CN103988794B - Hybrid red coral plantation reef - Google Patents

Hybrid red coral plantation reef Download PDF

Info

Publication number
CN103988794B
CN103988794B CN201410012887.6A CN201410012887A CN103988794B CN 103988794 B CN103988794 B CN 103988794B CN 201410012887 A CN201410012887 A CN 201410012887A CN 103988794 B CN103988794 B CN 103988794B
Authority
CN
China
Prior art keywords
wall
shape
blind hole
center
hexagonal configuration
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
CN201410012887.6A
Other languages
Chinese (zh)
Other versions
CN103988794A (en
Inventor
姜少杰
兰镇
袁俊
彭伟锋
王伟定
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.)
Shanghai Maritime University
Original Assignee
Shanghai Maritime University
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 Shanghai Maritime University filed Critical Shanghai Maritime University
Priority to CN201410012887.6A priority Critical patent/CN103988794B/en
Publication of CN103988794A publication Critical patent/CN103988794A/en
Application granted granted Critical
Publication of CN103988794B publication Critical patent/CN103988794B/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

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

Landscapes

  • Farming Of Fish And Shellfish (AREA)
  • Artificial Fish Reefs (AREA)

Abstract

A kind of hybrid red coral plantation reef.It comprises a red coral plantation reef proper, it is characterized in that described red coral plantation reef proper by base, lower leaf outer wall, middle layering outer wall, higher slice outer wall, lower polygon outer wall lateral column, middle polygon outer wall lateral column, upper polygon outer wall lateral column, lower square outer wall side post, in square outer wall lateral column, upper square outer wall side post, lower central dividing plate, upper central dividing plate, lower cultivation support, middle cultivation support and upper cultivation support formed, and by interlocking assembly, and fixed by concrete bonding.Hybrid red coral plantation reef of the present invention can provide safe growing environment for red coral, can play again common fish shelter and lure fish, form in increase fishing output the growth that imitative benthic ecosystems promote coral simultaneously.Hybrid red coral plantation reef of the present invention can be suitable for applying in the coastal waters of any depth of water.

