CN210959974U - Three-dimensional fish and vegetable symbiotic culture tank - Google Patents

Abstract

The utility model relates to an aquaculture device, especially three-dimensional fish and vegetable intergrowth breed groove. The fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe (10), an overflow main pipe (11), a sewage discharge main pipe (12) and a water pump, wherein each culture tank unit comprises a main body water tank (1), a movable top cover (3), a water inlet pipe (4), an overflow pipe (5), a sewage discharge pipe (6) and a partition plate (7), each main body water tank (1) comprises an observation plate (2), a track (9) and two side sealing covers, the partition plates (7) are arranged on the tracks (9), and the partition plates (7) can slide freely; the movable top cover (3) is arranged above the main body water tank (1) and can prevent the escape of organisms. The three-dimensional fish and vegetable symbiotic culture tank is composed of a plurality of culture tanks, the culture tank units and the partition plates are matched to realize free adjustment of culture space, the main surface can be seen through, the water tank main body can be prolonged, assembly and transportation are facilitated, the culture space is saved, and management is facilitated.

Description

Three-dimensional fish and vegetable symbiotic culture tank

Technical Field

The utility model relates to an aquaculture device, especially three-dimensional fish and vegetable intergrowth breed groove.

Background

Aquaculture is the currently very important economic industry in China, and plays a great role in improving the income of fishermen and enriching the dietary structure of residents in China. Various forms of cultivation troughs are common facilities in the aquaculture industry, and in the daily production and scientific research period, particularly in the fierce habit and the fishes with high killing rate in the cultivation process, the fishes need to be separated one by one, and the cultivation density needs to be improved, the space is saved, and therefore isolated cultivation is carried out to solve the problems.

CN207940235U isolated breed groove includes aqua storage tank, a plurality of division board and a plurality of water pipe, and a plurality of division board parallel interval, interval adjustable cartridge are inside in the aqua storage tank and divide the aqua storage tank into independent breed space, and the water pipe is the semicircle pipe, and a plurality of water pipes are parallel to each other, set up in the aqua storage tank bottom and communicate each breed space with the division board perpendicularly. The utility model discloses the realization is favorable to reducing the incomplete probability of killing of each other to the isolation breed of fierce fish, improves the survival rate, practices thrift the breed space simultaneously, improves and breeds density, leads to pipe and will each breed space intercommunication, makes things convenient for the water nutrition to interact and annotate the drainage operation.

The existing aquaculture device mainly comprises a plurality of aquaculture ponds, wherein the aquaculture ponds are used for directly stocking the same kind of aquatic products, and after a certain period of aquaculture, the aquaculture ponds are fished together for sale, however, the same kind of aquatic products are placed in one aquaculture pond, so that the utilization rate of the pond is reduced, the aquatic products in the pond all like the living in the same kind of water depth, other depths of the pond cannot be well utilized, if a large number of aquatic product seedlings are put in, the living space of the aquatic products can not be insufficient, and the aquatic products can not grow normally and even die.

CN209299995U a multilayer aquaculture device discloses a multilayer aquaculture device, including breeding the pond, be equipped with a plurality of breed grooves in breeding the pond, breed the interior bottom fixed connection oxygen suppliment mechanism in pond, it is a plurality of all be equipped with the connecting plate on the breed inslot lateral wall, be equipped with the spread groove that corresponds with the connecting plate on breeding the inslot lateral wall, the first pivot of spread groove inside wall fixedly connected with, the fixed cup joint of connecting plate is in first pivot. The utility model discloses a cooperation of isolation rod, division board, breed pond, breed groove and oxygen suppliment mechanism puts in the below of division board with the shrimp like this, puts in the fish of the different degree of depth of two kinds of hobbies on the isolation rod and under the isolation rod, and the space in pond is bred to make full use of like this, through the synergistic action of stop gear, coupling mechanism, first magnet and second magnet, guarantees like this that raiser can utilize the rotation of rotating the handle to open isolation rod and division board, is convenient for take out the aquatic products.

