block is resisted against on contiguous block, spacing peg is through breach of stepping down.Vertical the putting of the connection at lifting rope self adaptation levitating device place is provided with spacing ring 510, and spacing ring is positioned at and vertically excites immediately below bar.Balancing weight is hung on the lower end vertically exciting bar by lanyard 51.Lanyard is through spacing ring and hemispherical bracing frame, and balancing weight is positioned at the below of the hemispherical bracing frame of the algal reef supporter at lifting rope self adaptation levitating device place.Ball float is provided with link 513.One end (i.e. upper end) of lifting rope 10 is fixed on link, and the other end (i.e. lower end) is fixed on bottom storage rope case.The buoyancy of ball float is greater than the gravity of lifting rope.
As shown in Fig. 1, Fig. 6, buoyant device 1 comprises gasbag 3, central vertical sleeve 2 and be arranged on and keep away unrestrained fuze mechanism 8 in central vertical sleeve.The top of gasbag is provided with charging connector 31.The bottom of gasbag is provided with floss hole 32, and is provided with seal plug in this floss hole.The vertical sleeve of central authorities is arranged on the middle part in gasbag, and the two ends up and down of central vertical sleeve are each passed through gasbag, and is positioned at outside gasbag.Be tightly connected between the lateral surface of the vertical sleeve of gasbag and central authorities.Central authorities vertical sleeve cylindrically, and the upper/lower terminal of central vertical sleeve close.
Keep away unrestrained fuze mechanism 8 and comprise the upper piston body 82, the lower piston body 85 that are arranged in central vertical sleeve that can slide along the vertical sleeve of central authorities, connect the connecting rod 84 of upper and lower two-piston body, coaxially be arranged on the leading-off rods 88 on lower piston body, be arranged on central vertical sleeve medial surface and the inner vent 83 be connected with gasbag and being arranged on central vertical sleeve medial surface and the outer vent 81 be positioned at above gasbag.Outer vent is through hole.Upper piston body and lower piston body side surface are respectively equipped with sealing ring.On the vertical sleeve medial surface of central authorities, be positioned at below lower piston body and be provided with spacing block set 86.Leading-off rods is positioned at below lower piston body, and the lower end of leading-off rods is toward downward-extension, and through central vertical sleeve lower surface, be positioned at outside central vertical sleeve.The lower surface of the vertical sleeve of central authorities is provided with the excessively rod through-hole corresponding with leading-off rods.The lower end of leading-off rods was passed rod through-hole and was positioned at below central vertical sleeve.Leading-off rods is arranged with and upper and lower two-piston body can be made up to move and make upper piston body against the first Compress Spring 87 of the vertical sleeve inner top surface of central authorities.First Compress Spring is between the vertical sleeve inner bottom surface of lower piston body and central authorities, and the upper end of the first Compress Spring is resisted against on lower piston body, and lower end abutment is on the vertical sleeve inner bottom surface of central authorities.The spacing between upper and lower two-piston body is less than along central vertical quill spacing upwards between inside and outside two air vents.Instantly, when the lower end abutment of piston body is on spacing block set, inner vent is between upper and lower two-piston body, and outer vent is positioned at above upper piston body; When upper piston body sleeve inner top surface vertical against central authorities, inside and outside two air vents are all between upper and lower two-piston body.
As shown in Figure 1, one end of connecting rope 4 is connected with buoyant device, and the other end is connected with the main body Rod end near locking nut, and the connecting rope end winding support be connected with buoyant device is in the lower end of leading-off rods; One end (i.e. upper end) of connecting rope is connected with the lower end of leading-off rods, and the other end (i.e. lower end) is connected with the main body Rod end near locking nut.When each algal reef supporter is suspended on below buoyant device, the lower end abutment of lower piston body is on limited block.The buoyancy of buoyant device is greater than the gravity sum of buoyant device, connecting rope, main body rod member, each algal reef supporter, Chu Shengxiang, lifting rope and lifting rope self adaptation levitating device.
