CN221152337U - Wetland plant hydroponic planting equipment - Google Patents

Abstract

The utility model relates to wetland plant water planting equipment, which belongs to the field of cultivation equipment, and consists of a cultivation container, a first field planting device, a second field planting device, a third field planting device, a temperature control system, a water circulation system, an automatic water supply and drainage system, a control box, a pipeline system and the like.

Description

Wetland plant hydroponic planting equipment

Technical Field

The utility model relates to water planting equipment, in particular to wetland plant water planting equipment, and belongs to the field of cultivation equipment.

Background

With the establishment and gradual perfection of a wetland protection and repair system in China, the construction steps of a wetland protection area and a wetland park are continuously accelerated, in the process of recovering a wetland plant community, manual intervention is indispensable, a large number of wetland plants are planted to increase the demand of seedlings increasingly, but a mode of simply digging wild seedlings to provide seed sources is simply relied on, so that the cost is high, the damage to the environment bearing capacity is extremely high, natural plant resources are easy to be consumed, and a larger ecological crisis is caused.

In order to meet the increasing social demands, the conventional wet nursery has various disadvantages in construction, operation, maintenance and the like, although having a function of producing wet plant seedlings.

Firstly, a wetland nursery is not easy to select sites, and depressions, ponds and ditches which are integrated, fixed in site and can be developed legally and compliance are difficult to find, and the transportation of seedlings and production data is not facilitated due to inconvenient transportation of geographic positions;

The second wetland nursery is high in construction cost, ditches, ponds and depressions for plant cultivation need to be constructed or transformed manually, and the construction investment of the early-stage cultivation land is extremely high;

The third wet nursery cultivation land is wet, muddy or has physical barrier of water, workers need to wade into and out of the cultivation land in daily production, so that the production efficiency of seedlings is reduced, the management is time-consuming and labor-consuming, and the harvesting is difficult and heavy;

The specifications of the seedlings produced by the fourth wetland nursery are not easy to unify, and all wetland plants are mixed with each other, so that the purity of the seedlings cannot be ensured, the growth amount of the same seedling is uneven, and standardized seedling varieties are difficult to produce;

Fifth, the wetland plants planted by utilizing natural water bodies are easy to grow bacteria, the plant diseases and insect pests of the seedlings are high and carry more parasites, and the produced seedlings are planted in different places, so that the problems of disease and insect pest diffusion and invasion of foreign species are easily caused;

Finally, the seedlings in the low-temperature season wetland nursery are almost stagnant under natural environment conditions, so that annual production of wetland plant seedlings cannot be realized, and all-weather market demands are hardly met.

Therefore, the cultivation equipment which has small occupied area, convenient assembly, low construction cost and easy operation of staff, can ensure good quality of cultivation environment water, can produce cultivation equipment with high purity, strong plants and uniform specification, is suitable for large-scale annual production of wetland seedlings, and is important for upgrading of the wetland seedling industry.

Disclosure of Invention

In view of the above, the present utility model provides a wetland plant hydroponic planting device to solve the above-mentioned problems in the prior art.

The technical scheme for solving the technical problems is as follows:

A wetland plant hydroponic planting device, comprising:

a first field planting device: the first field planting device comprises a first field planting disc and a field planting basket arranged in a field planting hole of the first field planting disc;

And a second field planting device: the second field planting device comprises a second field planting groove and a second field planting disk arranged at the notch of the second field planting groove, and a cultivation substrate is arranged at the bottom of the second field planting groove;

And (3) a field planting device III: the third planting device comprises a third planting groove, and a cultivation substrate is arranged at the bottom of the third planting groove;

A cultivation device: the cultivation device comprises a cultivation box, a fertilizer adding port, a medicine adding port, a waste discharging port, a water inlet pipe and a water outlet pipe are arranged on the side wall of the cultivation box, the waste discharging port is communicated with a drain pipe, a drain valve is arranged on the drain pipe, and the first field planting device, the second field planting device and the third field planting device are fixedly connected with the cultivation box from top to bottom in sequence through a groove structure on the cultivation box;

