CN211430636U - Coral is bred with device of maintaining of being convenient for - Google Patents

Abstract

The utility model discloses a coral culture is with maintaining device conveniently, it includes the frame platform, the fish bowl has been placed on the frame platform, algae jar and two coral culture ecological culture jars, filter equipment has been placed to frame platform below, ecological culture jar divide into the anti-overflow district, upper coral culture district and wave making district, filter equipment includes filter equipment body, inlet tube and outlet pipe, the water of ecological culture jar, fish bowl and algae jar flows out from the delivery port and enters into the inlet tube to filter equipment, water after the filter equipment filters flows into ecological culture jar, algae jar and fish bowl at last, the closed circulation of water has been realized, the ecological system of nature sea area coral growth has been simulated, four modularized designs of fish bowl, algae jar, two coral culture jars are adopted, the whole system is more stable, it is convenient to maintain, when the problem appears in a jar, can not influence in other jars, the four cylinders do not interfere with each other, the system is stable, and later maintenance is convenient.

Description

Coral is bred with device of maintaining of being convenient for

The technical field is as follows:

the utility model relates to a cultured equipment technical field especially relates to a coral is bred with being convenient for and is maintained device.

Background art:

coral of the family coelenterates (Coelenterata) of the class anthoidea (Anthiozoa), the biggest one of Coelenterata, 7000 kinds, are marine products, the coral is like a branch in image, bright in color, not inferior to various flowers on the land, some coral varieties also have amazing fluorescence effects, have ornamental value, are precious ornamental and decorative artware, a pot of coral craft bonsai is beautiful and colorful, make people dump, have not very good value, and live coral is more gorgeous and colorful, apricot yellow and jade green, purple snake red, and a thousand postures of hundreds of states, and make people beautiful and not good.

However, as the population of coastal areas continuously increases, socioeconomic rapid development and global climate change (abnormal high temperature and low temperature) are under artificial and natural multiple pressure, coral ecosystem is seriously disturbed and destroyed, the global coral reef distribution area is continuously reduced, global serious degeneration occurs, meanwhile, the development of ornamental aquarium industry has more and more coral, the collection of field coral has great damage to environment, the supply of field coral cannot meet the huge demand of the increasing ornamental coral market on living coral, the wild coral cannot meet the demand of people gradually, and the coral artificial farm is gradually developed and has a certain scale.

The coral is higher to the environmental requirement of living, the coral ecosystem that the breed of current coral was constructed, mostly all place coral, alga and fish with coral, breed in a jar, if this kind of mode is bred and go wrong in arbitrary link of entire system, if the alga grows too much, just cause ecological balance very easily, influence the coral growth, simultaneously because the water is less, quality of water is difficult to be stable, need often mend and trade water, not only influence the coral growth, need the breed person to spend a lot of efforts to maintain moreover.

The utility model has the following contents:

the utility model aims at solving current problem, and provide a coral breed with being convenient for maintain device, water in the ecological jar of breeding flows out from the delivery port and enters into inlet tube to filter equipment, filter equipment returns the water after will filtering in the ecological jar of breeding again, the circulation of water has been realized, the ecosystem that nature sea area coral grows has been simulated simultaneously, be favorable to the growth of coral, when the problem appears in a jar, can not cause the influence to other jars, mutual noninterference between four jars, the system is stable, the later maintenance is convenient.

The technical solution of the utility model is as follows:

the utility model provides a coral is bred with device of maintaining of being convenient for which characterized in that: which comprises a frame platform, wherein a fish tank, an algae tank and two ecological culture tanks for culturing coral are arranged on the frame platform, a filtering device is arranged below the frame platform, the filtering device is a second cylinder body with an opening at the top, which comprises a filtering device body, a water inlet pipe and a water outlet pipe, wherein the ecological breeding tank, the fish tank and the algae tank are all provided with a water inlet and a water outlet, the water outlet pipe is fixedly connected with the water inlet, the water inlet pipe is fixedly connected with the water outlet, the ecological breeding tank is a first tank body with an opening at the top, the first cylinder body comprises a culture area and an anti-overflow area, the culture area and the anti-overflow area are separated by an anti-overflow plate, the anti-overflow plate is vertically fixed in the first cylinder body, and the culture area is divided into an upper coral culture area and a wave-making area below the upper coral culture area through the first filter plate.

