CN111646587A - Aquatic plant is bred with throwing material formula water source circulator - Google Patents

Abstract

The invention discloses a feeding type water source circulator for aquatic plant cultivation, which comprises a bottom mounting base plate, wherein a longitudinal adjusting rod is mounted in the center of the upper surface of the bottom mounting base plate, and a main part mounting plate is mounted at the top end of the longitudinal adjusting rod. The invention utilizes the driving motor to drive the turbine to generate water source circulation, and then utilizes strong water flow impact force generated by the turbine to drive the internal liquid type trace elements to realize slow addition, the trace elements added into the water flow return to the water source entering part again to be mixed with the water source, and enter the rotating part of the turbine in the flowing process of the mixed liquid, thereby realizing the rapid mixing and stirring function, further discharging to the edge of the cultivation field, and under the continuous work of the driving motor, the water source in the cultivation field can realize the slow circulation process, thereby leading the trace elements to be uniformly distributed in the water source and improving the growth rate of aquatic plants.

Description

Aquatic plant is bred with throwing material formula water source circulator

Technical Field

The invention relates to the technical field of aquatic plant cultivation, in particular to a feeding type water source circulator for aquatic plant cultivation.

Background

At present, in an aquatic plant culture place, in order to improve the growth environment of aquatic plants, trace elements are added into a culture field regularly, but a general adding mode cannot enable the culture field to contain trace elements more uniformly, so that the yield of the plants in the same culture field is low.

Disclosure of Invention

The invention aims to provide a feeding type water source circulator for aquatic plant cultivation, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a feeding type water source circulator for aquatic plant cultivation comprises a bottom mounting base plate, a longitudinal adjusting rod is mounted at the center of the upper surface of the bottom mounting base plate, a main component mounting plate is mounted at the top end of the longitudinal adjusting rod, a driving motor fixing shell is mounted on the upper surface of the main component mounting plate, a driving motor mounting space is arranged inside the driving motor fixing shell, a driving motor is mounted inside the driving motor mounting space, a shaft body mounting shell structure of an integrated structure is arranged at the center of one end surface of the driving motor fixing shell, a turbine mounting shell structure of an integrated structure is arranged at the end part of the shaft body mounting shell structure, an annular main liquid inlet pipeline is arranged at the center of one end surface of the turbine mounting shell structure, a separable filtering mechanism is mounted at the longitudinal bottom end of the main liquid inlet pipeline, a main turbine mounting space communicated with the main liquid inlet pipeline is arranged at the center of the, a motor main shaft of the driving motor penetrates through the shaft body mounting shell structure and extends into the main turbine mounting space, a main turbine is mounted at one end of the interior of the main turbine mounting space, an auxiliary additive discharging pipeline is arranged in the middle section of the main liquid inlet pipeline, a main first liquid discharging pipeline of an integrated structure is arranged at the top of the circumferential side face of the turbine mounting shell structure, a three-way pipeline is mounted at the top end of the main first liquid discharging pipeline, a main second liquid discharging pipeline and an additive storage shell of the integrated structure are respectively arranged at two discharging positions of the three-way pipeline, a main first liquid discharging pipeline hole communicated with the main turbine mounting space is arranged in the main first liquid discharging pipeline, a three-way pipeline hole communicated with the main first liquid discharging pipeline hole is arranged in the three-way pipeline, a main discharging connecting port communicated with one end hole of the three-way pipeline hole is arranged in the main second liquid discharging pipeline, the inside center of additive storage shell is equipped with additive storage space, piston mechanism is cut apart to a liquid drive formula is placed to additive storage space's inside, and piston mechanism is being located the main coil spring of a terminal surface installation tensile state in the tee bend pipeline hole to liquid drive formula, the additive is stored the shell and is equipped with the additive injection pipeline in the side of keeping away from tee bend pipeline hole one end, just an internally mounted injection valve of additive injection pipeline, the additive is stored the shell and is being equipped with an additive discharge pipe in keeping away from tee bend pipeline hole terminal surface center, just an internally mounted liquid nozzle of additive discharge pipe, the discharge tip of additive discharge pipe communicates vice additive discharge pipe through a main connecting tube.

