CN213074065U - Fish and vegetable symbiotic system - Google Patents

Abstract

The utility model belongs to the technical field of breed and plant, a fish and vegetable intergrowth system is provided, including circulating water pond, weight-reducing fish breed pond, breed basin, collection dirty well, sedimentation tank, filter-tank, nitration treatment tank, nutrient solution mixing tank, nutrient solution storage device, nutrient solution activation tank, planting frame, nutrient solution recovery filter-tank and nutrient solution recovery hold up tank. The utility model provides a fish and vegetable intergrowth system, vegetable output is higher.

Description

Fish and vegetable symbiotic system

Technical Field

The utility model relates to a breed planting system technical field, concretely relates to fish and vegetable intergrowth system.

Background

In the culture fishpond, the aquatic animals such as fish, shrimp and the like in water discharge excrement after eating feed, and the excrement contains ammonia, so that the excrement discharged into the water can enable the culture water to contain ammonia, thereby improving the eutrophication of the water, and the eutrophication of the water is unfavorable for the growth of the aquatic animals and even endangers the life of the aquatic animals. Therefore, in order to prevent the excrement from damaging the aquatic animals, the farmer needs to replace the aquaculture water periodically, thereby ensuring the quality of the aquaculture water. However, the culture water is directly discharged, so that the waste of water resources is caused, the environment pollution caused by external discharge is avoided, and the culture water cost and the manual cleaning cost are increased. Thereby generating a fish-vegetable symbiotic system.

The invention discloses a fish-vegetable symbiotic cultivation system, which comprises a water tower, a fish culture box, a filter tank, a planting frame and a water return pool, wherein water in the fish culture box is filtered by the filter tank and then conveyed to the planting frame to provide nutrients for vegetables planted on the planting frame, so that water resources are saved. However, the culture water can only provide nitrogen-containing nutrient solution for the vegetables, but cannot provide other required nutrient components for the vegetables, so that the yield of the vegetables is low.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a fish-vegetable intergrowth system can provide required other nutrient composition of vegetables to improve vegetables output.

In order to achieve the above object, the utility model provides a fish-vegetable symbiotic system, include: a circulating water tank, a weight-reducing fish culture pond, a culture water tank, a sewage collecting well, a sedimentation tank, a filter tank, a nitration treatment tank, a nutrient solution mixing tank, a nutrient solution storage device, a nutrient solution activation tank, a planting frame, a nutrient solution recovery filter tank and a nutrient solution recovery storage tank,

the circulating water tank is communicated with a water supply system,

the slimming fish culture pond is provided with a water replenishing port, a first water circulation inlet, a first water circulation outlet and a first sewage draining port, the water replenishing port is communicated with the outlet of the circulation water pond,

the culture water tank is provided with a second water circulation inlet, a second water circulation outlet and a second sewage draining outlet, the second water circulation inlet is communicated with the first water circulation outlet through a first water circulation device, the second water circulation outlet is communicated with the first water circulation inlet through a second water circulation device,

the inlet of the sewage collecting well is communicated with the first sewage draining port and the second sewage draining port,

the inlet of the sedimentation tank is communicated with the outlet of the sewage collecting well,

the inlet of the filter tank is communicated with the outlet of the sedimentation tank,

the inlet of the nitration treatment tank is communicated with the outlet of the filter tank,

an EC detection device is arranged in the nutrient solution mixing tank, the inlet of the nutrient solution mixing tank is communicated with the outlet of the nitration treatment tank,

the outlet of the nutrient solution storage device is communicated with the inlet of the nutrient solution mixing tank,

the inlet of the nutrient solution activation tank is communicated with the outlet of the nutrient solution mixing tank,

the outlet of the nutrient solution activation groove is communicated with the inlet of the planting frame,

the import of filter tank is retrieved to nutrient solution with the export intercommunication of planting the frame, the filter tank is retrieved to nutrient solution is provided with pure water outlet and nutrient solution export, the pure water outlet with the import intercommunication in circulating water pond, the nutrient solution export with the import intercommunication of nutrient solution recovery holding vessel, the export of nutrient solution recovery holding vessel with the import intercommunication of nutrient solution mixing tank.

