CN215648834U - Strawberry planting system based on fish-vegetable symbiotic system - Google Patents

Abstract

The utility model relates to a strawberry planting system based on a fish-vegetable symbiotic system, which belongs to the technical field of planting and comprises the fish-vegetable symbiotic system, wherein the fish-vegetable symbiotic system comprises a fish tank and a first planting groove, the first planting groove is arranged at the top end of the fish tank, a water pump is arranged in the fish tank and is connected with a first water pipe, the first water pipe extends into the first planting groove, and a second water pipe is arranged between the first planting groove and the fish tank; the outer side wall of the second planting groove is provided with a clamping block, the side wall of the fish tank is provided with a clamping groove, the clamping block is clamped in the clamping groove, the wall of the second planting groove is provided with a mounting plate, the mounting plate is provided with a spray head, and the spray head is communicated with the first water pipe through a third water pipe; the through-hole is established to the filter screen, the bottom in groove is planted to the second, and the filter screen is installed in the through-hole, and the through-hole passes through fourth water pipe and fish bowl intercommunication. The planting system effectively combines strawberry planting and a fish-vegetable symbiotic system together, and water containing fish manure in the fish-vegetable symbiotic system is used for irrigating strawberry plants, so that resources are saved.

Description

Strawberry planting system based on fish-vegetable symbiotic system

Technical Field

The utility model belongs to the technical field of planting, and particularly relates to a strawberry planting system based on a fish-vegetable symbiotic system.

Background

The strawberry is high in nutritive value, sweet and delicious in fruit, and has the effect of slimming, so that the strawberry is favored, is much more popular than other fruits and vegetables, and is particularly favored by children. The fish-vegetable symbiotic system is characterized in that water containing fish feces in the fish tank is pumped into the first planting groove, and the fish feces are used for nourishing vegetables planted in the first planting groove.

Strawberry plants are all planted subaerial, and the water of watering strawberry plants can not be retrieved, and the water among the fish-vegetable intergrowth system is at first planting groove and fish bowl inner loop flow, consequently, the strawberry planting system among the prior art can not utilize the water that contains fish dung among the fish-vegetable intergrowth system to water to present strawberry planting system and fish-vegetable intergrowth system part completely, cause the waste of resource.

SUMMERY OF THE UTILITY MODEL

The utility model provides a strawberry planting system based on a fish-vegetable symbiotic system, which is used for solving the technical problem of resource waste caused by the complete separation of the existing strawberry planting system and the fish-vegetable symbiotic system.

The utility model is realized by the following technical scheme: a strawberry planting system based on a fish-vegetable symbiotic system comprises:

the fish and vegetable symbiotic system comprises a fish tank and a first planting groove for planting vegetables, wherein the first planting groove is formed in the top end of the fish tank, a water pump is installed in the fish tank, the water outlet end of the water pump is connected with a first water pipe, the water outlet end of the first water pipe extends into the first planting groove, and a second water pipe for guiding water in the first planting groove into the fish tank is further installed between the first planting groove and the fish tank;

a second planting groove with a strawberry planting matrix arranged therein, wherein a clamping block is arranged on the outer side wall of the second planting groove, a clamping groove is concavely arranged on the side wall of the fish tank, the clamping block is clamped in the clamping groove, an installation plate is arranged on the groove wall of the second planting groove, a spray head for spraying water towards the second planting groove is arranged on the installation plate, and the spray head is communicated with the first water pipe through a third water pipe;

prevent the filter screen that strawberry planting matrix passes through, the bottom in groove is planted to the second is equipped with the through-hole, the filter screen is installed in the through-hole, the through-hole pass through the fourth water pipe with the fish bowl intercommunication, the fourth water pipe with the position that the fish bowl links to each other highly is less than the height that the groove was located to the second, and the fourth water pipe is located the top of the surface of water in the fish bowl.

Further, in order to better realize the utility model, the clamping groove is a dovetail groove, and the clamping block is a long strip block-shaped structure matched with the dovetail groove.

Further, in order to better realize the utility model, the strawberry planting system based on the fish-vegetable symbiotic system further comprises a baffle plate for preventing the fixture block from sliding out of the clamping groove, and the baffle plate is fixedly installed on the outer side wall of the fish tank through screws.

Furthermore, in order to better realize the utility model, the baffle plate is provided with an insertion rod, the end part of the fixture block is provided with an insertion hole, and the insertion rod is inserted in the insertion hole.

Furthermore, in order to better implement the present invention, valves for controlling on-off are disposed on the third water pipe and the fourth water pipe.

