CN112544277B

CN112544277B - Plant planting combined pot and using method

Info

Publication number: CN112544277B
Application number: CN202011393404.3A
Authority: CN
Inventors: 赵志军; 陈吉生; 赵福山; 赵娜
Original assignee: Individual
Current assignee: Chen Jisheng; Zhao Zhijun
Priority date: 2020-12-03
Filing date: 2020-12-03
Publication date: 2022-07-15
Anticipated expiration: 2040-12-03
Also published as: CN112544277A

Abstract

The invention relates to a combined pot for planting plants and a using method thereof, belonging to the technical field of plant planting. The technical scheme is as follows: the planting outer disc (3) is arranged on the planting bottom tray (4), a planting disc center cylinder (6) is arranged in the center of the planting outer disc (3), a planting area is formed between the outer wall of the planting disc center cylinder (6) and the inner wall of the planting outer disc (3), and a planting disc center cover (5) is arranged on the planting disc center cylinder (6); the planting outer tray (3), the planting bottom tray (4), the planting tray center cover (5) and the planting tray center cylinder are arranged concentrically to form a planting combined basin. The invention has the beneficial effects that: the nutrient solution is suitable for family cultivation, is more suitable for large-scale cultivation and production, is convenient to irrigate and is beneficial to the growth of plants; the structure is stable and elegant.

Description

Plant planting combined pot and using method

Technical Field

The invention relates to a combined pot for planting plants and a using method thereof, belonging to the technical field of plant planting.

Background

The common planting modes of plants comprise soil planting, water planting, soilless culture and the like, and no matter what planting mode is, nutrients required by plant growth must be provided, the growth of hydroponic plants depends on roots to absorb the nutrients of culture solution, the roots of hydroponic plants also need to absorb sufficient air to effectively promote the growth of hydroponic plants, in addition, the temperature is also an important factor of plant growth, and the layered planting containers are effective methods for improving the space utilization efficiency. The prior art has the problems that: the structure is unreasonable, the cultivation method is not suitable for family cultivation and large-scale cultivation, and the nutrient solution is inconvenient to irrigate and is not beneficial to the growth of plants; in addition, potted flowers cultivated by garden flowers and trees in the prior art cannot adapt to different environments, the combination of the flower discs is unstable, the flower discs are knocked down and broken by slight collision or vibration, and the flower discs are not attractive.

Disclosure of Invention

The invention aims to provide a plant planting combined pot and a using method, which are not only suitable for family planting, but also more suitable for large-scale cultivation production, convenient for irrigation of nutrient solution and beneficial to the growth of plants; the structure is stable and elegant, and the problems in the prior art are solved.

The technical scheme of the invention is as follows:

a plant planting combined pot comprises a planting outer plate, a planting bottom tray, a planting plate center cover and a planting plate center cylinder; the planting outer disc is arranged on the planting bottom tray, a planting disc center cylinder is arranged in the center of the planting outer disc, a planting area is formed between the outer wall of the planting disc center cylinder and the inner wall of the planting outer disc, and a planting disc center cover is arranged on the planting disc center cylinder; the planting outer tray, the planting bottom tray, the planting tray center cover and the planting tray center cylinder are concentrically arranged to form a planting combined pot.

A plurality of planting cups are placed in the planting area, and plants are planted in the planting cups.

The center of planting the combination basin is equipped with the through-hole, and well core rod passes the through-hole, and same root is well core rod and is passed a plurality of planting combination basins, separates through respective support cover between the adjacent planting combination basin and supports, supports the ways outside well core rod, and a plurality of planting combination basins are separated through supporting the cover on well core rod, wholly constitute multilayer combination basin.

The top of the central rod is provided with a hanging ring, and the multilayer combined basin elevated frame is hung and arranged.

The bottom of the central rod is provided with a bottom support, the bottom support and the central rod are fixed together, the lowest layer of planting combined pot is supported, and the multiple layers of combined pots are placed on the ground or a platform.

