CN219437666U - Root device for bush planting - Google Patents

Abstract

The utility model provides a root device for bush planting, which comprises a water storage frame, wherein the upper end of the water storage frame is sequentially clamped with a baffle plate and a planting frame; a water guide belt is inserted on the partition board, one end of the water guide belt is inserted in the water storage frame, and the other end of the water guide belt is inserted in the planting frame; the water storage frames are fixedly clamped by the clamping blocks when spliced in the horizontal direction, and are fixedly clamped by the clamping blocks when spliced in the vertical direction; and when the planting frames are spliced in the vertical direction, the planting frames are fixed through clamping. The utility model is spliced in a clamping way, so that the assembly, disassembly, transportation and transportation are convenient, and the cast die is simple in structure and low in cost. Furthermore, the number of the planting frames and the water storage frames can be set according to the requirements, so that the length, the width and the height of the planting frames and the water storage frames can meet the use requirements.

Description

Root device for bush planting

Technical Field

The utility model relates to the technical field of planting frames, in particular to a root device for bush planting.

Background

Chinese patent CN108966931a discloses a roof garden type device, which is designed as an integral unit, and the structure of the mold for casting is complex, resulting in higher manufacturing cost, larger volume, and difficult transportation to the roof during use.

Disclosure of Invention

In order to solve the technical problems in the background technology, the utility model discloses a root device for bush planting.

The utility model provides a root device for bush planting, which comprises a water storage frame, wherein the upper end of the water storage frame is sequentially clamped with a baffle plate and a planting frame;

a water guide belt is inserted on the partition board, one end of the water guide belt is inserted in the water storage frame, and the other end of the water guide belt is inserted in the planting frame;

the water storage frames are fixedly clamped by the clamping blocks when spliced in the horizontal direction, and are fixedly clamped by the clamping blocks when spliced in the vertical direction;

and when the planting frames are spliced in the vertical direction, the planting frames are fixed through clamping.

The utility model is spliced in a clamping way, so that the assembly, disassembly, transportation and transportation are convenient, and the cast die is simple in structure and low in cost. Furthermore, the number of the planting frames and the water storage frames can be set according to the requirements, so that the length, the width and the height of the planting frames and the water storage frames can meet the use requirements. In rainy days, rainwater can permeate through the soil and the permeable holes on the partition plate and is stored in the water storage frame; when the green plants lack of water, the water guide belt guides the water in the water storage frame into the soil, so that the watering frequency is reduced, and the labor intensity is reduced. The baffle is used for supporting soil, and the root of green planting is avoided growing to the retaining frame to occupy the space of retaining frame, reduce the retaining ability of retaining frame.

The specific clamping structure of the utility model is as follows: the upper ends of the planting frame and the water storage frame are provided with protruding blocks, and the lower ends of the planting frame and the water storage frame are provided with clamping grooves; the baffle is provided with a clamping groove for clamping the convex blocks; when planting frame and the vertical direction concatenation of retaining frame, lug and draw-in groove joint.

The specific structure of the clamping block and the specific clamping structure are as follows: the side part of the water storage frame is provided with a bayonet; the clamping block is provided with two clamping plates; when the water storage frame is spliced, the clamping plates are respectively clamped with adjacent bayonets.

The planting frame is sealed all around, and green planting is easy to lack of oxygen and die, based on this, further design is: the side wall of planting frame is provided with a plurality of gas pockets.

When the water quantity in the water storage frame is insufficient, manual water supplementing is needed, and the operation is complicated, so that the problem is further improved and solved, and specifically, water pipes are arranged on two sides of the planting frame, and one water pipe is connected with a tap water pipe. When the water quantity in the water storage frame is insufficient, the water can be supplemented by opening the valve on the tap water pipe, and the operation is simple and convenient; and the water pipe is arranged on the planting frame, so that watering operation is finished while water is supplemented. When the rainfall is too large, the redundant water can be discharged from the other water pipe, so that the green plant is prevented from being drowned.