Furthermore, in order to better realize the utility model, a water distribution pipe is arranged on the mounting plate, the water distribution pipe is communicated with the third water pipe, the number of the spray heads is a plurality, and the plurality of spray heads are uniformly distributed on the water distribution pipe.

Furthermore, in order to better implement the present invention, a support rod is fixedly connected to the bottom wall of the second planting groove.

Further, in order to better implement the present invention, the bottom end of the support rod is provided with a roller.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides a strawberry planting system based on a fish-vegetable symbiotic system, which comprises a fish-vegetable symbiotic system, a second planting groove, a spray head, a third water pipe, a filter screen and a fourth water pipe, wherein the fish-vegetable symbiotic system comprises a fish tank and a first planting groove, the first planting groove is arranged at the top end of the fish tank and is used for planting vegetables, a water pump is arranged in the fish tank, the water outlet end of the water pump is connected with the first water pipe, the water outlet end of the first water pipe extends into the first planting groove, when the water pump runs, water containing fish dung in the fish tank is pumped into the first planting groove through the first water pipe to support the vegetables planted in the first planting groove, a second water pipe is arranged between the first planting groove and the fish tank to guide the water in the first planting groove, so that the water containing the fish dung in the fish tank is pumped into the first planting groove, a substrate in the first planting groove can filter the water and remove the fish dung, and the water flowing back through the second water pipe does not contain the fish dung, the strawberry cultivation device comprises a first planting groove, a second planting groove, a mounting plate, a spray head, a clamping block and a through hole, wherein strawberry cultivation matrixes are arranged in the second planting groove, the mounting plate is arranged on the wall of the second planting groove, the spray head is used for spraying water to the second planting groove and is communicated with a first water pipe through a third water pipe, therefore, water containing fish droppings pumped by a water pump enters the third water pipe and is finally sprayed to strawberry plants planted in the second planting groove through the spray head so as to support the strawberry plants, the second planting groove is clamped in the clamping groove formed in the side wall of a fish tank through the clamping block arranged on the outer side wall of the second planting groove, the second planting groove is organically combined with a fish-vegetable symbiosis system, the bottom end of the second planting groove is provided with the through hole, a filter screen used for preventing the strawberry cultivation matrixes from passing through is arranged in the through hole, the through hole is communicated with the fish tank through a fourth water pipe, and the height of the position where the fourth water pipe is connected with the fish tank is lower than that the second planting groove, and the fourth water pipe is positioned above the water surface in the fish tank, and water which is filtered by the strawberry planting matrix in the second planting groove and does not contain fish feces can be guided back to the fish tank through the fourth water pipe.

Through above-mentioned structure, the groove is planted with the second of planting the strawberry effectively and fish-vegetable intergrowth system combines together, utilize the water that contains fish dung in the fish-vegetable intergrowth system to water the second and plant the strawberry plant of inslot, and plant the water that the matrix filtered back and do not contain fish dung through the second and flow back to the fish bowl, thereby avoid piling up too much moisture in the second planting groove, utilize the water that contains fish dung in the fish-vegetable intergrowth system to water the strawberry plant, and then save the resource.

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 description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a strawberry cultivation system based on a fish-vegetable symbiotic system provided by the utility model;

FIG. 2 is a front view of a strawberry cultivation system based on a fish-vegetable symbiotic system provided by the utility model;

fig. 3 is a schematic view of the installation structure of the baffle in the embodiment of the utility model.

In the figure:

1-fish tank; 101-a card slot; 2-a first planting groove; 3-a water pump; 4-a first water pipe; 5-a second water pipe; 6-a second planting groove; 7-a fixture block; 8-mounting a plate; 9-a spray head; 10-a third water pipe; 11-a filter screen; 12-a fourth water pipe; 13-a baffle; 14-a screw; 15-inserting a rod; 16-a valve; 17-a water diversion pipe; 18-a support bar; 19-roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Example 1:

the utility model provides a strawberry planting system based on a fish-vegetable symbiotic system, which is used for solving the technical problem of resource waste caused by the fact that the existing strawberry planting system and the fish-vegetable symbiotic system are completely separated. Specifically, present strawberry planting system among the prior art and fish and vegetable intergrowth system part completely, and strawberry planting system needs one set of solitary watering equipment to water, and the cost is higher, can not be absorbed by the strawberry plant completely behind the water irrigation, and partial watering rivers flow into underground river, cause the waste of water resource.

