CN217308437U - Planting basin structure that slot is connected - Google Patents

Abstract

The utility model relates to a groove-connected planting pot structure, which comprises a pot body, wherein a plurality of communicated planting holes are arranged on the peripheral side wall of the pot body, and a communication opening is formed at the communication position; the planting pot structure is a formed thin-walled piece; the inner wall of the pot body is provided with a ring groove, and the outer wall of the pot body is provided with a corresponding bulge; when a plurality of pot bodies are stacked, the bulge of one pot body is screwed into the annular groove of the other pot body through the opening of the communication part to form a connecting structure. The utility model discloses the beneficial effect who reaches is: firm connection, convenient connection, reliable strength, contribution to full absorption of plants and contribution to plant growth.

Description

Planting basin structure that slot is connected

Technical Field

The utility model relates to an indoor cultivation technical field, especially a planting basin structure that slot connection.

Background

With the increasing cost of urban land, it is very difficult to cultivate plants in cities, so that the concept of indoor three-dimensional planting appears, namely planting in rooms through three-dimensional planting frames, and the planting method is widely applied because the unit area is high in yield, does not occupy land and can be carried out indoors.

In a general stereoscopic planting frame, a plurality of planting pots are placed on the frame, but the frame occupies a large height space, so that a mode of forming the planting frame by stacking a plurality of planting pots appears. After the planting pots are stacked, the problem that the whole planting frame is not firm enough due to carelessness is solved, on one hand, the strength of the planting pots is not enough, on the other hand, the connection relation between the planting pots is not firm enough, and hidden dangers are buried for planting.

Of course, the factors influencing the planting frame are many, and the company redesigns the planting frame according to the feedback condition of the client on the basis of the previous experience.

In the scheme, the planting pot is improved again and protected, so that the problems are solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a connect firm, connect convenient, intensity reliable, water flow speed slow, do benefit to the plant and fully absorb, do benefit to vegetation's slot connection's planting basin structure.

The purpose of the utility model is realized through the following technical scheme: a planting pot structure connected by grooves comprises a pot body, wherein a plurality of communicated planting holes are formed in the peripheral wall of the pot body, and a communication opening is formed in the communication position;

the planting pot structure is a formed thin-walled piece;

the inner wall of the pot body is provided with a ring groove, and the outer wall of the pot body is provided with a corresponding bulge;

when a plurality of basins are piled up, the bulge of the basin body above is screwed into the ring groove of the basin body below through the opening of the communicating part to form a connecting structure, and the connecting structure is formed.

Optionally, the pot body is in a step shape with a large upper part and a small lower part; when a plurality of pot bodies are stacked and connected, the outer wall and the inner wall between the pot bodies are attached, and the edge of the top pot opening of the pot body below is propped against the step of the pot body above.

Optionally, the basin body is in a conical column shape with a large top and a small bottom, and the wall of the basin body is in a spline-like groove structure formed by a plurality of vertical raised lines and vertical grooves; when a plurality of basins are stacked, the vertical raised lines and the vertical grooves are opposite to each other.

Optionally, the pot body is in a shape of a conical column with a large upper part and a small lower part; when a plurality of basins are stacked, the conical surfaces are matched and attached.

Optionally, the flowerpot further comprises a hollow cylindrical table which is a thin-walled piece and is arranged at the center of the pot body; the cylindrical surface of the hollow cylindrical table is provided with an inwards-concave water tank; the bottom of the water tank is provided with a drain hole;

when the pot bodies are stacked, the walls of the corresponding hollow cylindrical platforms are attached and stacked, and the drain holes are leaked; water flows down the wall through the water channel via the drain hole to form an underwater flow line structure.

Furthermore, the top of the hollow cylindrical table is provided with a central hole; when a plurality of pot bodies are stacked, a flow guide pipe penetrates through each central hole; water is conveyed from bottom to top through the guide pipe to form an overwater flow line structure.

Furthermore, the hollow cylindrical table is provided with a plurality of water tanks, and a plurality of corresponding water drainage holes are formed; some of the plurality of drain holes are high, and the others are low.