Preferably, the upper part of the spill plate is provided with 3 or more than 3 spill holes, and the position of the spill holes is 1 cm-5 cm lower than the height of the first cylinder body.

Preferably, the upper coral culture area comprises a first supporting strip fixed on the inner side wall of the first cylinder body, a first filter plate is placed on the first supporting strip, the first filter plate is not in contact with the four side walls of the first cylinder body, and through holes are densely distributed in the first filter plate.

Preferably, the overflow-preventing region comprises a first overflow pipe and a second overflow pipe higher than the first overflow pipe, the first overflow pipe and the second overflow pipe are hollow cylinders, the first overflow pipe and the second overflow pipe both penetrate through the bottom of the first cylinder body and are fixedly connected with the bottom of the first cylinder body, and the height of the first overflow pipe is 0.5 CM-1 CM higher than the inner bottom surface of the first cylinder body.

Preferably, the wave generating area comprises a flow partition plate and a wave generating pump, the flow partition plate is vertically fixed on the inner bottom surface of the first cylinder body, the flow partition plate is not in contact with the inner side wall of the first cylinder body, and the height of the flow partition plate is consistent with that of the supporting plate.

Preferably, the second cylinder body is sequentially divided into a mute filtration area, a protein decomposition area and a water collection area from the water inlet end to the water outlet end.

Preferably, the silence filtration zone is including the third baffle with the inner wall fixed connection of second cylinder body, the third baffle cuts apart the silence filtration zone into catchment chamber and filter chamber, the inlet tube runs through the apron extends to catchment intracavity, and is close the bottom in chamber that catchments, fixedly connected with second support bar on the filter chamber inside wall, placed the second filter on the second support bar, the second filter is for offering the plate body structure of through-hole, and the filter pulp has been placed to its upper surface.

Preferably, the filter cavity is adjacent to the protein decomposition region, and a water passage port communicated with the protein decomposition region is arranged between the filter cavity and the protein decomposition region.

Preferably, the protein decomposition area comprises a protein decomposer and a first water pump, and the first water pump is connected with the water inlet end of the protein decomposer.

Preferably, a second water pump is placed in the water collecting area, the second water pump is fixedly connected with the water outlet pipe, an automatic water replenishing device is installed in the water collecting area, the water inlet end of the automatic water replenishing device is connected with a fresh water pipe, and the water outlet end of the automatic water replenishing device is placed in the water collecting area.

The beneficial effects of the utility model reside in that:

1. the utility model discloses a coral is bred with being convenient for maintain device, it is provided with ecological breed jar, fish bowl, algae jar and filter equipment, water in ecological breed jar, fish bowl and the algae jar flows out from the delivery port and gets into filter equipment in, water after filter equipment filters flows into ecological breed jar again, in fish bowl and the algae jar, the closed cycle of water has been realized, be provided with the fish bowl simultaneously, the ecosystem that nature sea area coral grows has been simulated to the ecological breed jar of algae jar and two foster corals, be favorable to the growth of coral, when the problem appears in a jar, can not cause the influence to other jars, mutual noninterference between four jars, the system is stable, do benefit to the later maintenance of coral, breed fan for the coral and take the facility, more enlarge the development in coral breed market.

2. The utility model discloses a coral is bred and is used maintenance device of being convenient for, realized through the silence filter space that water enters into the chamber of catchmenting through the inlet tube after, spill over the filter pulp of filter space through the gap, filter the impurity of getting rid of part aquatic, water flows through the through-hole of second filter, the water service mouth from the filter space again enters into the protein decomposition district, the play water end of inlet tube is less than the surface of the intracavity water that catchments all the time, the bottom of having avoided the rivers impact to catchment the chamber causes the phenomenon of noise, reach the effect of silence, the water of the intracavity of catchmenting simultaneously spills over the filter cavity from the gap, adopt the mode that spills over, can deposit large granule impurity in the intracavity that catchments, the life of filter pulp has been prolonged.

3. The utility model discloses a coral is bred with being convenient for and is maintained device, install automatic water replenishing device on the catchment area lateral wall top, the floater end of automatic water replenishing device is located the water catch bowl, fresh water pipe is connected to the end of intaking of automatic water replenishing device, when water evaporation leads to the water level to descend, fresh water can be mended automatically to automatic water replenishing device, makes the salinity of this system maintain unchangeably, is favorable to the growth of coral, and the coral person of breeding breeds more conveniently, need not to breed the too much energy of person's cost, more does benefit to the development that enlarges coral breed market.

