CN110337946B - Environment-friendly device for planting submerged plants and working method thereof - Google Patents

Abstract

The invention discloses an environment-friendly device for planting submerged plants and a working method thereof. The invention can control the maximum liquid amount in the inner part according to the pressure intensity between the elasticity of the spiral spring and the air, thereby playing the role of controlling the liquid pressure in the inner part, the living environment of the submerged plant is controlled, the environment is optimized, the growth of the submerged plant is more facilitated, and simultaneously, the device can control the most appropriate liquid amount, does not waste the liquid, has the environmental protection capability, and, the device is provided with an internal sealing installation type gas-liquid separation mechanism which can separate gas and liquid, at the same time, the pressure between the two cutting interfaces is linked to realize pressure control, in addition, the device is provided with a first copper hollow type component moving conductive mechanism, which can lead the internal components to have a conductive function in the moving process, in addition, the device is provided with a piston sealing type conductor moving mechanism, and the power connection and disconnection functions are realized.

Description

Environment-friendly device for planting submerged plants and working method thereof

Technical Field

The invention relates to the technical field of submerged plant cultivation, in particular to an environment-friendly device for planting submerged plants and a working method thereof.

Background

At present, in a seedling cultivation place, submerged plants cannot be cultivated, an existing submerged plant cultivation device is a simple liquid storage tank and is used for cultivating the submerged plants at the bottom, but the water pressure bearing capacity of the plants cannot be determined by the method, and the optimal survival mode of the plants is influenced.

Disclosure of Invention

The invention aims to provide an environment-friendly device for planting submerged plants and a working method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly device for planting submerged plants comprises a breeding shell, wherein a liquid storage space is arranged in the center of the breeding shell, a main liquid discharge hole communicated with the bottom of one side of the liquid storage space is formed in the breeding shell, a water discharge pipeline connecting port is installed at the end part of the main liquid discharge hole, a main liquid inlet hole communicated with the top of one side of the liquid storage space is formed in the breeding shell, a water inlet pipeline connecting port is formed at one end of the main liquid inlet hole, a cylindrical shell structure of an integrated structure is arranged at the bottom of one side of the main liquid discharge hole of the breeding shell, a cylindrical hollow structure is arranged in the cylindrical shell structure, an internal seal installation type gas-liquid separation mechanism is installed in the cylindrical hollow structure, a main air flow hole is formed in the center of one end face of the cylindrical hollow structure, and a part installation space is formed at one end of the main air, the device comprises a breeding shell, a main air inlet hole, a valve core, an auxiliary component mounting hole, a first copper hollow type component moving conductive mechanism, a second copper hollow type component moving conductive mechanism and a third copper hollow type component moving conductive mechanism, wherein the main air inlet hole is communicated with an external space and a component mounting space, the valve core is mounted in the main air inlet hole, the auxiliary component mounting hole is formed in the top of the component mounting space, the breeding shell is positioned on the side surface of the auxiliary component mounting hole, the first copper hollow type component moving conductive mechanism, the second copper hollow type component moving conductive mechanism and the third copper hollow type component moving conductive mechanism are sequentially mounted from bottom to top, an air reserved space is arranged at the top of the auxiliary component mounting hole, an air flowing hole communicated with the external space is formed in the side surface of the air reserved space, a piston sealing type moving conductor mechanism is mounted in the auxiliary component mounting hole, and, the hollow part of first copper removes conductive mechanism, the hollow part of second copper removes conductive mechanism and the hollow part of third copper removes conductive mechanism and connects first terminal, second terminal and third terminal through first wire, second wire and third wire respectively, just the side at the shell is bred in the one end installation of first terminal, second terminal and third terminal.

Further, the internal seal installation type gas-liquid separation mechanism comprises an annular shell for the internal seal installation type gas-liquid separation mechanism, a central hole for the internal seal installation type gas-liquid separation mechanism and a folding gas mold for the internal seal installation type gas-liquid separation mechanism; the annular shell for the internal seal installation type gas-liquid division mechanism is internally provided with a folded gas mold for the internal seal installation type gas-liquid division mechanism in the central hole.

Further, the internal seal installation type gas-liquid separation mechanism is installed in the cylindrical hollow structure by the annular shell.