Furthermore, the upper part and two sides of the drain hole are sealed by baffles, and only the outer side of the drain hole leaks out of the hole, so that water flows downwards along the wall from the outer edge of the drain hole;

or, the two sides of the drain hole are provided with baffles, so that water flows downwards along the wall near the outer edge of the drain hole.

Further, the hollow cylindrical platform is a conical cylindrical platform. The hollow cylindrical table is a step table, and the step is higher than the drain hole; when the pot bodies are stacked, the hollow cylindrical platforms are also stacked mutually and abut against the corresponding steps.

The utility model has the advantages of it is following:

by arranging the annular grooves and the bulges, when a plurality of pot bodies are stacked to form the planting frame, the annular grooves and the bulges are matched, so that the pot bodies can be well connected and are not easy to fall off;

the connection can be easily realized through the communication opening, and the connection is simple and convenient;

the basin body is in a conical design, or is in a step design, or is provided with vertical raised lines and vertical grooves in the circumferential direction, so that the strength of the basin body wall is improved, and the wall is not easy to deform when the basin body is stacked to form a planting frame;

the design of the hollow cylindrical table, the water channel and the baffle plate are designed at the drain hole, so that the nutrient solution is prevented from flowing down from two sides, the nutrient solution flows down along the wall, the flowing speed of water is delayed, and the plants can fully absorb and utilize the water;

the two drain holes comprise a low-water-level drain hole and a high-water-level drain hole, and the low-water-level drain hole is lower than the planting hole of the planting pot, so that the nutrient solution in the planting pot is lower than the plant planting matrix, and the respiration of the plant root system is facilitated; the high-water-level drain hole is higher than the plant planting substrate, so that the water pump is ensured to temporarily submerge the plant planting substrate in the nutrient solution circulation process, and nutrient substances are brought to the planting substrate in the planting pot; thereby playing a role in benefiting the growth of plants;

the design of centre bore when a plurality of basins body pile up, draws water to the upper basin body from the basin body of lower floor through the honeycomb duct to do benefit to and form hydrologic cycle.

Drawings

FIG. 1 is a schematic view of a stepped basin;

FIG. 2 is a schematic structural view of the chute;

FIG. 3 is a schematic view of another angle of the stepped basin;

FIG. 4 is a schematic view of the structure of the bump;

FIG. 5 is a schematic view of a stepped basin from bottom to top;

FIG. 6 is a schematic view of a tub having vertical ribs and vertical grooves;

FIG. 7 is another angular configuration of the basin with vertical ribs and vertical grooves;

FIG. 8 is a schematic structural view of a conical basin;

FIG. 9 is another angular configuration of the conical bowl;

FIG. 10 is a schematic view of a drain hole with baffles on only two sides;

in the figure: 1-pot body, 2-planting hole, 3-communication opening, 4-ring groove, 5-bulge, 6-vertical convex strip, 7-vertical groove, 8-hollow cylindrical table, 9-water tank, 10-water drain hole, 11-center hole and 12-baffle.

Detailed Description

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

As shown in fig. 1 to 5, a planting pot structure connected by a groove comprises a pot body 1 and a hollow cylindrical table 8, wherein the pot body and the hollow cylindrical table are both formed thin-wall parts. A plurality of planting holes 2 are arranged on the peripheral side wall of the pot body 1, and the wall of the pot body 1 is communicated with the planting holes 2 through a communicating opening 3; the inner wall of the pot body 2 is provided with an annular groove 4, the outer wall of the pot body 2 is provided with a corresponding bulge 5, when a plurality of pot bodies 2 are stacked, the bulge 5 of the pot body 2 above is screwed into the annular groove 4 of the pot body 2 below through an opening 3 at the communicating part to form a connecting structure.

The hollow cylindrical table 8 is positioned at the center of the pot body 2 and is provided with a drain hole.