4. The utility model discloses a coral is bred with being convenient for maintenance device, be provided with the flow divider and make unrestrained pump, it makes unrestrained to make unrestrained pump, unrestrained promotion water, the rivers are along the separation direction flow of flow divider, form the circulation, create an environment similar to ocean current for living beings such as the coral in breeding the jar, and the flow divider will make unrestrained the surfing unit of dividing into that the velocity of water is different, can select to place on the first filter that suitable surfing unit corresponds to the coral of velocity demand difference, thereby not only can make the coral whole parcels in aqueous, select suitable velocity of water to drive plankton to move about simultaneously, more do benefit to the coral and catch food, do benefit to the breed of coral, provide an ecological environment that does benefit to the growth for the coral.

5. The utility model discloses a coral is bred with being convenient for maintain device, be provided with first filter in its first cylinder body, divide into upper coral breed district and wave making district through first filter, the coral is bred on first filter, be provided with the through-hole on the first filter, so deposit impurity on first filter can follow the through-hole internal flow, can not deposit on first filter, thereby provide a clean environment for the coral, make coral and all-round contact of water simultaneously, wrap up in water, more do benefit to the growth of coral.

6. The utility model discloses a coral is bred with being convenient for and is maintained device is provided with the anti-overflow district, and when the water level exceeded the anti-overflow hole, rivers flowed into the anti-overflow district along the anti-overflow hole in, and rivers flow from first warning intraductal, if first warning pipe plugs up, can not drainage smoothly or rivers are too big, and when first warning pipe came too late drainage, water was discharged from the second warning pipe, can prevent that water from spilling over from the side wall top edge, had dual anti-overflow effect, safe and reliable simultaneously.

Description of the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of a device for easily maintaining coral culture according to the present invention;

FIG. 2 is a general view of the maintenance facilitating device for coral cultivation of the present invention;

FIG. 3 is a schematic view of the structure of the filtering device of the present invention;

FIG. 4 is a schematic structural view of the mute filter area of the present invention;

fig. 5 is a schematic structural view of the mute filter area without the second filter plate according to the present invention;

FIG. 6 is a schematic structural view of an ecological breeding tank of the present invention;

FIG. 7 is a schematic structural view of the first filter plate of the ecological breeding tank;

fig. 8 is a schematic diagram of the structure of the spill-proof plate of the present invention.

In the figure: 1. a first cylinder; 2. an upper coral culture area; 2-1, a first supporting strip; 3. an anti-overflow area; 3-1, an anti-overflow plate; 3-2, a first overflow pipe; 3-3, a second overflow pipe; 3-4, anti-overflow holes; 4. a water outlet; 4-2, a first filter plate; 5. a wave making zone; 5-1, flow isolating plate; 5-2, a wave making pump; 6. breeding an ecological cylinder; 6-1, fish tank; 6-2, algae jar; 7. a second cylinder; 7-1, a filtering device body; 7-2, a water inlet pipe; 7-3, a water outlet pipe; 8. a third partition plate; 9. a mute filtering area; 9-1, a water collecting cavity; 9-2, a filter cavity; 9-3, a second filter plate; 9-4, a water through port; 9-5, fixing plates; 9-6, a second supporting strip; 10. a proteolytic region; 10-1, a protein decomposer; 10-2, a first water pump; 10-3, a first separator; 11. A water collection area; 11-1, a second water pump; 11-2, automatic water replenishing; 11-3, a second separator; 11-4, fresh water pipes; 12. a cold and hot water machine; 13. a frame platform.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