In current aquaculture device, not having a breeding device can realize that the culture space freely adjusts yet, the utility model discloses just propose for solving this problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a three-dimensional fish and vegetable symbiotic culture tank, which aims to solve the problem that the existing aquaculture device can not realize the free adjustment of culture space.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the three-dimensional fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe, an overflow main pipe, a sewage discharge main pipe and a water pump, wherein the culture tank units are integrally cuboid, the cross section structures of the culture tank units are rectangular or square, and each culture tank unit comprises a main body water tank, a movable top cover, a water inlet pipe, an overflow pipe, a sewage discharge pipe and a partition plate; the water inlet main pipe is communicated with the water inlet pipe of each culture groove unit, and fresh water enters the water inlet main pipe under the action of a water pump and then enters the main body water groove of each culture groove unit through the water inlet pipe of each culture groove unit; when the water volume exceeds the height of the overflow pipe, the redundant water is automatically discharged from the overflow pipe, so that the cultured organisms are effectively prevented from escaping from the outlet due to excessive water in the culture tank, and the overflow pipe of each culture tank unit is communicated with the overflow main pipe; a switch is arranged on a drain pipe of the culture tank unit, so that the periodic sewage draining operation can be conveniently carried out, when the sewage draining operation is needed, the switch is turned on, and sewage and excrement flow to a main sewage draining pipe through the drain pipe and then are discharged; the plurality of culture tank units are arranged in an up-and-down structure;

the main body water tank comprises an observation plate, a track and two side sealing covers; the observation plates are arranged on the front vertical surface and the rear vertical surface of the main body water tank, the observation plates are made of transparent plastics, and all movement directions of organisms in the culture tank can be observed through the observation plates; the tracks are arranged on two sides of the top surface of the main water tank, the tracks are in a hook shape, and the tracks penetrate through the length direction of the whole water tank; the two side sealing covers respectively seal the left side and the right side of the main body water tank;

furthermore, the main body water tank also comprises a light shielding plate groove and a light shielding plate, wherein the light shielding plate is a rectangular thin plate made of light-tight plastic, and the light shielding plate is arranged in the light shielding plate groove, shields light rays and can be used for cultivating organisms dislike light;

the water inlet pipe is arranged above the side sealing cover of the main body water tank, and the part of the water inlet pipe in the main body water tank is provided with a plurality of water outlet holes which can ensure that the water outlet is uniformly distributed;

furthermore, each water inlet pipe is provided with a switch, so that independent water inlet of a single culture tank or simultaneous water inlet of a plurality of culture tanks can be realized;

the overflow pipe and the sewage discharge pipe are arranged on the bottom surface of the main body water tank, the distance between the overflow pipe and the top surface of the main body water tank is 5-10cm, and the height of the part of the sewage discharge pipe in the main body water tank is not more than 2 cm;

furthermore, before the two sides of the main body water tank are sealed by the two side sealing covers, the partition plates are arranged on the rails and can freely slide, so that different culture spaces can be adjusted according to the sizes of cultured organisms;

the movable top cover is arranged above the main body water tank and can be opened and closed to prevent organisms from escaping;

the utility model is suitable for a raise temporarily, fatten, water planting dish, lobster, river shrimp, crab, small-size fish, aquarium fish are bred, and every biology all can be independent, can adjust the space wantonly according to the biological size, practices thrift the cost of breeding, and every breed groove all has independent intake and drainage system, can discharge excrement and urine and incomplete bait.

The utility model has the advantages of: the three-dimensional fish and vegetable symbiotic culture tank can be composed of a plurality of culture tanks, the combination of the culture tank units and the partition plates is matched, the free adjustment of culture space is realized, the main surface can be seen through, the water tank main body can be prolonged, the assembly and the transportation are convenient, the culture space is saved, and the management is convenient.

Drawings

FIG. 1 is a cross-sectional view of a three-dimensional fish and vegetable symbiotic culture tank unit;

FIG. 2 is a main body water tank of the three-dimensional fish and vegetable symbiotic culture tank unit;

FIG. 3 is a schematic view of a separator plate;

FIG. 4 is a schematic view of the use state of a three-dimensional fish and vegetable symbiotic culture tank;

in the figure: 1 main part basin, 2 observation boards, 3 activity top covers, 4 inlet tubes, 5 overflow pipes, 6 blow off pipes, 7 baffles, 8 shading board grooves, 9 tracks, 10 inlet manifold, 11 overflow manifold, 12 blowdown manifold.