Further, the separable filter mechanism comprises an outer filter shell for the separable filter mechanism, an inner filter shell for the separable filter mechanism, a first filter space for the separable filter mechanism, a second filter space for the separable filter mechanism, a thread structure for the separable filter mechanism, a mounting port for the separable filter mechanism, a liquid through hole for the separable filter mechanism, an annular shell structure for the separable filter mechanism, a first filter hole for the separable filter mechanism, and a second filter hole for the separable filter mechanism; the top end face of the outer filtering shell for the separable filtering mechanism is connected with the inner filtering shell for the separable filtering mechanism through a thread structure for the separable filtering mechanism, the bottom surface edge of the inner filtering shell for the separable filtering mechanism is provided with an annular shell structure for the separable filtering mechanism of an integrated structure, the inner center of the outer filtering shell for the separable filtering mechanism is provided with a first filtering space for the separable filtering mechanism, the annular shell structure for the separable filtering mechanism is positioned in the first filtering space for the separable filtering mechanism, the annular shell structure center for the separable filtering mechanism is provided with a second filtering space for the separable filtering mechanism, the top end of the central part of the inner filtering shell for the separable filtering mechanism is provided with a mounting port for the separable filtering mechanism, and the bottom of the mounting port for the separable filtering mechanism is provided with a liquid through hole for the separable filtering mechanism, the side surfaces of the outer filtering shell for the separable filtering mechanism and the annular shell structure for the separable filtering mechanism are respectively provided with a plurality of first filtering holes for the separable filtering mechanism and second filtering holes for the separable filtering mechanism.

Furthermore, the thread structure for the separable filter mechanism comprises an internal thread structure arranged on the inner side of the outer filter shell for the separable filter mechanism and an external thread structure arranged on the outer side of the inner filter shell for the separable filter mechanism, the internal thread structure and the external thread structure are kneaded together, and the filter gap of the first filter hole for the separable filter mechanism is larger than the filter gap of the second filter hole for the separable filter mechanism.

Further, the separable filtering mechanism is provided with a bottom pipeline body of the main liquid inlet pipeline inside the mounting port.

Further, the liquid-driven split piston mechanism includes a piston plate for the liquid-driven split piston mechanism, a tapered guide movement mechanism for the liquid-driven split piston mechanism, a first annular groove structure for the liquid-driven split piston mechanism, a second annular groove structure for the liquid-driven split piston mechanism, a first annular seal ring for the liquid-driven split piston mechanism, and a second annular seal ring for the liquid-driven split piston mechanism; the liquid drive type piston plate for dividing the piston mechanism is provided with a conical guide moving mechanism for a liquid drive type dividing piston mechanism, the conical guide moving mechanism is of an integrated structure, the side face of the liquid drive type dividing piston plate for dividing the piston mechanism is provided with a first annular groove structure for dividing the piston mechanism and a second annular groove structure for dividing the piston mechanism, which are parallel, and the first annular groove structure for dividing the piston mechanism and the second annular groove structure for dividing the piston mechanism are respectively internally provided with a first annular sealing ring for dividing the piston mechanism and a second annular sealing ring for dividing the piston mechanism.

Further, the piston plate for the liquid-driven split piston mechanism is installed inside the additive storage space.

Further, the tapered guide moving mechanism for the liquid-driven split piston mechanism is directed toward the additive discharge conduit, and a main coil spring in a stretched state is attached to the other end of the piston plate for the liquid-driven split piston mechanism.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the driving motor to drive the turbine to generate water source circulation, and then utilizes strong water flow impact force generated by the turbine to drive the internal liquid type trace elements to realize slow addition, the trace elements added into the water flow return to the water source entering part again to be mixed with the water source, and enter the rotating part of the turbine in the flowing process of the mixed liquid, thereby realizing the rapid mixing and stirring function, further discharging to the edge of the cultivation field, and under the continuous work of the driving motor, the water source in the cultivation field can realize the slow circulation process, thereby leading the trace elements to be uniformly distributed in the water source and improving the growth rate of aquatic plants.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of a feeding type water source circulator for aquatic plant cultivation according to the present invention;

FIG. 2 is a schematic structural diagram of a separable filtering mechanism in a feeding type water source circulator for aquatic plant cultivation according to the present invention;