Further, still include: sludge pump, fertilizer desiccator, fish excrement reducing mechanism, mixing arrangement and auxiliary material add the device, the sludge pump sets up the bottom of sedimentation tank, the feed inlet of fertilizer desiccator with the discharge gate intercommunication of sludge pump, fish excrement reducing mechanism's feed inlet with the discharge gate intercommunication of fertilizer desiccator, mixing arrangement's feed inlet with fish excrement reducing mechanism's discharge gate intercommunication, the auxiliary material add the discharge gate of device with mixing arrangement's feed inlet intercommunication.

Further, it is a plurality of including support body and a plurality of PVC vegetable planting pipe to plant the frame, it is a plurality of PVC vegetable planting pipe falls into the multiunit, multiunit PVC vegetable planting pipe along vertically interval setting in proper order on the support body and with support body fixed connection, and arbitrary adjacent two sets of PVC vegetable planting pipe communicates each other, in every group PVC vegetable planting pipe communicates each other, the import of planting the frame sets up a set of that is located the top PVC vegetable planting pipe, export setting are being located a set of below PVC vegetable planting pipe.

Further, a dissolved oxygen concentration sensor is arranged in the slimming fish culture pond, and a high-pressure oxygen device is arranged in the culture water tank.

The utility model has the advantages that:

the utility model provides a fish and vegetable intergrowth system is through setting up nutrient solution storage device and EC detection device to can supply the required nutrient of vegetables to the nutrient solution mixing tank in real time, and then improve the output of vegetables.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a structural diagram of a fish-vegetable symbiotic system according to an embodiment of the present invention;

fig. 2 is a perspective view of the planting frame shown in fig. 1.

Reference numerals:

1-a circulating water tank, 2-a weight-reducing fish culture pond, 201-a dissolved oxygen concentration sensor, 3-a culture water tank, 301-a high-pressure oxygen device, 4-a sewage collecting well, 5-a sedimentation tank, 6-a filter tank, 7-a nitration treatment tank, 8-a nutrient solution mixing tank, 801-EC detection device, 9-a nutrient solution storage device, 10-a nutrient solution activation tank, 11-a planting frame, 111-a frame body, 112-a PVC vegetable planting pipe, 12-a nutrient solution recycling filter tank, 13-a nutrient solution recycling storage tank, 14-a first water circulation device, 15-a second water circulation device, 16-a sludge pump, 17-an organic fertilizer dryer, 18-a fish dung crushing device, 19-a mixing device and 20-an auxiliary material adding device.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

In the description of the present application, 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 are used in the orientations and positional relationships indicated in the drawings for convenience of description and simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting.

Furthermore, the terms "first", "second", etc. 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. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1-2, the utility model provides a fish and vegetable symbiotic system, including: circulating water pond 1, weight reducing fish culture pond 2, breed basin 3, dirty well 4 of collection, sedimentation tank 5, filter-tank 6, nitration processing tank 7, nutrient solution mixing tank 8, nutrient solution storage device 9, nutrient solution activation tank 10, planting frame 11, nutrient solution retrieve filter-tank 12 and nutrient solution and retrieve the hold up tank 13.

The circulating water tank 1 is communicated with a water supply system. This allows water to be added to the circulating water tank 1 in a timely manner so as to ensure that the amount of water in the circulating water tank 1 is sufficient.

The slimming fish culture pond 2 is provided with a water replenishing port, a first water circulation inlet, a first water circulation outlet and a first sewage draining port. The water replenishing port is communicated with an outlet of the circulating water pool 1. When the water in the pool 2 is not enough cultivated to the weight-reducing fish, the water in the pool 2 is cultivated to the weight-reducing fish in the circulating water tank 1, so that the water quantity in the pool 2 is sufficient for the weight-reducing fish.

