CN216775591U - Mounting structure for cultivation planting device - Google Patents

Abstract

The utility model relates to a mounting structure for a planting device, which comprises a planting pot body, wherein the wall of the planting pot body is communicated with a groove-shaped planting hole, and the center of the planting pot body is provided with a mounting hole; the upper end of the supporting joint is provided with an external thread, the upper end of the supporting joint is provided with a shoulder neck, the lower end of the supporting joint is provided with an internal thread hole, and the lower end of the supporting joint is provided with an outer ring; the planting pot body is arranged at the mounting hole and is screwed and clamped through the threads of the two support joints, and the shoulder neck of one support joint and the outer ring of the other support joint are clamped to form a mounting unit; when a plurality of planting basin bodies are overlapped, the upper end and the lower end of the corresponding supporting joint of the mounting unit are in threaded butt joint to form a whole. The utility model achieves the following beneficial effects: the installation is convenient, the dismantlement is convenient, the atress is good, reliable and stable nature is high.

Description

Mounting structure for cultivation planting device

Technical Field

The utility model relates to an indoor cultivation technical field, especially a mounting structure for cultivating and planting device.

Background

The three-dimensional planting has the characteristics of small occupied area, high unit area yield, various forms, convenience in management and the like, is a trend of modern urban agriculture development, and is particularly suitable for indoor, balcony, roof and other spaces for green planting of vegetables and flowers by urban residents. However, the existing stereoscopic planting device has the defects of single function, inflexible assembly and use, rigid and unattractive shape, inapplicability to planting with developed root systems or plants with large plant quality and the like, so that the popularization and the application of the stereoscopic planting in cities are limited.

In particular, the existing indoor cultivation generally has the following disadvantages:

firstly, the plants in the planting pot are inconvenient to plant and remove;

secondly, the whole three-dimensional planting structure is instable to install and easy to topple;

thirdly, the design is extremely rigid, and the structure can not be adjusted according to the plant needs and customer requirements, so that the production and the use are inconvenient;

and fourthly, the method is not suitable for planting large plants such as tomatoes, cucumbers and the like with developed root systems, the space in the planting pot is limited, the growth of the root systems is not facilitated, and the plants can shield the illumination of three-dimensional planting.

Based on the above disadvantages, the present company has designed a modular stereoscopic planting device.

In order to fully protect, the scheme is a splitting scheme, and emphasizes on protecting the connection and installation structure between the planting pots.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides the mounting structure for the cultivation planting device, which is convenient to mount and dismount, good in stress, high in stability and reliability.

The purpose of the utility model is realized by the following technical scheme: a mounting structure for a planting device, comprising:

the planting pot comprises a planting pot body, wherein a groove-shaped planting hole is formed in the wall of the planting pot body in a communication mode, and a mounting hole is formed in the center of the planting pot body;

a support joint having an external thread at an upper end thereof, a shoulder neck at an upper end thereof, an internal threaded hole at a lower end thereof, and an outer ring at a lower end thereof;

the planting pot body is arranged at the mounting hole and is screwed and clamped through the threads of the two support joints, and the shoulder neck of one support joint and the outer ring of the other support joint are clamped to form a mounting unit;

when a plurality of planting basin bodies are overlapped, the upper end and the lower end of the corresponding supporting joint of the mounting unit are in threaded butt joint to form a whole.

Preferably, conical grooves are uniformly distributed on the wall of the planting pot body; when a plurality of planting basin bodies are folded, the corresponding conical grooves are fitted, and a stress structure is formed on the wall.

Preferably, the planting pot body is provided with a central bulge at the center in the pot; the mounting hole is formed in the central bulge; when a plurality of planting basin bodies are overlapped, the planting basin bodies are connected and installed through the installation hole with the convex center.

Furthermore, the center bulge is provided with a conical cavity at the lower part and a flat head at the upper part, and the upper part and the lower part form a step platform; the upper flat head is provided with a liquid leakage hole which is a high-position liquid leakage hole; the lower step platform is also provided with a liquid leakage hole which is a low-level liquid leakage hole.

Furthermore, the planting hole is in a groove shape, and the bottom of the planting hole is provided with a recess; along the vertical direction, the high-position liquid leakage holes are slightly higher than the depressions, and the low-position liquid leakage holes are slightly lower than the depressions.

Preferably, the support joint is hollow and tubular.

Preferably, the planting pot body is in a cone pot shape.