FIG. 3 is a schematic structural diagram of a liquid-driven split piston mechanism in a feeding type water source circulator for aquatic plant cultivation according to the present invention;

in the figure: 1, a bottom mounting base plate, 2, a longitudinal adjusting rod, 3, a main component mounting plate, 4, a driving motor fixing shell, 5, a driving motor, 6, a driving motor, 7, a shaft body mounting shell structure, 8, a turbine mounting shell structure, 9, a motor spindle, 10, a main turbine mounting space, 11, a main turbine, 12, a main liquid inlet pipeline, 13, a separable filtering mechanism, 131, an outer filtering shell for the separable filtering mechanism, 132, an inner filtering shell for the separable filtering mechanism, 133, a first filtering space for the separable filtering mechanism, 134, a second filtering space for the separable filtering mechanism, 135, a thread structure for the separable filtering mechanism, 136, a mounting port for the separable filtering mechanism, 137, a liquid through hole for the separable filtering mechanism, 138, an annular shell structure for the separable filtering mechanism, 139, and a first filtering hole for the separable filtering mechanism, 1310, a second filter hole for a separable filter mechanism, 14, a main first drain pipe, 15, a main first drain pipe hole, 16, a three-way pipe hole, 17, a main second drain pipe, 18, a main discharge connection port, 19, an additive storage case, 20, an additive storage space, 21, an additive injection pipe, 22, an additive discharge pipe, 23, a liquid-driven split piston mechanism, 231, a piston plate, 234 for a liquid-driven split piston mechanism, a tapered guide movement mechanism, 235 for a liquid-driven split piston mechanism, a first annular groove structure, 236 for a liquid-driven split piston mechanism, a second annular groove structure, 237 for a liquid-driven split piston mechanism, a first annular seal ring, 238 for a liquid-driven split piston mechanism, a second annular seal ring, 24 for a liquid-driven split piston mechanism, a main coil spring, 25, an auxiliary additive discharge pipeline, 26, a main connecting pipeline, 27 and a three-way pipeline.

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: the device comprises a bottom mounting substrate 1, a longitudinal adjusting rod 2 is mounted at the center of the upper surface of the bottom mounting substrate 1, a main component mounting plate 3 is mounted at the top end of the longitudinal adjusting rod 2, a driving motor fixing shell 4 is mounted on the upper surface of the main component mounting plate 3, a driving motor mounting space 5 is arranged inside the driving motor fixing shell 4, a driving motor 5 is mounted inside the driving motor mounting space 5, a shaft body mounting shell structure 7 of an integrated structure is arranged at the center of one end surface of the driving motor fixing shell 4, a turbine mounting shell structure 8 of an integrated structure is arranged at the end part of the shaft body mounting shell structure 7, an annular main liquid inlet pipeline 12 is arranged at the center of one end surface of the turbine mounting shell structure 8, a separable filtering mechanism 13 is mounted at the longitudinal bottom end of the main liquid inlet pipeline 12, and a main turbine mounting space 10 communicated with the main liquid inlet pipeline 12 is arranged at the, a motor spindle 9 of the driving motor 6 penetrates through the shaft body mounting shell structure 7 and extends into the main turbine mounting space 10, a main turbine 11 is mounted at one end inside the main turbine mounting space 10, an auxiliary additive discharge pipeline 25 is arranged in the middle section of the main liquid inlet pipeline 12, a main first liquid discharge pipeline 14 of an integrated structure is arranged at the top of the circumferential side surface of the turbine mounting shell structure 8, a three-way pipeline 27 is mounted at the top end of the main first liquid discharge pipeline 14, a main second liquid discharge pipeline 17 and an additive storage shell 19 of the integrated structure are respectively arranged at two discharge positions of the three-way pipeline 27, a main first liquid discharge pipeline hole 15 communicated with the main turbine mounting space 10 is arranged inside the main first liquid discharge pipeline 14, a three-way pipeline hole 16 communicated with the main first liquid discharge pipeline hole 15 is arranged inside the three-way pipeline 27, a main discharge connection port 18 communicated with one end hole of the three-way pipeline hole 16 is arranged inside the main second liquid discharge pipeline 17, an additive storage space 20 is arranged in the center of the inside of the additive storage housing 19, a liquid-driven split piston mechanism 23 is arranged in the additive storage space 20, a main coil spring 24 in a stretched state is mounted on one end face of the three-way pipe hole 16 of the liquid-driven split piston mechanism 23, an additive injection pipe 21 is arranged on the side face of the additive storage housing 19 far away from one end of the three-way pipe hole 16, an injection valve is mounted in the additive injection pipe 21, an additive discharge pipe 22 is arranged in the center of one end face of the additive storage housing 19 far away from the three-way pipe hole 16, a liquid spray head is mounted in the additive discharge pipe 22, and the discharge end of the additive discharge pipe 22 is communicated with a secondary additive discharge pipe 25 through a main connecting pipe 26.