The breeding water tank 3 is provided with a second water circulation inlet, a second water circulation outlet and a second sewage draining outlet, the second water circulation inlet is communicated with the first water circulation outlet through a first water circulation device 14, and the second water circulation outlet is communicated with the first water circulation inlet through a second water circulation device 15. Just so can guarantee to breed the water in basin 3 and the thin fish culture pond 2 and link up each other to when the water yield in the basin 3 of breeding is not enough, from thin and breed the pond in to supplementing moisture wherein, simultaneously, breed the thin fish pond 2 and breed basin 3 and communicate each other, just only need set up high-pressure oxygen equipment 301 in thin fish or breed basin 3 and can guarantee the oxygen content of aquatic.

The inlet of the sewage collecting well 4 is communicated with the first sewage draining port and the second sewage draining port. Therefore, the fish with the weight reduced and the fish dung and the sewage in the culture water tank 3 can enter the sewage collecting well 4 through the first sewage outlet and the second sewage outlet.

The inlet of the sedimentation tank 5 is communicated with the outlet of the sewage collecting well 4. Therefore, the fish manure and the sewage in the sewage collecting well 4 can enter the sedimentation tank 5 for sedimentation.

The inlet of the filter tank 6 is communicated with the outlet of the sedimentation tank 5. Thus, the water precipitated by the sedimentation tank 5 can enter the filter tank 6 for filtration.

The inlet of the nitration treatment tank 7 is communicated with the outlet of the filter tank 6. Naturally, nitrifying bacteria such as nitrifying bacteria and nitrifying bacteria are placed in the nitrification tank 7. The water filtered by the filter tank 6 enters a nitrification tank 7 for nitrification treatment, namely, ammonia nitrogen in the water is converted into nitrite nitrogen through nitrite bacteria and then is converted into nitrate nitrogen through nitrate bacteria so as to be absorbed by plants.

An EC detection device 801 is installed in the nutrient solution mixing tank 8, and the inlet of the nutrient solution mixing tank 8 is communicated with a water supply system. The EC detection device 801 detects an EC value in the nutrient solution mixing tank 8 to determine the concentration of the nutrient solution in the nutrient solution mixing tank 8. When the concentration value of the nutrient solution in the nutrient solution mixing tank is smaller than the preset value, the concentration of the nutrient solution in the nutrient solution mixing tank 8 is indicated to be insufficient, and the nutrient solution in the nutrient solution storage device 9 is added into the nutrient solution mixing tank 8. When the EC detecting device 801 detects that the EC value of the nutrient solution in the nutrient solution mixing tank 8 is larger than the preset value, the concentration of the nutrient solution in the nutrient solution mixing tank 8 is indicated to be too high, and the water supply system supplies water just like the water in the mixing tank.

The inlet of the nutrient solution mixing tank 8 is communicated with the outlet of the nitration treatment tank 7. Of course, a mixing paddle is arranged in the nutrient solution mixing tank 8 so as to be convenient for mixing. Thus, the water after the nitrification treatment can enter the nutrient solution mixing tank 8 for mixing.

The outlet of the nutrient solution storage device 9 is communicated with the inlet of the nutrient solution mixing tank 8. The nutrient solution storage device 9 is used for adding nutrient solution into the nutrient solution mixing tank 8 so as to ensure that plants have sufficient nutrients.

The inlet of the nutrient solution activation tank 10 is communicated with the outlet of the nutrient solution mixing tank 8. The mixed nutrient solution enters an activation groove for activation treatment so as to be absorbed by plants.

The outlet of the nutrient solution activation groove 10 is communicated with the inlet of the planting frame 11. The activated nutrient solution is transported to the planting frame 11 for the plant to absorb.

The inlet of the nutrient solution recovery filter tank 12 is communicated with the outlet of the planting rack 11. The nutrient solution recovery filter tank 12 is provided with a pure water outlet and a nutrient solution outlet, and the pure water outlet is communicated with an inlet of the circulating water tank 1. The nutrient solution outlet is communicated with the inlet of the nutrient solution recovery storage tank 13. The excess nutrient solution flowing out of the planting rack 11 enters a nutrient solution recovery filter tank 12 for recovery. Wherein the pure water part flows into the circulating water tank 1 for recycling, and the nutrient solution part enters the nutrient solution recovery and storage tank 13 for storage. The nutrient solution outlet of the nutrient solution recovery storage tank 13 is communicated with the inlet of the nutrient solution mixing tank 8. The nutrient solution recovered and stored in the nutrient solution recovery and storage tank 13 can be mixed and reused in the nutrient solution mixing tank 8.