The inner wall of the planting outer disc is formed by combining a plurality of semicircular outer arcs, a boss is arranged in the center of the planting outer disc, a planting disc center hole is formed in the boss, and a plurality of leakage holes are formed in the periphery of the planting disc center hole; the bottom of the central cylinder of the planting plate is provided with a plurality of openings; the planting plate center cover is covered on the planting plate center cylinder, a plurality of semicircular inner arcs are arranged on the outer circle of the planting plate center cover, the number of the semicircular inner arcs is the same as that of the semicircular outer arcs of the planting outer plate, the positions of the semicircular inner arcs are matched, a semicircular inner arc and a semicircular outer arc form a circular hole together, and a planting cup is placed in the circular hole; the center of planting the end tray is equipped with a supporting cylinder, supports the bottom of planting the outer dish, is equipped with under a plurality of nutrient solutions the small opening on planting the end tray, and the back of planting the end tray is equipped with a plurality of nutrient solution pipe joints, and every kind plants the small opening under the cup corresponds intercommunication nutrient solution, and the quantity of the small opening equals under nutrient solution pipe joint and the nutrient solution, equalling in the quantity of planting the cup.

The cup cover is buckled on the planting cup and is provided with a nutrient solution hole and a plant growing hole; planting soil is placed in the planting cup, and the growing plants extend out of the plant growing holes to grow; a nutrient solution main pipe is arranged at the upper part of the central rod and is connected with a plurality of nutrient solution pipes, and each nutrient solution pipe is communicated with a nutrient solution hole on the cup cover to provide nutrients for the plants in the planting cup; the planting cups, the cup covers and the nutrition liquid tubes are the same in number.

Nutrient solution between the adjacent planting combination basin passes through the nutrient solution house steward and connects in the multilayer combination basin, and the nutrient solution hole on this layer of bowl cover is connected to the planting combination basin nutrient solution pipe one end of next floor, and the nutrient solution union coupling of upper story planting combination basin is connected to the other end, wholly constitutes a fertilization water supply system who communicates each layer planting combination basin.

The central rod is of a hollow structure, an electric heating rod is arranged in the central rod, the temperature is supplemented for plant growth, and the plant heating system of the multilayer planting combined pot is integrally formed.

The bottom of the planting cup is provided with a cup bottom hole.

The inner wall of the central cylinder of the planting plate is connected with the central hole of the central cylinder through a reinforcing rib.

The center cover of the planting plate is provided with a plurality of drain holes.

A method for using the plant planting combination pot comprises the steps that planting soil is placed in the planting cups, plants are planted in the planting cups, the planting combination pot is hung in an elevated mode through a hanging ring at the top of a center rod, nutrient solution is distributed to each nutrient solution pipe of the uppermost layer of the planting combination pot through a nutrient solution main pipe, enters the planting cups of the planting combination pot respectively, and seeps into a planting outer tray through cup bottom holes in the bottoms of the planting cups; the nutrient solution of the uppermost layer of planting combined basin flows into the planting bottom tray through the leakage hole at the bottom of the planting outer tray, then enters the nutrient solution pipe corresponding to the next layer of planting combined basin through the nutrient solution lower leakage hole on the planting bottom tray and the nutrient solution pipe joint, and the nutrient solution flows from the first layer to the lowermost layer automatically and gradually.

The planted plants grow outwards through the plant growing holes in the cup cover.

When the temperature of the plant growth needs to be increased, the electric heating rod inside the central rod is electrified to supplement heat for the plant growth.

The fertilizer and water supply system is provided with a circulating pump, and nutrient solution comprising water and fertilizer flows out of the lowest layer of planting combined basin and is collected and pumped into a nutrient solution main pipe through the circulating pump for reuse to form a closed-loop fertilizer and water circulating system.

The invention is suitable for various modes of plant cultivation, including soil cultivation and soilless cultivation.

The invention is suitable for cultivating various plants, including fruits, vegetables, flowers and the like.

The invention is especially suitable for planting strawberry plants, the roots of the strawberries are positioned in the planting cup, the stems of the strawberries penetrate through the plant growing holes on the cup cover, and the strawberries are hung outside.

The beneficial effects of the invention are: the nutrient solution is suitable for household cultivation, is more suitable for large-scale cultivation and production, is convenient to irrigate and is beneficial to the growth of plants; the structure is stable and elegant.

