TWI700265B - Fish and vegetable symbiosis structure to promote plant growth - Google Patents

Abstract

A fish-vegetable symbiosis structure for promoting plant growth, comprising a culturing box with a pipeline equipped with a stirring device, a magnetized filter device and a biochemical ceramic filter; the inflatable planting unit is installed above the cultivating box; In this invention, a stirring device, a magnetized filter device, and a biochemical ceramic filter device are respectively arranged at a predetermined section position of the pipeline, so that when the conveying liquid flows through the magnetized filter device and the biochemical ceramic filter device, By filtering and oscillating, the transported liquid can achieve the micronization of water molecules, and achieve the advantages of increased oxygen content and mineral content to promote plant growth; furthermore, the inflatable planting unit of the present invention can be applied to any similar size breeding When the box body is used, when the inflatable planting unit is not in use, the air can be vented from the inflatable nozzle, so that the inflatable planting unit can be shrunk into a roll to facilitate storage or cleaning.

Description

Fish and vegetable symbiosis structure to promote plant growth

The present invention is related to a fish and vegetable symbiosis structure, and more specifically refers to a fish and vegetable symbiosis structure that promotes plant growth and is easy to store.

According to this, in order to cultivate and cultivate the various types of animals and plants separately, the general flower and fish cultivation industry needs to divide the flower planting block and fish breeding block on their own land. However, each breeding and planting needs to be cultivated For environmental planning, for example, fish need to be placed in fish ponds, and flowers need to be placed in places with external light. In order to plant and breed fish separately, the industry needs to occupy a separate area. Cultivation and planting of the aforementioned flowers and fish, etc., in turn, requires a larger land to be divided to achieve the purpose of such breeding and planting.

In view of this, a lot of symbiosis structures of fish and vegetables have been published. However, when the conventional fish and vegetables symbiosis structure is supplied to plants by aquaculture liquid, the water molecules and internal fertilizer impurities are not uniformly refined, so it is watered on the plants. It is difficult to absorb its nutrients by plants and plants. Furthermore, the conventional fish-vegetable symbiosis planting device is often too large and takes up space, and it is difficult to store and clean when not in use, which may cause troubles for users.

In view of this, in order to improve the conventional fish-vegetable symbiosis structure in the prior art, the water molecules and internal fertilizer impurities are not uniformly refined, and it is difficult for the plants to absorb their nutrients when watering them. Vegetable symbiosis planting devices are often too large and occupy space, and are difficult to store and clean when not in use, which may cause problems for users. For this reason, the present invention provides a fish and vegetable symbiosis structure that promotes plant growth, including A cultivating tank, a water pump is arranged at a predetermined position on the outer side of the cultivating tank, the pump is connected to the inside of the cultivating tank with a suction pipe, and the other end of the water pump is connected to the position of the suction pipe with a pipeline. The predetermined section of the road is equipped with a stirring device, a magnetized filter device and a biochemical ceramic filter device, and the end of the pipeline is provided with a water outlet; an inflatable planting unit is installed above the breeding box, and Corresponding to the water outlet end of the pipeline, the inflatable planting unit includes an inflatable bag in the form of a shelf and an air-tight inflatable chamber formed inside. The inflatable bag is made of nylon material, The inflatable planting unit is provided with an inflatable nozzle connected to the inflatable chamber at a predetermined position. The inflatable nozzle inflates the inflatable chamber relative to the inflatable bag to support the structure to form an inflatable in the form of a shelf Planting unit, the top edge of the inflatable planting unit in the form of a shelf is provided with multiple planting chambers;

In this way, the present invention uses a stirring device, a magnetized filter device and a biochemical ceramic filter device to be respectively provided at a predetermined section position of the pipeline, so that when the conveying liquid flows through the magnetized filter device and the biochemical ceramic filter device , By filtering and oscillating, the transported liquid can achieve the micronization of water molecules, and achieve the advantages of increased oxygen content and mineral content to promote plant growth; furthermore, the inflatable planting unit of the present invention can be applied to any similar size When the inflatable planting unit is not in use, it can be deflated from the inflatable mouth, so that the inflatable planting unit can be shrunk into a roll for storage or cleaning.