Detailed Description

The embodiments of the present invention will be described with reference to the accompanying drawings, and the following examples are only for explaining the present invention and are not intended to limit the scope of the present invention.

Example 1

The three-dimensional fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe 10, an overflow main pipe 11, a sewage discharge main pipe 12 and a water pump, wherein the culture tank units are cuboid on the whole, the cross section structures of the culture tank units are rectangular or square, and each culture tank unit comprises a main body water tank 1, a movable top cover 3, a water inlet pipe 4, an overflow pipe 5, a sewage discharge pipe 6 and a partition plate 7; the water inlet main pipe 10 is communicated with the water inlet pipe 4 of each culture groove unit, fresh water enters the water inlet main pipe 10 under the action of a water pump and then enters the main body water tank 1 of each culture groove unit through the water inlet pipe 4 of each culture groove unit; when the water quantity exceeds the height of the overflow pipe 5, the redundant water is automatically discharged from the overflow pipe 5, so that the cultured organisms are effectively prevented from escaping from the outlet due to excessive water in the culture tank, and the overflow pipe 5 of each culture tank unit is communicated with the overflow header pipe 11; a switch is arranged on the sewage discharge pipe 6 of the culture tank unit, so that sewage discharge operation can be performed conveniently and regularly, when sewage discharge is needed, the switch is turned on, and sewage and excrement flow to the sewage discharge main pipe 12 through the sewage discharge pipe 6 and then are discharged; the plurality of culture tank units are arranged in an up-and-down structure;

the main body water tank 1 comprises an observation plate 2, a track 9 and two side sealing covers; the observation plates 2 are arranged on the front vertical surface and the rear vertical surface of the main body water tank 1, the observation plates 2 are made of transparent plastics, and all the movement directions of organisms in the culture tank can be observed through the observation plates 2; the rails 9 are arranged on two sides of the top surface of the main body water tank 1, the rails 9 are hook-shaped, and the rails 9 penetrate through the length direction of the whole water tank; the two side sealing covers respectively seal the left side and the right side of the main body water tank 1;

the water inlet pipe 4 is arranged above the side sealing cover of the main body water tank 1, and the part of the water inlet pipe 4 in the main body water tank 1 is provided with a plurality of water outlet holes which can ensure that the outlet water is uniformly distributed;

the overflow pipe 5 and the sewage discharge pipe 6 are arranged on the bottom surface of the main body water tank 1, the distance between the overflow pipe 5 and the top surface of the main body water tank 1 is 5-10cm, and the height of the part of the sewage discharge pipe 6 in the main body water tank 1 is not more than 2 cm;

before the two sides of the main body water tank 1 are sealed by the sealing covers at the two sides, the partition plate 7 is arranged on the track 9, and the partition plate 7 can freely slide, so that different culture spaces can be adjusted according to the sizes of cultured organisms;

the movable top cover 3 is installed above the main body water tank 1, and can be opened and closed to prevent escape of organisms.

Example 2

The three-dimensional fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe 10, an overflow main pipe 11, a sewage discharge main pipe 12 and a water pump, wherein the culture tank units are cuboid on the whole, the cross section structures of the culture tank units are rectangular or square, and each culture tank unit comprises a main body water tank 1, a movable top cover 3, a water inlet pipe 4, an overflow pipe 5, a sewage discharge pipe 6 and a partition plate 7; the water inlet main pipe 10 is communicated with the water inlet pipe 4 of each culture groove unit, fresh water enters the water inlet main pipe 10 under the action of a water pump and then enters the main body water tank 1 of each culture groove unit through the water inlet pipe 4 of each culture groove unit; when the water quantity exceeds the height of the overflow pipe 5, the redundant water is automatically discharged from the overflow pipe 5, so that the cultured organisms are effectively prevented from escaping from the outlet due to excessive water in the culture tank, and the overflow main pipes 11 of the overflow pipes 5 of all the culture tank units are communicated; a switch is arranged on the sewage discharge pipe 6 of the culture tank unit, so that sewage discharge operation can be performed conveniently and regularly, when sewage discharge is needed, the switch is turned on, and sewage and excrement flow to the sewage discharge main pipe 12 through the sewage discharge pipe 6 and then are discharged; the plurality of culture tank units are arranged in an up-and-down structure;