Description

Hybrid red coral plantation reef
Technical field
The present invention relates to a kind of coral plantation reef, particularly relate to a kind of hybrid red coral plantation reef.
Background technology
In sea floor world, the good reputation such as " tropical rain forest in ocean " and " great wall on sea " that coral reef is enjoyed, but be considered to the most ancient, the most colourful on the earth, be also one of most precious ecosystem.Coral maintains indomitable vitality reaching in the evolution process of 2.5 hundred million years, no matter be violent storm, volcano eruption or the lifting on sea level all can not allow coral become extinct.But nearest many decades, the mankind are to the excessive exploitation of marine resources, and pollute, global warming, indiscriminately slaughters excessively capturing of marine fishes, to the excessive exploitation of coral reef, makes coral reef occur unprecedented crisis of survival.Show according to the data that United Nations Environment Programme provides, at present, global coral reef has 11% round extinction, and 16% can not play ecological functions, and 60% is faced with serious threat.
In the numerous kinds of coral, red coral is the one of wherein Gem Grade coral, neutral red coral is piled up by coral polyp to form, growing pullets is slow, non-renewable, and red coral only grows in three large straits (the Taiwan Straits, Japanese straits, gorge, Baltic Sea), be subject to the restriction in marine site, so red coral is very precious.Red coral can as jewel and ornament.In ancient times, red coral is that successive dynasties imperial palace ornament, sweet viburnum, potted landscape, concubines Guan Ding, princes, duckes and ministers are towards Guan Ding etc., modern age, red coral is also usually by as marriage 35 anniversary product, in all age be regarded as the thing of rich and honour auspicious sign, just because of the restriction that it has high economic worth itself to grow in addition, in recent years, owing to excessively to fish for, the reason such as environmental pollution, its resource is seriously damaged.
In recent years, various natural cause and artificial propagation more make red coral meet with extinction, and by the impact of the problem such as seismic sea wave and global warming, the growth of red coral is more and more slower.TaiWan, China major part marine site has forbidden to exploit red coral, face the gesture of exhaustion, top red coral is less than in year, and price has increased to 1.8 ten thousand to 2 ten thousand yuan from 6000 to 8000 yuan every gram, and common red coral has also increased to 6000 to 8000 yuan from 2000 to 3000 yuan.Become to making more people to make a desperate move harvesting red coral, make the situation of red coral more dangerous, protection red coral day by day urgently gets up.
Summary of the invention
The object of the invention is to provide a kind of hybrid red coral plantation reef, it not only can provide safe growing environment for very precious red coral, common fish shelter can be played again and lure fish, form in increase fishing output the growth that imitative benthic ecosystems promote coral simultaneously.
Solution of the present invention is to achieve the above object: hybrid red coral plantation reef of the present invention comprises a red coral plantation reef proper, described red coral plantation reef proper is by base, lower leaf outer wall, middle layering outer wall, higher slice outer wall, lower polygon outer wall lateral column, middle polygon outer wall lateral column, upper polygon outer wall lateral column, lower square outer wall side post, in square outer wall lateral column, upper square outer wall side post, lower central dividing plate, upper central dividing plate, lower cultivation support, middle cultivation support and upper cultivation support form, described base is made up of with the support in " * " shape that each interior angle place of the bedframe in hexagonal configuration is connected the bedframe in hexagonal configuration and outer end, center on the crosspiece upper surface of the described bedframe in hexagonal configuration is respectively equipped with a square-shaped base blind hole, the set respectively square-shaped base blind hole both sides of center on the crosspiece upper surface of the described bedframe in hexagonal configuration is also evenly equipped with base plantation blind hole, the upper surface of the crosspiece junction of the described bedframe in hexagonal configuration is respectively equipped with one in polygon-shaped base blind hole, the lower surface of the crosspiece junction of the described bedframe in hexagonal configuration is respectively equipped with the conically base footing of shape of a lower end, the described support upper surface in " * " shape is evenly equipped with base plantation blind hole, center on upper surface is provided with the conically base central blind hole of shape of an inner bottom surface, described lower leaf outer wall is the lower leaf framework in hexagonal configuration, center on the described crosspiece upper surface for the lower leaf framework in hexagonal configuration is respectively equipped with a square-shaped lower leaf outer wall blind hole, center on crosspiece lower surface is respectively equipped with a lower leaf outer wall connector that is square body, the upper surface of the described crosspiece junction for the lower leaf framework in hexagonal configuration is respectively equipped with one in polygon-shaped lower leaf outer wall blind hole, the lower surface of crosspiece junction is respectively equipped with one in the lower leaf outer wall connector of gengon, the set respectively square-shaped lower leaf outer wall blind hole both sides of center on the crosspiece upper surface of the described lower leaf framework in hexagonal configuration is also evenly equipped with lower leaf outer wall plantation blind hole, described middle layering outer wall is the middle layered framework in hexagonal configuration, center on the described crosspiece upper surface for the middle layered framework in hexagonal configuration is respectively equipped with a square-shaped middle layering outer wall blind hole, center on crosspiece lower surface is respectively equipped with a middle layering outer wall connector that is square body, the upper surface of the described crosspiece junction for the middle layered framework in hexagonal configuration is respectively equipped with one in polygon-shaped middle layering outer wall blind hole, the lower surface of crosspiece junction is respectively equipped with one in the middle layering outer wall connector of gengon, the set respectively square-shaped middle layering outer wall blind hole both sides of center on the crosspiece upper surface of the described middle layered framework in hexagonal configuration is also evenly equipped with middle layering outer wall plantation blind hole, described higher slice outer wall is the higher slice framework in hexagonal configuration, the described crosspiece upper surface for the higher slice framework in hexagonal configuration is evenly equipped with higher slice outer wall plantation blind hole, describedly be respectively equipped with a higher slice outer wall connector that is square body for the center on the crosspiece lower surface in the higher slice framework of hexagonal configuration,The described lower surface for the crosspiece junction in the higher slice framework of hexagonal configuration is respectively equipped with one in the higher slice outer wall connector of gengon, described lower polygon outer wall lateral column upper surface is provided with one in polygon-shaped lower blind hole, center on lower surface is extended with one downwards in the lower connector of gengon, described middle polygon outer wall lateral column upper surface is provided with one in polygon-shaped middle blind hole, center on lower surface is extended with one downwards in the middle connector of gengon, described upper polygon outer wall lateral column upper surface is provided with one in polygon-shaped upper blind hole, center on lower surface is extended with one downwards in the upper connector of gengon, described lower square outer wall side post upper surface is provided with a square-shaped lower blind hole, center on lower surface is extended with a lower connector that is square body downwards, in described, square outer wall lateral column upper surface is provided with a square-shaped middle blind hole, center on lower surface is extended with a middle connector that is square body downwards, described square outer wall side post upper surface is provided with a square-shaped upper blind hole, center on lower surface is extended with a upper connector that is square body downwards, described lower central dividing plate is in " * " shape, the described lower central dividing plate upper surface in " * " shape is evenly equipped with lower central dividing plate plantation blind hole, center on upper surface is provided with the conically lower central dividing plate blind hole of shape of an inner bottom surface, center on the described lower central dividing plate lower surface in " * " shape is extended with the conically lower central dividing plate connector of shape of a lower end downwards, described upper central dividing plate is in " * " shape, the described upper central dividing plate upper surface in " * " shape is evenly equipped with upper central dividing plate plantation blind hole, center on upper surface is provided with the conically upper central dividing plate blind hole of shape of an inner bottom surface, center on the described upper central dividing plate lower surface in " * " shape is extended with the conically upper central dividing plate connector of shape of a lower end downwards, described lower cultivation support is in claw shape, the upper surface of the described lower cultivation support in claw shape is distributed with respectively lower coral cultivation mould blind hole, in lower coral cultivation mould blind hole that the upper surface of the described lower cultivation support in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose lower coral cultivation mould that distributes, fixed by concrete bonding, described lower coral cultivation mould blind hole is in heart shape or in " ☆ " shape or in hexagonal configuration, described in hollow body and its perisporium on distribute porose lower coral cultivation mould in heart shape or in " ☆ " shape or in hexagonal configuration, center on the upper surface of the described lower cultivation support in claw shape is provided with the conically lower cultivation support blind hole of shape of an inner bottom surface, center on lower surface is extended with the conically cylinder of the lower cultivation stand connection of shape of a center band lower end, lower surface downwards, described middle cultivation support is in claw shape, the upper surface of the described middle cultivation support in claw shape is distributed with respectively middle coral cultivation mould blind hole, in middle coral cultivation mould blind hole that the upper surface of the described middle cultivation support in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose middle coral cultivation mould that distributes, fixed by concrete bonding,Described middle coral cultivation mould blind hole is in " ☆ " shape or in hexagonal configuration or in heart shape, described in hollow body and its perisporium on distribute porose middle coral cultivation mould in " ☆ " shape or in hexagonal configuration or in heart shape, center on the upper surface of the described middle cultivation support in claw shape is provided with the conically middle cultivation support blind hole of shape of an inner bottom surface, center on lower surface is extended with the conically cylinder of the middle cultivation stand connection of shape of a center band lower end, lower surface downwards, described upper