Referring to fig. 2, the separable filter 13 includes an outer filter housing 131 for the separable filter, an inner filter housing 132 for the separable filter, a first filter space 133 for the separable filter, a second filter space 134 for the separable filter, a screw structure 135 for the separable filter, a mounting port 136 for the separable filter, a liquid passage 137 for the separable filter, an annular housing structure 138 for the separable filter, a first filter hole 139 for the separable filter, and a second filter hole 1310 for the separable filter; the top end face of the outer filter casing 131 for the separable filter mechanism is connected with the inner filter casing 132 through a thread structure 135 for the separable filter mechanism, the bottom surface edge of the inner filter casing 132 for the separable filter mechanism is provided with an annular casing structure 138 for the separable filter mechanism of an integral structure, the inner center of the outer filter casing 131 for the separable filter mechanism is provided with a first filter space 133 for the separable filter mechanism, the annular casing structure 138 for the separable filter mechanism is located inside the first filter space 133 for the separable filter mechanism, the center of the annular casing structure 138 for the separable filter mechanism is provided with a second filter space 134 for the separable filter mechanism, the top end of the central position of the inner filter casing 132 for the separable filter mechanism is provided with a mounting port 136 for the separable filter mechanism, the bottom of the separable filter mechanism mounting port 136 is provided with a separable filter mechanism liquid through hole 137, and the side surfaces of the separable filter mechanism outer filter casing 131 and the separable filter mechanism annular casing structure 138 are respectively provided with a plurality of separable filter mechanism first filter holes 139 and separable filter mechanism second filter holes 1310; the thread structure 135 for the separable filter mechanism includes an internal thread structure provided inside the outer filter housing 131 for the separable filter mechanism and an external thread structure provided outside the inner filter housing 132 for the separable filter mechanism, and the internal thread structure is kneaded with the external thread structure, and a filter gap of the first filter hole 139 for the separable filter mechanism is larger than a filter gap of the second filter hole 1310 for the separable filter mechanism; the separable filter mechanism is provided with a bottom end pipeline body of the main liquid inlet pipeline 12 inside the mounting port 136.

Referring to fig. 3, the liquid-driven split piston mechanism 23 includes a liquid-driven split piston mechanism piston plate 231, a liquid-driven split piston mechanism tapered guide moving mechanism 232, a liquid-driven split piston mechanism first annular groove structure 233, a liquid-driven split piston mechanism second annular groove structure 234, a liquid-driven split piston mechanism first annular seal 235, and a liquid-driven split piston mechanism second annular seal 236; a tapered guide moving mechanism 232 for a liquid-driven split piston mechanism, which is integrated with the piston plate 231 for the liquid-driven split piston mechanism, is arranged at the bottom of the piston plate 231 for the liquid-driven split piston mechanism, a first annular groove structure 233 for the liquid-driven split piston mechanism and a second annular groove structure 234 for the liquid-driven split piston mechanism, which are parallel to each other, are arranged on the side surface of the piston plate 231 for the liquid-driven split piston mechanism, and a first annular seal ring 235 for the liquid-driven split piston mechanism and a second annular seal ring 236 for the liquid-driven split piston mechanism are respectively installed inside the first annular groove structure 233 for the liquid-driven split piston mechanism and the second annular groove structure 234 for the liquid-driven split piston mechanism; the piston plate 231 for the liquid-driven split piston mechanism is mounted inside the additive storage space 20; the tapered guide moving mechanism 232 for the liquid-driven split piston mechanism faces the additive discharge conduit 22, and the main coil spring 24 in a stretched state is attached to the other end of the piston plate 231 for the liquid-driven split piston mechanism.

A liquid spray head is installed inside the additive discharge conduit 22.