The embody rule process of artificial algal reef of the present invention is as follows:
The first, utilize the plant equipment such as lifting machine, and by connecting rope by main body rod member and on each algal reef supporter sling; Now, main body rod member 6, connects vertical cover 72, vertically excite bar 54 to be in vertical state, weight 52 is vertically excited below bar by being hung on of dangling of lanyard 51, and upper limit position block 55 is resisted against on contiguous block 56, spacing peg 512 through breach 514 of stepping down, as shown in Figure 1, Figure 4, Figure 5;
The second, will vertically excite bar toward pull-up, then link 513 is placed in and steps down in breach; Again then, release vertically excites bar, and link is hung on spacing peg through link by spacing peg 512, thus ball float 511 is hung on spacing peg place, as shown in Figure 4, Figure 5;
3rd, as shown in Figure 1, whole algal reef is transferred in waters, by buoyant device 1 and connecting rope 4, main body rod member and each algal reef supporter 7 are suspended in waters; And the degree of depth that can hang by regulating the length of connecting rope control algal reef supporter, utilize middle level, waters, at the middle and upper levels or middle lower floor breed.It is in the marine site of 20 to 100 meters that algal reef in the present embodiment is applicable to throw in the degree of depth, and wherein, the length of connecting rope is generally between 10 to 50 meters; The length of lifting rope is greater than the degree of depth in marine site.
As shown in Fig. 1, Fig. 6, when algal reef of the present invention is transferred to after in waters, when sea (wave is less) of calmness, under the Action of Gravity Field of algal reef supporter 7, connecting rope is in exceptionally straight state, now, the gravity of algal reef supporter 7 will be applied on upper and lower piston body 82,85 by connecting rope 4, thus overcome the reset force of the first Compress Spring 87, make the lower end abutment of lower piston body on limited block 86; Now, inner vent is between upper and lower two-piston body, and outer vent is positioned at above upper piston body; Gas in gasbag 3 can not be got rid of, thus ensures that algal reef of the present invention is suspended in marine site, utilize middle level, waters, at the middle and upper levels or middle lower floor breed.
As shown in Figure 7, Figure 8, when running into wave and being larger, such as, there are 5 grades of billows, 6 grades of billow (wave height 2 ~ 6 meters); Because buoyant device 1 is across the sea floating, buoyant device together will fluctuate up and down with the fluctuation of wave; When buoyant device up moves with the fluctuation of wave, buoyant device will drive main body rod member and each algal reef supporter 7 together up to move by connecting rope 4; When buoyant device up moves to extreme higher position with wave, and toward when moving down with wave, main body rod member and each algal reef supporter probably also move in continuation under effect of inertia, until algal reef supporter peaks (in the segment distance that buoyant device down floats with wave, algal reef supporter moves on all may continuing, spacing between such buoyant device 1 and main body rod member upper end will be less than the length of connecting rope 4, and the fluctuating range of spacing between the larger buoyant device of wave and main body rod member upper end can be larger); Thus the gravity of each algal reef supporter 7 cannot be applied on upper and lower piston body by connecting rope 4 in this process, upper and lower piston body 82,85 will be promoted under the effect of now the first Compress Spring 87 up to move, when inside and outside two air vents 81,83 are all between upper and lower two-piston body, portion gas in gasbag 3 will be discharged by inside and outside two air vents, make the buoyancy of buoyant device be less than the gravity sum of buoyant device and each algal reef supporter; Now, buoyant device 1 and each algal reef supporter 7 will sink to seabed, thus effectively avoid, because wave fluctuation is comparatively large, each algal reef supporter is fluctuated acutely, and causing the marine alga that each algal reef supporter adheres to be destroyed.
Algal reef of the present invention is after the lower end abutment of lower piston body is on spacing block set, the large young pathbreaker of spacing between outer vent now and upper piston body determines that this programme algal reef is when running into great wave, keep away unrestrained fuze mechanism the portion gas in gasbag to be discharged, buoyant device and algal reef supporter are sunk.As shown in Figure 6, after the lower end abutment of lower piston body 85 is on spacing block set 86, spacing between outer vent 83 and upper piston body 82 is larger, then " the first Compress Spring 87 promotes upper and lower piston body and up moves, until inside and outside two air vents are all between upper and lower two-piston body "---the time needed for this process is longer; This has enough large fluctuating range (namely the difference of the length of connecting rope and the spacing between buoyant device and main body rod member upper end is enough large) with regard to needing the spacing between buoyant device and main body rod member upper end; Thus after the lower end abutment of lower piston body is on spacing block set, the spacing between outer vent and upper piston body is larger, then need larger wave fluctuating range can make to keep away unrestrained fuze mechanism and discharged by the portion gas in gasbag.