Further, the first copper hollow type component moving conductive mechanism comprises a copper annular body for the first copper hollow type component moving conductive mechanism, a moving hole for the first copper hollow type component moving conductive mechanism, a bottom conical guide moving space for the first copper hollow type component moving conductive mechanism, a top conical guide moving space for the first copper hollow type component moving conductive mechanism and a lead mounting hole for the first copper hollow type component moving conductive mechanism; the hollow type part of first copper removes conductive mechanism and use the removal hole with the hollow type part of first copper with the inside center of copper ring body, the hollow type part of first copper removes the inside of conductive mechanism and uses the copper ring body and is lieing in the hollow type part of first copper removes the bottom and the top that conductive mechanism used the removal hole and is provided with hollow type part of first copper respectively and removes conductive mechanism and remove the space with the toper guide of bottom and remove the space with the top for the hollow type part removal conductive mechanism of first copper, the hollow type part of first copper removes conductive mechanism and use the wire mounting hole with the hollow type part of first copper removal conductive mechanism with the copper ring body outside center.

Further, the structure radius of the moving hole for the first copper hollow type component moving conductive mechanism is the same as the structure radius of the auxiliary component mounting hole, and a bare wire head at one end of the first wiring terminal is mounted inside the wire mounting hole for the first copper hollow type component moving conductive mechanism.

Further, the first copper hollow type component moving conductive mechanism, the second copper hollow type component moving conductive mechanism and the third copper hollow type component moving conductive mechanism are the same in structure and size.

Further, bare wire heads at one ends of the second binding post and the third binding post are respectively installed in wire installation holes in the second copper hollow type component moving and conducting mechanism and the third copper hollow type component moving and conducting mechanism.

Further, the piston-sealed moving conductor mechanism comprises a piston valve for the piston-sealed moving conductor mechanism, a conical guide moving structure for the piston-sealed moving conductor mechanism, a first annular groove structure for the piston-sealed moving conductor mechanism, a second annular groove structure for the piston-sealed moving conductor mechanism, a first sealing ring for the piston-sealed moving conductor mechanism, a second sealing ring for the piston-sealed moving conductor mechanism, a copper cylinder for the piston-sealed moving conductor mechanism, a bottom branch copper rod structure for the piston-sealed moving conductor mechanism, and a top branch copper rod structure for the piston-sealed moving conductor mechanism; one end of the piston valve for the piston sealed type moving conductor mechanism is provided with a conical guide moving structure for the piston sealed type moving conductor mechanism which is integrated with the piston valve, the upper and lower parts of the side surface of the piston valve for the piston sealed type moving conductor mechanism are respectively provided with a first annular groove structure for the piston sealed type moving conductor mechanism and a second annular groove structure for the piston sealed type moving conductor mechanism, a first sealing ring for the piston sealed type moving conductor mechanism and a second sealing ring for the piston sealed type moving conductor mechanism are respectively arranged in the first annular groove structure for the piston sealed type moving conductor mechanism and the second annular groove structure for the piston sealed type moving conductor mechanism, a copper cylinder for the piston sealed type moving conductor mechanism is arranged in the center of the piston valve for the piston sealed type moving conductor mechanism, and the bottom end and the top end of the copper cylinder for the piston sealed type moving conductor mechanism are respectively provided with a piston sealed type moving guide moving The body mechanism uses the bottom branch copper rod structure and the piston seal type moves the conductor mechanism and uses the top branch copper rod structure, and the piston seal type moves the conductor mechanism and uses the bottom branch copper rod structure and the piston seal type to move the conductor mechanism and use the body of rod at the branch copper rod structure both ends of the piston and lie in the piston seal type moves the outside of the side of the conductor mechanism piston valve.

Further, the lateral lengths of the bottom branch copper rod structure for the piston seal type moving conductor mechanism and the top branch copper rod structure for the piston seal type moving conductor mechanism are the same, and are the same as the diameters of the moving holes for the first copper hollow component moving conductive mechanism, and the longitudinal distance between the bottom branch copper rod structure for the piston seal type moving conductor mechanism and the top branch copper rod structure for the piston seal type moving conductor mechanism is larger than the distance between two adjacent mechanisms in the first copper hollow component moving conductive mechanism, the second copper hollow component moving conductive mechanism and the third copper hollow component moving conductive mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention can control the maximum liquid amount in the device according to the pressure intensity between the elasticity of the spiral spring and the air, thereby playing the role of controlling the liquid pressure in the device, controlling the living environment of the submerged plant, optimizing the environment and being more beneficial to the growth of the submerged plant, meanwhile, the device can control the most appropriate liquid amount without causing waste phenomenon to the liquid, and has environmental protection capability, moreover, the device is provided with an internal seal installation type gas-liquid separation mechanism which can separate the gas and the liquid, simultaneously, the pressure between two separation interfaces has linkage to realize the pressure control, in addition, the device is provided with a first copper hollow type component moving conductive mechanism which can enable the internal components to have a conductive function in the moving process, in addition, the device is provided with a piston seal type moving conductor mechanism which can control the pressure in the moving process, and the power on and off functions are realized.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of an environment-friendly device for planting submerged plants according to the present invention;