In order to enable your reviewer to have a better understanding and recognition of the features and characteristics of the present invention, the following preferred embodiments are listed and illustrated in conjunction with the drawings as follows; please refer to Figures 1 to 4, which is a preferred embodiment of the present invention The fish-vegetable symbiosis structure for promoting plant growth provided by the embodiments mainly includes:

A breeding tank (20) in which aquatic organisms (22) with multiple fishes are cultured in a liquid state. The excrement of the aquatic organisms (22) makes the internal water form a nutrient liquid (21). The breeding tank (20) A water pump (23) is provided at a predetermined position on the outer side. The water pump (23) is connected to the inside of the breeding tank (20) and has a suction pipe (24). The suction pipe (24) is used to suck the nutrient liquid ( 21), and the other end of the water pump (23) is connected to the suction pipe (24) with a pipe (25), so that the sucked nutrient liquid (21) is transported out through the pipe (25), wherein The predetermined section of the pipeline (25) is provided with a stirring device (30), a magnetized filter device (40) and a biochemical ceramic filter device (50), and the end of the pipeline (25) is provided with a water outlet (26), wherein the stirring device (30) includes a motor shaft (31) and a plurality of stirring blades (32) with a shaft arranged on the motor shaft (31), and the magnetized filter device (40) is provided with a plurality of Neodymium iron boron magnet (41) (NdFeB magnet), and the biochemical ceramic filter device (50) is filled with a plurality of particles of zirconium dioxide (51) (Zirconium dioxide), a plurality of particles of titanium dioxide (52) (Titanium dioxide) ) And plural particles of yttrium trioxide (53) (Yttrium(III) oxide), when the liquid (S) inside the pipeline (25) passes through the stirring device (30), the stirring blade ( 32) Stir the impurities in the liquid with the conveying liquid (S) uniformly to make a preliminary water molecule refinement, and then when the conveying liquid (S) flows through the magnetized filter device (40) and the biochemical ceramic filter device (50) , By filtering and oscillating, the transported liquid (S) can achieve the miniaturization of water molecules, and achieve the advantages of increased oxygen content and mineral content;

An inflatable planting unit (10) is installed above the breeding box (20). The installation method can be fixed by gluing and bonding, and corresponds to the water outlet (26) of the pipeline (25). The inflatable planting unit (10) is composed of an inflatable bag (A) in the form of a shelf and an air-tight inflatable chamber (B) formed inside. The water outlet (26) is arranged from top to bottom. There is a water-receiving funnel (11) so that the water flowing from the water outlet (26) can cover the inflatable planting unit (10), and the inflatable bag (A) is made of nylon material, The inflatable planting unit (10) is provided with an inflation nozzle (D) connected to the inflation chamber (B) at a predetermined position. The inflation nozzle (D) is inflated to make the inflatable chamber (B) relative to the inflatable bag. (A) Expand to form an inflatable planting unit (10) in the form of a shelf by supporting it. The top edge of the inflatable planting unit (10) in the form of a shelf is provided with multiple planting chambers (C) , There is a plant (N) planted in the planting room (C); when the inflatable planting unit (10) is not in use, the air-filling nozzle (D) can be deflated to make the inflatable planting unit ( 10) Shrink into rolls to facilitate storage or cleaning. Then one side of the inflatable planting unit (10) is further connected with a vertical inflatable support frame (64), and the top of the inflatable support frame (64) is connected with a horizontal inflatable lighting lamp holder (62), The inflatable lighting lamp holder (62) is provided with a plurality of flexible optical fiber devices (63) at a position relative to the inflatable planting unit (10), the inflatable support frame (64), and the inflatable lighting lamp holder (62) And the flexible optical fiber device (63) can also be contracted after venting to facilitate storage in a roll. The flexible optical fiber device (63) is electrically connected to a wire (61), and the other end of the wire (61) And coupled to a power source (60).

Therefore, the key point for the fish-vegetable symbiosis structure of the present invention to promote plant growth as a technique that can improve conventional use is:

First: In the present invention, a stirring device (30), a magnetized filter device (40) and a bio-ceramic filter device (50) are respectively arranged in the predetermined section of the pipeline (25), so that the conveying liquid ( S) When flowing through the magnetized filter device (40) and the biochemical ceramic filter device (50), the transported liquid (S) can achieve the micronization of water molecules by filtering and shaking, and achieve the increase of oxygen content and mineral content Improve to promote the advantages of plant growth;

Second: The inflatable planting unit (10) of the present invention can be used in any breeding box (20) of similar size. When the inflatable planting unit (10) is not in use, it can deflate from the inflatable nozzle (D) , Make the inflatable planting unit (10) shrink into a roll to facilitate storage or cleaning.

