CN213961381U - Triangular pyramid fish-vegetable symbiotic device - Google Patents

Abstract

The utility model discloses a triangular pyramid fish-vegetable intergrowth device, include: the supporting framework consists of a vertical supporting rod and a transverse supporting rod; the equilateral triangle pipeline planting groove is fixed on the framework and gradually reduces from bottom to top, the overall appearance of the equilateral triangle pipeline planting groove is in a triangular pyramid shape, and a water return port is formed in the bottom of the equilateral triangle pipeline planting groove; the fish pond is arranged around the lower part of the planting groove; the circulating filtering system is positioned in the fish pond and comprises an outer wall and a filtering bin arranged in the outer wall; the irrigation system comprises a water pump, a water feeding pipeline and a water return pipeline. The utility model discloses a triangular pyramid fish-vegetable intergrowth device can plant vegetables and flowers, forms green triangular pyramid of planting, and the system is equipped with the multistage filtration link, fully decomposes the incomplete bait excrement and urine in fish pond, still can regard as the view structure when results fish-vegetable.

Description

Triangular pyramid fish-vegetable symbiotic device

Technical Field

The utility model belongs to aquaculture-fish and vegetable intergrowth field, concretely relates to triangular pyramid fish and vegetable intergrowth device.

Background

The fish and vegetable symbiosis is used as a novel composite cultivation system, combines two different agricultural technologies of aquaculture and water planting, utilizes reasonable design layout, achieves nutrition dynamic balance, and realizes the ecological symbiotic effect of fish cultivation without changing water, vegetable cultivation and fertilizer application.

In recent years, various fish and vegetable symbiotic modes are diversified, and mainly divided into two modes, wherein one mode is mainly that production is favored, and large-scale water culture beds and water culture tanks are adopted to plant vegetables; and secondly, the ornamental effect is mainly favored, the planting wall is built by adopting a water culture pipeline, the vegetable varieties mainly comprise leaf vegetables, the form is single, the vegetable varieties are not rich, and the landscape effect is reflected by quantity.

SUMMERY OF THE UTILITY MODEL

Less to current fish-vegetable intergrowth aquatic vegetables variety selection, the more single problem of view nature, the utility model provides a triangular pyramid fish-vegetable intergrowth device.

According to the utility model discloses a triangular pyramid fish-vegetable intergrowth device, include:

the supporting framework consists of a vertical supporting rod and a transverse supporting rod, wherein the transverse supporting rod is additionally provided with a planting groove fixing device;

the planting grooves are fixed on the supporting framework by using a planting groove fixing device, the multi-layer equilateral triangle planting grooves are gradually reduced from bottom to top, and the overall appearance of the planting grooves is in the shape of a triangular pyramid;

the fish pond is arranged around the lower part of the planting groove;

the circulating filtering system is positioned in the fish pond and comprises an outer wall and a filtering bin arranged in the outer wall;

irrigation system, water pump, water feeding pipeline and return water pipe that include, the water pump setting is in filtering the storehouse, and the water pump delivery port is planted the groove through water feeding pipeline and topmost and is linked to each other, and per two adjacent planting grooves pass through the pipe connection, and the groove water inlet is planted through pipeline and lower floor to the upper strata and is connected to the groove delivery port, and the groove delivery port is planted through the pipeline and is connected with the fish pond to the bottommost.

Preferably, the filtering bin of the circulating and filtering system comprises a precipitation bin, a first-stage biochemical bin, a second-stage biochemical bin and a regulating bin, wherein the fish pond is communicated with the bottom of the precipitation bin through a sewage discharge pipeline, the precipitation bin is communicated with the upper part of the first-stage biochemical bin, the first-stage biochemical bin is communicated with the bottom of the second-stage biochemical bin, the second-stage biochemical bin is communicated with the upper part of the regulating bin, and the water pump is arranged in the regulating bin.

In a specific case, a filter material is arranged in the first-stage biochemical bin, a filter material is arranged in the second-stage biochemical bin, and an air pump is arranged outside the adjusting bin and used for aerating in the adjusting bin.

