CN220422686U

CN220422686U - Plant planting and integrative device of breeding fish

Info

Publication number: CN220422686U
Application number: CN202321941002.1U
Authority: CN
Inventors: 焦忠久; 矫振彪; 严承欢; 胡震; 张书婷; 邱正明
Original assignee: Institute of Economic Crop of Hubei Academy of Agricultural Science
Current assignee: Institute of Economic Crop of Hubei Academy of Agricultural Science
Priority date: 2023-07-20
Filing date: 2023-07-20
Publication date: 2024-02-02
Anticipated expiration: 2033-07-20

Abstract

The utility model relates to the technical field of planting, in particular to a plant planting and fish culturing integrated device, a plurality of first planting devices and a plurality of second planting devices are arranged in a planting frame, the first planting devices and the second planting devices are both used for planting plants, a feeding mechanism comprises a liquid storage box, a first liquid suction piece and a second liquid suction piece, a first cavity and a second cavity are arranged in the liquid storage box, the first cavity is communicated with the plurality of first planting devices through the first liquid suction piece and forms a circulation passage, the second cavity is communicated with the plurality of second planting devices through the second liquid suction piece and forms a circulation passage, clear water is contained in the first cavity, fish can be cultured in the first cavity, and nutrient solution is contained in the second cavity. Solves the problems that the plant planting device in the prior art mostly cultivates plants through nutrient solution and is inconvenient to combine with fish culture.

Description

Plant planting and integrative device of breeding fish

Technical Field

The utility model relates to the technical field of planting, in particular to a plant planting and fish farming integrated device.

Background

The fish culture and the plant planting are relatively popular activities in daily living at present, and meanwhile, the fish culture and the plant planting are combined together, and the fish culture and the plant planting are completed by one device.

In the patent document of the prior patent application number 201220671376.1, a flowing nutrient solution is circularly supplied to a vegetable planting frame, so that plants can be planted in a planting cylinder, and nutrients can be provided for the plants planted in the planting pipe through the nutrient solution; however, fish cannot survive in the nutrient solution, so that the combination of fish culture and plant planting is inconvenient, and the requirements of fish culture can be met while plants are planted.

Disclosure of Invention

The utility model aims to overcome the technical defects, provide a plant planting and fish culturing integrated device and solve the problems that in the prior art, most of plant planting devices cultivate plants through nutrient solution and are inconvenient to combine with fish culturing.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

the utility model provides an integrated device for planting and raising fish, which comprises:

a plurality of first planting devices and a plurality of second planting devices are arranged in the planting frame, and the first planting devices and the second planting devices are used for planting plants; and

the feeding mechanism comprises a liquid storage box, a first liquid pumping piece and a second liquid pumping piece, a first cavity and a second cavity are arranged in the liquid storage box, the first cavity is communicated with a plurality of first planting devices through the first liquid pumping piece and forms a circulation path, the second cavity is communicated with a plurality of second planting devices through the second liquid pumping piece and forms a circulation path, clear water is filled in the first cavity, fish can be cultivated in the first cavity, and nutrient solution is filled in the second cavity.

In some embodiments, the planting frame includes two risers, two connecting pipes, two first pipes, two second pipes and two third pipes, two the one ends of first pipes, second pipes and third pipes are respectively connected with two risers from top to bottom, the other ends are respectively connected with two connecting pipes, at least two first planter intervals span between the two first pipes, two second planter intervals span between the two second pipes and two third pipes are respectively provided with at least two second planter, one top of riser is provided with a first plug, the other riser is provided with a second plug on the connecting pipe and between the first pipe and the second pipe, the other riser is provided with a third plug on the connecting pipe and between the second pipe and the third pipe, the other riser is provided with a fourth plug on the connecting pipe and below the third pipe, the first riser is provided with a fifth plug between the first pipe and the second pipe, the first riser is provided with a seventh plug on the connecting pipe and the first pipe is provided with a seventh plug under the first pipe.