cultivation support is in claw shape, the upper surface of the described upper cultivation support in claw shape is distributed with respectively upper coral cultivation mould blind hole, in upper coral cultivation mould blind hole that the upper surface of the described upper cultivation support in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose upper coral cultivation mould that distributes, fixed by concrete bonding, described upper coral cultivation mould blind hole is in hexagonal configuration or in heart shape or in " ☆ " shape, described in hollow body and its perisporium on distribute porose upper coral cultivation mould in hexagonal configuration or in heart shape or in " ☆ " shape, center on the upper surface of the described upper cultivation support in claw shape is provided with the conically upper cultivation support blind hole of shape of an inner bottom surface, center on lower surface is extended with the conically cylinder of the upper cultivation stand connection of shape of a center band lower end, lower surface downwards, described base, lower cultivation support, lower central dividing plate, middle cultivation support, upper central dividing plate and upper cultivation support be stack successively from bottom to top, described lower cultivation support setting is on base, center on the described lower cultivation pedestal lower end face in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the lower cultivation stand connection of shape be inserted in inner bottom surface set by center on the support upper surface in " * " shape that the outer end of described base and each interior angle place of the bedframe in hexagonal configuration be connected conically in the base central blind hole of shape, and fixed by concrete bonding, described lower central dividing plate is installed on lower cultivation support, center on the described lower central dividing plate lower surface in " * " shape to the lower end of downward-extension conically the lower central dividing plate connector of shape be inserted in inner bottom surface set by center on the described lower cultivation pedestal upper end face in claw shape conically in the lower cultivation support blind hole of shape, and fixed by concrete bonding, described middle cultivation support setting is on lower central dividing plate, center on the described middle cultivation pedestal lower end face in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the middle cultivation stand connection of shape be inserted in inner bottom surface set by center on the described lower central dividing plate upper surface in " * " shape conically in the lower central dividing plate blind hole of shape, and fixed by concrete bonding, described upper central dividing plate is installed on middle cultivation support, center on the described lower surface, upper interval in " * " shape to the lower end of downward-extension conically the upper central dividing plate connector of shape be inserted in inner bottom surface set by center on the described middle cultivation pedestal upper end face in claw shape conically in the middle cultivation support blind hole of shape, and fixed by concrete bonding, described upper cultivation support setting is on upper central dividing plateCenter on the described upper cultivation pedestal lower end face in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the upper cultivation stand connection of shape be inserted in inner bottom surface set by center on the described upper central dividing plate upper surface in " * " shape conically in the upper central dividing plate blind hole of shape, and fixed by concrete bonding, described base is also superimposed with successively lower leaf outer wall from bottom to top, middle layering outer wall and higher slice outer wall, described lower leaf outer wall is installed in described base top, described lower leaf outer wall is the lower leaf framework in hexagonal configuration, the described lower leaf outer wall connector for the set respectively body that is square of the center on the crosspiece lower surface in the lower leaf framework of hexagonal configuration respectively with the upper surface of described lower square outer wall side post on set square-shaped lower blind hole form interlocking, and fixed by concrete bonding, the set square-shaped respectively base blind hole of center on the crosspiece upper surface of the bedframe in hexagonal configuration of described base forms interlocking with the center on the lower surface of described lower square outer wall side post to the lower connector of the body that is square of downward-extension respectively, and fixed by concrete bonding, described lower leaf outer wall is the lower leaf framework in hexagonal configuration, described be on the lower surface, crosspiece junction of lower leaf framework in hexagonal configuration the lower leaf outer wall connector in gengon set by respectively respectively with described lower polygon outer wall lateral column upper surface on the set lower blind hole in polygon-shaped form interlocking, and fixed by concrete bonding, rabbeting to the lower connector formation in gengon of downward-extension with the center on described lower polygon outer wall side lower surface respectively in polygon-shaped base blind hole on the upper surface of the crosspiece junction of the bedframe in hexagonal configuration of described base set by difference, and fixed by concrete bonding, described middle layering outer wall is installed in described lower leaf outer wall top, described middle layering outer wall is the middle layered framework in hexagonal configuration, the described middle layering outer wall connector for the set respectively body that is square of the center on the crosspiece lower surface in the middle layered framework of hexagonal configuration respectively with described on square outer wall lateral column upper surface set square-shaped middle blind hole form interlocking, and fixed by concrete bonding, described lower leaf outer wall is the lower leaf framework in hexagonal configuration, described for the set respectively square-shaped lower leaf outer wall blind hole of the center on the crosspiece upper surface in the lower leaf framework of hexagonal configuration respectively with described in center on square outer wall lateral column lower surface form interlocking to the middle connector of the body that is square of downward-extension, and fixed by concrete bonding, described middle layering outer wall is the middle layered framework in hexagonal configuration, described be on the lower surface, crosspiece junction of middle layered framework in hexagonal configuration the middle layering outer wall connector in gengon set by respectively respectively with described middle polygon outer wall lateral column upper surface on the set middle blind hole in polygon-shaped form interlocking, and fixed by concrete bonding, described lower leaf outer wall is the lower leaf framework in hexagonal configuration, described is to form interlocking with the center on described middle polygon outer wall lateral column lower surface to the middle connector in gengon of downward-extension respectively in polygon-shaped lower leaf outer wall blind hole set by respectively on the upper surface, crosspiece junction of lower leaf framework in hexagonal configurationAnd fixed by concrete bonding, described higher slice outer wall is installed in described middle layering outer wall top, described higher slice outer wall is the higher slice framework in hexagonal configuration, the described higher slice outer wall connector for the set respectively body that is square of the crosspiece lower surface center in the higher slice framework of hexagonal configuration respectively with described square outer wall side post upper surface on set square-shaped upper blind hole form interlocking, and fixed by concrete bonding, described middle layering outer wall is the middle layered framework in hexagonal configuration, describedly form interlocking with the center on described square outer wall side post lower surface to the upper connector of the body that is square of downward-extension respectively for the set respectively square-shaped middle layering outer wall blind hole of the center on the crosspiece upper surface in the middle layered framework of hexagonal configuration, and fixed by concrete bonding, described higher slice outer wall is the higher slice framework in hexagonal configuration, described be on the lower surface, crosspiece junction of higher slice framework in hexagonal configuration the higher slice outer wall connector in gengon set by respectively respectively with described upper polygon outer wall lateral column upper surface on the set upper blind hole in polygon-shaped form interlocking, and fixed by concrete bonding, described middle layering outer wall is the middle layered framework in hexagonal configuration, described is to form interlocking with the center on described upper polygon outer wall lateral column lower surface to the upper connector in gengon of downward-extension respectively in polygon-shaped middle layering outer wall blind hole set by respectively on the upper surface, crosspiece junction of middle layered framework in hexagonal configuration, and fixed by concrete bonding.
Described in hollow body and the porose lower coral cultivation die surface in heart shape or in " ☆ " shape or in hexagonal configuration that its perisporium distributes scribbles inorganic zinc-rich coating.
Described in hollow body and the porose middle coral cultivation die surface in " ☆ " shape or in hexagonal configuration or in heart shape that its perisporium distributes scribbles inorganic zinc-rich coating.
Described in hollow body and the porose upper coral cultivation die surface in hexagonal configuration or in heart shape or in " ☆ " shape that its perisporium distributes scribbles inorganic zinc-rich coating.
Hybrid red coral plantation reef of the present invention has following features and effect:
1, hybrid red coral plantation reef shell of the present invention adopts six column types of drawing fish excellent to form upwelling without overhead guard formula cement reef, brings nutritious seawater, attracts fish to come to look for food.
2, hybrid red coral plantation reef inside of the present invention adopts not only that structure is simply but also the fixing cultivation supporting structure reliably in claw shape and the dividing plate in " * " shape, layering is assembled, take full advantage of the space in reefs, on the upper surface of the cultivation support in claw shape, be distributed with the coral cultivation die hole in various shape respectively simultaneously, and be inserted with associated surface in it and scribble the upper coral cultivation mould of inorganic zinc-rich coating and fixed by concrete bonding, red coral can be made to obtain maximum growth protecting on the one hand, red coral can be made to mould different forms according to the idea of designer on the other hand, obtain larger economic interests.Meanwhile, the dividing plate upper surface in " * " shape is also evenly equipped with dividing plate plantation blind hole, so also can be conducive to for common coral provides growth security context.
3, hybrid red coral plantation reef of the present invention is not stopping on the basis of fish movement, a lot of void space is still formed after coral in the various shape cultivation mould blind hole of reasonable arrangement makes the coral reef of planting grow up on the cultivation support in claw shape, facilitate the predation of shuttling back and forth of fish, also facilitate the growth rate of coral reef simultaneously greatly.
4, hybrid red coral plantation reef of the present invention can meet the demand of any depth of water and convenient transport, and each structure is built by armored concrete and made, and all can be assembled, manufacture simple, with low cost.