Preferably, the fish pond is a round open brick water pond, and the inside of the fish pond is waterproof.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model provides a triangular pyramid fish-vegetable symbiotic device, which comprises a main structure of the system consisting of a supporting framework structure, a cultivation pipeline and a fish pond, wherein a filtering system is arranged in the fish pond and hidden inside, and the overall appearance is strong in appreciation; the triangular pyramid is formed by the pipeline planting grooves fixed on the supporting framework, so that various colors of leaf vegetables can be planted, the whole body presents a colorful triangular pyramid, and the ornamental value is very high; the system is provided with a multi-stage filtration link, so that residual bait and excrement in the fishpond are fully decomposed, and sufficient nutrition is provided for the growth of vegetables; the fish and vegetable can be harvested and can be used as landscape.

Drawings

Fig. 1 is a front view schematic diagram of the triangular pyramid fish-vegetable symbiotic device of the present invention.

Fig. 2 and 3 are two schematic top views of the triangular pyramid fish-vegetable symbiotic device of the present invention.

Fig. 4 is a schematic top view of the circulation filtering system in the triangular pyramid fish-vegetable symbiotic device of the present invention.

Fig. 5 and 6 are layout diagrams of vertical support rods in the triangular pyramid fish-vegetable symbiotic device of the utility model.

Detailed Description

The present invention will be further explained with reference to the drawings and examples. The same reference numbers in the drawings identify the same or similar elements.

The utility model provides a triangular pyramid fish-vegetable symbiotic device (or facility), this triangular pyramid fish-vegetable symbiotic device mainly include supporting framework 1, fish pond 2, circulating filtration system 3, planting groove 4, irrigation system 5.

As shown in fig. 1 and 2, the supporting framework 1 includes a vertical supporting rod 6 and a horizontal supporting rod 7, the vertical supporting rod 6 and the horizontal supporting rod 7 are interlaced, and the horizontal supporting rod 7 is gradually shortened from bottom to top to form a triangular pyramid. Wherein the transverse supporting rod 7 is provided with a planting groove fixing device. The supporting framework 1 is made of steel, specifically referring to fig. 5-6, the bottom of the vertical supporting rod 6 is fixed in the base of the fish pond 2 and the circulating and filtering system 3, and the planting groove 4 is fixed on the supporting framework 1 through a planting groove fixing device and used for planting leaf vegetables. The fish pond 2 is a round open brick pond and is arranged around the lower part of the planting groove supporting framework 1. The circulating filter system 3 is arranged in the fish pond 2 and communicated with the fish pond.

As shown in figure 3, the multi-layer planting grooves 4 on the triangular pyramid fish-vegetable symbiotic device are all in an equilateral triangle shape and are composed of a top layer, a middle layer and a bottom layer, the top layer, the middle layer and the bottom layer gradually shrink from bottom to top, and the overall appearance presents the shape of a triangular pyramid. Each layer is separated by a partition plate 16, each layer is connected with the water inlet of the next planting groove in a staggered way through an intermediate pipeline 14, namely, the water outlet of the upper planting groove is connected with the water inlet of the next planting groove through the intermediate pipeline 14, and the water outlet of the lowest planting groove is connected with the fish pond 2 through a water return pipeline 15. Ensuring that the water flow can be circulated to all the planting grooves.

As shown in fig. 1 and 3, the circulating filtration system 3 includes an outer wall 12, a settling chamber 8, a primary biochemical chamber 9, a secondary biochemical chamber 10, and a conditioning chamber 11. The circulating filter system 3 is connected with the fish pond 2 through a pipeline. In the concrete case, the outer wall 12 is cylindrical to form a filter bin, and the precipitation bin 8, the primary biochemical bin 9, the secondary biochemical bin 10 and the adjusting bin 11 respectively occupy a quarter of the space of the filter bin and are arranged adjacently in sequence. The fish pond 2 is communicated with the bottom of the sedimentation bin 8 through a sewage discharge pipeline 17, the sedimentation bin 8 is communicated with the upper part of the first-stage biochemical bin 9, the first-stage biochemical bin 9 is communicated with the bottom of the second-stage biochemical bin 10, the second-stage biochemical bin 10 is communicated with the upper part of the adjusting bin 11, a filter material 18 is placed in the first-stage biochemical bin 9, and a filter material 19 is placed in the second-stage biochemical bin 10. The filter material 18 and the filter material 19 can be selected from known filter materials sold in the market, and can sufficiently filter and decompose the residual bait excrement in the fish pond, wherein the filter material 18 is made of brushes and rattan cotton, and the filter material 19 is made of biochemical balls. An air pump 20 provided outside the surge tank 11 aerates the surge tank 11. In addition, each bin of the filtration system is provided with a forced discharge port that can be individually evacuated.