As shown in fig. 1-8, a coral culture maintenance facilitating device comprises a frame table 13, wherein the frame table 13 is a support with a bottom and a table fixed above the bottom, a plurality of through holes for placing a first water outlet pipe 1-2 and a first water inlet pipe 1-1 are formed on the table above the frame table 13, a fish tank 6-1, an algae tank 6-2 and two ecological culture tanks 6 for culturing coral are placed on the center table of the frame table 13, fish in the fish tank 6-1 is mainly cultured, algae in the algae tank 6-2 is mainly placed, coral is mainly cultured in the two ecological culture tanks 6, a filtering device is placed on the table at the bottom of the frame table 13, the ecological culture tanks 6 are first tank bodies 1 with openings at the top, each first tank body 1 comprises a culture area and an overflow prevention area 3, and the culture area and the overflow prevention area 3 are separated by overflow prevention plates 3-1, the anti-overflow plate 3-1 is vertically fixed in the first cylinder body 1, the culture area is divided into an upper coral culture area 2 and a wave making area 5 positioned below the upper coral culture area 2 through a first filter plate 4-2, the bottoms of the ecological culture cylinder 6, the fish tank 6-1 and the algae cylinder 6-2 are respectively provided with a water inlet and a water outlet, the filter device is a second cylinder body 7 with an open top and comprises a filter device body 7-1, a water inlet pipe 7-2 and a water outlet pipe 7-3, the water outlet pipe 7-3 is fixedly connected with the water inlet, and the water inlet pipe 7-2 is fixedly connected with the water outlet.

Specifically, 3 or more than 3 anti-overflow holes 3-4 are formed in the upper portion of the anti-overflow plate 3-1, the positions of the anti-overflow holes 3-4 are lower than the top end of the first cylinder body 1 by 1 cm-5 cm, so that water in the first cylinder body 1 can be effectively prevented from overflowing from the periphery of the first cylinder body, at least one of the transverse length and the longitudinal length of each anti-overflow hole 3-4 is smaller than the thickness of a fish, the fish can be prevented from flowing out of the anti-overflow holes 3-4, a water outlet 4 is formed in the position, close to the bottom of the first cylinder body 1, of the anti-overflow plate 3-1, a plug body is fixed on the water outlet 4, when water in the culture area needs to be replaced, the plug body is opened, the water in the culture area can enter the anti-overflow area 3 from the culture area, and the water in the anti-overflow area.

Specifically, the anti-overflow area comprises a first overflow pipe 3-2 and a second overflow pipe 3-3 higher than the first overflow pipe 3-2, the first overflow pipe 3-2 and the second overflow pipe 3-3 are hollow cylinders, the first overflow pipe 3-2 and the second overflow pipe 3-3 both penetrate through the bottom of the first cylinder 1 and are fixedly connected with a water outlet pipe, the height of the first overflow pipe 3-2 is 0-0.5 CM higher than the inner bottom surface of the first cylinder 1, water flowing out of the anti-overflow hole 3-4 is discharged from the first overflow pipe 3-2, if the height of the first overflow pipe 3-2 is too high, the water flowing out of the overflow hole 3-4 is deposited in the anti-overflow area, when the first overflow pipe 3-2 is blocked or has no time to discharge, and when the height of the anti-overflow pipe 3-3 in the anti-overflow area is higher than the second overflow pipe 3-3, water is discharged from the second overflow pipe 3-3 to achieve the double anti-overflow effect.

Specifically, the upper coral culture zone 2 comprises first supporting strips 2-1 fixed on the inner side wall of the first cylinder body 1, a first filter plate 4-2 is placed on the first supporting strips 2-1, the first filter plate 4-2 is not in contact with the four side walls of the first cylinder body 1, through holes are densely distributed in the first filter plate 4-2, so that impurities deposited on the first filter plate can flow out of the through holes and cannot be deposited on the first filter plate, a clean environment is provided for coral, the growth of the coral is facilitated, and the coral can be wrapped in water by the arrangement of the first filter plate 4-2 and fully contacted with the water, so that the growth of the coral is facilitated.

Specifically, the wave making area 5 comprises a flow separation plate 5-1 and a wave making pump 5-2, the flow separation plate 5-1 is vertically fixed on the inner bottom surface of the first cylinder body 1, the flow separation plate 5-1 is not in contact with the inner side wall of the first cylinder body 1, the height of the flow separation plate 5-1 is consistent with the height of the first supporting strip 2-1, so that the flow separation plate 5-1 can play a role of supporting the first filter plate 4-2, the number of the flow separation plates 5-1 is one or more, the wave making area is divided into a plurality of surfing units with different water flow speeds, the wave making pump 5-2 is positioned at one side in the surfing units, so that the water flow speed in the surfing units positioned in the wave making pump 5-2 is the fastest, and the water flow speed in the surfing units far away from the wave making pump 5-2 is the slowest, the breeder can select the number and power of the wave making pumps 5-2 and the position of the coral placed on the first filter plate according to the requirement of the cultured coral on the water flow speed, if the coral suitable for the fast flow speed is placed on the first filter plate 4-2 corresponding to the surfing unit with the wave making pump 5-2, and if the coral suitable for the slow flow speed is placed on the first filter plate 4-2 corresponding to the surfing unit far away from the wave making pump 5-2.