When running into little wave, although the spacing between buoyant device and main body rod member upper end may now fluctuate (spacing namely between buoyant device and main body rod member upper end will be less than the length of connecting rope), first Compress Spring is promoted, lower piston body up moves, but it is not when upper piston body also up crosses outer vent, and (outer vent is not also positioned at, between two lower piston bodies), each algal reef supporter sinks, the gravity of algal reef supporter will be applied to by connecting rope again, on lower piston body, overcome the reset force of the first Compress Spring, make, lower piston body moves down, that is when running into little wave, it is not enough to make to keep away unrestrained fuze mechanism and is discharged by the portion gas in gasbag, thus after the lower end abutment of lower piston body is on spacing block set, this programme can decide this programme algal reef when running into great wave by the spacing size controlled between outer vent and upper piston body, and keeping away unrestrained fuze mechanism can discharge the portion gas in gasbag, buoyant device and algal reef supporter are sunk.In general, when running into 5 grades of billows, 6 grades billow (wave height 2 ~ 6 meters), algal reef supporter, by violent the fluctuating of generation, causes the marine alga that algal reef supporter adheres to be destroyed; Thus, when running into 5 grades of billows, 6 grades billow (wave height 2 ~ 6 meters), the unrestrained fuze mechanism of keeping away of this programme can by the portion gas discharge in gasbag; Buoyant device and algal reef supporter are sunk.
As shown in Figure 1, Figure 4, Figure 5, after algal reef supporter 7 sinks to seabed, the balancing weight 51 of lifting rope self adaptation levitating device 5 also will be placed at seabed, now vertically excite bar will up move under the second Compress Spring effect until lower position block is resisted against on contiguous block; Now spacing peg is positioned at above breach of stepping down, and link 513 breaks off relations, and namely link departs from spacing peg, thus release ball float 511, now drive lifting rope together floats by ball float; Like this after wave is decorporated, attendant can easily by lifting rope by buoyant device, algal reef supporter and on marine alga together pull-up, and again to inflate in gasbag, whole algal reef swum in marine site again, thus recover algae field.
As shown in Figure 9, when algal reef of the present invention is transferred to after in waters, can respectively by pull rope 12 by each algal reef of the present invention be preset in marine site or the spud pile 11 of near shore is connected; Pull rope one end and the vertical sleeve connection of central authorities be positioned at below gasbag, the other end is connected with spud pile.Pull rope is evenly distributed with some buoyant spheres.Spud pile is be fixed in marine site or the spud pile of near shore.Spud pile can with each algal reef one_to_one corresponding, also can some each algal reefs corresponding with a spud pile;
As shown in Figure 10, when algal reef of the present invention is transferred to after in waters, by sinker formula method, algal reef of the present invention can also be limited in a certain marine site.This sinker formula method comprises floating connection buoyancy aid 13 across the sea, anchor 15, anchor line 14 and pull rope 12; Wherein anchor sinks to seabed, and anchor line connects anchor and is connected buoyancy aid; Pull rope one end be connected buoyancy aid and be connected, the other end and the vertical sleeve connection of central authorities be positioned at below gasbag.
When algal reef of the present invention is transferred to after in waters, algal reef of the present invention can also be limited in a certain marine site by another kind of sinker formula method; Be fixed on bottom algal reef supporter by anchor line or be fixed in the vertical cartridges sides of central authorities below gasbag, and anchor is sunk to seabed, and the length of anchor line is greater than the spacing in algal reef supporter and seabed.
Claims (9)
1. an artificial constructed reefs, is characterized in that, comprises buoyant device (1), main body rod member (6), some algal reef supporters (7) and connecting rope (4); Described algal reef supporter comprises hemispherical bracing frame (71), be fixed on the vertical cover (72) of connection in the middle part of hemispherical bracing frame and some algal reefs attachment matrix (73) be arranged on hemispherical bracing frame, each algal reef attachment matrix is respectively equipped with wire rope handling through hole (74), and being respectively equipped with installing rope in wire rope handling through hole on each algal reef attachment matrix, each algal reef attachment matrix is fixed on hemispherical bracing frame respectively by installing rope; The lower end that cover is found in described connection is positioned at the below of hemispherical bracing frame, and the upper end connecting vertical cover is positioned at the top of hemispherical bracing frame; One end of described main body rod member is provided with positive stop (62), and the other end is provided with screw thread and screw thread is provided with locking nut (61); Each algal reef supporter is set on main body rod member respectively by the vertical cover (72) of connection, and each algal reef supporter distributes successively along main body rod member; Described main body rod member and each algal reef supporter are suspended on below buoyant device by connecting rope, and one end of connecting rope is connected with buoyant device, and the other end is connected with the main body Rod end near locking nut.