The specific use mode is as follows: during the operation of the invention, firstly, the bottom mounting base plate is arranged at one side of the culture field, the longitudinal adjusting rod 2 is adjusted to enable the separable filtering mechanism 13 to be submerged in the liquid of the culture field, then, a water pipe is arranged inside the main discharge connecting port 18, the discharge end of the water pipe is positioned at the other opposite side surface of the culture field, before the operation, trace elements are injected into the inner part of the additive injection pipeline 21 through an injector, at the moment, the driving motor 6 is opened, the main turbine 11 is rapidly rotated under the driving action of the driving motor 6, so that the water source in the culture field is sucked in and is discharged upwards under the action of the main turbine 11, and as the output water source has impact force, part of the impact force can enter the inner part of the additive storage space 20 to push the liquid driving type partition piston mechanism 23, so that the additive is pressed, enter into main inlet conduit 2's inside through main connecting tube 26, through rivers after the initial mixing, reentrant turbine 11 position, through the transport and the stirring effect of turbine 11, discharge to the water pipe of connecting again, because its water source comes from breeding the field, so after working a certain time, can carry out the circulation effect to the water source of breeding the inside in field for breed the inside evenly distributed additive in field.

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 (7)

1. The utility model provides an aquatic plant is bred with throwing material formula water source circulator, includes bottom mounting substrate (1), its characterized in that: the bottom mounting base plate (1) is provided with a longitudinal adjusting rod (2) at the upper surface center, a main component mounting plate (3) is mounted at the top end of the longitudinal adjusting rod (2), a driving motor fixing shell (4) is mounted on the upper surface of the main component mounting plate (3), a driving motor mounting space (5) is arranged inside the driving motor fixing shell (4), a driving motor (5) is mounted inside the driving motor mounting space (5), a shaft body mounting shell structure (7) of an integrated structure is arranged at the center of one end surface of the driving motor fixing shell (4), the end part of the shaft body mounting shell structure (7) is provided with a turbine mounting shell structure (8) of the integrated structure, an annular main liquid inlet pipeline (12) is arranged at the center of one end surface of the turbine mounting shell structure (8), and a separable filtering mechanism (13) is mounted at the longitudinal bottom end of the main liquid inlet pipeline (12, the turbine installation shell structure comprises a turbine installation shell structure (8), wherein a main turbine installation space (10) communicated with a main liquid inlet pipeline (12) is arranged at the inner center of the turbine installation shell structure (8), a motor spindle (9) of a driving motor (6) penetrates through a shaft body installation shell structure (7) and extends to the inner portion of the main turbine installation space (10), a main turbine (11) is installed at one end of the inner portion of the main turbine installation space (10), an auxiliary additive discharge pipeline (25) is arranged in the middle section of the main liquid inlet pipeline (12), a main first liquid discharge pipeline (14) of an integrated structure is arranged at the top of the circumferential side face of the turbine installation shell structure (8), a three-way pipeline (27) is installed at the top end of the main first liquid discharge pipeline (14), main second liquid discharge pipelines (17) and additive storage shells (19) of the integrated structure are respectively arranged at two discharge positions of the three-way pipeline (27), and a main first liquid discharge pipeline hole communicated with the main turbine installation space (10) (15) The additive storage device is characterized in that a three-way pipeline hole (16) communicated with a main first drainage pipeline hole (15) is formed in the three-way pipeline (27), a main discharge connecting port (18) communicated with one end hole of the three-way pipeline hole (16) is formed in the main second drainage pipeline (17), an additive storage space (20) is formed in the center of the inside of the additive storage shell (19), a liquid-driven type partition piston mechanism (23) is placed in the additive storage space (20), the liquid-driven type partition piston mechanism (23) is provided with a main spiral spring (24) in a stretching state on one end face of the three-way pipeline hole (16), an additive injection pipeline (21) is arranged on the side face of one end, far away from the three-way pipeline hole (16), of the additive storage shell (19), an injection valve is arranged inside the additive injection pipeline (21), and an additive discharge additive is arranged in the center of one end face, far away from the three-way pipeline hole (16) A pipe (22), and a liquid spray head is installed inside the additive discharge pipe (22), and the discharge end of the additive discharge pipe (22) is communicated with the auxiliary additive discharge pipe (25) through a main connection pipe (26).