the main body water tank 1 comprises an observation plate 2, a track 9 and two side sealing covers; the observation plates 2 are arranged on the front vertical surface and the rear vertical surface of the main body water tank 1, the observation plates 2 are made of transparent plastics, and all the movement directions of organisms in the culture tank can be observed through the observation plates 2; the rails 9 are arranged on two sides of the top surface of the main body water tank 1, the rails 9 are hook-shaped, and the rails 9 penetrate through the length direction of the whole water tank; the two side sealing covers respectively seal the left side and the right side of the main body water tank 1;

the water inlet pipe 4 is arranged above the side sealing cover of the main body water tank 1, and the part of the water inlet pipe 4 in the main body water tank 1 is provided with a plurality of water outlet holes which can ensure that the outlet water is uniformly distributed;

the overflow pipe 5 and the sewage discharge pipe 6 are arranged on the bottom surface of the main body water tank 1, the distance between the overflow pipe 5 and the top surface of the main body water tank 1 is 5-10cm, and the height of the part of the sewage discharge pipe 6 in the main body water tank 1 is not more than 2 cm;

before the two sides of the main body water tank 1 are sealed by the sealing covers at the two sides, the partition plate 17 is arranged on the track 9, and the partition plate 7 can freely slide, so that different culture spaces can be adjusted according to the sizes of cultured organisms;

the movable top cover 3 is arranged above the main body water tank 1 and can be opened and closed to prevent the escape of organisms;

further, main part basin 1 still includes shading board groove 8 and light screen, and the light screen is the rectangle sheet metal of light tight plastics, and the light screen is installed in shading board groove 8, covers light, can be used for breeding the biology of dislike light.

Example 3

The three-dimensional fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe 10, an overflow main pipe 11, a sewage discharge main pipe 12 and a water pump, wherein the culture tank units are cuboid on the whole, the cross section structures of the culture tank units are rectangular or square, and each culture tank unit comprises a main body water tank 1, a movable top cover 3, a water inlet pipe 4, an overflow pipe 5, a sewage discharge pipe 6 and a partition plate 7; the water inlet main pipe 10 is communicated with the water inlet pipe 4 of each culture groove unit, fresh water enters the water inlet main pipe 10 under the action of a water pump and then enters the main body water tank 1 of each culture groove unit through the water inlet pipe 4 of each culture groove unit; when the water quantity exceeds the height of the overflow pipe 5, the redundant water is automatically discharged from the overflow pipe 5, and the overflow pipe 5 is communicated with the overflow main pipe 11; a switch is arranged on the sewage discharge pipe 6 of the culture tank unit, so that sewage discharge operation can be performed conveniently and regularly, when sewage discharge is needed, the switch is turned on, and sewage and excrement flow to the sewage discharge main pipe 12 through the sewage discharge pipe 6 and then are discharged; the plurality of culture tank units are arranged in an up-and-down structure;

the main body water tank 1 comprises an observation plate 2, a track 9 and two side sealing covers; the observation plates 2 are arranged on the front vertical surface and the rear vertical surface of the main body water tank 1, the observation plates 2 are made of transparent plastics, and all the movement directions of organisms in the culture tank can be observed through the observation plates 2; the rails 9 are arranged on two sides of the top surface of the main body water tank 1, the rails 9 are hook-shaped, and the rails 9 penetrate through the length direction of the whole water tank; the two side sealing covers respectively seal the left side and the right side of the main body water tank 1;

the water inlet pipe 4 is arranged above the side sealing cover of the main body water tank 1, and the part of the water inlet pipe 4 in the main body water tank 1 is provided with a plurality of water outlet holes which can ensure that the outlet water is uniformly distributed;

the overflow pipe 5 and the sewage discharge pipe 6 are arranged on the bottom surface of the main body water tank 1, the distance between the overflow pipe 5 and the top surface of the main body water tank 1 is 5-10cm, and the height of the part of the sewage discharge pipe 6 in the main body water tank 1 is not more than 2 cm;

before the two sides of the main body water tank 1 are sealed by the sealing covers at the two sides, the partition plate 7 is arranged on the track 9, and the partition plate 7 can freely slide, so that different culture spaces can be adjusted according to the sizes of cultured organisms;

the movable top cover 3 is arranged above the main body water tank 1 and can be opened and closed to prevent the escape of organisms;

furthermore, each water inlet pipe 4 is provided with a switch, so that independent water inlet of a single culture tank or simultaneous water inlet of a plurality of culture tanks can be realized.