In one embodiment, further comprising: sludge pump 16, fertilizer desiccator 17, fish excrement reducing mechanism 18, mixing arrangement 19 and auxiliary material adding device 20.

A sludge pump 16 is installed at the bottom of the sedimentation tank 5. The feed inlet of the organic fertilizer dryer 17 is communicated with the discharge outlet of the sludge pump 16. The feed inlet of the fish manure crushing device 18 is communicated with the discharge outlet of the organic fertilizer dryer 17. The feed inlet of the mixing device 19 is communicated with the discharge outlet of the fish dung crushing device 18. The auxiliary material adding device 20 is used for adding appropriate auxiliary materials such as pig manure, chicken manure and soil into the mixing device 19. The discharge port of the mixing device is communicated with the feed port of the mixing device 19.

The fish manure deposited in the sedimentation tank 5 can be input into the fish meal drying device through the sludge pump 16, after the drying treatment of the fish meal drying device, the fish manure enters the fish manure crushing device 18 for crushing treatment, and the crushed fish manure enters the mixing device 19 to be mixed with the auxiliary materials such as the pig manure, the chicken manure and the soil added into the mixing device 20, so that the solid organic fertilizer or the edible fungus culture medium and the like can be prepared.

This structure facilitates the handling and re-use of fish feces.

In one embodiment, the planting rack 11 includes a rack body 111 and a plurality of PVC vegetable planting pipes 112. The frame body 111 is used for fixedly mounting the PVC vegetable planting pipe 112. The PVC vegetable planting pipes 112 are divided into a plurality of groups, and the distribution can be even or uneven. The plurality of groups of PVC vegetable planting pipes 112 are sequentially arranged on the frame body 111 at intervals along the longitudinal direction and are fixedly connected with the frame body 111. Thus, the PVC vegetable planting pipes 112 are arranged on the prosthesis layer by layer, so that the planting area is increased, and the space can be fully utilized.

And any two adjacent groups of PVC vegetable planting pipes are communicated with each other, and the PVC vegetable planting pipes 112 in each group are communicated with each other. The inlet of the planting frame 11 is arranged on the group of PVC vegetable planting pipes 112 positioned at the top, and the outlet is arranged on the group of PVC vegetable planting pipes 112 positioned at the bottom. Thus, the nutrient solution fed into the planting rack 11 can flow to the PVC vegetable planting pipes 112 from the upper part in sequence.

It should be noted that, each of the PVC vegetable planting pipes 112 is provided with a plurality of planting openings or planting grooves along the length direction thereof, so as to facilitate the planting of vegetables.

In one embodiment, a dissolved oxygen concentration sensor 201 is installed in the slimming fish culture pond 2, and a high-pressure oxygen device 301 is installed in the culture water tank 3.

When the dissolved oxygen concentration sensor 201 in the pool 2 is bred to the weight reducing fish like this detects the dissolved oxygen volume of the water in the pool 2 is bred to the weight reducing fish and is less than the default, high pressure oxygen equipment 301 starts, and first water circulating equipment and second water circulating equipment start simultaneously to carry out the hydrologic cycle in the pool 2 is bred to the weight reducing fish and breed basin 3, in order to guarantee that the dissolved oxygen volume of the water in the pool 2 is bred to the weight reducing fish and breed basin 3 is sufficient.