And (3) a temperature control system: the temperature control system is fixed on the left inner wall of the cultivation box through a threaded connecting piece and comprises a temperature control device, a heating device and a temperature probe, wherein the heating device is fixedly connected with the temperature control device and extends below the liquid level, and the temperature probe is electrically connected with the temperature control device through a sensing line;

and (3) a water circulation system: the water circulation system comprises a water pump, a timer, a transverse water circulation device, a longitudinal water circulation device and a connecting pipe, wherein the water pump is fixed on the right side of the inner bottom wall of the cultivation device through a threaded connecting piece, the timer is connected with the water pump through a waterproof wire externally provided with a fixed sleeve, the transverse water circulation device is connected with the longitudinal water circulation device through the connecting pipe with a valve, and a water pipe interface on the upper surface of the connecting pipe is connected with a water pipe interface on the upper surface of the water pump through a threaded structure;

An automatic water supply and drainage system: the automatic water supply and drainage system comprises an automatic controller, a water suction pump, a water level alarm and a drainage pump, wherein the water suction pump is arranged on the water inlet pipe, and the automatic controller is connected with the water level alarm through a wire;

And (3) a control box: the control box comprises a protection box and a controller arranged in the protection box, the controller is provided with a water circulation switch, a temperature control system switch, an automatic water supply switch, a water pump switch and a drainage pump switch, the temperature control device and the timer are respectively connected with the controller through wires, the automatic controller is connected with the automatic water supply switch through wires, the water pump is respectively connected with the water pump switch and the automatic water supply switch through wires, and the drainage pump is connected with the drainage pump switch through a waterproof wire externally added with a fixed sleeve;

Pipeline system: the pipeline system comprises a main water inlet pipeline, a main water drainage pipeline, a first water separator and a second water separator, wherein one end of the main water inlet pipeline is communicated with a water source, the other end of the main water inlet pipeline is communicated with the water inlet pipe through the first water separator, one end of the main water drainage pipeline is communicated with a water drainage channel, and the other end of the main water drainage pipeline is communicated with a water drainage pipe and is communicated with the water drainage pipe through the second water separator.

On the basis of the technical scheme, the utility model can be improved as follows.

Further, the first field planting device is fixedly connected to the upper part of the cultivation box; the second field planting device is fixedly connected to the upper portion and/or the middle portion of the cultivation box, and the third field planting device is fixedly connected to the middle portion and/or the lower portion of the cultivation box.

Further, the temperature control system is fixed at the position 15cm away from the bottom of the cultivation device on the left inner wall of the cultivation box through a threaded connecting piece;

The timer is fixed at the position 10cm away from the bottom of the cultivation device on the outer wall of the left side of the cultivation device.

Further, the cover plate structure of the fertilizer adding port is connected with the fertilizer adding port through a hinge;

the cover plate structure of the medicine adding port is connected with the medicine adding port through a hinge;

The water inlet valve is positioned at the tail end of the water inlet pipe, and the water outlet valve is positioned at the tail end of the water outlet pipe.

Further, the temperature probe is assembled by connecting a sensing wire with the probe.

Further, a sponge is arranged in the connecting pipe.

Furthermore, the water pump switch corresponding to the water pump can independently finish the water injection work of the cultivation device, and is not influenced by the automatic water supply and drainage switch in the control box;

The automatic controller and the water level alarm are arranged in the storage box, and the storage box is fixed on the inner wall of the cultivation device through the sucker.

Further, the water circulation switch, the temperature control system switch, the automatic water supply switch, the water suction pump switch and the drainage pump switch are connected through parallel branching devices and embedded into the controller, and the water circulation switch, the temperature control system switch, the automatic water supply switch, the water suction pump switch and the drainage pump switch are respectively connected with the water circulation system, the temperature control system, the automatic water supply and drainage system, the water suction pump and the drainage pump circuit which are respectively corresponding to each other.

Further, when a plurality of wetland plant hydroponics planting equipment are connected to form a wetland plant cultivation system, one end of the first water separator is communicated with the main water inlet pipe, the other end of the first water separator is communicated with the water inlet pipe of the adjacent wetland plant hydroponics planting equipment, one end of the second water separator is communicated with the main water drainage pipe, and the other end of the second water separator is communicated with the water drainage pipe of the adjacent wetland plant hydroponics planting equipment.