When a plurality of pot bodies 1 are stacked, a three-dimensional planting frame is formed, plants are planted in the planting holes 2, water is added into the pot body 1 on the uppermost layer, and the water enters the planting holes 2 through the communicating openings 3 to infiltrate the roots of the plants; the redundant water flows into the pot body 1 of the next layer through the drain hole 10, and the plants in the corresponding planting holes 2 are infiltrated in the same way.

In the present embodiment, as shown in fig. 1, 3, 4, and 5, the tub body 2 is stepped in a shape having a large top and a small bottom; when a plurality of basins 2 are piled up and connected, the outer wall and the inner wall between the basins 2 are attached, and the edge of the basin opening at the top end of the basin 2 at the lower part is propped against the step of the basin 2 at the upper part.

In this embodiment, as shown in fig. 6 and 7, the tub body 2 is a conical column with a large top and a small bottom, and the wall thereof is a spline-like groove structure formed by a plurality of vertical raised lines 6 and vertical grooves 7; when a plurality of basins 2 are stacked, the vertical convex strips 6 and the vertical grooves 7 are opposite to each other.

Furthermore, the vertical raised strips 6 and the vertical grooves 7 are opposite to each other, which means that the vertical raised strips 6 of the upper pot body 2 are attached to the vertical grooves 7 of the lower pot body.

In this embodiment, as shown in fig. 8 and 9, the pot body 2 is a conical column with a large top and a small bottom, and when a plurality of pot bodies 2 are stacked, the conical surfaces are fitted.

Alternatively, a trench-connected plant pot structure, a hollow cylindrical table 8 is also designed, as shown in fig. 3, 6 and 8.

Specifically, the hollow cylindrical table 8 is a thin-walled member, and is located at the center of the tub body 2 in an upwardly convex manner. On the hollow cylindrical table 8, the cylindrical surface is provided with an inward-recessed water tank 9, and the bottom of the water tank 9 is provided with a drain hole 10.

When the basins 2 are stacked, the walls of the corresponding hollow cylindrical platforms 8 are stacked in a fitting manner, and the drain holes 10 are leaked; the water flows down the wall through the water channel 9 via the drain hole 10, forming an underwater flow line structure.

In the embodiment, a central hole 11 is formed at the top of the hollow cylindrical table 8; when a plurality of basins 2 are stacked, a flow guide pipe penetrates through each central hole 11; water is conveyed from the pot body 1 at the lowest layer to the pot body 1 at the uppermost layer through the flow guide pipe to form an overwater flow line structure.

Preferably, the hollow cylindrical stage 8 is a conical stage. The hollow cylindrical platform 8 is in a step shape, and the step position is higher than the drain hole 10; when the basins 2 are stacked, the hollow cylindrical platforms 8 are also stacked on each other and abut against the corresponding steps.

Alternatively, a trench-connected plant pot structure, drain holes 10 and water tank 9 are also designed, as shown in fig. 3, 6 and 8.

Specifically, the tub 2 is provided with a plurality of water grooves 9 and correspondingly a plurality of water discharge holes 10. Among the plurality of water discharge holes 10, some water discharge holes 10 are high water level water discharge holes, and the rest water discharge holes 10 are low water level water discharge holes; the height of the low-water-level drain hole is lower than that of the planting hole of the planting pot, so that the height of the nutrient solution in the planting pot 2 is lower than that of the plant planting matrix, and the respiration of a plant root system is facilitated; the high-water-level drain hole is higher than a plant planting matrix, so that the water pump is ensured to temporarily submerge the plant planting matrix in the circulation process of the nutrient solution, and nutrient substances are brought to the planting matrix in the planting pot.

In this embodiment, as shown in fig. 3, 6 and 8, both sides and the upper side of the drain hole 10 are sealed by the baffle 12, and only the outer side has a flow port to allow water to flow downward along the wall from the edge of the drain hole 10.

In this embodiment, as shown in fig. 10, the drain hole 10 has baffles 12 on only two sides to allow water to flow down the wall near the outer edge of the drain hole 10.