Drawings

FIG. 1 is a general schematic diagram of an embodiment of the present invention;

FIG. 2 is a schematic front view of an embodiment of the present invention;

FIG. 3 is a schematic view of a spiral-seeding outer disk according to an embodiment of the present invention;

FIG. 4 is a schematic view of a planting bottom tray according to an embodiment of the present invention;

FIG. 5 is a schematic view of a center cover of a planting tray according to an embodiment of the present invention;

FIG. 6 is a schematic view of a central cylinder of a planting plate according to an embodiment of the present invention;

FIG. 7 is a schematic illustration of a mandrel in accordance with an embodiment of the present invention;

FIG. 8 is a schematic view of a support sleeve according to an embodiment of the present invention;

FIG. 9 is a schematic view of a fertilization water supply system according to an embodiment of the present invention;

FIG. 10 is a schematic view of a planting cup according to an embodiment of the present invention;

FIG. 11 is a top view of a planting cup according to an embodiment of the present invention;

FIG. 12 is a schematic view of the assembled internal structure of the embodiment of the present invention;

FIG. 13 is a schematic view of an embodiment of the present invention;

in the figure: the device comprises a central rod 1, a bottom support 2, a planting outer disc 3, a planting bottom tray 4, a planting disc center cover 5, a planting disc center cylinder 6, a support sleeve 7, a semicircular outer arc 8, a planting disc center hole 9, a nutrient solution pipe joint 10, a support cylinder 11, a reinforcing rib 12, a center cylinder center hole 13, an opening 14, a semicircular inner arc 15, a center mounting hole 16, a hanging ring 17, a cup cover 18, a nutrient solution hole 19, a nutrient solution pipe 20, a nutrient solution header pipe 21, a plant growth hole 22, a nutrient solution lower leakage hole 23, a leakage hole 24, a drainage hole 25, an electric heating rod 26, a planting cup 27 and a cup bottom hole 28.

Detailed Description

The invention is further illustrated by the following examples in connection with the accompanying drawings.

A plant planting combined pot comprises a planting outer plate 3, a planting bottom tray 4, a planting plate center cover 5 and a planting plate center cylinder 6; the planting outer disc 3 is arranged on the planting bottom tray 4, a planting disc center cylinder 6 is arranged in the center of the planting outer disc 3, a planting area is formed between the outer wall of the planting disc center cylinder 6 and the inner wall of the planting outer disc 3, and a planting disc center cover 5 is arranged on the planting disc center cylinder 6; the planting outer tray 3, the planting bottom tray 4, the planting tray center cover 5 and the planting tray center cylinder are concentrically arranged to form a planting combined pot.

A plurality of planting cups 27 are placed in the planting area, and plants are planted in the planting cups 27.

The center of planting combination basin is equipped with the through-hole, and well core rod 1 passes the through-hole, and same root core rod 1 passes a plurality of planting combination basins, separates through respective support cover 7 between the adjacent planting combination basin and supports, and support cover 7 covers outside well core rod 1, and a plurality of planting combination basins separate through supporting cover 7 on well core rod 1, wholly constitute multilayer combination basin.

The top of the central rod 1 is provided with a hanging ring 17 for hanging the multi-layer combined basin elevated frame.

The bottom of the central rod 1 is provided with a bottom support 2, the bottom support 2 is fixed with the central rod 1, the lowest layer of planting combined pot is supported, and the multiple layers of combined pots are placed on the ground or a platform.

The inner wall of the planting outer disc 3 is formed by combining a plurality of semicircular outer arcs 8, a boss is arranged in the center of the planting outer disc, a planting disc center hole 9 is formed in the boss, and a plurality of leakage holes 24 are formed in the periphery of the planting disc center hole 9; the bottom of the central cylinder 6 of the planting plate is provided with a plurality of notches 14; the planting plate center cover 5 covers the planting plate center cylinder 6, a plurality of semicircular inner arcs 15 are arranged on the outer circle of the planting plate center cover 5, the number of the semicircular inner arcs 15 is the same as that of the semicircular outer arcs 8 of the planting outer plate 3, the positions of the semicircular inner arcs 15 are matched with those of the semicircular outer arcs 8, a semicircular inner arc 15 and a semicircular outer arc 8 jointly form a circular hole, and a planting cup 27 is placed in the circular hole; the center of planting end tray 4 is equipped with a support section of thick bamboo 11, supports the bottom of planting outer dish 3, is equipped with under a plurality of nutrient solutions small opening 23 on planting end tray 4, and the back of planting end tray 4 is equipped with a plurality of nutrient solution pipe joints 10, and the small opening 23 under every kind of planting cup 27 correspondence intercommunication nutrient solution, the nutrient solution pipe joint 10 equals with the quantity of small opening 23 under the nutrient solution, equalling in the quantity of planting cup 27.