In some embodiments, a ninth plug is disposed at the top end of the other standpipe, a purifying mechanism is connected between the top ends of the two standpipe, the purifying mechanism is located between the first plug and the ninth plug, the first cavity is communicated with the top end of the standpipe via a first liquid pumping unit, a liquid draining pipe is disposed on the standpipe and below the first conduit, and the liquid draining pipe is communicated with the first cavity via a pipeline to form a circulation passage.

In some embodiments, a liquid inlet end is arranged on a second conduit between the other vertical pipe and the other connecting pipe, a liquid outlet end is arranged on a third conduit between the other vertical pipe and the other connecting pipe, the second cavity is communicated with the liquid inlet end through the second liquid pumping piece, and the liquid outlet end is communicated with the second cavity through a pipeline to form a circulating passage.

In some embodiments, the first planter and the second planter are identical in structure, the first planter and the second planter each comprise a planting cylinder and connectors fixedly arranged at two opposite ends of the planting cylinder, and the planting cylinders are provided with a plurality of through holes for planting plants at intervals.

In some embodiments, a mesh plate is disposed on two opposite sides of the through hole in the planting cylinder.

In some embodiments, the standpipe, the connecting tube, the first conduit, the second conduit, and the third conduit are PPC tubes, PPR tubes, or iron tubes.

In some embodiments, a partition is disposed in the liquid storage tank, and the partition separates the interior of the liquid storage tank into a first cavity and a second cavity, the top end of which is provided with an opening.

In some embodiments, the number of the first planters is 2-4, and the number of the second planters is 4-8.

In some embodiments, the first and second liquid extraction members are both circulating water pumps.

Compared with the prior art, the plant planting and fish culturing integrated device has the advantages that the plurality of first planting devices and the plurality of second planting devices for planting plants are arranged in the planting frame, the first cavity and the second cavity are arranged in the liquid storage box, clear water is contained in the first cavity, the second cavity is filled with nutrient solution, the first cavity is communicated with the plurality of first planting devices through the first liquid suction piece and forms a circulating passage, fish can be planted in the first cavity, excrement of the fish can provide nutrients for plants in the first planting devices, and the clear water can circulate between the first cavity and the plurality of first planting devices, so that oxygen required by roots of the fish and the plants can be increased; the second cavity is communicated with the plurality of second planting devices through the second liquid pumping piece to form a circulating passage, and nutrient liquid can provide nutrients for plants cultivated in the plurality of second planting devices, so that fish culture can be performed while the plants are planted, and the practicability of the device is enhanced.

Drawings

FIG. 1 is a schematic view of a planting frame according to the present utility model;

FIG. 2 is a schematic view of the construction of a first planter of the present utility model;

FIG. 3 is a schematic structural view of an integrated plant growing and fish farming apparatus according to the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 3, the present utility model provides an integrated plant cultivation and fish farming device. The device can combine plant cultivation with fish farming, simultaneously, utilizes a equipment to accomplish, has strengthened the practicality of device.

In the specific embodiment, the plant planting and fish culturing integrated device comprises a planting frame 1 and a feeding mechanism 2, wherein a plurality of first planting devices 11 and a plurality of second planting devices 12 are arranged in the planting frame 1, and the first planting devices 11 and the second planting devices 12 are used for planting plants; the feeding mechanism 2 comprises a liquid storage tank 21, a first liquid pumping piece 22 and a second liquid pumping piece 23, a first cavity and a second cavity are arranged in the liquid storage tank 21, the first cavity is communicated with a plurality of first planting devices 11 through the first liquid pumping piece 22 and forms a circulation passage, the second cavity is communicated with a plurality of second planting devices 12 through the second liquid pumping piece 23 and forms a circulation passage, clear water is filled in the first cavity, fish can be cultivated in the first cavity, and the second cavity is used for containing nutrient solution.

