CN210537975U - Water planting basin - Google Patents

Abstract

The utility model provides a water planting pot, which comprises a pot body, wherein a clapboard is arranged in the pot body, the clapboard divides the inner space of the pot body into a liquid level control area and one or more planting areas, the liquid level control area is used for installing a liquid level control device, and the planting areas are used for planting corresponding plants; wherein, the bottom of the liquid level control area is communicated with the bottom of the planting area so as to ensure that the liquid levels of the planting area and the liquid level control area are the same under the control of the liquid level control device. Therefore, when water culture planting is carried out, nutrient solution in each planting pot can not flow circularly, so that plants in each planting pot are effectively isolated, and mutual infection of diseases is avoided. Meanwhile, when the plant is diseased, the nutrient solution in the corresponding planting pot is only needed to be replaced, so that the waste of the nutrient solution is effectively avoided. Solves the problem that plant diseases planted by water planting equipment in the prior art are easy to be infected mutually.

Description

Water planting basin

Technical Field

The utility model relates to a water planting equipment field particularly, relates to a basin is planted to water planting.

Background

Hydroponics (Hydroponics) is a novel soilless culture mode of plants, also called nutrient solution culture, and is characterized in that root systems of the plants are directly soaked in nutrient solution, and the nutrient solution can replace soil and provide growth factors such as water, nutrients, oxygen and the like for the plants, so that the plants can normally grow.

The existing water culture mainly adopts nutrient solution circulating water pools, water tanks, aerosol circulating boxes and other modes, and the nutrient solutions of the water culture equipment are all circulating, so that plant diseases are easy to mutually infect. Meanwhile, if the nutrient solution needs to be completely replaced when replaced, a large amount of nutrient solution is wasted.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a basin is planted to water planting to solve the problem of the easy cross infection of plant disease that the water planting equipment among the prior art was planted.

In order to achieve the above object, the utility model provides a basin is planted to water planting, include: the flowerpot comprises a flowerpot body, wherein a partition plate is arranged in the flowerpot body and divides the inner space of the flowerpot body into a liquid level control area and one or more planting areas, the liquid level control area is used for installing a liquid level control device, and the planting areas are used for planting corresponding plants; wherein, the bottom of the liquid level control area is communicated with the bottom of the planting area so as to ensure that the liquid levels of the planting area and the liquid level control area are the same under the control of the liquid level control device.

Furthermore, a baffle plate between the liquid level control area and the planting area is provided with a diversion trench so as to communicate the bottom of the liquid level control area with the bottom of the planting area.

Furthermore, a mounting substrate is arranged on the bottom surface of the liquid level control area, and a positioning column is arranged on the mounting substrate; wherein, liquid level control device sets up on mounting substrate and fixes through the reference column.

Furthermore, a water pipe positioning groove is formed in the pot body and is opposite to the liquid level control area; wherein, the water pipe constant head tank is used for joint feed liquor pipe so that feed liquor pipe and liquid level control device are connected.

Further, the basin is planted to water planting still includes: the overflow pipe, the first end of overflow pipe pass the bottom surface of the basin body downwards with the outside intercommunication with the basin body, the second end of overflow pipe upwards extends to predetermineeing the height to outwards discharge the liquid in the basin body when the liquid level of the internal liquid level of basin is higher than the second end of overflow pipe.

Further, the basin is planted to water planting still includes: a tub cover openably or closably provided on the tub body; wherein, the pot cover is provided with a planting hole for plants to extend out.

Furthermore, the planting holes are in one group or a plurality of groups, and each group of planting holes comprises a plurality of planting holes which are arranged at intervals; wherein each set of planting holes is opposite to one planting area.

Furthermore, the pot body and the pot cover are of rectangular structures corresponding to each other; wherein, be provided with the articulated shaft on the long edge of the basin body, a long limit that corresponds of basin lid passes through the articulated shaft and rotationally connects on the basin body in order to open the basin body or close.

Furthermore, two planting areas are provided, and the two planting areas are symmetrically arranged; wherein, the liquid level control district sets up between two planting districts.