The utility model has the following advantages:

the center of the planting pot body is provided with the mounting hole, and when the supporting joint is screwed, the planting pot body is clamped through the shoulder neck and the outer ring to form a mounting unit; the mounting units are screwed through corresponding support joint threads; the structure not only ensures that the installation is simple and convenient and the disassembly is convenient, but also ensures that each planting pot unit can be tensioned, thereby ensuring the firm stability when a plurality of planting pot bodies are overlapped;

the support joint is connected in a manner of providing tension at the center of the planting pot body; and plant the basin body and be awl basin form, and its wall has a circular cone slot, and after planting the coincide of basin body, these circular cone slots can provide good marginal direction power to let a plurality of planting accompany the body coincide back, have stronger reliability.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the mounting of the support joint and the plant pot body;

FIG. 3 is a schematic structural view of the support joint and the plant pot body installed at another angle;

FIG. 4 is a schematic view of the connection of two support joints;

FIG. 5 is a schematic view of the support joint;

FIG. 6 is a schematic view of another angle of the support joint;

FIG. 7 is a schematic structural view of a planting pot body and a planting hole;

FIG. 8 is a schematic structural view of the planting pot body and the planting hole at another angle;

FIG. 9 is a structural view from the bottom of the planting pot body and the planting hole;

FIG. 10 is a schematic structural view of a plurality of planting holes of the planting pot body;

in the figure: 1-planting pot body, 2-planting hole, 3-dent, 4-conical groove, 5-central bulge, 6-liquid leakage hole and 7-mounting hole;

11-supporting joint, 12-shoulder and neck, 13-external ring.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, but the scope of the utility model is not limited to the following.

As shown in fig. 1 to 6, the mounting structure for the planting device comprises a planting pot body 1 and a supporting joint 11; wherein, the wall of the planting pot body 1 is communicated with a groove-shaped planting hole 2, and the center of the planting pot body is provided with a mounting hole 7; the support joint 11 has an external thread at its upper end, a shoulder neck 12 at its upper end, an internal threaded bore at its lower end, and an external ring 13 at its lower end.

When a plurality of planting basin bodies 1 coincide installation:

s1, at the position of the planting pot body 1 at the installation hole 7, the upper end of a supporting joint 11 penetrates through the installation hole 7, and the shoulder neck 12 of the supporting joint abuts against the installation hole 7;

s2, the lower end of the other support joint 11 is matched with the upper end of the previous support joint 11 in a threaded manner, so that the corresponding shoulder neck 12 and the outer ring 13 are arranged at the mounting hole 7 to clamp the planting pot body 1, thereby forming a mounting unit;

and S3, connecting the installation units, wherein the lower end of the lowermost support joint 11 of the previous installation unit is screwed with the upper end of the uppermost support joint 11 of the next installation unit to form an integral structure.

In this embodiment, the support joint 11 is a hollow pipe.

Optionally, the mounting structure for the planting device is a planting pot body 1, and conical grooves 4 are uniformly distributed on the wall of the planting pot body.

When a plurality of planting basin bodies 1 are folded, the corresponding conical grooves 4 are fitted, and a stress structure is formed on the wall. In addition, if sunlight is not sufficiently irradiated in a certain direction, the upper planting pot body 1 can be rotated in a certain direction and then replaced. In addition, the wall strength of the planting pot body 1 is also ensured by the design of the conical grooves 4.

In this embodiment, the planting pot body 1 is in a cone shape.

Alternatively, the mounting structure for the planting device, as shown in fig. 6 to 10, the planting pot body 1 has a central protrusion 5 at the center inside the pot thereof.

Specifically, the mounting hole 7 is opened on the central boss 5; when a plurality of planting pot bodies 1 are overlapped, the planting pot bodies are connected and installed through the installation holes 7 of the central bulge 5.

In the embodiment, the lower part of the central bulge 5 is in a conical cavity shape, the upper part is in a flat head shape, and the upper part and the lower part form a step platform; the flat head at the upper part is provided with a liquid leakage hole 6, and the liquid leakage hole 6 is a high-position liquid leakage hole; a liquid leakage hole 6 is also formed in the step platform at the lower part, and the liquid leakage hole 6 is a low-position liquid leakage hole; the mounting hole 7 is also located on the upper flat head.