FIG. 2 is a schematic structural diagram of a gas-liquid separation mechanism installed in a sealed manner inside the container for planting submerged plants in an environment-friendly manner;

FIG. 3 is a schematic structural view of a first copper hollow type part moving conductive mechanism in the environment-friendly submerged plant planting device of the present invention;

FIG. 4 is a schematic structural view of a piston-sealed type moving conductor mechanism in an environment-friendly device for planting submerged plants according to the present invention;

in the figure: 1, a breeding shell, 2, a liquid storage space, 3, a main drainage hole, 4, a drainage pipeline connecting port, 5, a main liquid inlet hole, 6, a water inlet pipeline connecting port, 7, a cylindrical shell structure, 8, a cylindrical hollow structure, 9, an internal seal installation type gas-liquid separating mechanism, 91, an annular shell for the internal seal installation type gas-liquid separating mechanism, 92, a central hole for the internal seal installation type gas-liquid separating mechanism, 93, a folded gas mold for the internal seal installation type gas-liquid separating mechanism, 10, a main air flow hole, 11, a component installation space, 12, a main air inlet hole, 13, a valve core, 14, an auxiliary component installation hole, 15, a first copper hollow component moving conductive mechanism, 151, a first copper hollow component moving conductive mechanism, 152, a first copper hollow component moving conductive mechanism, 153, a first copper hollow component moving conductive mechanism, a bottom cone guide moving space, 154, a top taper guide movement space for the first copper hollow type member moving conductive mechanism, 155, a lead wire mounting hole for the first copper hollow type member moving conductive mechanism, 16, a second copper hollow type member moving conductive mechanism, 17, a third copper hollow type member moving conductive mechanism, 18, a piston seal type moving conductor mechanism, 181, a piston valve for the piston seal type moving conductor mechanism, 182, a taper guide movement structure for the piston seal type moving conductor mechanism, 183, a first annular groove structure for the piston seal type moving conductor mechanism, 184, a second annular groove structure for the piston seal type moving conductor mechanism, 185, a first seal ring for the piston seal type moving conductor mechanism, 186, a second seal ring for the piston seal type moving conductor mechanism, 187, a copper cylinder for the piston seal type moving conductor mechanism, 188, a bottom branched copper rod structure for the piston seal type moving conductor mechanism, 189, a piston sealing type moving conductor mechanism uses a top branch copper rod structure 19, a main spiral spring 20, a first lead wire 21, a second lead wire 22, a third lead wire 23, a first binding post 24, a second binding post 25, a third binding post 26, an air reserved space 27 and an air flowing hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: comprises a breeding shell 1, a liquid storage space 2 is arranged in the center of the breeding shell 1, a main liquid discharge hole 3 communicated with the bottom of one side of the liquid storage space 2 is arranged in the breeding shell 1, a water discharge pipeline connecting port 4 is arranged at the end part of the main liquid discharge hole 3, a main liquid inlet hole 5 communicated with the top of one side of the liquid storage space 2 is arranged in the breeding shell 1, a water inlet pipeline connecting port 6 is arranged at one end of the main liquid inlet hole 5, a cylindrical shell structure 7 of an integrated structure is arranged at the bottom of one side of the main liquid discharge hole 3 of the breeding shell 1, a cylindrical hollow structure 8 is arranged in the cylindrical shell structure 7, an internal seal installation type gas-liquid separation mechanism 9 is arranged in the cylindrical hollow structure 8, a main air flow hole 10 is arranged at the center of one end face of the cylindrical hollow structure 8, and a component installation space 11 is arranged at one end of the main air flow, a main air inlet hole 12 communicating an external space and a component mounting space 11 is arranged in the breeding shell 1, an air valve core 13 is arranged in the main air inlet hole 12, an auxiliary component mounting hole 14 is arranged at the top of the component mounting space 11, the breeding shell 1 is provided with a first copper hollow component moving conductive mechanism 15, a second copper hollow component moving conductive mechanism 16 and a third copper hollow component moving conductive mechanism 17 from bottom to top in sequence on the side surface of the auxiliary component mounting hole 14, an air reserved space 26 is arranged at the top of the auxiliary component mounting hole 14, an air flowing hole 27 communicating the external space is arranged on the side surface of the air reserved space 26, a piston sealing type moving conductor mechanism 18 is arranged in the auxiliary component mounting hole 14, and a main spiral spring 19 in a stretching state is arranged between the bottom of the piston sealing type moving conductor mechanism 18 and the bottom surface of the component mounting space 11, the first copper hollow type component moving conductive mechanism 15, the second copper hollow type component moving conductive mechanism 16 and the third copper hollow type component moving conductive mechanism 17 are respectively connected with a first binding post 23, a second binding post 24 and a third binding post 25 through a first lead 20, a second lead 21 and a third lead 22, and one end of the first binding post 23, the second binding post 24 and the third binding post 25 is installed on the side surface of the breeding shell 1.