Furthermore, a plurality of reinforcing ribs which are staggered with each other are arranged on the bottom plate of the pot body, and boss structures are formed among the reinforcing ribs which are staggered with each other.

The water planting pot applying the technical scheme of the utility model comprises a pot body, wherein a partition plate is arranged in the pot body and divides the inner space of the pot body into a liquid level control area and one or more planting areas, the liquid level control area is used for installing a liquid level control device, and the planting areas are used for planting corresponding plants; wherein, the bottom of the liquid level control area is communicated with the bottom of the planting area so as to ensure that the liquid levels of the planting area and the liquid level control area are the same under the control of the liquid level control device. Therefore, when water culture planting is carried out, nutrient solution in each planting pot can not flow circularly, so that plants in each planting pot are effectively isolated, and mutual infection of diseases is avoided. Meanwhile, when the plant is diseased, the nutrient solution in the corresponding planting pot is only needed to be replaced, so that the waste of the nutrient solution is effectively avoided. Solves the problem that plant diseases planted by water planting equipment in the prior art are easy to be infected mutually.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic perspective view of an optional hydroponic planting pot according to an embodiment of the present invention;

FIG. 2 is a schematic top view of an alternative hydroponic plant pot according to an embodiment of the present invention;

FIG. 3 is a schematic top view of an alternative hydroponic plant pot according to an embodiment of the present invention; and

fig. 4 is a schematic side view of an optional hydroponic planting pot according to the embodiment of the present invention after the pot cover is opened.

Wherein the figures include the following reference numerals:

10. a pot body; 11. a water pipe positioning groove; 12. reinforcing ribs; 13. a boss structure; 20. a partition plate; 21. a diversion trench; 30. a liquid level control zone; 31. a mounting substrate; 32. a positioning column; 40. a planting area; 50. an overflow pipe; 60. a basin cover; 61. planting holes.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

According to the embodiment of the utility model, as shown in fig. 1 to 3, the water planting pot comprises a pot body 10, a partition plate 20 is arranged in the pot body 10, the partition plate 20 divides the inner space of the pot body 10 into a liquid level control area 30 and one or more planting areas 40, the liquid level control area 30 is used for installing a liquid level control device, and the planting areas 40 are used for planting corresponding plants; wherein, the bottom of the liquid level control area 30 is communicated with the bottom of the planting area 40 so as to lead the liquid level of the planting area 40 to be the same as that of the liquid level control area 30 under the control of the liquid level control device.

The water planting pot provided by the embodiment of the utility model comprises a pot body 10, wherein a partition plate 20 is arranged in the pot body 10, the partition plate 20 divides the inner space of the pot body 10 into a liquid level control area 30 and one or more planting areas 40, the liquid level control area 30 is used for installing a liquid level control device, and the planting areas 40 are used for planting corresponding plants; wherein, the bottom of the liquid level control area 30 is communicated with the bottom of the planting area 40 so as to lead the liquid level of the planting area 40 to be the same as that of the liquid level control area 30 under the control of the liquid level control device. Therefore, when water culture planting is carried out, nutrient solution in each planting pot can not flow circularly, so that plants in each planting pot are effectively isolated, and mutual infection of diseases is avoided. Meanwhile, when the plant is diseased, the nutrient solution in the corresponding planting pot is only needed to be replaced, so that the waste of the nutrient solution is effectively avoided. Solves the problem that plant diseases planted by water planting equipment in the prior art are easy to be infected mutually.

During the concrete implementation, seted up guiding gutter 21 on the baffle 20 between liquid level control district 30 and the planting district 40, the bottom of guiding gutter 21 is with the bottom surface parallel and level of basin body 10 so that liquid level control district 30 bottom and the bottom of planting district 40 communicate each other, and the nutrient solution that gets into liquid level control district 30 can flow to each planting district 40 simultaneously and the liquid level is all the same. In actual manufacturing, in order to separate the planting areas 40 from each other as needed, optionally, a liquid baffle plate capable of sliding up and down may be added in the guiding gutter 21 to open or close the guiding gutter 21, and when a certain planting area 40 needs to be separated from other planting areas 40, the liquid baffle plate is inserted into the guiding gutter 21 to close the guiding gutter 21.