Preferably, two drain holes 10 are designed on the inner layer cylinder of the planting pot, and are used for enabling the nutrient solution to flow from the topmost planting pot to the bottommost layer under the action of gravity after the planting pots are stacked. The two sides of the drain hole are provided with 8mm baffles, the upper part of the drain hole is sealed, and the side surface of the drain hole is provided with a hole, so that the nutrient solution is prevented from directly flowing down through the drain hole 10, and the nutrient solution can flow down along the wall.

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 invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (10)

1. The utility model provides a planting basin structure that ditch connection, includes the basin body (1), the week side wall department of the basin body (1) is equipped with a plurality of planting holes (2) that are linked together, and this intercommunication department forms intercommunication opening (3), its characterized in that:

forming a thin-walled part;

the inner wall of the pot body (1) is provided with a ring groove (4), and the outer wall of the pot body is provided with a corresponding bulge (5);

when a plurality of pot bodies (1) are stacked, the bulges (5) of the upper pot body (1) are screwed into the ring grooves (4) of the lower pot body (1) through the communication openings (3) to form a connecting structure.

2. A trench-connected plant pot structure as claimed in claim 1, wherein: the pot body (1) is in a step shape with a big top and a small bottom;

when a plurality of pot bodies (1) are stacked and connected, the outer wall and the inner wall between the pot bodies (1) are attached, and the edge of the top pot opening of the pot body (1) below is propped against the step of the pot body (1) above.

3. A trench-connected plant pot structure as claimed in claim 1, wherein: the flowerpot body (1) is in a conical column shape with a large upper part and a small lower part, and the wall of the flowerpot body is in a spline-like groove structure formed by a plurality of vertical raised lines (6) and vertical grooves (7);

when a plurality of pot bodies (1) are stacked, the vertical raised lines (6) and the vertical grooves (7) are opposite to each other.

4. A trench-connected plant pot structure as claimed in claim 1, wherein: the pot body (1) is in a conical column shape with a large upper part and a small lower part;

when a plurality of pot bodies (1) are stacked, the conical surfaces are fitted.

5. A trench-connected plant pot structure as claimed in claim 1, wherein: the flowerpot further comprises a hollow cylindrical table (8) which is a thin-walled part and is arranged at the center of the pot body (1);

the hollow cylindrical table (8) is provided with a water groove (9) which is inwards sunken on the cylindrical surface; the bottom of the water tank (9) is provided with a drain hole (10);

when the pot bodies (1) are stacked, the walls of the corresponding hollow cylindrical platforms (8) are attached and stacked, and the drain holes (10) are leaked;

water flows down the wall through the water tank (9) and the drain hole (10) to form an underwater flow line structure.

6. A trench-connected plant pot structure according to claim 5, wherein: the top of the hollow cylindrical table (8) is provided with a central hole (11);

when a plurality of pot bodies (1) are stacked, a flow guide pipe penetrates through each central hole (11);

water is conveyed from bottom to top through the guide pipe to form an overwater flow line structure.

7. A trench-connected plant pot structure according to claim 5, wherein: the hollow cylindrical table (8) is provided with a plurality of water tanks (9), and a plurality of corresponding water drainage holes (10) are arranged;

among the plurality of drain holes (10), some of the drain holes (10) are high, and the rest of the drain holes (10) are low.

8. A trench-connected plant pot structure as claimed in claim 7, wherein: the upper part and two sides of the drain hole (10) are sealed by the baffle (12), and only the outer side is leaked to form a hole, so that water flows downwards along the wall from the outer edge of the drain hole (10).

9. A trench-connected plant pot structure as claimed in claim 7, wherein: and baffles (12) are arranged on two sides of the drain hole (10) to enable water to flow downwards along the wall near the outer edge of the drain hole (10).

10. A trench-connected plant pot structure according to claim 5, wherein: the hollow cylindrical platform (8) is a conical cylindrical platform;

the hollow cylindrical table (8) is a step table, and the step position is higher than the drain hole (10);

when the pot bodies (1) are stacked, the hollow cylindrical platforms (8) are also stacked mutually and abut against the corresponding steps.

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