Referring to fig. 2, the internal seal-mounted gas-liquid separation mechanism 9 includes an annular housing 91 for the internal seal-mounted gas-liquid separation mechanism, a center hole 92 for the internal seal-mounted gas-liquid separation mechanism, and a folded gas mold 93 for the internal seal-mounted gas-liquid separation mechanism; a center hole 92 for an internal seal-mounted gas-liquid separation mechanism is provided in the center inside the annular housing 91 for an internal seal-mounted gas-liquid separation mechanism, and a folded gas mold 93 for an internal seal-mounted gas-liquid separation mechanism is mounted inside the center hole 92 for the internal seal-mounted gas-liquid separation mechanism 91 for an internal seal-mounted gas-liquid separation mechanism; the annular housing 91 for the internal seal installation type gas-liquid separation mechanism is installed inside the cylindrical hollow structure 8.

Referring to fig. 3, the first copper hollow type member moving conductive mechanism 15 includes a first copper annular body 151 for a first copper hollow type member moving conductive mechanism, a first copper hollow type member moving conductive mechanism moving hole 152, a first copper hollow type member moving conductive mechanism bottom conical guide moving space 153, a first copper hollow type member moving conductive mechanism top conical guide moving space 154, and a first copper hollow type member moving conductive mechanism lead wire mounting hole 155; a first copper hollow type part moving conductive mechanism moving hole 152 is formed in the center of the inner part of the first copper hollow type part moving conductive mechanism copper annular body 151, a first copper hollow type part moving conductive mechanism bottom conical guide moving space 153 and a first copper hollow type part moving conductive mechanism top conical guide moving space 154 are respectively formed in the inner part of the first copper hollow type part moving conductive mechanism copper annular body 151 at the bottom end and the top end of the first copper hollow type part moving conductive mechanism moving hole 152, and a first copper hollow type part moving conductive mechanism lead mounting hole 155 is formed in the center of the outer side of the first copper hollow type part moving conductive mechanism copper annular body 151; the structure radius of the first copper hollow type component moving conductive mechanism moving hole 152 is the same as that of the sub-component mounting hole 14, and a bare wire head at one end of the first binding post 20 is mounted in the first copper hollow type component moving conductive mechanism lead mounting hole 155; the first copper hollow type component moving conductive mechanism 15, the second copper hollow type component moving conductive mechanism 16 and the third copper hollow type component moving conductive mechanism 17 are the same in structure and size; the conductor mounting holes in the second copper hollow type component moving conductive mechanism 16 and the third copper hollow type component moving conductive mechanism 17 are respectively provided with bare wire heads at one ends of a second binding post 24 and a third binding post 25.