2. a kind of marine ecology reef according to claim 1, is characterized in that, described algal reef attachment matrix is made up of foam concrete, and algal reef attachment matrix surface inserting has some shells.
3. a kind of marine ecology reef according to claim 1, it is characterized in that, described algal reef attachment matrix is evenly distributed on the medial surface of hemispherical bracing frame, and each algal reef adheres on matrix, on a side at the center of hemispherical bracing frame, is attached with the marine alga seedling of artificial culture.
4. a kind of artificial constructed reefs according to claim 1, it is characterized in that, described buoyant device comprises gasbag (3), the vertical sleeve of central authorities (2) and be arranged on and keep away unrestrained fuze mechanism (8) in central vertical sleeve, the vertical sleeve of described central authorities is arranged on the middle part in gasbag, and the two ends up and down of central vertical sleeve are each passed through gasbag, and be positioned at outside gasbag, be tightly connected between the lateral surface of the vertical sleeve of gasbag and central authorities;
The vertical sleeve of described central authorities cylindrically, and the upper/lower terminal of central vertical sleeve close; Describedly keep away unrestrained fuze mechanism and comprise the upper piston body (82), the lower piston body (85) that are arranged in central vertical sleeve that can slide along central authorities vertical sleeves, connect the connecting rod (84) of upper and lower two-piston body, coaxially be arranged on the leading-off rods (88) on lower piston body, be arranged on central vertical sleeve medial surface and the inner vent (83) be connected with gasbag and being arranged on central vertical sleeve medial surface and the outer vent (81) be positioned at above gasbag; On the vertical sleeve medial surface of described central authorities, be positioned at below lower piston body and be provided with spacing block set (86), described leading-off rods is positioned at below lower piston body, and the lower end of leading-off rods is toward downward-extension, and through central vertical sleeve lower surface, be positioned at outside central vertical sleeve; Described leading-off rods is arranged with and upper and lower two-piston body can be made up to move and make upper piston body against first Compress Spring (87) of the vertical sleeve inner top surface of central authorities; The spacing between upper and lower two-piston body is less than along central vertical quill spacing upwards between described inside and outside two air vents, and when the lower end abutment of piston body is on spacing block set instantly, inner vent is between upper and lower two-piston body, and outer vent is positioned at above upper piston body; When upper piston body sleeve inner top surface vertical against central authorities, inside and outside two air vents are all between upper and lower two-piston body; The described connecting rope end winding support be connected with buoyant device is in the lower end of leading-off rods.
5. a kind of artificial constructed reefs according to claim 4, it is characterized in that, in each algal reef supporter, the connection of adjacent with the positive stop of a main body rod member algal reef supporter founds the Chu Shengxiang (9) and lifting rope self adaptation levitating device that put and be provided with upper end open, and Chu Shengxiang (9) and lifting rope self adaptation levitating device are all positioned at the top of the hemispherical bracing frame of this algal reef supporter, lifting rope (10) is placed with in storage rope case, described lifting rope self adaptation levitating device comprises ball float (511), balancing weight (52), be arranged on and connect the vertical mounting blocks put, contiguous block (56), is arranged on the vertical pilot hole on mounting blocks and is slidably arranged on and vertically excite bar (54) in vertical pilot hole, described contiguous block is positioned at above storage rope case, contiguous block is provided with dodges hole, step down breach (514) and with dodge hole and parallel, and through the spacing hole (515) of breach of stepping down, describedly vertically excite bar to pass to dodge hole, bar is vertically excited to be provided with, lower two limited blocks (55, 57), and on, lower position block is positioned at the relative both sides of contiguous block, described lower position block is between contiguous block and mounting blocks, and vertically excite on bar, the second Compress Spring (78) is provided with between lower position block and mounting blocks, described upper limit position block is provided with spacing peg (512), this spacing peg is plugged in spacing hole, and when upper limit position block is resisted against on contiguous block, spacing peg is through breach of stepping down, vertical the putting of the connection at lifting rope self adaptation levitating device place is provided with spacing ring, and spacing ring is positioned at and vertically excites immediately below bar, described balancing weight is hung on by lanyard (51) lower end vertically exciting bar, and described lanyard is through spacing ring and hemispherical bracing frame, and balancing weight is positioned at the below of the hemispherical bracing frame of the algal reef supporter at lifting rope self adaptation levitating device place, described ball float is provided with link, and one end of described lifting rope is fixed on link, and the other end is fixed on bottom storage rope case, and the buoyancy of ball float is greater than the gravity of lifting rope.