Generally speaking, the design is the structure in marine setting, and coral reef transplantation device is set up on Traditional Man fish shelter, and the function that these two kinds construct can be combined, the lure function of shell body artificial fish shelter structure to fish is utilized to attract a large amount of fish on the one hand, the red coral come with transplanting forms new artificial environment, increases fishery resources, promotes growth and the formation of coral reef.The existence of coral reef makes the attracting action of fish shelter to fish more outstanding on the other hand, the function of these two aspects is played and mutually promotes, reach the object of benefit " 1+1>2 ".Simultaneously for red coral " amount body " is made and the growing environment of safety, fragile red coral is farthest protected, reaches maximum environmental benefit and economic benefit.
Hybrid red coral plantation reef of the present invention can be suitable for applying in the coastal waters of any depth of water.
The appended drawings show
Concrete structure of the present invention is provided by following embodiment and accompanying drawing thereof.
Fig. 1 is structural representation of the present invention.
Fig. 2 is interior schematic diagram of the present invention.
Fig. 3 is interior of the present invention assembling schematic diagram.
Fig. 4 is understructure schematic diagram of the present invention.
Fig. 5 is lower leaf outer wall construction schematic diagram of the present invention.
Fig. 6 is middle layering outer wall construction schematic diagram of the present invention.
Fig. 7 is higher slice outer wall construction schematic diagram of the present invention.
Fig. 8 is lower polygon outer wall side rod structure schematic diagram of the present invention.
Fig. 9 is middle polygon outer wall side rod structure schematic diagram of the present invention.
Figure 10 is upper polygon outer wall side rod structure schematic diagram of the present invention.
Figure 11 is lower square outer wall side rod structure schematic diagram of the present invention.
Figure 12 be of the present invention in square outer wall side rod structure schematic diagram.
Figure 13 is square outer wall side rod structure schematic diagram of the present invention.
Figure 14 is lower intermediate deck structure schematic diagram of the present invention.
Figure 15 is upper intermediate deck structure schematic diagram of the present invention.
Figure 16 is lower cultivation supporting structure schematic diagram of the present invention.
Figure 17 is lower cultivation support schematic diagram of the present invention.
Figure 18 is middle cultivation supporting structure schematic diagram of the present invention.
Figure 19 is middle cultivation support schematic diagram of the present invention.
Figure 20 is upper cultivation supporting structure schematic diagram of the present invention.
Figure 21 is upper cultivation support schematic diagram of the present invention.
Embodiment
Below with reference to accompanying drawing, hybrid red coral plantation reef of the present invention is described in further detail.
See Fig. 1, Fig. 2 and Fig. 3, the hybrid red coral plantation reef of this invention comprises a red coral plantation reef proper.
Described red coral plantation reef proper by base 1, lower leaf outer wall 21, middle layering outer wall 22, higher slice outer wall 23, lower polygon outer wall lateral column 31, middle polygon outer wall lateral column 32, upper polygon outer wall lateral column 33, lower square outer wall side post 41, in square outer wall lateral column 42, upper square outer wall side post 43, lower central dividing plate 52, upper central dividing plate 53, lower cultivation support 71, middle cultivation support 72 and upper cultivation support 73 formed.
See Fig. 4, the support 12 in " * " shape that described base 1 is connected with each interior angle place of the bedframe 11 in hexagonal configuration by the bedframe 11 in hexagonal configuration and outer end formed.Center on the crosspiece upper surface of the described bedframe 11 in hexagonal configuration is respectively equipped with a square-shaped base blind hole 111, set respectively square-shaped base blind hole 111 both sides of center on the crosspiece upper surface of the described bedframe 11 in hexagonal configuration is also evenly equipped with base plantation blind hole 112, the upper surface of the crosspiece junction of the described bedframe 11 in hexagonal configuration is respectively equipped with one in polygon-shaped base blind hole 113, the lower surface of the crosspiece junction of the described bedframe 11 in hexagonal configuration is respectively equipped with the base footing 114 of a lower end conically shape.Described support 12 upper surface in " * " shape is evenly equipped with base plantation blind hole 121, the center on upper surface is provided with the base central blind hole 122 of an inner bottom surface conically shape.
See Fig. 5, described lower leaf outer wall 21 is the lower leaf framework 211 in hexagonal configuration.Center on the crosspiece upper surface of the described lower leaf framework 211 for being hexagonal configuration is respectively equipped with a square-shaped lower leaf outer wall blind hole 2111, center on crosspiece lower surface is respectively equipped with a lower leaf outer wall connector 2112 being square body, the upper surface of the described crosspiece junction for the lower leaf framework 211 in hexagonal configuration is respectively equipped with one in polygon-shaped lower leaf outer wall blind hole 2113, the lower surface of crosspiece junction is respectively equipped with the lower leaf outer wall connector 2114 that is gengon, set respectively square-shaped lower leaf outer wall blind hole 2111 both sides of center on the crosspiece upper surface of the described lower leaf framework 211 in hexagonal configuration is also evenly equipped with lower leaf outer wall plantation blind hole 2115.
See Fig. 6, described middle layering outer wall 22 is the middle layered framework 221 in hexagonal configuration.Center on the crosspiece upper surface of the described middle layered framework 221 for being hexagonal configuration is respectively equipped with a square-shaped middle layering outer wall blind hole 2211, center on crosspiece lower surface is respectively equipped with a middle layering outer wall connector 2212 being square body, the upper surface of the described crosspiece junction for the middle layered framework 221 in hexagonal configuration is respectively equipped with one in polygon-shaped middle layering outer wall blind hole 2213, the lower surface of crosspiece junction is respectively equipped with the middle layering outer wall connector 2214 that is gengon, set respectively square-shaped middle layering outer wall blind hole 2211 both sides of center on the crosspiece upper surface of the described middle layered framework 221 in hexagonal configuration is also evenly equipped with middle layering outer wall plantation blind hole 2215.
See Fig. 7, described higher slice outer wall 23 is the higher slice framework 231 in hexagonal configuration.The described crosspiece upper surface for the higher slice framework 231 in hexagonal configuration is evenly equipped with higher slice outer wall plantation blind hole 2311, describedly be respectively equipped with a higher slice outer wall connector 2312 being square body for the center on the crosspiece lower surface of the higher slice framework 231 in hexagonal configuration, the lower surface of the described crosspiece junction for the higher slice framework 231 in hexagonal configuration be respectively equipped with a higher slice outer wall connector 2313 in gengon.
See Fig. 8, described lower polygon outer wall lateral column 31 upper surface is provided with one in polygon-shaped lower blind hole 311, and the center on lower surface is extended with the lower connector 312 that is gengon downwards.
See Fig. 9, described middle polygon outer wall lateral column 32 upper surface is provided with one in polygon-shaped middle blind hole 321, and the center on lower surface is extended with the middle connector 322 that is gengon downwards.
See Figure 10, described upper polygon outer wall lateral column 33 upper surface is provided with one in polygon-shaped upper blind hole 331, and the center on lower surface is extended with the upper connector 332 that is gengon downwards.
See Figure 11, described lower square outer wall side post 41 upper surface is provided with a square-shaped lower blind hole 411, and the center on lower surface is extended with a lower connector 412 being square body downwards.
See Figure 12, in described, square outer wall lateral column 42 upper surface is provided with a square-shaped middle blind hole 421, and the center on lower surface is extended with a middle connector 422 being square body downwards.
See Figure 13, described square outer wall side post 43 upper surface is provided with a square-shaped upper blind hole 431, and the center on lower surface is extended with a upper connector 432 being square body downwards.
See Figure 14, described lower central dividing plate 52 is in " * " shape, described lower central dividing plate 52 upper surface in " * " shape is evenly equipped with lower central dividing plate plantation blind hole 521, center on upper surface is provided with the lower central dividing plate blind hole 522 of an inner bottom surface conically shape, and the center on described lower central dividing plate 52 lower surface in " * " shape is extended with the lower central dividing plate connector 523 of a lower end conically shape downwards.
See Figure 15, described upper central dividing plate 53 is in " * " shape, described upper central dividing plate 53 upper surface in " * " shape is evenly equipped with central dividing plate plantation blind hole 531, center on upper surface is provided with the upper central dividing plate blind hole 532 of an inner bottom surface conically shape, and the center on described upper central dividing plate 53 lower surface in " * " shape is extended with the upper central dividing plate connector 533 of a lower end conically shape downwards.
See Figure 16 and 17, described lower cultivation support 71 is in claw shape, the upper surface of the described lower cultivation support 71 in claw shape is distributed with respectively lower coral cultivation mould blind hole 711, being inserted with associated in lower coral cultivation mould blind hole 711 distributed respectively on the upper surface of the described lower cultivation support 71 in claw shape is in hollow body and porose lower coral cultivation mould 712 that its perisporium distributes, fixed by concrete bonding, described lower coral cultivation mould blind hole 711 is in heart shape or in " ☆ " shape or in hexagonal configuration, described in the present embodiment, lower coral cultivation mould blind hole 711 is selected as being heart shape, described in hollow body and porose lower coral cultivation mould 712 that its perisporium distributes in heart shape or in " ☆ " shape or in hexagonal configuration, described in the present embodiment in hollow body and porose lower coral cultivation mould 712 that its perisporium distributes is selected as in heart shape, described in hollow body and porose lower coral cultivation mould 712 surface in heart shape or in " ☆ " shape or in hexagonal configuration that its perisporium distributes scribbles inorganic zinc-rich coating, center on the upper surface of the described lower cultivation support 71 in claw shape is provided with the lower cultivation support blind hole 713 of an inner bottom surface conically shape, center on lower surface is extended with the cylinder of a center band lower end, the lower surface conically lower cultivation stand connection 714 of shape downwards.