The water pump 21 of irrigation system 5 arranges the 11 bottoms in surge bin in, and the water pump 21 delivery port links to each other with planting groove 4 one deck at the top through water-feeding pipeline 13, and every layer of planting groove rethread intermediate pipe 14 in intermediate level links to each other respectively, finally links to each other with fishpond 2 through planting groove 4 one deck return water mouth at the bottom through return water pipeline 15.

The fish culture wastewater is firstly decomposed and purified by the circulating filtration system 3, then the excess nutrients are absorbed by the plants in the planting tank by the irrigation system 5, and the fish culture wastewater flows back to the fishpond for recycling after being fully purified.

The triangular pyramid fish-vegetable symbiotic facility adopts the ecological principle to breed fish and vegetables, the supporting framework is reduced from bottom to top at equal intervals, the equilateral triangle planting grooves are fixed on the framework and are gradually reduced from bottom to top, the overall appearance presents the shape of a triangular pyramid, various colors of vegetables are planted on the planting grooves to form a color triangular pyramid, the landscape effect is good, and meanwhile, the fish are shaded; the circulating filtration system is multi-stage filtration, and can fully decompose residual bait and excrement and provide sufficient nutrition for the growth of vegetables; the circulating filtering system is hidden inside, so that the integral ornamental value of the facility is better; the facility can be used as a landscape or a rest place while harvesting fish and vegetables.

It should be noted that the above-described embodiments may enable those skilled in the art to more fully understand the present invention, but do not limit the present invention in any way. It will be apparent to those skilled in the art that modifications and improvements can be made to the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (4)

1. The utility model provides a triangular pyramid fish-vegetable intergrowth device which characterized in that includes:

the supporting framework consists of a vertical supporting rod and a transverse supporting rod, wherein the transverse supporting rod is additionally provided with a planting groove fixing device;

the planting grooves are fixed on the supporting framework by using a planting groove fixing device, the multi-layer equilateral triangle planting grooves are gradually reduced from bottom to top, and the overall appearance of the planting grooves is in the shape of a triangular pyramid;

the fish pond is arranged around the lower part of the planting groove;

the circulating filtering system is positioned in the fish pond and comprises an outer wall and a filtering bin arranged in the outer wall;

irrigation system, including setting up water pump, water-feeding pipeline and return water pipe, the water pump setting is in filtering the storehouse, and the water pump delivery port is through water-feeding pipeline and plant the groove with the top and link to each other, and per two adjacent planting grooves pass through the pipe connection, and the groove delivery port is planted through pipeline and lower floor in the upper strata and is planted the groove water inlet and be connected, and the groove delivery port is planted through the pipeline and is connected with the fish pond in the bottommost layer.

2. The triangular pyramid fish-vegetable symbiotic device according to claim 1 wherein the filtration chamber of the circulating filtration system comprises a settling chamber, a primary biochemical chamber, a secondary biochemical chamber and a regulating chamber, wherein the fish pond is communicated with the bottom of the settling chamber through a sewage pipe, the settling chamber is communicated with the upper part of the primary biochemical chamber, the primary biochemical chamber is communicated with the bottom of the secondary biochemical chamber, the secondary biochemical chamber is communicated with the upper part of the regulating chamber, and a water pump is disposed in the regulating chamber.

3. The tri-pyramid fish and vegetable symbiotic device as claimed in claim 2, wherein the first biochemical chamber is provided with a filter material, the second biochemical chamber is provided with a filter material, and the outside of the adjusting chamber is provided with an air pump for aerating the adjusting chamber.

4. The triangular pyramid fish-vegetable symbiotic device according to claim 1, wherein the fish pond is a round open brick pond, and the inside of the fish pond is waterproof.

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