The beneficial effects of the utility model are as follows:

1. the requirements on the environment of a placement site are less, and seedling breeding can be carried out only by using land plots with flat topography and wide water sources, so that the problems of large occupied area and waste of land resources in the traditional wetland plant seedling breeding mode are solved;

2. the installation is convenient, the assembly and the movement are convenient, the construction investment of wetland plant cultivation lands such as ponds, ditches and depressions is not needed in the actual production, and the production cost is greatly reduced;

3. The base can be placed on the open field, the daily management and maintenance do not need to be carried out by a water-involved operation, and meanwhile, the seedling planting, management and harvesting work is very convenient, so that the problems of high working intensity and low production efficiency of the traditional wetland plant seedling breeding mode are solved;

4. The cultivated seedlings have uniform specifications and higher purity, and the problem that the seedling varieties produced by the traditional wetland plant seedling breeding mode are mixed with each other and the specifications of the seedlings are difficult to unify is solved;

5. The cultivated seedling plants are strong and do not carry pathogen and parasites, so that the problems that the seedlings bred by the traditional wetland plant seedling breeding mode are easy to breed diseases and insect pests and carry parasites are solved, and the risks of propagation of diseases and insect pests and invasion of foreign species caused by planting the seedlings in different places are reduced;

6. The wetland plants are planted in the cultivation liquid, the cultivation liquid is used for replacing soil matrix, and growth factors such as moisture, nutrient, oxygen and the like are provided for the wetland plants, so that complicated operations such as soil preparation and rotary tillage in the traditional wetland plant seedling breeding mode are omitted, and the wetland plant cultivation management flow is simplified;

7. The traditional wetland plant seedling breeding mode only can cultivate a few wetland plant types, and the planting range of the water planting device relates to all wetland plant types, including emergent aquatic plants, wet plants, submerged plants, floating leaf plants and floating plants, and ensures that the wetland plants grow well in the device;

8. The control box related to the wetland plant water planting equipment concentrates the instruction switches for controlling the water circulation system, the temperature control system and the automatic water supply and drainage system on the controller, so that the integrated operation of multiple systems is realized, the equipment management program is simplified, and the wetland plant water planting environment is more easily controlled;

9. The temperature control system of the wetland plant water planting device can improve the temperature of the culture solution in low-temperature seasons and create an environment suitable for the growth of wetland plants through the cooperation of the temperature control system and the greenhouse environment, thereby meeting the material conditions for carrying out the annual uninterrupted production of the wetland seedlings and solving the problem that the annual production of the seedlings cannot be carried out in the traditional wetland plant seedling breeding mode;

10. The wetland plant water planting devices are integrally assembled through the pipeline system to form the wetland plant water planting system, so that the wetland plant water planting system is not only suitable for the synchronous cultivation of multiple wetland plants, but also realizes the large-scale breeding of wetland nursery seedlings.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a wetland plant hydroponic planting device according to the present utility model;

FIG. 2 is an exploded view of the construction of the wetland plant hydroponics planting device of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. A first planting device, 11, a first planting tray, 12, a planting basket, 2, a second planting device, 21, a second planting tray, 22, a second planting tank, 3, a third planting device, 31, a third planting tank, 4, a cultivating device, 41, a cultivating box, 42, a fertilizer adding port, 43, a medicine adding port, 44, a waste discharging port, 441, a drain pipe, 442, a drain valve, 45, a water inlet pipe, 46, a drain pipe, 47, a water inlet valve, 48, a drain valve, 49, a groove structure, 5, a temperature control system, 51, a temperature probe, 511, a sensing wire, 512, a probe, 52, a temperature control device, 53, a heating device, 6, a water circulation system, 61, a water pump, 62, a timer, 63, a horizontal water circulation device, 64, a longitudinal water circulation device, 65, a connecting pipe, 7, an automatic water supply and drain system, 71, an automatic controller, 72, a water pump, 73, a water level alarm, 74, 8, a control box, 81, a protection box, 82, a controller, 9, a pipeline system, 91, a main water inlet pipe, a main pipe, 92, a water drain pump, 94, a water drain pump, a first water separator, and 93.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

Referring to fig. 1-2, a wetland plant hydroponic planting device comprising:

The planting device I1, the planting device II 2, the planting device III 3, the cultivation device 4, the temperature control system 5, the water circulation system 6, the automatic water supply and drainage system 7, the control box 8 and the pipeline system 9.

The main body of the first planter 1 is a first planter plate 11, and a planting basket 12 is arranged in a planting hole on the first planter plate 11. The first planter 1 is secured within the planter 4 by a groove structure 49 in the upper portion of the planter 4.