See Figure 18 and 19, described middle cultivation support 72 is in claw shape, the upper surface of the described middle cultivation support 72 in claw shape is distributed with respectively middle coral cultivation mould blind hole 721, being inserted with associated in middle coral cultivation mould blind hole 721 distributed respectively on the upper surface of the described middle cultivation support 72 in claw shape is in hollow body and porose middle coral cultivation mould 722 that its perisporium distributes, fixed by concrete bonding, described middle coral cultivation mould blind hole 721 is in " ☆ " shape or in hexagonal configuration or in heart shape, in described in the present embodiment, coral cultivation mould blind hole 721 is selected as being " ☆ " shape, described in hollow body and porose middle coral cultivation mould 722 that its perisporium distributes in " ☆ " shape or in hexagonal configuration or in heart shape, described in the present embodiment in hollow body and porose lower coral cultivation mould 722 that its perisporium distributes is selected as in " ☆ " heart shape, described in hollow body and porose middle coral cultivation mould 722 surface in " ☆ " shape or in hexagonal configuration or in heart shape that its perisporium distributes scribbles inorganic zinc-rich coating.Center on the upper surface of the described middle cultivation support 72 in claw shape is provided with the middle cultivation support blind hole 723 of an inner bottom surface conically shape, and the center on lower surface is extended with the cylinder of a center band lower end, the lower surface conically middle cultivation stand connection 724 of shape downwards.
See Figure 20 and Figure 21, described upper cultivation support 73 is in claw shape, the upper surface of the described upper cultivation support 73 in claw shape is distributed with respectively coral cultivation mould blind hole 731, being inserted with associated in upper coral cultivation mould blind hole 731 distributed respectively on the upper surface of the described upper cultivation support 73 in claw shape is in hollow body and porose upper coral cultivation mould 732 that its perisporium distributes, fixed by concrete bonding, described upper coral cultivation mould blind hole 731 is in hexagonal configuration or in heart shape or in " ☆ " shape, described in the present embodiment, upper coral cultivation mould blind hole 731 is selected as being hexagonal configuration, described in hollow body and porose upper coral cultivation mould 732 that its perisporium distributes in hexagonal configuration or in heart shape or in " ☆ " shape, described in the present embodiment in hollow body and porose lower coral cultivation mould 712 that its perisporium distributes is selected as in hexagonal configuration, described in hollow body and porose upper coral cultivation mould 732 surface in hexagonal configuration or in heart shape or in " ☆ " shape that its perisporium distributes scribbles inorganic zinc-rich coating.Center on the upper surface of the described upper cultivation support 73 in claw shape is provided with the upper cultivation support blind hole 733 of an inner bottom surface conically shape, and the center on lower surface is extended with the cylinder of a center band lower end, the lower surface conically upper cultivation stand connection 734 of shape downwards.
Described base 1, lower cultivation support 71, lower central dividing plate 52, middle cultivation support 72, upper central dividing plate 53 and upper cultivation support 73 superpose from bottom to top successively.
Described lower cultivation support 71 is installed on base 1.Center on described lower cultivation support 71 lower surface in claw shape to the lower cultivation stand connection 714 of the lower end conically shape of the cylinder lower surface center of downward-extension be inserted in that the outer end of described base 1 is connected with each interior angle place of the bedframe 11 in hexagonal configuration be " * " shape support 12 upper surface on center set by inner bottom surface conically shape base central blind hole 122 in, and to be fixed by concrete bonding.
Described lower central dividing plate 52 is installed on lower cultivation support 71.Center on described lower central dividing plate 52 lower surface in " * " shape is inserted in the lower central dividing plate connector 523 of the lower end conically shape of downward-extension in the lower cultivation support blind hole 713 of the inner bottom surface set by center on described lower cultivation support 71 upper surface in claw shape conically shape, and is fixed by concrete bonding.
Described middle cultivation support 72 is installed on lower central dividing plate 52.Center on described middle cultivation support 72 lower surface in claw shape conically cultivates in shape in the lower central dividing plate blind hole 522 of inner bottom surface set by the center that stand connection 724 is inserted on described lower central dividing plate 52 upper surface in " * " shape conically shape to the lower end of the cylinder lower surface center of downward-extension, and is fixed by concrete bonding.
Described upper central dividing plate 53 is installed on middle cultivation support 72.Center on described upper central dividing plate 53 lower surface in " * " shape to the upper central dividing plate connector 533 of the lower end conically shape of downward-extension be inserted in described in claw shape in cultivate on support 72 upper surface set by center inner bottom surface and conically cultivate in support blind hole 723 in shape, and to be fixed by concrete bonding.
Described upper cultivation support 73 is installed on central dividing plate 53.Center on described upper cultivation support 73 lower surface in claw shape is inserted in the upper cultivation stand connection 734 of the lower end conically shape of the cylinder lower surface center of downward-extension in the upper central dividing plate blind hole 532 of the inner bottom surface set by center on described upper central dividing plate 53 upper surface in " * " shape conically shape, and is fixed by concrete bonding.
Described base 1 is also superimposed with lower leaf outer wall 21, middle layering outer wall 22 and higher slice outer wall 23 from bottom to top successively.
Described lower leaf outer wall 21 is installed in above described base 1.Described lower leaf outer wall 21 is the lower leaf framework 211 in hexagonal configuration, the lower leaf outer wall connector 2112 of described the be square body set respectively for the center on the crosspiece lower surface of the lower leaf framework 211 in hexagonal configuration is formed with set square-shaped lower blind hole 411 on the upper surface of described lower square outer wall side post 41 respectively to be rabbeted, and is fixed by concrete bonding.Center on the crosspiece upper surface of the bedframe 11 in hexagonal configuration of described base 1 respectively set square-shaped base blind hole 111 is formed to the lower connector 412 of the body that is square of downward-extension with the center on the lower surface of described lower square outer wall side post 41 respectively and rabbets, and is fixed by concrete bonding.Described lower leaf outer wall 21 is the lower leaf framework 211 in hexagonal configuration, the lower leaf outer wall connector 2114 in gengon on the lower surface, crosspiece junction of the described lower leaf framework 211 for being hexagonal configuration set by difference is rabbeted with set being formed in polygon-shaped lower blind hole 311 on described lower polygon outer wall lateral column 31 upper surface respectively, and is fixed by concrete bonding.On the upper surface of the crosspiece junction of the bedframe 11 in hexagonal configuration of described base 1 respectively set by formed to the lower connector 312 in gengon of downward-extension with the center on described lower polygon outer wall lateral column 31 lower surface respectively in polygon-shaped base blind hole 113 and rabbet, and to be fixed by concrete bonding.
Described middle layering outer wall 22 is installed in above described lower leaf outer wall 21.Described middle layering outer wall 22 is the middle layered framework 221 in hexagonal configuration, the middle layering outer wall connector 2212 of described the be square body set respectively for the center on the crosspiece lower surface of the middle layered framework 221 in hexagonal configuration respectively with described on square outer wall lateral column 42 upper surface set square-shaped in blind hole 421 formed and rabbet, and to be fixed by concrete bonding.Described lower leaf outer wall 21 is the lower leaf framework 211 in hexagonal configuration, the described square-shaped lower leaf outer wall blind hole 2111 set respectively for the center on the crosspiece upper surface of the lower leaf framework 211 in hexagonal configuration respectively with described in center on square outer wall lateral column 42 lower surface to be formed to connector 422 in the body that is square of downward-extension and rabbet, and to be fixed by concrete bonding.Described middle layering outer wall 22 is the middle layered framework 221 in hexagonal configuration, described on the lower surface, crosspiece junction of the middle layered framework 221 in hexagonal configuration respectively set by the middle layering outer wall connector 2214 in gengon rabbet with set to be formed in blind hole 321 in polygon-shaped on described middle polygon outer wall lateral column 32 upper surface respectively, and to be fixed by concrete bonding.Described lower leaf outer wall 21 is the lower leaf framework 211 in hexagonal configuration, described on the upper surface, crosspiece junction of the lower leaf framework 211 in hexagonal configuration respectively set by polygon-shaped lower leaf outer wall blind hole 2113 respectively with the center on described middle polygon outer wall lateral column 32 lower surface to downward-extension in gengon in connector 322 formed and rabbet, and to be fixed by concrete bonding.
Described higher slice outer wall 23 is installed in above described middle layering outer wall 22.Described higher slice outer wall 23 is the higher slice framework 231 in hexagonal configuration, the higher slice outer wall connector 2312 of the body that is square that the described crosspiece lower surface center for the higher slice framework 231 in hexagonal configuration is set is respectively formed with set square-shaped upper blind hole 431 on described square outer wall side post 43 upper surface respectively to be rabbeted, and is fixed by concrete bonding.Described middle layering outer wall 22 is the middle layered framework 221 in hexagonal configuration, the described square-shaped middle layering outer wall blind hole 2211 set respectively for the center on the crosspiece upper surface of the middle layered framework 221 in hexagonal configuration is formed to the upper connector 432 of the body that is square of downward-extension with the center on described square outer wall side post 43 lower surface respectively rabbets, and is fixed by concrete bonding.Described higher slice outer wall 23 is the higher slice framework 231 in hexagonal configuration, the higher slice outer wall connector 2313 in gengon on the lower surface, crosspiece junction of the described higher slice framework 231 for being hexagonal configuration set by difference is rabbeted with set being formed in polygon-shaped upper blind hole 331 on described upper polygon outer wall lateral column 33 upper surface respectively, and is fixed by concrete bonding.Described middle layering outer wall 22 is the middle layered framework 221 in hexagonal configuration, described on the upper surface, crosspiece junction of the middle layered framework 221 in hexagonal configuration respectively set by formed to the upper connector 332 in gengon of downward-extension with the center on described upper polygon outer wall lateral column 33 lower surface respectively in polygon-shaped middle layering outer wall blind hole 2213 and rabbet, and to be fixed by concrete bonding.