The above disclosures are only the preferred embodiments provided by the present invention, and are not intended to limit the scope of implementation of the present invention. All the equivalent changes made by those skilled in the art based on the present invention shall belong to the present invention. The scope of coverage.

[Part of the invention] 10: Inflatable planting unit 11: Water funnel 20: Breeding box 21: Nutrient Liquid 22: Aquatic creatures 23: water pump 24: pumping pipe 25: pipeline 26: Outlet 30: Stirring device 31: Motor shaft 32: mixing blade 40: Magnetized filter device 41: Neodymium iron boron magnet 50: Biochemical ceramic filter device 51: Zirconium dioxide 52: Titanium dioxide 53: Yttrium trioxide 60: Power source 61: Wire 62: Inflatable lighting lamp holder 63: Flexible optical fiber device 64: Inflatable support frame A: Inflatable bag B: Inflatable room C: Planting room D: Inflatable mouth N: Plants S: transport liquid

Figure 1 is a perspective view of the present invention. Figure 2 is a sectional view of the structure of the present invention. Figure 3 is a partial enlarged cross-sectional view of the inflatable planting unit of the present invention. Figure 4 is a cross-sectional view of the relative pipelines of the stirring device, the magnetized filter device, and the biochemical ceramic filter device of the present invention.

10: Inflatable planting unit

11: Water funnel

20: Breeding box

21: Nutrient Liquid

22: Aquatic creatures

23: water pump

24: pumping pipe

25: pipeline

26: Outlet

30: Stirring device

40: Magnetized filter device

50: Biochemical ceramic filter device

60: Power source

61: Wire

62: Inflatable lighting lamp holder

63: Flexible optical fiber device

64: Inflatable support frame

A: Inflatable bag

D: Inflatable mouth

N: Plants

S: transport liquid

Claims (5)

A fish-vegetable symbiosis structure that promotes plant growth, including: A cultivating tank, a water pump is arranged at a predetermined position on the outer side of the cultivating tank, the pump is connected to the inside of the cultivating tank, and there is a suction pipe, and the other end of the water pump is connected to the position of the suction pipe. A stirring device, a magnetized filter device and a biochemical ceramic filter device are respectively provided at the predetermined section of the road, and a water outlet is provided at the end of the pipeline; An inflatable planting unit is located above the cultivating box and corresponding to the water outlet end of the pipeline. The inflatable planting unit includes an inflatable bag in the form of a shelf and an airtight inflatable chamber formed inside The inflatable bag is made of nylon material, a predetermined position of the inflatable planting unit is provided with an inflatable mouth connected to the inflatable chamber, and the inflatable mouth is inflated to make the inflatable chamber relative to the inflatable bag The bag is expanded to form an inflatable planting unit in the form of a shelf. The top edge of the inflatable planting unit in the form of a shelf is provided with a plurality of planting chambers; when the inflatable planting unit is not in use The air can be deflated from the inflatable mouth, so that the inflatable planting unit can be shrunk into a roll to facilitate storage or cleaning. According to the fish-vegetable symbiosis structure for promoting plant growth according to item 1 of the scope of patent application, wherein one side of the inflatable planting unit is further connected with a vertical inflatable support frame, and the top of the inflatable support frame is connected with a horizontal The inflatable lighting lamp holder is provided with a plurality of flexible optical fiber devices relative to the inflatable planting unit. The flexible optical fiber device is electrically connected to a wire, and the other end of the wire is coupled to For a source of electricity. According to the fish-vegetable symbiosis structure for promoting plant growth according to the first item of the patent application, the stirring device includes a motor shaft and a plurality of stirring blades with a shaft arranged on the motor shaft. According to the fish-vegetable symbiosis structure for promoting plant growth described in item 1 of the scope of patent application, a plurality of neodymium iron boron magnets (NdFeB magnets) are arranged inside the magnetized filter device. According to the fish-vegetable symbiosis structure for promoting plant growth described in item 1 of the scope of patent application, the biochemical ceramic filter device is filled with plural particles of zirconium dioxide (Zirconium dioxide), plural particles of titanium dioxide (Titanium dioxide) and Yttrium(III) oxide in plural granular form.

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