And a second planting device 2, a second planting plate 21 of the second planting device 22 is arranged at the notch of the second planting groove 22, and a cultivation substrate is placed at the bottom of the second planting groove 22. The second planting device 2 is fixed in the planting device 4 through a groove structure 49 at the middle and upper parts of the planting device 4.

And a third planting device 3, wherein the culture medium of the third planting device 3 is placed at the bottom of the third planting groove 31. The planting device III 3 is fixed in the groove structure 49 at the middle and lower parts of the cultivating device 4.

The cultivating device 4, the cultivating device 4 body is a cultivating box 41, the fertilizer adding port 42 is positioned at the left upper part of the outer wall of the back of the cultivating box 41, the medicine adding port 43 is positioned at the right upper part of the outer wall of the back of the cultivating box 41, the waste discharging port 44 is positioned at the right lower part of the outer wall of the front of the cultivating box 41, the connecting drain pipe 441 is provided with a drain valve 442, the water inlet pipe 45 is positioned at the upper part of the outer wall of the left side face of the cultivating box 41, and the drain pipe 46 is positioned at the lower part of the outer wall of the right side face of the cultivating box 41.

The temperature control system 5 of the temperature control system 5 is fixed on the left inner wall of the cultivation device 4 through a threaded connecting piece, the main body of the temperature control system 5 is a temperature control device 52 which is 15cm away from the bottom of the cultivation device 4, a heating device 53 is fixed on the right side surface of the temperature control device 52 and is immersed in water, and a sensing line 511 interface of a temperature probe 51 penetrates through the upper surface of the temperature control device 52 and is embedded in the temperature control device 52. The wires of the temperature control system 5 are connected with a control box 8 which is positioned at the center of the upper part of the outer wall of the left side surface of the cultivation device 4.

The water pump 61 of the water circulation system 6 is fixed on the right side of the inner bottom wall of the cultivation device 4 through a threaded connector, the timer 62 is fixed on the outer wall of the left side of the cultivation device 4, the timer 62 is connected with the control box 8 through a wire, the timer 62 is connected with the water pump 61 through a waterproof wire externally provided with a fixed sleeve, and the transverse water circulation device 63 is connected with the longitudinal water circulation device 64 through a connecting pipe (65) with a valve. The connecting pipe (65) is connected with a water pipe connector on the upper surface of the water pump 61 by a thread structure.

The automatic water supply and drainage system 7, the water pump 72 of the automatic water supply and drainage system 7 is arranged on the water inlet pipe 47 of the cultivation device 4, the automatic controller 71 is connected with the water level alarm 73 through a wire and then embedded into the black plastic storage box, the side surface of the storage box is provided with the sucker, the automatic controller 71 is connected with the automatic water supply switch in the control box 8 through a wire, the water pump 72 is respectively connected with the water pump switch and the automatic water supply switch in the control box 8 through wires, and the water pump 74 is connected with the water pump switch in the control box 8 through a waterproof wire of an externally-added fixed sleeve.

The outer protective shell of the control box 8 is a protective box 81, the inner main body is a controller 82, a water circulation switch, a temperature control system switch, an automatic water supply switch, a water pump switch and a drainage pump switch are embedded into the controller 82, and when the wetland plant hydroponics planting device works, the total power line of the controller 82 is connected with an external power supply.

A pipeline system 9, wherein one end of a main water inlet pipeline 91 of the pipeline system 9 is communicated with a water source, and the other end is communicated with a water inlet pipe 45 of the cultivation device 4, or a first water separator 93 is connected and communicated with the water inlet pipe 45 of the cultivation device 4; the main drain pipe 92 has one end communicating with the drain pipe 46 of the cultivation apparatus 4, or has one end communicating with the drain pipe 46 of the cultivation apparatus 4 by connecting the water separator two 94.

In another embodiment of the present utility model, the cover plate structure of the fertilizer adding port 42 of the cultivation apparatus 4 is connected to the fertilizer adding port 42 by a hinge.

In another embodiment of the present utility model, the cover structure of the medicine adding port 43 of the incubator 4 is connected to the medicine adding port 43 by a hinge.

In another embodiment of the present utility model, after adding fertilizer and medicine through the fertilizer adding port 42 and the medicine adding port 43 of the cultivation apparatus 4, the water circulation system 6 may be opened to accelerate the fusion of the fertilizer and medicine with the cultivation liquid.