Specifically, the second cylinder 7 is sequentially divided into a mute filter zone 9, a protein decomposition zone 10 and a water collection zone 11 from the water inlet end to the water outlet end. The silent filtration zone 9 and the protein decomposition zone 10 are separated by a first partition plate 10-3, the protein decomposition zone 10 and the water collection zone 11 are separated by a second partition plate 11-3, the first partition plate 10-3 and the second partition plate 11-3 are fixedly connected with the inner wall of the second cylinder 7, the top end of the second partition plate 11-3 is lower than the top end of the second cylinder 7, so that the filtered water in the protein decomposition zone 10 can enter the water collection zone 11, the bottom end of the first partition plate 10-3 is higher than the bottom of the second cylinder 7, a water through opening 9-4 is formed between the second cylinder 7 and the first partition plate 10-3, and the water passing through the filtration chamber 9-2 flows into the protein decomposition zone 10 from the water through opening 9-4.

Specifically, the mute filter area 9 comprises a third partition plate 8 fixedly connected with the inner wall of the second cylinder 7, the third partition plate 8 divides the mute filter area into a water collecting cavity 9-1 and a filter cavity 9-2, a fixing plate 9-5 is detachably fixed at the opening of the water collecting cavity 9-1, a round hole tightly matched with the outer diameter of the water inlet pipe 7-2 is formed in the fixing plate 9-5, so that the fixing plate 9-5 can fix the water inlet pipe 7-2, the water inlet pipe 7-2 can be prevented from shaking when water flows into the water collecting cavity 9-1, sound generated by shaking of the water inlet pipe 7-2 is reduced, the water inlet pipe 7-2 penetrates through the round hole of the fixing plate 9-5 and extends into the water collecting cavity 9-1 and is close to the bottom of the water collecting cavity 9-1, thereby ensuring that the water outlet end of the water inlet pipe 7-2 is always lower than the water level of the water collecting cavity 9-1, thereby avoiding the phenomenon that the water flow impacts the bottom of the water collecting cavity to cause noise, achieving the effect of silence, wherein the fixing plate 9-5 and the water collecting cavity 9-1 are detachably fixed, thereby when the water collecting cavity 9-1 needs to be cleaned, only the fixing plate 9-5 needs to be taken down, when the water in the water collecting cavity 9-1 exceeds the top end of the third partition plate 8, the water can overflow from the third partition plate 8 and flow into the protein decomposition area 10, the inner side wall of the filter cavity 9-2 is fixedly connected with a second support strip 9-6, the position of the second support strip 9-6 is lower than the top end of the third partition plate 8, ensuring that the water can overflow onto the filter cotton, the second filter plate 9-3 is arranged on the second support strip 9-6, the second filter plate 9-3 is a plate structure provided with through holes, filter cotton is placed on the upper surface of the second filter plate 9-3, the second filter plate 9-3 is inclined downwards by 10-15 degrees, so that water overflows onto the second filter plate 9-3 and can be fully contacted with the filter cotton, and only the front part of the filter cotton is contacted and the rear part of the filter cotton is not contacted when the water overflows onto the filter cotton.

Specifically, the filter chamber 9-2 is adjacent to the protein decomposition region 10, a water through port 9-4 communicated with the protein decomposition region 10 is arranged between the filter chamber 9-2 and the protein decomposition region 10, and the water through port 9-4 is positioned below the second filter plate 9-3, so that water filtered by the filter cotton can enter the protein decomposition region 10 from the water through port 9-4.

Specifically, the protein decomposition area 10 includes a protein decomposer 10-1 and a first water pump 10-2, the first water pump 10-2 is connected to the water inlet end of the protein decomposer 10-1, and water in the protein decomposition area 10 is pumped to the protein decomposer 10-1 for separation, and the protein decomposer is the prior art, and therefore, redundant description is omitted.