2. The feeding type water source circulator for cultivating the aquatic plants as claimed in claim 1, wherein: the separable filtering mechanism (13) comprises an outer filtering shell (131) for the separable filtering mechanism, an inner filtering shell (132) for the separable filtering mechanism, a first filtering space (133) for the separable filtering mechanism, a second filtering space (134) for the separable filtering mechanism, a thread structure (135) for the separable filtering mechanism, a mounting port (136) for the separable filtering mechanism, a liquid through hole (137) for the separable filtering mechanism, an annular shell structure (138) for the separable filtering mechanism, a first filtering hole (139) for the separable filtering mechanism and a second filtering hole (1310) for the separable filtering mechanism; separable filter element is with outer filter housing (131) top terminal surface to pass through separable filter element and connect through thread structure (135) separable filter element is with interior filter housing (132) separable filter element is with, the basal surface edge of separable filter housing (132) is equipped with annular shell structure (138) for separable filter element of integral type structure for separable filter element of separable filter element is used, the inside center of separable filter element is with outer filter housing (131) is equipped with first filter space (133) for separable filter element, annular shell structure (138) for separable filter element are located the inside of separable filter element with first filter space (133), annular shell structure (138) center for separable filter element is equipped with second filter space (134) for separable filter element, separable filter element is with interior filter housing (132) central point top and is equipped with installation port (134) for separable filter element 136) The bottom of the installation port (136) for the separable filtering mechanism is provided with a liquid through hole (137) for the separable filtering mechanism, and the side surfaces of the outer filtering shell (131) for the separable filtering mechanism and the annular shell structure (138) for the separable filtering mechanism are respectively provided with a plurality of first filtering holes (139) for the separable filtering mechanism and second filtering holes (1310) for the separable filtering mechanism.

3. The feeding type water source circulator for cultivating the aquatic plants as claimed in claim 2, wherein: the thread structure (135) for the separable filter mechanism comprises an internal thread structure arranged on the inner side of an outer filter shell (131) for the separable filter mechanism and an external thread structure arranged on the outer side of an inner filter shell (132) for the separable filter mechanism, the internal thread structure and the external thread structure are kneaded together, and the filtering gap of the first filtering hole (139) for the separable filter mechanism is larger than the filtering gap of the second filtering hole (1310) for the separable filter mechanism.

4. The feeding type water source circulator for cultivating the aquatic plants as claimed in claim 2, wherein: the separable filtering mechanism is provided with a bottom pipeline body of a main liquid inlet pipeline (12) inside the mounting port (136).

5. The feeding type water source circulator for cultivating the aquatic plants as claimed in claim 1, wherein: the liquid-driven split piston mechanism (23) comprises a liquid-driven split piston mechanism piston plate (231), a liquid-driven split piston mechanism conical guide movement mechanism (232), a liquid-driven split piston mechanism first annular groove structure (233), a liquid-driven split piston mechanism second annular groove structure (234), a liquid-driven split piston mechanism first annular seal ring (235), and a liquid-driven split piston mechanism second annular seal ring (236); the liquid drive type piston mechanism is characterized in that a conical guide moving mechanism (232) for a liquid drive type split piston mechanism is arranged at the bottom of a piston plate (231) for the liquid drive type split piston mechanism and is of an integrated structure with the piston plate, a first annular groove structure (233) for the liquid drive type split piston mechanism and a second annular groove structure (234) for the liquid drive type split piston mechanism are arranged on the side face of the piston plate (231) for the liquid drive type split piston mechanism in parallel, and a first annular sealing ring (235) for the liquid drive type split piston mechanism and a second annular sealing ring (236) for the liquid drive type split piston mechanism are respectively arranged in the first annular groove structure (233) for the liquid drive type split piston mechanism and the second annular groove structure (234) for the liquid drive type split piston mechanism.

6. The feeding type water source circulator for cultivating the aquatic plant as recited in claim 5, wherein: the piston plate (231) for the liquid-driven split piston mechanism is mounted inside the additive storage space (20).

7. The feeding type water source circulator for cultivating the aquatic plant as recited in claim 5, wherein: the liquid drive type split piston mechanism is provided with a tapered guide moving mechanism (232) facing the additive discharge pipe (22), and the other end of the liquid drive type split piston mechanism piston plate (231) is provided with a main coil spring (24) in a stretched state.

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