In order to install the liquid level control device, furthermore, be provided with mounting substrate 31 on the bottom surface of liquid level control district 30, mounting substrate 31 is provided with reference column 32 on being close to the position at edge, reference column 32 adopts two risers that are "T" shape and arrange to constitute, two risers set up along vertical direction, correspondingly, side at the liquid level control device is provided with corresponding locating hole, when installing the liquid level control device, align liquid level control device's locating hole and reference column 32 and press down until liquid level control device's lower extreme and mounting substrate 31 butt, thereby make reference column 32 insert liquid level control device's locating hole in with the liquid level control device fixed.

After the water planting pot is installed, a liquid inlet pipe needs to be connected, furthermore, a water pipe positioning groove 11 is formed in the pot body 10, and the water pipe positioning groove 11 is opposite to the liquid level control area 30; after the end part of the liquid inlet pipe is connected with the liquid level control device, the liquid inlet pipe is clamped into the water pipe positioning groove 11, so that the liquid inlet pipe can be fixed.

Liquid level control device probably breaks down in the course of the work, after avoiding liquid level control device to break down, nutrient solution in the basin body 10 overflows from the edge all around of the basin body 10 and leads to the nutrient solution extravagant, furtherly, the basin is planted to the water planting still includes overflow pipe 50, the first end of overflow pipe 50 passes the bottom surface of the basin body 10 downwards in order to communicate with the outside of the basin body 10, add nutrient solution recovery unit in the first end below of overflow pipe 50, the second end of overflow pipe 50 upwards extends to predetermineeing the height, should predetermine highly be greater than the highest liquid level under the internal normal condition of basin 10, when liquid level control device breaks down, liquid level in the basin body 10 rises all the time, in the recovery unit of below is flowed into along overflow pipe 50 to the nutrient solution that is higher than 50 second end liquid levels, avoid.

In order to reduce evaporation loss of the nutrient solution and prevent external impurities or sprayed pesticides from entering the nutrient solution in the pot body 10, further, the water planting pot further comprises a pot cover 60, and the pot cover 60 is arranged on the pot body 10 in a manner of being opened or closed; wherein, the pot cover 60 is provided with a planting hole 61 for plants to extend out, thereby ensuring the normal growth of the plants.

Specifically, the tub body 10 and the tub cover 60 have rectangular structures corresponding to each other; the top plate of the tub cover 60 is an arc-shaped plate, as shown in fig. 4, a hinge shaft is provided on one long side of the tub body 10, and a corresponding long side of the tub cover 60 is rotatably connected to the tub body 10 through the hinge shaft to open or close the tub body 10. The planting holes 61 are one group or a plurality of groups, and each group of planting holes 61 comprises a plurality of planting holes 61 which are arranged at intervals; the diameter of the planting holes 61 is larger than the diameter of the trunk of the plant, wherein each group of planting holes 61 is opposite to one planting area 40. Each planting area 40 can be populated with a plurality of plants that extend through a set of planting holes 61 opposite the planting area 40 for normal growth. Because the exposed area of the nutrient solution in the pot body 10 is reduced, the evaporation loss of the nutrient solution can be effectively reduced. Meanwhile, due to the shielding effect of the pot cover 60, the pesticides sprayed on the plant leaves are not easy to enter the nutrient solution in the pot body 10, and small parts of the pesticides sprayed on the pot cover 60 can rapidly flow to the ground on the front side and the rear side of the pot body 10 due to the flow guiding effect of the top plate of the pot cover 60, so that the nutrient solution is prevented from being polluted.

The number of the hydroponic planting pot planting areas 40 in the embodiment is one or two, as shown in fig. 1 and fig. 2, when the hydroponic planting pots in the two planting areas 40 are manufactured, the two planting areas 40 are symmetrically arranged with each other, and the liquid level control area 30 is arranged between the two planting areas 40. The two planting areas 40 are separated from the liquid level control area 30 through a partition plate 20, and two opposite diversion trenches 21 are formed in the two partition plates 20 to communicate the two planting areas 40 with the liquid level control area 30. As shown in fig. 3, when the hydroponic culture pot of one culture area 40 is specifically manufactured, the culture area 40 may be provided on the side of the liquid level control area 30, and most of the area is partitioned by the partition plate 20.