In another embodiment of the utility model waste drain 44 is connected to drain tube 441 having a drain valve (442).

In another embodiment of the present utility model, the water inlet valve 47 is located at the end of the water inlet pipe 45 of the cultivator 4, and the water outlet valve 48 is located at the end of the water outlet pipe 46 of the cultivator 4.

In another embodiment of the present utility model, the temperature probe 51 of the temperature control system 5 is assembled by connecting the sensing wire 511 with the probe 512.

In another embodiment of the present utility model, when the valve of the connecting pipe (65) of the water circulation system 6 rotates upward by 45 degrees, the horizontal water circulation device 63 circulates water from right to left, when the valve of the connecting pipe (65) rotates leftward by 45 degrees, the vertical water circulation device 64 circulates water from bottom to top, and when the valve of the connecting pipe (65) rotates upward by 45 degrees, the 2 water circulation devices work simultaneously.

In another embodiment of the utility model, a sponge is placed in the connecting pipe (65) of the water circulation system 6 for filtering harmful impurities in the water body, and the sponge is detachable and convenient for periodic cleaning.

In another embodiment of the present utility model, the water pump switch corresponding to the water pump 72 of the automatic water supply and drainage system 7 can independently perform water injection to the cultivation device 4 without being affected by the automatic water supply and drainage switch in the control box 8.

In another embodiment of the present utility model, the black plastic storage box containing the automatic controller 71 and the water level alarm 73 can be fixed on the inner wall of the cultivation device 4 through the sucking disc, and the fixing position of the storage box is arranged according to the water level height required by the growth of different types of wetland plants. When the cultivation environment water level is too low, the water level alarm 73 alarms and triggers the automatic controller 71, the automatic controller 71 starts the water suction pump 72 to fill water into the cultivation device 4 through the automatic water supply and discharge switch, and the water suction pump 72 stops working after the normal water level is reached.

In another embodiment of the present utility model, the water circulation switch, the temperature control system switch, the automatic water supply switch, the water pump switch and the drain pump switch in the control box 8 are connected through the parallel branching device and embedded in the controller 82, and the water circulation switch, the temperature control system switch, the automatic water supply switch, the water pump switch and the drain pump switch are respectively connected with the working circuits of the water circulation system 6, the temperature control system 5, the automatic water supply and drain system 7, the water pump 72 and the drain pump 74, which are respectively corresponding to the inside of the device.

In another embodiment of the present utility model, when a plurality of wetland plant hydroponics devices are connected to form a wetland plant cultivation system, a first water separator 93 and a second water separator 94 must be used, one end of the first water separator 93 is communicated with the main water inlet pipe 91, one end of the first water separator is connected to the water inlet pipe 45 of the plurality of wetland plant hydroponics devices 4, one end of the second water separator 94 is communicated with the main water outlet pipe 92, and one end of the second water separator is connected to the water outlet pipe 46 of the plurality of one wetland plant hydroponics devices 4.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (9)

1. A wetland plant hydroponic planting device, comprising:

a first field planting device: the first field planting device comprises a first field planting disc and a field planting basket arranged in a field planting hole of the first field planting disc;

And a second field planting device: the second field planting device comprises a second field planting groove and a second field planting disk arranged at the notch of the second field planting groove, and a cultivation substrate is arranged at the bottom of the second field planting groove;

And (3) a field planting device III: the third planting device comprises a third planting groove, and a cultivation substrate is arranged at the bottom of the third planting groove;

A cultivation device: the cultivation device comprises a cultivation box, a fertilizer adding port, a medicine adding port, a waste discharging port, a water inlet pipe and a water outlet pipe are arranged on the side wall of the cultivation box, the waste discharging port is communicated with a drain pipe, a drain valve is arranged on the drain pipe, and the first field planting device, the second field planting device and the third field planting device are fixedly connected with the cultivation box from top to bottom in sequence through a groove structure on the cultivation box;