The above is only the preferred embodiment of the present invention, and it should be understood that the above description of the embodiment is only used to help understand the method and the core idea of the present invention, and is not used to limit the protection scope of the present invention, and any modification, equivalent replacement, etc. made within the idea and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. Three-dimensional fish and vegetable symbiotic culture tank comprises a plurality of culture tank units, a water inlet main pipe (10), an overflow main pipe (11), a sewage discharge main pipe (12) and a water pump, wherein the culture tank units are cuboids on the whole, and the section structures of the culture tank units are rectangles or squares, and the culture tank is characterized in that: the culture tank unit of the three-dimensional fish-vegetable symbiotic culture tank comprises a main body water tank (1), a movable top cover (3), a water inlet pipe (4), an overflow pipe (5), a sewage discharge pipe (6) and a partition plate (7); the water inlet header pipe (10) is communicated with the water inlet pipe (4) of each culture groove unit, fresh water enters the water inlet header pipe (10) under the action of a water pump and then enters the main body water tank (1) of each culture groove unit through the water inlet pipe (4) of each culture groove unit; when the water quantity exceeds the height of the overflow pipe (5), redundant water is automatically discharged from the overflow pipe (5), so that the cultured organisms are effectively prevented from escaping from the outlet due to excessive water in the culture tank, and the overflow pipe (5) of each culture tank unit is communicated with the overflow header pipe (11); a switch is arranged on a sewage discharge pipe (6) of the culture tank unit, so that sewage discharge operation can be performed conveniently and regularly, when sewage discharge is needed, the switch is turned on, and sewage and excrement flow to a sewage discharge main pipe (12) through the sewage discharge pipe (6) and are discharged; the plurality of culture tank units are arranged in an up-and-down structure; the main body water tank (1) comprises an observation plate (2), a track (9) and two side sealing covers; the rails (9) are arranged on two sides of the top surface of the main body water tank (1), the rails (9) are in a hook type, and the rails (9) penetrate through the length direction of the whole water tank; the two side sealing covers respectively seal the left side and the right side of the main body water tank (1); the water inlet pipe (4) is arranged above the side sealing cover of the main body water tank (1), and the part of the water inlet pipe (4) in the main body water tank (1) is provided with a plurality of water outlet holes which can ensure that the outlet water is uniformly distributed; the overflow pipe (5) and the sewage discharge pipe (6) are arranged on the bottom surface of the main body water tank (1), the distance between the overflow pipe (5) and the top surface of the main body water tank (1) is 5-10cm, and the height of the part of the sewage discharge pipe (6) in the main body water tank (1) is not more than 2 cm; before the two sides of the main body water tank (1) are sealed by the two side sealing covers, the partition plate (7) is arranged on the track (9), and the partition plate (7) can slide freely, so that different culture spaces can be adjusted according to the sizes of cultured organisms; the movable top cover (3) is arranged above the main body water tank (1) and can be opened and closed to prevent the escape of organisms.

2. The stereoscopic fish and vegetable symbiotic cultivation tank as claimed in claim 1, wherein: the observation plates (2) are arranged on the front vertical surface and the rear vertical surface of the main body water tank (1), the observation plates (2) are made of transparent plastics, and all the movement directions of organisms in the culture tank can be observed through the observation plates (2).

3. The stereoscopic fish and vegetable symbiotic cultivation tank as claimed in claim 1, wherein: the main body water tank (1) further comprises a light shielding plate groove (8) and a light shielding plate, the light shielding plate is a rectangular thin plate made of light-tight plastics, and the light shielding plate is installed in the light shielding plate groove (8) to shield light rays and can be used for breeding organisms dislike light.

4. The stereoscopic fish and vegetable symbiotic cultivation tank as claimed in claim 1, wherein: each water inlet pipe (4) is provided with a switch, so that independent water inlet of a single culture tank or simultaneous water inlet of a plurality of culture tanks can be realized.

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