Referring to fig. 4, the piston-sealed moving conductor mechanism 18 includes a piston valve 181 for the piston-sealed moving conductor mechanism, a tapered guide moving structure 182 for the piston-sealed moving conductor mechanism, a first annular groove structure 183 for the piston-sealed moving conductor mechanism, a second annular groove structure 184 for the piston-sealed moving conductor mechanism, a first seal ring 185 for the piston-sealed moving conductor mechanism, a second seal ring 186 for the piston-sealed moving conductor mechanism, a copper cylinder 187 for the piston-sealed moving conductor mechanism, a bottom branched copper rod structure 188 for the piston-sealed moving conductor mechanism, and a top branched copper rod structure 189 for the piston-sealed moving conductor mechanism; one end of the piston valve 181 for the piston sealed type moving conductor mechanism is provided with a conical guide moving structure 182 for the piston sealed type moving conductor mechanism, which is integrated with the conical guide moving structure, the upper and lower parts of the side surface of the piston valve 181 for the piston sealed type moving conductor mechanism are provided with a first annular groove structure 183 for the piston sealed type moving conductor mechanism and a second annular groove structure 184 for the piston sealed type moving conductor mechanism, and the first annular groove structure 183 for the piston sealed type moving conductor mechanism and the second annular groove structure 184 for the piston sealed type moving conductor mechanism are internally provided with a first sealing ring 185 for the piston sealed type moving conductor mechanism and a second sealing ring 186 for the piston sealed type moving conductor mechanism respectively, the center of the interior of the piston valve 181 for the piston sealed type moving conductor mechanism is provided with a copper cylinder 187 for the piston sealed type moving conductor mechanism, the bottom end and the top end of the copper cylinder 187 for the piston sealed moving conductor mechanism are respectively provided with a bottom branch copper rod structure 188 for the piston sealed moving conductor mechanism and a top branch copper rod structure 189 for the piston sealed moving conductor mechanism, which are of integrated structures, and rod bodies at two ends of the bottom branch copper rod structure 188 for the piston sealed moving conductor mechanism and the top branch copper rod structure 189 for the piston sealed moving conductor mechanism are positioned outside the side surface of the piston valve 181 for the piston sealed moving conductor mechanism; the bottom branch copper rod structure 188 for the piston-sealed moving conductor mechanism and the top branch copper rod structure 189 for the piston-sealed moving conductor mechanism have the same transverse length and the same diameter as the moving hole 152 for the first copper hollow member moving conductive mechanism, and the longitudinal distance between the bottom branch copper rod structure 188 for the piston-sealed moving conductor mechanism and the top branch copper rod structure 189 for the piston-sealed moving conductor mechanism is larger than the distance between two adjacent mechanisms in the first copper hollow member moving conductive mechanism 15, the second copper hollow member moving conductive mechanism 16 and the third copper hollow member moving conductive mechanism 17.