6. artificial constructed reefs according to claim 5, it is characterized in that, described mounting blocks is made up of upper and lower two pieces of mounting blocks (53a, 53b), and contiguous block is between upper and lower two mounting blocks, described upper limit position block is between upper mounting blocks and contiguous block, and lower position block is between contiguous block and lower mounting blocks; Described second Compress Spring is between lower position block and lower mounting blocks.
7. the artificial constructed reefs according to claim 5 or 6, is characterized in that, the positive stop direction of half and half spherical support frame all towards main body rod member is protruding, and described algal reef attachment matrix is fixed on the medial surface of hemispherical bracing frame.
8. a kind of artificial constructed reefs according to claim 1 or 2 or 3 or 4 or 5, it is characterized in that, the top of described gasbag is provided with charging connector, and the bottom of gasbag is provided with floss hole, and is provided with seal plug in this floss hole.
9. a kind of artificial constructed reefs according to claim 4 or 5, is characterized in that, described upper piston body and lower piston body side surface are respectively equipped with sealing ring.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105191691A (en) * | 2015-10-10 | 2015-12-30 | 湖北文理学院 | Depth-adjustable submerged plant planting plate |
CN106973778A (en) * | 2016-11-21 | 2017-07-25 | 浙江省海洋水产研究所 | A kind of anti-deposit, wind wave prevention algal reef |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH1132623A (en) * | 1997-07-24 | 1999-02-09 | Hideharu Yonemori | Floating and sinking artificial sea tangle bed |
JP2001190177A (en) * | 2000-01-14 | 2001-07-17 | Tokyo Jimu Service Kk | Artificial algal reef |
US20070193115A1 (en) * | 2004-02-29 | 2007-08-23 | Buck Bela H | Support device for the cultivation of macro organisms in marine waters |
CN202565978U (en) * | 2012-04-06 | 2012-12-05 | 上海海洋大学 | Floating reef |
CN103651186A (en) * | 2012-09-12 | 2014-03-26 | 大连中南维拓资源与环境技术研究有限公司 | Bowl-shaped floating artificial reef and throwing device |
-
2014
- 2014-05-15 CN CN201410206804.7A patent/CN104429892B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH1132623A (en) * | 1997-07-24 | 1999-02-09 | Hideharu Yonemori | Floating and sinking artificial sea tangle bed |
JP2001190177A (en) * | 2000-01-14 | 2001-07-17 | Tokyo Jimu Service Kk | Artificial algal reef |
US20070193115A1 (en) * | 2004-02-29 | 2007-08-23 | Buck Bela H | Support device for the cultivation of macro organisms in marine waters |
CN202565978U (en) * | 2012-04-06 | 2012-12-05 | 上海海洋大学 | Floating reef |
CN103651186A (en) * | 2012-09-12 | 2014-03-26 | 大连中南维拓资源与环境技术研究有限公司 | Bowl-shaped floating artificial reef and throwing device |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105191691A (en) * | 2015-10-10 | 2015-12-30 | 湖北文理学院 | Depth-adjustable submerged plant planting plate |
CN105191691B (en) * | 2015-10-10 | 2019-07-30 | 湖北文理学院 | A kind of adjustable in depth submerged plant planting disk |
CN106973778A (en) * | 2016-11-21 | 2017-07-25 | 浙江省海洋水产研究所 | A kind of anti-deposit, wind wave prevention algal reef |
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