The utility model provides a strawberry planting system based on a fish-vegetable symbiotic system, which comprises a fish-vegetable symbiotic system, a second planting groove 6, a spray head 9, a third water pipe 10, a filter screen 11 and a fourth water pipe 12, wherein:

fish and vegetable symbiotic system comprises a fish tank 1 and a first planting groove 2, wherein the first planting groove 2 is arranged at the top end of the fish tank 1, specifically, the top of the fish tank 1 is communicated to form a tank opening, the first planting groove 2 is in lap joint with the tank opening of the fish tank 1, planting matrix is arranged in the first planting groove 2 and used for planting vegetables, and water is arranged in the fish tank 1 and used for fish culture.

The water pump 3 is installed in the fish tank 1, the water outlet end of the water pump 3 is connected with the first water pipe 4, the water outlet end of the first water pipe 4 extends into the first planting groove 2, and when the water pump 3 operates, water containing fish feces in the fish tank 1 is pumped into the first planting groove 2 through the first water pipe 4 to serve as fertilizer for supplying the vegetables planted in the first planting groove 2.

Install second water pipe 5 between first planting groove 2 and fish bowl 1 to leading-in fish bowl 1 of water with in the first planting groove 2, like this, the water that contains fish dung in the fish bowl 1 is taken out to first planting groove 2, and the planting matrix of first planting groove 2 then can filter water and detach fish dung, and fish dung decomposes in first planting groove 2 and forms the vegetable growth that nourishment supplied first planting groove 2 to plant. The water filtered by the planting medium in the first planting groove 2 flows back to the fish tank 1 through the second water pipe 5, and the water flowing back to the fish tank 1 does not contain fish feces, so that the purpose of purifying the water in the fish tank 1 is achieved, and fish culture is better.

It should be noted that the fish-vegetable symbiotic system further comprises a component such as a nitrification ball included in the fish-vegetable symbiotic system in the prior art.

Establish strawberry planting matrix in the groove 6 is planted to the second, it is equipped with mounting panel 8 to go up the epirelief on the cell wall of groove 6 is planted to the second, install on mounting panel 8 and be used for planting the shower nozzle 9 of groove 6 water spray towards the second, shower nozzle 9 then communicates with first water pipe 4 through third water pipe 10, thus, the water that contains fish dung that water pump 3 was taken out will also get into third water pipe 10, and finally plant the strawberry plant of planting in the groove 6 to the second through shower nozzle 9 spouts, in order to support the strawberry plant, specifically, 9 spun aquatic contain fish dung, fish dung supplies the strawberry plant to grow as fertilizer.

Be equipped with fixture block 7 on the outer wall of groove 6 is planted to the second, be equipped with draw-in groove 101 on fish bowl 1 lateral wall, lead to fixture block 7 card and locate in draw-in groove 101 to plant groove 6 with the second and install on fish bowl 1 lateral wall, so that groove 6 is planted to the second and the organic combination of fish-vegetable intergrowth system is in the same place. The bottom of planting the groove 6 at the second is equipped with the through-hole, install in the through-hole and be used for preventing that the strawberry cultivation matrix from passing through filter screen 11, this through-hole passes through fourth water pipe 12 and fish bowl 1 intercommunication, and the height that the position that fourth water pipe 12 and fish bowl 1 link to each other is less than the height that the groove 6 was located to the second, and fourth water pipe 12 is located the top of the surface of water in fish bowl 1, through fourth water pipe 12, then can be with planting the water diversion flow back fish bowl 1 that the matrix was filtered after and did not contain the fish excrement to the strawberry in the groove 6 is planted to the second. The engaging groove 101 is a dovetail groove, and the engaging block 7 is a long block-shaped structure adapted to the dovetail groove.

Through the structure, the second planting groove 6 that will plant the strawberry effectively combines together with fish-vegetable intergrowth system, utilize the water that contains fish dung in the fish-vegetable intergrowth system to water the second and plant the strawberry plant in the groove 6, and plant the water that the matrix filtered back and do not contain fish dung through the second and flow back to fish bowl 1 through the drainage in the strawberry in the groove 6, thereby avoid piling up too much moisture in the second planting groove 6, utilize the water that contains fish dung in the fish-vegetable intergrowth system to water the strawberry plant, and then save the resource.

A baffle 13 is fixedly arranged on the outer side wall of the fish tank 1 through a screw 14, and the baffle 13 is blocked outside the fixture block 7, so that the fixture block 7 is prevented from sliding out of the clamping groove 101. When the fish tank is installed, the fixture block 7 is firstly inserted into the clamping groove 101, and then the baffle 13 is installed on the outer side wall of the fish tank 1, so that the end part of the fixture block 7 is abutted to the baffle 13.