Furthermore, the planting hole 2 is in a groove shape, and the bottom of the planting hole is provided with a concave 3. Along vertical direction, high-order weeping hole is a little higher than sunken 3, and low level weeping hole is a little lower than sunken 3. The number of the high water level liquid leakage holes is two; the low level weep holes are relatively small and there are two. The high water level liquid leakage hole is higher than the lower surface of the planting cup, so that the planting cup is moistened; the low-water-level liquid leakage hole is lower than the planting cup, so that the water level of the nutrient solution is lower than the planting cup after the water pump stops working, the root system of the plant is kept to have enough air, and root rot is avoided.

In this embodiment, the central protrusion 5 is further provided with a liquid leakage hole 6; the planting hole 2 is in a groove shape, and the bottom of the planting hole is provided with a pit 3; the weep holes 6 are slightly higher than the depressions 3 in the vertical direction, and this difference in height causes only a small amount of nutrient solution to enter the depressions, while a large amount of nutrient solution falls off along with the weep holes 6.

When the planting pot body 1 is filled with nutrient solution and plants are planted in the planting holes 2, the nutrient solution in the planting pot body 1 directly flows into the concave 3 through the planting holes 2, so that the roots of the plants are infiltrated. When a plurality of planting pot bodies 1 are overlapped, a small amount of nutrient solution enters the concave 3, and a large amount of nutrient solution flows downwards through the liquid leakage hole 6. The height difference enables the nutrient solution to only infiltrate the root system of the plant without submerging the root system, so that the root system of the plant is kept to have enough air, and root rot is avoided.

In this embodiment, the central protrusion 5 has a conical lower portion and a flat upper portion, and the upper and lower portions form a step. And still open the gas pocket in ladder platform department, when a plurality of plant 1 folds of basin body, the nutrient solution in-process that flows downwards can produce disturbance (extrusion) to the air to let the air flow along the gas pocket, thereby provide the air for the root system.

Optionally, the number of the planting holes 2 is multiple for the mounting structure of the planting device; after the plants are planted in the planting cups, the planting cups are placed in the planting holes 2, and the planting cups are in a net barrel shape. Selecting 2 corresponding planting holes according to actual requirements; the plant cup is convenient for taking and placing plants.

The above examples only represent preferred embodiments, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. A mounting structure for cultivating planting device, its characterized in that: the method comprises the following steps:

the wall of the planting pot body (1) is communicated with a groove-shaped planting hole (2), and the center of the planting pot body is provided with a mounting hole (7);

the upper end and the lower end of the supporting joint (11) are respectively provided with a shoulder neck (12) and an outer ring (13), and the upper end and the lower end are respectively provided with an external thread and an internal thread;

the two supporting joints (11) are in threaded engagement and butt joint at the mounting hole (7), so that the corresponding outer ring (13) and the supporting joints (11) clamp the planting pot body (1) to form a mounting unit;

when the corresponding support joints (11) of the plurality of mounting units are butted, the side walls of the plurality of planting pot bodies (1) are mutually attached, so that the planting pot bodies are integrated.

2. A mounting structure for a cultivation planting device as claimed in claim 1, wherein: conical grooves (4) are uniformly distributed on the wall of the planting pot body (1);

when a plurality of planting basin bodies (1) are superposed, the corresponding conical grooves (4) are fitted together in a matching way, and a stress structure is formed on the wall.

3. A mounting structure for a cultivation planting device as claimed in claim 1, wherein: the planting pot body (1) is provided with a central bulge (5) at the center in the pot;

the mounting hole (7) is formed in the central bulge (5);

when a plurality of planting pot bodies (1) are overlapped, the planting pot bodies are connected and installed through the installation holes (7) of the central bulges (5).

4. A mounting structure for a growing planting device according to claim 3, wherein: the lower part of the central bulge (5) is in a conical cavity shape, the upper part of the central bulge is in a flat head shape, and the upper part and the lower part form a step platform;

the upper flat head is provided with a liquid leakage hole (6), and the liquid leakage hole (6) is a high-position liquid leakage hole;

the lower step platform is also provided with a liquid leakage hole (6), and the liquid leakage hole (6) is a low-position liquid leakage hole.

5. A mounting structure for a growing planting device according to claim 3 or 4, characterized in that: the planting hole (2) is in a groove shape, and the bottom of the planting hole is provided with a recess (3);

along the vertical direction, the high-position liquid leakage holes are slightly higher than the depressions (3), and the low-position liquid leakage holes are slightly lower than the depressions (3).

6. A mounting structure for a cultivation planting device as claimed in claim 1, wherein: the supporting joint (11) is hollow and tubular.

7. A mounting structure for a cultivation planting device as claimed in claim 1, wherein: the planting pot body (1) is in a cone pot shape.

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