The specific use mode is as follows: in the working process of the invention, two water pumps are used, namely a first water pump and a second water pump, a water outlet of the first water pump is connected with a main liquid inlet connecting port 6, a water inlet of the second water pump is communicated with a main liquid outlet connecting port 4, a lead connected with a positive electrode of a power supply is disconnected from the middle, the disconnected lead generates two ends, a bare wire head at one end is arranged on the surface of a first binding post 23, a bare wire head at the other end is arranged on the surface of a second binding post 24, similarly, the lead connected with the positive electrode of the power supply is disconnected from the middle, the disconnected lead generates two ends, the bare wire head at one end is arranged on the surface of a third binding post 25, the bare wire head at the other end is arranged on the surface of the second binding post 24, then a gas pump is used for injecting high-pressure air into the valve core 13, so that the air pressure of the high-pressure air is counteracted with the pulling force of a main spiral spring 19, the piston-sealed type moving conductor mechanism 18 can be located at the transverse center portion inside the second copper hollow type member moving conductor mechanism 16, at this time, after the air pressure of the high-pressure air and the pulling force of the main coil spring 19 are offset, the remaining air pressure is the liquid pressure which can be controlled at this time, when the liquid pressure is greater than the remaining gas pressure, the internal seal-mounted type gas-liquid separation mechanism moves to one side of the air by the folded gas die 93, the air pressure inside the space increases, so that the piston-sealed type moving conductor mechanism 18 moves upward, once the piston-sealed type moving conductor mechanism contacts the second copper hollow type member moving conductor mechanism 16 and the third copper hollow type member moving conductor mechanism 17 respectively by the bottom branched copper rod structure 188 and the top branched copper rod structure 189, the second terminal 24 and the third terminal 25 are communicated, make the work of second water pump, with the inside liquid discharge of liquid storage space 2, like the same reason, first water pump pours into liquid into, and finally, plants benthophyte in liquid storage space 2 bottoms, pours into quantitative liquid into again, can breed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a device of submerged plant is planted to environment-friendly, includes breeds shell (1), its characterized in that: the cultivation shell comprises a cultivation shell (1), a liquid storage space (2) is arranged at the center of the cultivation shell (1), a main liquid drainage hole (3) communicated with the bottom of one side of the liquid storage space (2) is formed in the cultivation shell (1), a water drainage pipeline connecting port (4) is installed at the end part of the main liquid drainage hole (3), a main liquid inlet hole (5) communicated with the top of one side of the liquid storage space (2) is formed in the cultivation shell (1), a water inlet pipeline connecting port (6) is formed in one end of the main liquid inlet hole (5), a cylindrical shell structure (7) of an integrated structure is arranged at the bottom of one side of the main liquid drainage hole (3) of the cultivation shell (1), a cylindrical hollow structure (8) is arranged in the cylindrical shell structure (7), and an internal sealing installation type gas-liquid separation mechanism (9) is installed in the cylindrical hollow structure (, a main air flow hole (10) is formed in the center of one end face of the cylindrical hollow structure (8), a component installation space (11) is formed in one end of the main air flow hole (10), a main air inlet hole (12) communicated with the external space and the component installation space (11) is formed in the breeding shell (1), an air valve core (13) is installed in the main air inlet hole (12), an auxiliary component installation hole (14) is formed in the top of the component installation space (11), a first copper hollow component moving conductive mechanism (15), a second copper hollow component moving conductive mechanism (16) and a third copper hollow component moving conductive mechanism (17) are sequentially installed on the side face of the auxiliary component installation hole (14) of the breeding shell (1) from bottom to top, an air reserved space (26) is formed in the top of the auxiliary component installation hole (14), the side surface of the air reserved space (26) is provided with an air flowing hole (27) communicated with the external space, a piston sealing type moving conductor mechanism (18) is arranged in the auxiliary component mounting hole (14), and a main coil spring (19) in a stretched state is installed between the bottom of the piston-sealed moving conductor means (18) and the bottom surface of the component mounting space (11), the first copper hollow type component moving conductive mechanism (15), the second copper hollow type component moving conductive mechanism (16) and the third copper hollow type component moving conductive mechanism (17) are respectively connected with a first binding post (23), a second binding post (24) and a third binding post (25) through a first lead (20), a second lead (21) and a third lead (22), and one ends of the first binding post (23), the second binding post (24) and the third binding post (25) are arranged on the side surface of the breeding shell (1).

2. The environment-friendly device for planting submerged plants according to claim 1, wherein: the internal seal installation type gas-liquid separation mechanism (9) comprises an annular shell (91) for the internal seal installation type gas-liquid separation mechanism, a central hole (92) for the internal seal installation type gas-liquid separation mechanism and a folding gas die (93) for the internal seal installation type gas-liquid separation mechanism; the center inside the annular housing (91) for the internal seal installation type gas-liquid separation mechanism is provided with a center hole (92) for the internal seal installation type gas-liquid separation mechanism, and the annular housing (91) for the internal seal installation type gas-liquid separation mechanism is internally provided with a folded gas die (93) for the internal seal installation type gas-liquid separation mechanism, wherein the folded gas die is positioned inside the center hole (92) for the internal seal installation type gas-liquid separation mechanism.

3. The environment-friendly device for planting submerged plants according to claim 2, wherein: the internal seal installation type gas-liquid separation mechanism is installed in the cylindrical hollow structure (8) through an annular shell (91).

4. The environment-friendly device for planting submerged plants according to claim 1, wherein: the first hollow copper component moving and conducting mechanism (15) comprises a copper annular body (151) for the first hollow copper component moving and conducting mechanism, a moving hole (152) for the first hollow copper component moving and conducting mechanism, a bottom conical guide moving space (153) for the first hollow copper component moving and conducting mechanism, a top conical guide moving space (154) for the first hollow copper component moving and conducting mechanism and a lead mounting hole (155) for the first hollow copper component moving and conducting mechanism; the hollow type part of first copper removes that conductive mechanism removes with copper ring body (151) inside center is provided with hollow type part of first copper and removes conductive mechanism and use removal hole (152), the hollow type part of first copper removes that conductive mechanism uses the inside of copper ring body (151) and is lieing in the hollow type part of first copper removes the bottom and the top that conductive mechanism used removal hole (152) are provided with hollow type part of first copper respectively and removes movable space (153) with the toper of bottom guide and the hollow type part of first copper and remove conductive mechanism and use top toper guide movable space (154), hollow type part of first copper removes conductive mechanism and use wire mounting hole (155) with hollow type part of first copper removal conductive mechanism with copper ring body (151) outside center.