Claims (4)

1. a hybrid red coral plantation reef, it comprises a red coral plantation reef proper, it is characterized in that described red coral plantation reef proper is by base (1), lower leaf outer wall (21), middle layering outer wall (22), higher slice outer wall (23), lower polygon outer wall lateral column (31), middle polygon outer wall lateral column (32), upper polygon outer wall lateral column (33), lower square outer wall side post (41), in square outer wall lateral column (42), upper square outer wall side post (43), lower central dividing plate (52), upper central dividing plate (53), lower cultivation support (71), middle cultivation support (72) and upper cultivation support (73) form, described base (1) is made up of with the support in " * " shape (12) that each interior angle place of the bedframe in hexagonal configuration (11) is connected the bedframe in hexagonal configuration (11) and outer end, center on the crosspiece upper surface of the described bedframe (11) in hexagonal configuration is respectively equipped with a square-shaped base blind hole (111), square-shaped base blind hole (111) both sides set by center difference on the crosspiece upper surface of the described bedframe (11) in hexagonal configuration is also evenly equipped with base plantation blind hole (112), the upper surface of the crosspiece junction of the described bedframe (11) in hexagonal configuration is respectively equipped with one in polygon-shaped base blind hole (113), the lower surface of the crosspiece junction of the described bedframe (11) in hexagonal configuration is respectively equipped with the conically base footing (114) of shape of a lower end, described support (12) upper surface in " * " shape is evenly equipped with base plantation blind hole (121), center on upper surface is provided with the conically base central blind hole (122) of shape of an inner bottom surface, described lower leaf outer wall (21) is the lower leaf framework (211) in hexagonal configuration, center on the described crosspiece upper surface for the lower leaf framework (211) in hexagonal configuration is respectively equipped with a square-shaped lower leaf outer wall blind hole (2111), center on crosspiece lower surface is respectively equipped with a lower leaf outer wall connector (2112) that is square body, the upper surface of the described crosspiece junction for the lower leaf framework (211) in hexagonal configuration is respectively equipped with one in polygon-shaped lower leaf outer wall blind hole (2113), the lower surface of crosspiece junction is respectively equipped with one in the lower leaf outer wall connector (2114) of gengon, square-shaped lower leaf outer wall blind hole (2111) both sides set by center difference on the crosspiece upper surface of the described lower leaf framework (211) in hexagonal configuration is also evenly equipped with lower leaf outer wall plantation blind hole (2115), described middle layering outer wall (22) is the middle layered framework (221) in hexagonal configuration, center on the described crosspiece upper surface for the middle layered framework (221) in hexagonal configuration is respectively equipped with a square-shaped middle layering outer wall blind hole (2211), center on crosspiece lower surface is respectively equipped with a middle layering outer wall connector (2212) that is square body,The upper surface of the described crosspiece junction for the middle layered framework (221) in hexagonal configuration is respectively equipped with one in polygon-shaped middle layering outer wall blind hole (2213), the lower surface of crosspiece junction is respectively equipped with one in the middle layering outer wall connector (2214) of gengon, square-shaped middle layering outer wall blind hole (2211) both sides set by center difference on the crosspiece upper surface of the described middle layered framework (221) in hexagonal configuration is also evenly equipped with middle layering outer wall plantation blind hole (2215), described higher slice outer wall (23) is the higher slice framework (231) in hexagonal configuration, the described crosspiece upper surface for the higher slice framework (231) in hexagonal configuration is evenly equipped with higher slice outer wall plantation blind hole (2311), describedly be respectively equipped with a higher slice outer wall connector (2312) that is square body for the center on the crosspiece lower surface in the higher slice framework (231) of hexagonal configuration, the described lower surface for the crosspiece junction in the higher slice framework (231) of hexagonal configuration is respectively equipped with one in the higher slice outer wall connector (2313) of gengon, described lower polygon outer wall lateral column (31) upper surface is provided with one in polygon-shaped lower blind hole (311), center on lower surface is extended with one downwards in the lower connector (312) of gengon, described middle polygon outer wall lateral column (32) upper surface is provided with one in polygon-shaped middle blind hole (321), center on lower surface is extended with one downwards in the middle connector (322) of gengon, described upper polygon outer wall lateral column (33) upper surface is provided with one in polygon-shaped upper blind hole (331), center on lower surface is extended with one downwards in the upper connector (332) of gengon, described lower square outer wall side post (41) upper surface is provided with a square-shaped lower blind hole (411), center on lower surface is extended with a lower connector (412) that is square body downwards, in described, square outer wall lateral column (42) upper surface is provided with a square-shaped middle blind hole (421), center on lower surface is extended with a middle connector (422) that is square body downwards, described square outer wall side post (43) upper surface is provided with a square-shaped upper blind hole (431), center on lower surface is extended with a upper connector (432) that is square body downwards, described lower central dividing plate (52) is in " * " shape, described lower central dividing plate (52) upper surface in " * " shape is evenly equipped with lower central dividing plate plantation blind hole (521), center on upper surface is provided with the conically lower central dividing plate blind hole (522) of shape of an inner bottom surface, center on described lower central dividing plate (52) lower surface in " * " shape is extended with the conically lower central dividing plate connector (523) of shape of a lower end downwards, described upper central dividing plate (53) is in " * " shape, described upper central dividing plate (53) upper surface in " * " shape is evenly equipped with upper central dividing plate plantation blind hole (531), center on upper surface is provided with the conically upper central dividing plate blind hole (532) of shape of an inner bottom surfaceCenter on described upper central dividing plate (53) lower surface in " * " shape is extended with the conically upper central dividing plate connector (533) of shape of a lower end downwards, described lower cultivation support (71) is in claw shape, the upper surface of the described lower cultivation support (71) in claw shape is distributed with respectively lower coral cultivation mould blind hole (711), in lower coral cultivation mould blind hole (711) that the upper surface of the described lower cultivation support (71) in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose lower coral cultivation mould (712) that distributes, fixed by concrete bonding, described lower coral cultivation mould blind hole (711) is in heart shape or in " ☆ " shape or in hexagonal configuration, described in hollow body and its perisporium on distribute porose lower coral cultivation mould (712) in heart shape or in " ☆ " shape or in hexagonal configuration, center on the upper surface of the described lower cultivation support (71) in claw shape is provided with the conically lower cultivation support blind hole (713) of shape of an inner bottom surface, center on lower surface is extended with the conically cylinder of the lower cultivation stand connection (714) of shape of a center band lower end, lower surface downwards, described middle cultivation support (72) is in claw shape, the upper surface of the described middle cultivation support (72) in claw shape is distributed with respectively middle coral cultivation mould blind hole (721), in middle coral cultivation mould blind hole (721) that the upper surface of the described middle cultivation support (72) in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose middle coral cultivation mould (722) that distributes, fixed by concrete bonding, described middle coral cultivation mould blind hole (721) is in " ☆ " shape or in hexagonal configuration or in heart shape, described in hollow body and its perisporium on distribute porose middle coral cultivation mould (722) in " ☆ " shape or in hexagonal configuration or in heart shape, center on the upper surface of the described middle cultivation support (72) in claw shape is provided with the conically middle cultivation support blind hole (723) of shape of an inner bottom surface, center on lower surface is extended with the conically cylinder of the middle cultivation stand connection (724) of shape of a center band lower end, lower surface downwards, described upper cultivation support (73) is in claw shape, the upper surface of the described upper cultivation support (73) in claw shape is distributed with respectively upper coral cultivation mould blind hole (731), in upper coral cultivation mould blind hole (731) that the upper surface of the described upper cultivation support (73) in claw shape distributed respectively, be inserted with associated in hollow body and its perisporium on the porose upper coral cultivation mould (732) that distributes, fixed by concrete bonding, described upper coral cultivation mould blind hole (731) is in hexagonal configuration or in heart shape or in " ☆ " shape, described in hollow body and its perisporium on distribute porose upper coral cultivation mould (732) in hexagonal configuration or in heart shape or in " ☆ " shape, center on the upper surface of the described upper cultivation support (73) in claw shape is provided with the conically