In the actual use process, through being provided with the baffle in holding the liquid case 21, the baffle separates the inside of holding the liquid case 21 and forms the first cavity and the second cavity that the top was equipped with the opening, hold clear water in the first cavity, be used for splendid attire nutrient solution in the second cavity, place the fry in first cavity, be linked together and form the circulation path with a plurality of first planting ware 11 through first drawing liquid piece 22 in the first cavity, the excrement of fry can provide the nutrient for the plant in the first planting ware 11, and clear water circulation flow between first cavity and a plurality of first planting ware 11, can increase the required oxygen of root of fry and plant, guarantee the survival rate of fry and plant, the second cavity is linked together and forms the circulation path between a plurality of second planting ware 12 through second drawing liquid piece 23, provide the nutrient for the plant of planting in a plurality of second planting ware through the nutrient solution.

In this embodiment, the first liquid pumping member 22 and the second liquid pumping member 23 are both circulating water pumps. The circulating water pump may be fixed to the outer wall of the reservoir tank 21.

In this embodiment, the planting frame 1 includes two vertical pipes 111, two connecting pipes 112, two first pipes 113, two second pipes 114 and two third pipes 115, one ends of the two first pipes 113, the two second pipes 114 and the two third pipes 115 are respectively communicated with the two vertical pipes 111 from top to bottom, the other ends are respectively communicated with the two connecting pipes 112, at least two first planter 11 are arranged between the two first pipes 113 in a crossing manner at intervals, at least two second planter 12 are arranged between the two second pipes 114 and the two third pipes 115 in a crossing manner at intervals, a first plug 100 is arranged at the top end of the first vertical pipe 111, a second plug 101 is arranged between the first pipe 113 and the second pipe 114 on the other vertical pipe 111 and the other connecting pipe 112, a third plug 102 is arranged between the second pipe 114 and the third pipe 115 on the other vertical pipe 111 and the other connecting pipe 112, a fourth plug 112 is arranged between the first pipe 112 and the second pipe 112, a fifth plug 104 is arranged between the first plug 112 and the second plug 112 on the other vertical pipe 111 and the third pipe 115, and a fifth plug 104 is arranged between the first plug 112 and the second plug 112 and the fifth plug 112.

On the basis of the above scheme, a ninth plug 108 is disposed at the top end of the other vertical tube 111, a purifying mechanism 13 is connected between the top ends of the two vertical tubes 111, the purifying mechanism 13 is located between the first plug 100 and the ninth plug 108, the first cavity is communicated with the top end of one vertical tube 111 via a first liquid pumping member 22, a liquid discharge tube 11a is disposed on one vertical tube 111 and below the first conduit 113, and the liquid discharge tube 11a is communicated with the first cavity via a pipeline to form a circulation path.

It should be noted that, the purifying mechanism 13 may be a conventional water purifying filter, and is connected between the top ends of the two vertical pipes 111, and when the first liquid pumping member 22 of the water body in the first cavity is pumped to the top end of one vertical pipe 111, the water body enters the purifying mechanism 13 first, and flows into the other vertical pipe 111 after being purified by the purifying mechanism 13.

In this embodiment, a second conduit 114 between the other standpipe 111 and the other connecting pipe 112 is provided with a liquid inlet end 11b, and a third conduit 115 between the other standpipe 111 and the other connecting pipe 112 is provided with a liquid outlet end 11c, where the second cavity is communicated with the liquid inlet end 11b via the second liquid pumping member 23, and the liquid outlet end 11c is communicated with the second cavity by a pipeline to form a circulation path.

In this embodiment, the first planter 11 and the second planter 12 have the same structure, the first planter 11 and the second planter 12 each comprise a planting barrel 121 and connectors 122 fixedly disposed at two opposite ends of the planting barrel 121, and a plurality of through holes 11d for planting plants are spaced apart from each other on the planting barrel 121.