Specifically, a second water pump 11-1 is placed in the water collection area 11, the second water pump 11-1 is fixedly connected with the water outlet pipe 7-3, an automatic water replenishing device 11-2 is installed in the water collection area 11, a water inlet end of the automatic water replenishing device 11-2 is connected with a fresh water pipe 11-4, a water outlet end of the fresh water pipe is placed in the water collection area 11, and the automatic water replenishing device 11-2 is an automatic water replenishing device for a fish tank, and is a known technology in the prior art, so that repeated description is omitted. A second water pump 11-4 is placed in the water collecting area 11, the second water pump 11-4 is connected with a cold and hot water machine 12 through a water outlet pipe 7-3, the water outlet end of the cold and hot water machine 12 is fixedly connected with the water outlet of the ecological breeding cylinder 6 through a pipeline, and the cold and hot water machine 12 is the prior art, so that the temperature of water is ensured, and the water is at the optimal temperature beneficial to the growth of coral.

During specific operation, the quantity of the wave making pumps 5-2 and the power of the wave making pumps 5-2 are selected according to the requirement of coral to be cultured on the water flow speed, the coral to be cultured with high water flow speed is placed on the first filter plate corresponding to the surfing unit provided with the wave making pumps 5-2, the coral to be cultured with low water flow speed is placed on the first filter plate corresponding to the surfing unit far away from the wave making pumps 5-2, the wave making pumps 5-2 are turned on, the wave making pumps 5-2 make waves, water is pushed by the waves, the water flows along the separation direction of the flow partition plate to form circulation, an environment similar to ocean current is created for the coral and other organisms in the culture cylinder, the wave making area is divided into the surfing units with different water flow speeds by the flow partition plate 5-1, the water flow speed of the flow gradually slows down from the surfing unit where the wave making pumps 5-2 are located to the unit far away from the wave making pumps 5-2, coral catches food more easily under the condition of being suitable for the water flow speed of the coral, meanwhile, the coral is completely wrapped in water, and because the coral is placed on the first filter plate 4-2, impurities flow out from the through hole of the first filter plate 4-2, the coral is not contacted with the impurities, thus being more beneficial to the culture of the coral, providing an ecological good environment beneficial to the growth for the coral, water in the ecological culture tank 6, the fish tank 6-1 and the algae tank 6-2 enters the water collecting cavity 9-1 from the water outlet through the water inlet pipe 7-2, the water level in the water collecting cavity 9-1 rises to the top end of the third clapboard 8, overflows from the third clapboard 8 and enters the filter cavity 9-2, and after the preliminary filtration of the filter cotton, the water flows to the bottom of the filter cavity 9-2 through the through hole 9-4 of the second filter plate 9-3 and enters the protein decomposition area 10 through the water through hole, water enters a protein decomposer 10-1 through a first water suction pump 10-2 to be filtered, redundant metabolites generated by coral and fish can be filtered, the filtered water flows into a water collecting area 11 through a second partition plate 11-3, the temperature is controlled through a cold and hot water machine 12, finally the water enters a fish tank 6-1, an algae tank 6-2 and two ecological culture tanks 6 for coral culture through a water inlet to form a closed circulation mode of water, the water of the fish tank 6-1, the algae tank 6-2 and the two ecological culture tanks 6 passes through the closed circulation mode of a filtering device, so that excrement generated by the fish and uneatened food are obtained, after a part of the water is filtered through the filtering device, the remaining nitrifying bacteria in the water are converted into nitrates, the nitrates become nutrients of algae in the algae tank 6-2, and the algae and plankton in the algae tank 6-2 are enabled to be continuously bred, plankton in the algae jar provides food for the coral in ecological breed jar 6, make the coral grow, the ecosystem of nature sea area coral has been simulated, the quality of water that is favorable to the coral growth has been formed, fish bowl 6-1, four modular designs of algae jar 6-2 and ecological breed jar 6, a benign ecological balance state has been reached, entire system is more stable, it is convenient to maintain, when the problem appears in a jar, can not influence in other jars, four jars do not interfere with each other, the system is stable, later maintenance is convenient, it brings the facility to breed fan for the coral, more do benefit to the development that enlarges coral breed market.