The cup cover 18 is buckled on the planting cup 27, and the cup cover 18 is provided with a nutrient solution hole 19 and a plant growth hole 22; planting soil is placed in the planting cup 27, and the growing plants extend out of the plant growing holes 22 to grow; a nutrient solution main pipe 21 is arranged at the upper part of the central rod 1, the nutrient solution main pipe 21 is connected with a plurality of nutrient solution pipes 20, and each nutrient solution pipe 20 is communicated with a nutrient solution hole 19 on the cup cover 18 to provide nutrients for plants in the planting cup 27; the planting cups 27, the cup covers 18 and the nutrient solution tubes 20 are the same in number.

Nutrient solution between the adjacent planting combination basin passes through the nutrient solution house steward connection in the multilayer combination basin, and the nutrient solution hole on this layer of bowl cover is connected to the planting combination basin nutrient solution pipe one end of lower floor, and the nutrient solution union coupling that the combination basin was planted to the upper story is connected to the other end, wholly constitutes a fertilization water supply system that communicates each layer and plants the combination basin.

The central rod 1 is of a hollow structure, an electric heating rod 26 is arranged in the central rod to supplement temperature for plant growth, and the integral central rod forms a planting heating system of the multilayer planting combined pot.

The bottom of the planting cup 27 is provided with a cup bottom hole 28.

The inner wall of the central cylinder 6 of the planting plate is connected with a central hole 13 of the central cylinder through a reinforcing rib 12.

A plurality of drain holes 25 are arranged on the central cover 5 of the planting plate.

A method for using the plant planting combination pot comprises the steps that planting soil and plants (such as strawberries) are placed in planting cups 27, the planting combination pot is hung in an overhead mode (such as in a greenhouse, indoors and on a balcony) through a hanging ring 17 on the top of a central rod 1, nutrient solution is divided into nutrient solution pipes 20 of the uppermost layer of the planting combination pot through a nutrient solution main pipe 21 and respectively enters the planting cups 27, and seeps into a planting outer tray 3 through cup bottom holes 28 in the bottoms of the planting cups 27; the nutrient solution of the uppermost layer of planting combined basin flows into the planting bottom tray 4 through the leakage hole 24 at the bottom of the planting outer tray 3, and then enters the nutrient solution pipe corresponding to the next layer of planting combined basin through the nutrient solution lower leakage hole 23 on the planting bottom tray 4 and the nutrient solution pipe connector 10, and the nutrient solution flows from the first layer to the lowermost layer automatically and gradually.

The planted plants grow outwards through the plant growth holes 22 on the cup cover.

When the plant growth temperature needs to be increased, the electric heating rod 26 in the central rod 1 is electrified to supplement heat for plant growth.

In the embodiment, the strawberry is planted, the root of the strawberry is positioned in the planting cup 27, the stem of the strawberry passes through the plant growing hole 22 on the cup cover, and the strawberry is hung outside. Nine planting cups 27 are uniformly distributed in the circumference of the planting outer disc 3, and form a nine-seed lotus shape integrally, so that the planting cup is attractive and elegant.

The fertilization water supply system is provided with a circulating pump, and nutrient solution comprising water and fertilizer flows out of the planting combined basin at the lowest layer and is collected and pumped into a nutrient solution main pipe 21 through the circulating pump for reuse to form a closed-loop fertilizer-water circulating system.

Claims

1. A plant planting combination basin which is characterized in that: comprises a planting outer disc (3), a planting bottom tray (4), a planting disc center cover (5) and a planting disc center cylinder (6); the planting outer disc (3) is arranged on the planting bottom tray (4), a planting disc center cylinder (6) is arranged in the center of the planting outer disc (3), a planting area is formed between the outer wall of the planting disc center cylinder (6) and the inner wall of the planting outer disc (3), and a planting disc center cover (5) is arranged on the planting disc center cylinder (6); the planting outer disc (3), the planting bottom tray (4), the planting disc center cover (5) and the planting disc center cylinder (6) are concentrically arranged to form a planting combined pot;

a plurality of planting cups (27) are placed in the planting area, plants are planted in the planting cups (27), and cup bottom holes (28) are formed in the bottoms of the planting cups (27);

the center of the planting combined pot is provided with a through hole, the central rod (1) penetrates through the through hole, the same central rod (1) penetrates through a plurality of planting combined pots, adjacent planting combined pots are separately supported by respective supporting sleeves (7), the supporting sleeves (7) are sleeved outside the central rod (1), the planting combined pots are separated on the central rod (1) by the supporting sleeves (7), and the planting combined pots integrally form a multilayer combined pot;