upper cultivation support blind hole (733) of shape of an inner bottom surfaceCenter on lower surface is extended with the conically cylinder of the upper cultivation stand connection (734) of shape of a center band lower end, lower surface downwards, described base (1), lower cultivation support (71), lower central dividing plate (52), middle cultivation support (72), upper central dividing plate (53) and upper cultivation support (73) be stack successively from bottom to top, described lower cultivation support (71) is installed on base (1), center on described lower cultivation support (71) lower surface in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the lower cultivation stand connection (714) of shape be inserted in inner bottom surface set by center on the support in " * " shape (12) upper surface that the outer end of described base (1) and each interior angle place of the bedframe in hexagonal configuration (11) be connected conically in the base central blind hole (122) of shape, and fixed by concrete bonding, described lower central dividing plate (52) is installed on lower cultivation support (71), center on described lower central dividing plate (52) lower surface in " * " shape to the lower end of downward-extension conically the lower central dividing plate connector (523) of shape be inserted in inner bottom surface set by center on described lower cultivation support (71) upper surface in claw shape conically in the lower cultivation support blind hole (713) of shape, and fixed by concrete bonding, described middle cultivation support (72) is installed on lower central dividing plate (52), center on described middle cultivation support (72) lower surface in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the middle cultivation stand connection (724) of shape be inserted in inner bottom surface set by center on described lower central dividing plate (52) upper surface in " * " shape conically in the lower central dividing plate blind hole (522) of shape, and fixed by concrete bonding, described upper central dividing plate (53) is installed on middle cultivation support (72), center on described upper central dividing plate (53) lower surface in " * " shape to the lower end of downward-extension conically the upper central dividing plate connector (533) of shape be inserted in inner bottom surface set by center on described middle cultivation support (72) upper surface in claw shape conically in the middle cultivation support blind hole (723) of shape, and fixed by concrete bonding, described upper cultivation support (73) is installed on central dividing plate (53), center on described upper cultivation support (73) lower surface in claw shape to the lower end of the cylinder lower surface center of downward-extension conically the upper cultivation stand connection (734) of shape be inserted in inner bottom surface set by center on described upper central dividing plate (53) upper surface in " * " shape conically in the upper central dividing plate blind hole (532) of shape, and fixed by concrete bonding, described base (1) is also superimposed with successively lower leaf outer wall (21) from bottom to top, middle layering outer wall (22) and higher slice outer wall (23), described lower leaf outer wall (21) is installed in described base (1) top, described lower leaf outer wall (21) is the lower leaf framework (211) in hexagonal configurationThe described lower leaf outer wall connector (2112) for the set respectively body that is square of the center on the crosspiece lower surface in the lower leaf framework (211) of hexagonal configuration respectively with the upper surface of described lower square outer wall side post (41) on set square-shaped lower blind hole (411) form interlocking, and fixed by concrete bonding, the set square-shaped respectively base blind hole (111) of center on the crosspiece upper surface of the bedframe in hexagonal configuration (11) of described base (1) forms interlocking with the center on the lower surface of described lower square outer wall side post (41) to the lower connector (412) of the body that is square of downward-extension respectively, and fixed by concrete bonding, described lower leaf outer wall (21) is the lower leaf framework (211) in hexagonal configuration, described is that on the lower surface, crosspiece junction of lower leaf framework (211) in hexagonal configuration, the lower leaf outer wall connector (2114) in gengon set by respectively set forms interlocking in polygon-shaped lower blind hole (311) respectively with on described lower polygon outer wall lateral column (31) upper surface, and fixed by concrete bonding, rabbeting to lower connector (312) formation in gengon of downward-extension with the center on described lower polygon outer wall lateral column (31) lower surface respectively in polygon-shaped base blind hole (113) on the upper surface of the crosspiece junction of the bedframe in hexagonal configuration (11) of described base (1) set by difference, and fixed by concrete bonding, described middle layering outer wall (22) is installed in described lower leaf outer wall (21) top, described middle layering outer wall (22) is the middle layered framework (221) in hexagonal configuration, the described middle layering outer wall connector (2212) for the set respectively body that is square of the center on the crosspiece lower surface in the middle layered framework (221) of hexagonal configuration respectively with described on square outer wall lateral column (42) upper surface set square-shaped middle blind hole (421) form interlocking, and fixed by concrete bonding, described lower leaf outer wall (21) is the lower leaf framework (211) in hexagonal configuration, described for the square-shaped lower leaf outer wall blind hole (2111) of the center on the crosspiece upper surface in the lower leaf framework (211) of hexagonal configuration set by respectively respectively with described in center on square outer wall lateral column (42) lower surface form interlocking to the middle connector (422) of the body that is square of downward-extension, and fixed by concrete bonding, described middle layering outer wall (22) is the middle layered framework (221) in hexagonal configuration, described is that on the lower surface, crosspiece junction of middle layered framework (221) in hexagonal configuration, the middle layering outer wall connector (2214) in gengon set by respectively set forms interlocking in polygon-shaped middle blind hole (321) respectively with on described middle polygon outer wall lateral column (32) upper surface, and fixed by concrete bonding, described lower leaf outer wall (21) is the lower leaf framework (211) in hexagonal configurationDescribed is to form interlocking with the center on described middle polygon outer wall lateral column (32) lower surface to the middle connector (322) in gengon of downward-extension respectively in polygon-shaped lower leaf outer wall blind hole (2113) set by respectively on the upper surface, crosspiece junction of lower leaf framework (211) in hexagonal configuration, and fixed by concrete bonding, described higher slice outer wall (23) is installed in described middle layering outer wall (22) top, described higher slice outer wall (23) is the higher slice framework (231) in hexagonal configuration, the described higher slice outer wall connector (2312) for the set respectively body that is square of the crosspiece lower surface center in the higher slice framework (231) of hexagonal configuration respectively with described square outer wall side post (43) upper surface on set square-shaped upper blind hole (431) form interlocking, and fixed by concrete bonding, described middle layering outer wall (22) is the middle layered framework (221) in hexagonal configuration, the square-shaped middle layering outer wall blind hole (2211) set by center difference on the described crosspiece upper surface for the middle layered framework (221) in hexagonal configuration forms interlocking with the center on described square outer wall side post (43) lower surface to the upper connector (432) of the body that is square of downward-extension respectively, and fixed by concrete bonding, described higher slice outer wall (23) is the higher slice framework (231) in hexagonal configuration, described is that on the lower surface, crosspiece junction of higher slice framework (231) in hexagonal configuration, the higher slice outer wall connector (2313) in gengon set by respectively set forms interlocking in polygon-shaped upper blind hole (331) respectively with on described upper polygon outer wall lateral column (33) upper surface, and fixed by concrete bonding, described middle layering outer wall (22) is the middle layered framework (221) in hexagonal configuration, described is to form interlocking with the center on described upper polygon outer wall lateral column (33) lower surface to the upper connector in gengon (332) of downward-extension respectively in polygon-shaped middle layering outer wall blind hole (2213) set by respectively on the upper surface, crosspiece junction of middle layered framework (221) in hexagonal configuration, and fixed by concrete bonding.
2. hybrid red coral plantation reef according to claim 1, it is characterized in that described in hollow body and porose lower coral cultivation mould (712) surface in heart shape or in " ☆ " shape or in hexagonal configuration that its perisporium distributes scribbles inorganic zinc-rich coating.
3. hybrid red coral plantation reef according to claim 1, it is characterized in that described in hollow body and porose middle coral cultivation mould (722) surface in " ☆ " shape or in hexagonal configuration or in heart shape that its perisporium distributes scribbles inorganic zinc-rich coating.
4. hybrid red coral plantation reef according to claim 1, it is characterized in that described in hollow body and porose upper coral cultivation mould (732) surface in hexagonal configuration or in heart shape or in " ☆ " shape that its perisporium distributes scribbles inorganic zinc-rich coating.
CN201410012887.6A 2014-01-13 2014-01-13 Hybrid red coral plantation reef Expired - Fee Related CN103988794B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410012887.6A CN103988794B (en) 2014-01-13 2014-01-13 Hybrid red coral plantation reef