The baffle 13 is provided with an inserting rod 15, the end part of the fixture block 7 is provided with a jack, and the inserting rod 15 is inserted into the jack, so that the fixture block 7 is further positioned by the inserting rod 15, the fixture block 7 is more stably installed in the clamping groove 101, and the installation stability of the second planting groove 6 on the fish tank 1 is enhanced.

An alternative implementation of this embodiment is as follows: and valves 16 for controlling on-off are arranged on the third water pipe 10 and the fourth water pipe 12. When the strawberry plants planted in the second planting groove 6 need to be watered, the water pump 3 is started, the valves 16 on the third water pipe 10 and the fourth water pipe 12 are opened, and when the strawberry plants do not need to be watered, the valves 16 on the third water pipe 10 and the fourth water pipe 12 are closed.

An alternative implementation of this embodiment is as follows: the number of the spray heads 9 is a plurality, the mounting plate 8 is provided with a water distribution pipe 17, the water distribution pipe 17 is communicated with the third water pipe 10, the water distribution pipe 17 is laid along the length direction of the second planting groove 6, and the spray heads 9 are uniformly distributed on the water distribution pipe 17. Thus, the plants planted in each area in the second planting groove 6 can be irrigated more uniformly.

An alternative implementation of this embodiment is as follows: a support bar 18 is welded or bonded on the bottom wall of the second planting groove 6 to support the second planting groove 6, so that the second planting groove 6 is more stably arranged on the side wall of the fish tank 1. The bottom end of the support bar 18 is provided with a roller 19 so that the user can conveniently move the second planting groove 6 as required.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. The utility model provides a strawberry cultivation system based on fish-vegetable symbiotic system which characterized in that includes:

the fish and vegetable symbiotic system comprises a fish tank and a first planting groove for planting vegetables, wherein the first planting groove is formed in the top end of the fish tank, a water pump is installed in the fish tank, the water outlet end of the water pump is connected with a first water pipe, the water outlet end of the first water pipe extends into the first planting groove, and a second water pipe for guiding water in the first planting groove into the fish tank is further installed between the first planting groove and the fish tank;

a second planting groove with a strawberry planting matrix arranged therein, wherein a clamping block is arranged on the outer side wall of the second planting groove, a clamping groove is concavely arranged on the side wall of the fish tank, the clamping block is clamped in the clamping groove, an installation plate is arranged on the groove wall of the second planting groove, a spray head for spraying water towards the second planting groove is arranged on the installation plate, and the spray head is communicated with the first water pipe through a third water pipe;

prevent the filter screen that strawberry planting matrix passes through, the bottom in groove is planted to the second is equipped with the through-hole, the filter screen is installed in the through-hole, the through-hole pass through the fourth water pipe with the fish bowl intercommunication, the fourth water pipe with the position that the fish bowl links to each other highly is less than the height that the groove was located to the second, and the fourth water pipe is located the top of the surface of water in the fish bowl.

2. The strawberry cultivation system based on the fish-vegetable symbiotic system according to claim 1, wherein: the clamping groove is a dovetail groove, and the clamping block is a strip-shaped block structure matched with the dovetail groove.

3. The strawberry cultivation system based on the fish-vegetable symbiotic system according to claim 2, wherein: the strawberry planting system based on the fish-vegetable symbiotic system further comprises a baffle for preventing the clamping block from sliding out of the clamping groove, and the baffle is fixedly installed on the outer side wall of the fish tank through screws.

4. The strawberry cultivation system based on the fish-vegetable symbiotic system according to claim 3, wherein: the baffle is provided with an inserting rod, the end part of the clamping block is provided with an inserting hole, and the inserting rod is inserted into the inserting hole.

5. A strawberry cultivation system based on a fish-vegetable symbiotic system according to any one of claims 1-4, wherein: and valves for controlling on-off are arranged on the third water pipe and the fourth water pipe.

6. A strawberry cultivation system based on a fish-vegetable symbiotic system according to any one of claims 1-4, wherein: install a distributive pipe on the mounting panel, the distributive pipe with third water pipe intercommunication, the quantity of shower nozzle is a plurality of, a plurality of the shower nozzle equipartition is in on the distributive pipe.

7. A strawberry cultivation system based on a fish-vegetable symbiotic system according to any one of claims 1-4, wherein: and a supporting rod is fixedly connected to the bottom wall of the second planting groove.

8. The strawberry cultivation system based on the fish-vegetable symbiotic system according to claim 7, wherein: and the bottom end of the supporting rod is provided with a roller.

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