The working principle of the utility model is as follows:

the dirty well 4 of collection is arranged into to the sewage in pond 2 is bred to weight-reducing fish and the basin 3 of breeding, then through 5 sedimentation treatment backs of sedimentation tank, filters through filter tank 6, then nitrify the processing tank 7 to it by nitrifying the processing tank, later get into the nutrient solution that comes in mixing tank and the nutrient solution storage device 9 and mix, then get into the activation of 10 fire in the activation of nutrient solution groove, later get into and plant frame 11 and absorb in order to plant the vegetables on planting frame 11. The unabsorbed nutrient solution flows into the nutrient solution recovery filter tank 12 and is recovered and reused.

In the specification of the present invention, a large number of specific details are explained. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (4)

1. A fish-vegetable symbiotic system is characterized in that: the method comprises the following steps: a circulating water tank, a weight-reducing fish culture pond, a culture water tank, a sewage collecting well, a sedimentation tank, a filter tank, a nitration treatment tank, a nutrient solution mixing tank, a nutrient solution storage device, a nutrient solution activation tank, a planting frame, a nutrient solution recovery filter tank and a nutrient solution recovery storage tank,

the circulating water tank is communicated with a water supply system,

the slimming fish culture pond is provided with a water replenishing port, a first water circulation inlet, a first water circulation outlet and a first sewage draining port, the water replenishing port is communicated with the outlet of the circulation water pond,

the culture water tank is provided with a second water circulation inlet, a second water circulation outlet and a second sewage draining outlet, the second water circulation inlet is communicated with the first water circulation outlet through a first water circulation device, the second water circulation outlet is communicated with the first water circulation inlet through a second water circulation device,

the inlet of the sewage collecting well is communicated with the first sewage draining port and the second sewage draining port,

the inlet of the sedimentation tank is communicated with the outlet of the sewage collecting well,

the inlet of the filter tank is communicated with the outlet of the sedimentation tank,

the inlet of the nitration treatment tank is communicated with the outlet of the filter tank,

an EC detection device is arranged in the nutrient solution mixing tank, the inlet of the nutrient solution mixing tank is communicated with the outlet of the nitration treatment tank,

the outlet of the nutrient solution storage device is communicated with the inlet of the nutrient solution mixing tank,

the inlet of the nutrient solution activation tank is communicated with the outlet of the nutrient solution mixing tank,

the outlet of the nutrient solution activation groove is communicated with the inlet of the planting frame,

the import of filter tank is retrieved to nutrient solution with the export intercommunication of planting the frame, the filter tank is retrieved to nutrient solution is provided with pure water outlet and nutrient solution export, the pure water outlet with the import intercommunication in circulating water pond, the nutrient solution export with the import intercommunication of nutrient solution recovery holding vessel, the export of nutrient solution recovery holding vessel with the import intercommunication of nutrient solution mixing tank.

2. The fish-vegetable symbiotic system according to claim 1, wherein: further comprising: sludge pump, fertilizer desiccator, fish excrement reducing mechanism, mixing arrangement and auxiliary material add the device, the sludge pump sets up the bottom of sedimentation tank, the feed inlet of fertilizer desiccator with the discharge gate intercommunication of sludge pump, fish excrement reducing mechanism's feed inlet with the discharge gate intercommunication of fertilizer desiccator, mixing arrangement's feed inlet with fish excrement reducing mechanism's discharge gate intercommunication, the auxiliary material add the discharge gate of device with mixing arrangement's feed inlet intercommunication.

3. The fish-vegetable symbiotic system according to claim 1, wherein: plant the frame including support body and a plurality of PVC vegetable planting pipe, it is a plurality of PVC vegetable planting pipe falls into the multiunit, multiunit PVC vegetable planting pipe along vertically interval setting in proper order on the support body and with support body fixed connection, and arbitrary adjacent two sets of PVC vegetable planting pipe communicates each other, in every group PVC vegetable planting pipe communicates each other, the import setting of planting the frame is in a set of that is located the top PVC vegetable planting pipe, export setting are in a set of that is located the below PVC vegetable planting pipe.

4. The fish-vegetable symbiotic system according to claim 1, wherein: the weight-reducing fish culture pond is internally provided with a dissolved oxygen concentration sensor, and the culture water tank is internally provided with a high-pressure oxygen device.

Images