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410012887.6A CN103988794B (en) 2014-01-13 2014-01-13 Hybrid red coral plantation reef

Publications (2)

Publication Number Publication Date
CN103988794A CN103988794A (en) 2014-08-20
CN103988794B true CN103988794B (en) 2015-11-18

Family

ID=51303339

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410012887.6A Expired - Fee Related CN103988794B (en) 2014-01-13 2014-01-13 Hybrid red coral plantation reef

Country Status (1)

Country Link
CN (1) CN103988794B (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104273064B (en) * 2014-09-29 2016-03-16 上海海洋大学 A kind of artificial fish shelter with impeller
CN104521842B (en) * 2015-01-14 2016-07-20 长沙理工大学 A kind of layer-stepping artificial reef body relying on wind power supply
CN107182846B (en) * 2017-07-20 2019-07-02 浙江海洋大学 A kind of base structure of seabed coral culture apparatus
CN107173264B (en) * 2017-07-20 2019-05-21 浙江海洋大学 A kind of seabed coral culture apparatus
CN110476857A (en) * 2019-09-17 2019-11-22 海南大学 A kind of the landscape fish shelter and design method of basalt fibre enhancing
CN116746529B (en) * 2023-06-26 2024-01-05 广州陆海生态科技有限公司 Trapezoidal artificial fish reef device

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101297640A (en) * 2008-06-23 2008-11-05 中国科学院南海海洋研究所 Ex situ conservation method of coral stone
CN101406168A (en) * 2008-11-18 2009-04-15 中国科学院南海海洋研究所 Method for recovering coral reef ecologic system and device for adhering juvenile of hermatypic coral thereof
CN101766153A (en) * 2010-02-03 2010-07-07 中国科学院青海盐湖研究所 Novel indoor coral culture method used for scientific research
CN202153943U (en) * 2011-07-18 2012-03-07 深圳旭联海洋生物养殖有限公司 Quick connector of artificial reef coral
CN102907378A (en) * 2012-11-08 2013-02-06 石珠成 Cultivating method for ocean red corals
CN103026917A (en) * 2012-12-27 2013-04-10 华东师范大学 Supporting cover and method for planting shrubs or subshrubs in multi-layer three-dimensional manner
CN203087269U (en) * 2013-01-24 2013-07-31 中国科学院南海海洋研究所 Table-shaped coral reef base suitable for growth of coral
CN203661816U (en) * 2014-01-13 2014-06-25 上海海洋大学 Hybrid red coral planting reef

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100571997B1 (en) * 2005-03-03 2006-04-17 이화여자대학교 산학협력단 Method of collecting and culturing larvae of korean soft corals

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101297640A (en) * 2008-06-23 2008-11-05 中国科学院南海海洋研究所 Ex situ conservation method of coral stone
CN101406168A (en) * 2008-11-18 2009-04-15 中国科学院南海海洋研究所 Method for recovering coral reef ecologic system and device for adhering juvenile of hermatypic coral thereof
CN101766153A (en) * 2010-02-03 2010-07-07 中国科学院青海盐湖研究所 Novel indoor coral culture method used for scientific research
CN202153943U (en) * 2011-07-18 2012-03-07 深圳旭联海洋生物养殖有限公司 Quick connector of artificial reef coral
CN102907378A (en) * 2012-11-08 2013-02-06 石珠成 Cultivating method for ocean red corals
CN103026917A (en) * 2012-12-27 2013-04-10 华东师范大学 Supporting cover and method for planting shrubs or subshrubs in multi-layer three-dimensional manner
CN203087269U (en) * 2013-01-24 2013-07-31 中国科学院南海海洋研究所 Table-shaped coral reef base suitable for growth of coral
CN203661816U (en) * 2014-01-13 2014-06-25 上海海洋大学 Hybrid red coral planting reef

Also Published As

Publication number Publication date
CN103988794A (en) 2014-08-20

Similar Documents

Publication Publication Date Title
CN103988794B (en) Hybrid red coral plantation reef
CN203661816U (en) Hybrid red coral planting reef
CN203968948U (en) Seabed drift sand environment coral is transplanted reef base
CN103392675B (en) Stereoscopic comprehensive ecological culture method of multiple species in stichopus japonicus pond
CN101971781B (en) Method for culturing soft blue crabs indoors
CN103733972B (en) A kind of manufacture method of Overwater plant cultivation raft
CN104521839B (en) Up-flow artificial marine habitat in one
KR101289093B1 (en) Cucumber growth dome type artificial reef
CN106719220A (en) A kind of building method of the aquafarm with the unrestrained function that disappears
KR101395758B1 (en) Artificial reef for sea cucumber
KR101002567B1 (en) Culture equipment for sea cucumber
CN103202248A (en) Mixed culture method for fishes, prawns and crabs in reed zone ditch
CN203058092U (en) Artificial fish reef enabling algae to be adherent conveniently
CN204837559U (en) Cultchless oyster off -lying sea deep water culture device
CN104839058A (en) Turbulence artificial reef
CN102792904A (en) Three curvature sided reef for seaweed
CN206402943U (en) A kind of framework rises streaming artificial marine habitat
KR101402683B1 (en) An apparatus for oyster aquaculture
CN202760002U (en) Juvenile scylla paramamosain breeding device
CN103053454A (en) Precious marine product proliferation reef applicable to diversified mixed culture and use method of precious marine product proliferation reef
CN204482724U (en) A kind of solid netted artificial fish shelter
CN103988812B (en) Hybrid common coral plantation reef
KR101748240B1 (en) The step artificial reef of pyramid shape
CN203884440U (en) Stacked type mariculture attachment substrate
CN203661835U (en) Hybrid common coral planting reef

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
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: 20151118

Termination date: 20200113

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