On the basis of the above scheme, a mesh plate 123 is disposed on two opposite sides of the through hole 11d in the planting cylinder 121. By providing the mesh plate 123, it is possible to avoid the case where some insects enter the inside of the planting cylinder 121 through the through holes 11d to cause the blockage of the two circulation lines.

In this embodiment, the standpipe 111, the connecting pipe 112, the first conduit 113, the second conduit 114 and the third conduit 115 are PPR pipes, and of course, the standpipe 111, the connecting pipe 112, the first conduit 113, the second conduit 114 and the third conduit 115 may be PPC pipes or iron pipes.

In one embodiment, the number of the first planters 11 is 2-4, and the number of the second planters 12 is 4-8. In this specific embodiment, the number of the first planting devices 11 is 2, and the number of the second planting devices 12 is 4.

The beneficial effects are that:

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims

1. A plant growing and fish farming integrated device, comprising:

2. The integrated plant planting and fish farming device according to claim 1, wherein the planting frame comprises two vertical pipes, two connecting pipes, two first pipes, two second pipes and two third pipes, one ends of the two first pipes, the two second pipes and the third pipes are respectively communicated with the two vertical pipes from top to bottom, the other ends of the two first pipes are respectively communicated with the two connecting pipes, at least two first planter intervals are arranged between the two first pipes in a crossing manner, at least two second planter intervals are arranged between the two second pipes and the two third pipes in a crossing manner, a first plug is arranged at the top end of each vertical pipe, a second plug is arranged between the other vertical pipe and the other connecting pipe, a third plug is arranged between the other vertical pipe and the other connecting pipe, a fourth plug is arranged below the third connecting pipe, a first plug is arranged between the first connecting pipe and the second connecting pipe, a fifth plug is arranged between the first plug and the first pipe, a seventh plug is arranged between the first plug and the first pipe, and the eighth plug is arranged between the first plug and the third pipe.

3. The integrated plant growing and fish-farming device of claim 2, wherein a ninth plug is provided at the top end of the other vertical tube, a purifying mechanism is connected between the top ends of the two vertical tubes, the purifying mechanism is located between the first plug and the ninth plug, the first cavity is communicated with the top end of one vertical tube via a first liquid-pumping member, a liquid-discharging tube is provided on one vertical tube and below the first tube, and the liquid-discharging tube is communicated with the first cavity via a pipeline to form a circulation path.

4. A plant growing and fish-farming integrated apparatus according to claim 3, wherein a liquid inlet end is provided on a second conduit between the other of the vertical pipes and the other of the connecting pipes, a liquid outlet end is provided on a third conduit between the other of the vertical pipes and the other of the connecting pipes, the second chamber is in communication with the liquid inlet end via the second liquid suction member, and the liquid outlet end is in communication with the second chamber via a pipe line to form a circulation path.

5. The integrated plant growing and fish farming device of claim 1, wherein the first and second planting devices are identical in structure, each of the first and second planting devices comprises a planting cylinder and connectors fixedly arranged at two opposite ends of the planting cylinder, and a plurality of through holes for planting plants are formed in the planting cylinder at intervals.

6. The integrated plant growing and fish-farming apparatus of claim 5, wherein a mesh plate is disposed on each of opposite sides of the through-hole in the planting cylinder.

7. The integrated plant growing and fish-farming apparatus of claim 2, wherein the standpipe, the connecting tube, the first conduit, the second conduit, and the third conduit are PPC, PPR, or iron.

8. The integrated plant growing and fish-farming device of claim 1, wherein a partition is disposed in the tank, and the partition separates the interior of the tank into a first cavity and a second cavity with openings at the top ends.

9. The integrated plant growing and fish-farming apparatus of claim 2, wherein the number of first planters is 2-4 and the number of second planters is 4-8.

10. The plant growing and fish-farming integrated device of claim 1, wherein the first and second liquid extraction members are circulating water pumps.