The above description is only a preferred embodiment of the present invention, and all other embodiments obtained by those skilled in the art without any creative effort shall fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a coral is bred with device of maintaining of being convenient for which characterized in that: the ecological coral culture cage comprises a frame table (13), wherein a fish tank (6-1), an algae tank (6-2) and two ecological coral culture tanks (6) are placed on the frame table (13), a filtering device is a second tank body (7) with an open top and comprises a filtering device body (7-1), a water inlet pipe (7-2) and a water outlet pipe (7-3), the ecological culture tanks (6), the fish tank (6-1) and the algae tank (6-2) are all provided with a water inlet and a water outlet, the water outlet pipe (7-3) is fixedly connected with the water inlet, the water inlet pipe (7-2) is fixedly connected with the water outlet, the ecological culture tanks (6) are first tank bodies (1) with an open top, the first tank body (1) comprises a culture area and an anti-overflow area (3), the culture area and the anti-overflow area (3) are formed by separating the anti-overflow plate (3-1), the anti-overflow plate (3-1) is vertically fixed in the first cylinder body (1), and the culture area is divided into an upper coral culture area (2) and a wave-making area (5) below the upper coral culture area (2) through the first filter plate (4-2).

2. The coral culture maintenance-facilitating device of claim 1, wherein: the upper part of the spill-proof plate (3-1) is provided with 3 or more than 3 spill-proof holes (3-4), and the positions of the spill-proof holes (3-4) are 1 cm-5 cm lower than the top end of the first cylinder body (1).

3. The coral culture maintenance-facilitating device of claim 1, wherein: the upper coral culture area (2) comprises first supporting strips (2-1) fixed on the inner side wall of a first cylinder body (1), first filtering plates (4-2) are placed on the first supporting strips (2-1), the first filtering plates (4-2) are not in contact with the four side walls of the first cylinder body (1), and through holes are densely distributed in the first filtering plates (4-2).

4. The coral culture maintenance-facilitating device of claim 1, wherein: the overflow-preventing area (3) comprises a first overflow pipe (3-2) and a second overflow pipe (3-3) higher than the first overflow pipe (3-2), the first overflow pipe (3-2) and the second overflow pipe (3-3) penetrate through the bottom of the first cylinder body (1) and are fixedly connected with the bottom of the first cylinder body (1), and the height of the first overflow pipe (3-2) is 0-0.5 CM higher than the inner bottom surface of the first cylinder body (1).

5. The coral culture maintenance-facilitating device of claim 3, wherein: the wave making area (5) comprises a flow partition plate (5-1) and a wave making pump (5-2), the flow partition plate (5-1) is vertically fixed on the inner bottom surface of the first cylinder body (1), the flow partition plate (5-1) is not in contact with the inner side wall of the first cylinder body (1), and the height of the flow partition plate (5-1) is consistent with that of the first supporting strip (2-1).

6. The coral culture maintenance-facilitating device of claim 1, wherein: the filtering device body (7-1) is sequentially divided into a mute filtering area (9), a protein decomposition area (10) and a water collection area (11) from a water inlet end to a water outlet end.

7. The coral culture maintenance-facilitating device of claim 6, wherein: the mute filter area (9) comprises a third partition plate (8) fixedly connected with the inner wall of the second cylinder body (7), the third partition plate (8) divides the mute filter area into a water collecting cavity (9-1) and a filter cavity (9-2), the top end of the third partition plate (8) is lower than the top end of the second cylinder body (7) and higher than the water outlet end of the water inlet pipe (7-2), the water inlet pipe (7-2) is placed in the water collecting cavity (9-1), a second supporting strip (9-6) is fixedly connected to the inner side wall of the filter cavity (9-2), a second filter plate (9-3) is placed on the second supporting strip (9-6), the second filter plate (9-3) is of a plate body structure provided with through holes, and filter cotton is placed on the upper surface of the second filter plate (9-3).

8. The coral culture maintenance-facilitating device of claim 7, wherein: the filtering cavity (9-2) is adjacent to the protein decomposition area (10), and a water through hole (9-4) communicated with the protein decomposition area (10) is formed between the filtering cavity (9-2).

9. The coral culture maintenance-facilitating device of claim 6, wherein: the protein decomposition area (10) comprises a protein decomposer (10-1) and a first water pump (10-2), and the water inlet end of the first water pump (10-2) is connected with the protein decomposer (10-1).

10. The coral culture maintenance-facilitating device of claim 6, wherein: a second water suction pump (11-1) is placed in the water collection area (11), the second water suction pump (11-1) is fixedly connected with the water outlet pipe (7-3), an automatic water replenishing device (11-2) is installed in the water collection area (11), the water inlet end of the automatic water replenishing device (11-2) is connected with a fresh water pipe (11-4), and the water outlet end of the automatic water replenishing device is placed in the water collection area (11).

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