the top of the central rod (1) is provided with a hanging ring (17) for hanging the multi-layer combined basin in an elevated manner;

the bottom of the central rod (1) is provided with a bottom support (2), the bottom support (2) and the central rod (1) are fixed together, the lowest layer of planting combined pot is supported, and the multilayer combined pots are placed on the ground or a platform;

the inner wall of the planting outer disc (3) is formed by combining a plurality of semicircular outer arcs (8), a boss is arranged in the center of the planting outer disc, a planting disc center hole (9) is formed in the boss, and a plurality of leakage holes (24) are formed in the periphery of the planting disc center hole (9); the bottom of the central cylinder (6) of the planting plate is provided with a plurality of gaps (14); the inner wall of the central cylinder (6) of the planting plate is connected with a central hole (13) of the central cylinder through a reinforcing rib (12);

the planting plate center cover (5) covers the planting plate center cylinder (6), and a plurality of drain holes (25) are formed in the planting plate center cover (5); a plurality of semicircular inner arcs (15) are arranged on the outer circle of the central cover (5) of the planting plate, the number of the semicircular inner arcs (15) is the same as that of the semicircular outer arcs (8) of the planting outer plate (3), the positions of the semicircular inner arcs are matched, one semicircular inner arc (15) and one semicircular outer arc (8) form a circular hole, and a planting cup (27) is placed in the circular hole; a supporting cylinder (11) is arranged at the center of the planting bottom tray (4) and is used for supporting the bottom of the planting outer tray (3), a plurality of nutrient solution lower leakage holes (23) are formed in the planting bottom tray (4), a plurality of nutrient solution pipe connectors (10) are arranged on the back of the planting bottom tray (4), each planting cup (27) is correspondingly communicated with one nutrient solution lower leakage hole (23), and the number of the nutrient solution pipe connectors (10) is equal to that of the nutrient solution lower leakage holes (23) and is equal to that of the planting cups (27);

the cup cover (18) is buckled on the planting cup (27), and a nutrient solution hole (19) and a plant growing hole (22) are formed in the cup cover (18); planting soil is placed in the planting cup (27), and the growing plants extend out of the plant growing holes (22) to grow; a nutrient solution main pipe (21) is arranged at the upper part of the central rod (1), the nutrient solution main pipe (21) is connected with a plurality of nutrient solution pipes (20), and each nutrient solution pipe (20) is communicated with a nutrient solution hole (19) on the cup cover (18) to provide nutrients for plants in the planting cup (27); the planting cups (27), the cup covers (18) and the nutrient solution tubes (20) are the same in number;

nutrient solution between adjacent planting combined basins in the multilayer combined basin is connected through a nutrient solution header pipe (21), one end of a nutrient solution pipe (20) of the next layer of planting combined basin is connected with a nutrient solution hole (19) on the cup cover of the layer, and the other end is connected with a nutrient solution pipe joint (10) of the upper layer of planting combined basin, so that a fertilization and water supply system communicated with the planting combined basins of the layers is integrally formed;

the central rod (1) is of a hollow structure, an electric heating rod (26) is arranged in the central rod to supplement temperature for plant growth, and the integral central rod forms a planting heating system of the multilayer planting combined pot.

2. The use method of the plant planting combined pot is characterized in that: using the plant growing composite pot of claim 1; planting soil is placed in the planting cups (27) and plants are planted, the planting combined pots are suspended in an elevated mode through a hanging ring (17) at the top of the central rod (1), nutrient solution is distributed to each nutrient solution pipe (20) of the uppermost layer of the planting combined pots through a nutrient solution main pipe (21), enters the planting cups (27) respectively, and seeps into the planting outer tray (3) through cup bottom holes (28) at the bottoms of the planting cups (27); the nutrient solution of the uppermost layer of planting combined basin flows into the planting bottom tray (4) through the leakage hole (24) at the bottom of the planting outer tray (3), then enters the nutrient solution pipe (20) corresponding to the next layer of planting combined basin through the nutrient solution lower leakage hole (23) on the planting bottom tray (4) and the nutrient solution pipe connector (10), and the nutrient solution flows to the lowermost layer from the first layer automatically in a laminar flow mode.