In order to enhance the structural strength of the tub body 10, a plurality of reinforcing ribs 12 are disposed on the bottom plate of the tub body 10, and a plurality of boss structures 13 are formed between the reinforcing ribs. Thereby effectively enhancing the strength of the bottom surface and the entire structure of the tub 10. The basin is planted to water planting of this embodiment adopts the PVC material to make, mould one shot forming. The surface of the inside of the pot cover 60 is black, and the surface of the outside is light color, so that the reflection of sunlight can be effectively enhanced, light is reflected to the leaves of plants, and the growth of the plants is promoted.

The basin is planted in water planting of this embodiment is independent each other at each nutrient solution of planting in the basin in specific working process, can not take place mutual pollution and the infection of plant nutrient solution, simultaneously when changing the nutrient solution only need with the nutrient solution change in the planting basin that pollutes can, effectively avoid the waste of nutrient solution.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A hydroponic growth pot, comprising:

the flowerpot comprises a flowerpot body (10), wherein a partition plate (20) is arranged in the flowerpot body (10), the partition plate (20) divides the inner space of the flowerpot body (10) into a liquid level control area (30) and one or more planting areas (40), the liquid level control area (30) is used for installing a liquid level control device, and the planting areas (40) are used for planting corresponding plants;

wherein the bottom of the liquid level control area (30) is communicated with the bottom of the planting area (40) so as to ensure that the liquid levels of the planting area (40) and the liquid level control area (30) are the same under the control of the liquid level control device.

2. The hydroponic planting pot according to claim 1, wherein a diversion trench (21) is formed in the partition plate (20) between the liquid level control area (30) and the planting area (40) so that the bottom of the liquid level control area (30) and the bottom of the planting area (40) are communicated with each other.

3. A hydroponic planting pot according to claim 1, wherein a mounting substrate (31) is arranged on the bottom surface of the liquid level control area (30), and a positioning column (32) is arranged on the mounting substrate (31);

wherein, the liquid level control device is arranged on the mounting substrate (31) and is fixed through the positioning column (32).

4. The hydroponic planting pot according to claim 1, characterized in that a water pipe positioning groove (11) is formed in the pot body (10), and the water pipe positioning groove (11) is opposite to the liquid level control area (30);

wherein, water pipe constant head tank (11) are used for the joint feed liquor pipe so that the feed liquor pipe with liquid level control device is connected.

5. The hydroponics planting pot of claim 1, further comprising:

the overflow pipe (50), the first end of overflow pipe (50) passes downwards the bottom surface of the basin body (10) with the outside intercommunication of the basin body (10), the second end of overflow pipe (50) upwards extends to and predetermines the height, with liquid level in the basin body (10) is higher than when the second end of overflow pipe (50) with liquid in the basin body (10) is outwards discharged.

6. The hydroponics planting pot of claim 1, further comprising:

a tub cover (60) openably or closably provided on the tub body (10);

wherein, the pot cover (60) is provided with a planting hole (61) for plants to extend out.

7. A hydroponics planting pot according to claim 6, wherein the planting holes (61) are in one or more groups, each group of the planting holes (61) including a plurality of the planting holes (61) arranged at intervals;

wherein each set of said planting holes (61) is opposite to one of said planting areas (40).

8. A hydroponic growth pot according to claim 6, characterized in that the pot body (10) and the pot lid (60) are of mutually corresponding rectangular configuration;

wherein, be provided with the articulated shaft on one long edge of the basin body (10), a long limit that corresponds of basin lid (60) passes through the articulated shaft rotationally connect in the basin body (10) in order to open or close the basin body (10).

9. A hydroponic growth pot according to claim 1, characterized in that there are two growth areas (40), and the two growth areas (40) are arranged symmetrically to each other;

wherein the liquid level control area (30) is arranged between the two planting areas (40).

10. A hydroponic plant pot as claimed in claim 1, wherein a plurality of ribs (12) are provided on the bottom plate of the pot body (10) in a staggered manner, and a boss structure (13) is formed between the staggered ribs.

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