And (3) a temperature control system: the temperature control system is fixed on the left inner wall of the cultivation box through a threaded connecting piece and comprises a temperature control device, a heating device and a temperature probe, wherein the heating device is fixedly connected with the temperature control device and extends below the liquid level, and the temperature probe is electrically connected with the temperature control device through a sensing line;

and (3) a water circulation system: the water circulation system comprises a water pump, a timer, a transverse water circulation device, a longitudinal water circulation device and a connecting pipe, wherein the water pump is fixed on the right side of the inner bottom wall of the cultivation device through a threaded connecting piece, the timer is connected with the water pump through a waterproof wire externally provided with a fixed sleeve, the transverse water circulation device is connected with the longitudinal water circulation device through the connecting pipe with a valve, and a water pipe interface on the upper surface of the connecting pipe is connected with a water pipe interface on the upper surface of the water pump through a threaded structure;

An automatic water supply and drainage system: the automatic water supply and drainage system comprises an automatic controller, a water suction pump, a water level alarm and a drainage pump, wherein the water suction pump is arranged on the water inlet pipe, and the automatic controller is connected with the water level alarm through a wire;

And (3) a control box: the control box comprises a protection box and a controller arranged in the protection box, the controller is provided with a water circulation switch, a temperature control system switch, an automatic water supply switch, a water pump switch and a drainage pump switch, the temperature control device and the timer are respectively connected with the controller through wires, the automatic controller is connected with the automatic water supply switch through wires, the water pump is respectively connected with the water pump switch and the automatic water supply switch through wires, and the drainage pump is connected with the drainage pump switch through a waterproof wire externally added with a fixed sleeve;

Pipeline system: the pipeline system comprises a main water inlet pipeline, a main water drainage pipeline, a first water separator and a second water separator, wherein one end of the main water inlet pipeline is communicated with a water source, the other end of the main water inlet pipeline is communicated with the water inlet pipe through the first water separator, one end of the main water drainage pipeline is communicated with a water drainage channel, and the other end of the main water drainage pipeline is communicated with a water drainage pipe and is communicated with the water drainage pipe through the second water separator.

2. The wetland plant hydroponic apparatus according to claim 1, wherein said first planter is fixedly connected to an upper portion of said cultivation box; the second field planting device is fixedly connected to the upper portion and/or the middle portion of the cultivation box, and the third field planting device is fixedly connected to the middle portion and/or the lower portion of the cultivation box.

3. The wetland plant hydroponic planting device according to claim 1, wherein the temperature control system is fixed at a position 15cm from the bottom of the cultivation box to the left inner wall of the cultivation box through a threaded connector;

The timer is fixed at the position 10cm away from the bottom of the cultivation device on the outer wall of the left side of the cultivation device.

4. The wetland plant hydroponic planting device according to claim 1, wherein the cover plate structure of the fertilizer adding port is connected with the fertilizer adding port through a hinge;

the cover plate structure of the medicine adding port is connected with the medicine adding port through a hinge;

The tail end of the water inlet pipe is provided with a water inlet valve, and the tail end of the water outlet pipe is provided with a water outlet valve.

5. The wetland plant hydroponic planting device according to claim 1, wherein said temperature probe is assembled from sensor wire connection probes.

6. The wetland plant hydroponic planting device according to claim 1, wherein a sponge is placed in said connecting pipe.

7. The wetland plant hydroponic planting device according to claim 1, wherein the water pump switch corresponding to the water pump can independently complete the water injection to the cultivation device without being influenced by the automatic water supply and drainage switch in the control box;

The automatic controller and the water level alarm are arranged in the storage box, and the storage box is fixed on the inner wall of the cultivation device through the sucker.

8. The wetland plant hydroponics planting device of claim 1 wherein the water circulation switch, the temperature control system switch, the automatic water supply switch, the water pump switch, and the drain pump switch are connected through a parallel splitter and embedded on the controller, and the water circulation switch, the temperature control system switch, the automatic water supply switch, the water pump switch, and the drain pump switch are respectively connected with the water circulation system, the temperature control system, the automatic water supply and drain system, the water pump, and the drain pump circuit.

9. The wetland plant hydroponic cultivation device according to any one of claims 1 to 8, wherein when a plurality of the wetland plant hydroponic cultivation devices are connected to form a wetland plant cultivation system, one end of the first water separator is communicated with the main water inlet pipe, the other end of the first water separator is communicated with the water inlet pipe of the adjacent wetland plant hydroponic cultivation device, one end of the second water separator is communicated with the main water drainage pipe, and the other end of the second water separator is communicated with the water drainage pipe of the adjacent wetland plant hydroponic cultivation device.