5. The environment-friendly device for planting submerged plants according to claim 4, wherein: the structure radius of the moving hole (152) for the first copper hollow type component moving conductive mechanism is the same as that of the auxiliary component mounting hole (14), and a bare wire head at one end of a first binding post (23) is mounted inside the wire mounting hole (155) for the first copper hollow type component moving conductive mechanism.

6. The environment-friendly device for planting submerged plants according to claim 5, wherein: the first copper hollow type component moving conductive mechanism (15), the second copper hollow type component moving conductive mechanism (16) and the third copper hollow type component moving conductive mechanism (17) are the same in structure and size.

7. The environment-friendly device for planting submerged plants according to claim 5, wherein: and bare wire heads at one ends of a second binding post (24) and a third binding post (25) are respectively installed in wire installation holes in the second copper hollow type component moving conductive mechanism (16) and the third copper hollow type component moving conductive mechanism (17).

8. The environment-friendly device for planting submerged plants according to claim 1, wherein: the piston sealing type moving conductor mechanism (18) comprises a piston valve (181) for the piston sealing type moving conductor mechanism, a conical guide moving structure (182) for the piston sealing type moving conductor mechanism, a first annular groove structure (183) for the piston sealing type moving conductor mechanism, a second annular groove structure (184) for the piston sealing type moving conductor mechanism, a first sealing ring (185) for the piston sealing type moving conductor mechanism, a second sealing ring (186) for the piston sealing type moving conductor mechanism, a copper cylinder (187) for the piston sealing type moving conductor mechanism, a bottom branch copper rod structure (188) for the piston sealing type moving conductor mechanism and a top branch copper rod structure (189) for the piston sealing type moving conductor mechanism; one end of a piston valve (181) for the piston sealed moving conductor mechanism is provided with a conical guide moving structure (182) for the piston sealed moving conductor mechanism, the conical guide moving structure is integrated with the conical guide moving structure, the upper and lower parts of the side surface of the piston valve (181) for the piston sealed moving conductor mechanism are respectively provided with a first annular groove structure (183) for the piston sealed moving conductor mechanism and a second annular groove structure (184) for the piston sealed moving conductor mechanism, a first sealing ring (185) for the piston sealed moving conductor mechanism and a second sealing ring (186) for the piston sealed moving conductor mechanism are respectively arranged in the first annular groove structure (183) for the piston sealed moving conductor mechanism and the second annular groove structure (184) for the piston sealed moving conductor mechanism, a copper cylinder (187) for the piston sealed moving conductor mechanism is arranged in the center of the piston valve (181) for the piston sealed moving conductor mechanism, the bottom end and the top end of the copper cylinder (187) for the piston sealed moving conductor mechanism are respectively provided with a bottom branch copper rod structure (188) for the piston sealed moving conductor mechanism and a top branch copper rod structure (189) for the piston sealed moving conductor mechanism, which are of integrated structures, and rod bodies at two ends of the bottom branch copper rod structure (188) for the piston sealed moving conductor mechanism and the top branch copper rod structure (189) for the piston sealed moving conductor mechanism are positioned outside the side face of the piston valve (181) for the piston sealed moving conductor mechanism.

9. The environment-friendly device for planting submerged plants according to claim 8, wherein: the transverse lengths of the bottom branch copper rod structure (188) for the piston seal type moving conductor mechanism and the top branch copper rod structure (189) for the piston seal type moving conductor mechanism are the same, and the transverse lengths of the bottom branch copper rod structure (188) and the top branch copper rod structure (189) for the piston seal type moving conductor mechanism are the same as the diameter of the moving hole (152) for the first copper hollow type component moving conductive mechanism, and the longitudinal distance between the bottom branch copper rod structure (188) for the piston seal type moving conductor mechanism and the top branch copper rod structure (189) for the piston seal type moving conductor mechanism is larger than the distance between two adjacent mechanisms in the first copper hollow type component moving conductive mechanism (15), the second copper hollow type component moving conductive mechanism (16) and the third copper hollow type component moving conductive mechanism (17).

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