The rainwater is mixed with impurities, and the rainwater can be deposited at the bottom of the water storage frame, so that the water storage capacity of the water storage frame is reduced, and based on the water storage frame, the rainwater storage frame is further designed to be: mud pipes are arranged on two sides of the bottom of the water storage frame.

Because the bottom of retaining frame is full to impurity in the rainwater, and the mud pipe bore is little, is difficult to with the whole discharge of impurity, so the further improvement solves this problem, and specifically, the bottom plate of retaining frame is the slope and arranges, the lower part of mud pipe connection bottom plate.

The partition board is easy to deform and break under pressure, so that the problem is further improved and solved, and particularly, a support is further connected between the partition board and the water storage frame.

The soil is easy to enter the water storage frame from the water permeable holes, so that the problem is further improved and solved, and the geotechnical cloth is further arranged at the upper end of the partition plate. Geotechnical cloth can also be used for filtering the rainwater, reduces the impurity in the retaining frame to reduce the frequency of clearance.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a top view of the present utility model;

FIG. 4 is a cross-sectional view of A-A of FIG. 3;

FIG. 5 is a cross-sectional view of B-B in FIG. 3;

FIG. 6 is a schematic view of a planting frame;

FIG. 7 is a schematic view of the structure of the separator;

FIG. 8 is a schematic view of the structure of the water storage frame;

FIG. 9 is a schematic view of the structure of the snap block;

in the figure: 1. a water storage frame; 2. a partition plate; 3. planting frames; 4. a clamping block; 5. a clamping groove; 6. a bayonet; 7. a clamping plate; 8. air holes; 9. a water pipe; 10. a mud pipe; 11. a bottom plate; 12. a support post; 13. geotextile; 14. a bump; 15. a plug hole; 16. the pipe is inserted.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Embodiment one:

as shown in figures 1-3, the utility model relates to a root device for bush planting, which is made of polymer and comprises a planting frame 3, a partition plate 2 and a water storage frame 1 which are sequentially arranged from top to bottom. The planting frame 3 is used for placing soil, planting green plants, and the water storage frame 1 is used for storing water. As shown in fig. 7 and 5, the partition board 2 is provided with a plurality of plug holes 15, and the lower ends of the plug holes 15 are provided with plug tubes 16 for plugging the water guide belts. The water guide belt is made of water guide materials, and the materials in the embodiment are water-absorbing rock wool. The lower end of the water guide belt is inserted into the water storage frame 1 and is contacted with the bottom plate 11 of the water storage frame 1, and the upper end of the water guide belt is inserted into the planting frame 3.

As shown in fig. 7-9, the upper ends of the planting frame 3 and the water storage frame 1 are respectively provided with a cross-shaped protruding block 14, and the lower ends are respectively provided with a cross-shaped clamping groove 5; the baffle plate 2 is also provided with a clamping groove 5. The fixture block of retaining frame 1 upper end joint draw-in groove 5 on baffle 2 in proper order and the draw-in groove 5 of planting frame 3 lower extreme to make planting frame 3, baffle 2 and retaining frame 1 pass through the mode connection of joint, realize quick assembly disassembly.

According to the use requirement, the quantity of the planting frames 3 and the water storage frames 1 can be set, so that the length, the width and the height of the planting frames can meet the use requirement. The planting frame 3 is spliced in the vertical direction, and is fixed by clamping the clamping groove 5 through the convex blocks 14. The water storage frame 1 comprises a horizontal direction splicing and a vertical direction splicing. When the vertical direction is spliced, the clamping groove 5 is clamped and fixed through the convex block 14. When the horizontal direction is spliced, the splicing block is fixedly clamped by the clamping block 4, and specifically comprises the following steps: as shown in fig. 4, 8 and 9, the side part of the water storage frame 1 is provided with a bayonet 6; the clamping block 4 is provided with two clamping plates 7, and when the water storage frame 1 is spliced in the horizontal direction, the clamping plates 7 are respectively clamped with adjacent bayonets 6.

The lower end of the water storage frame 1 can be provided with a water storage and drainage plate for roof water prevention.

The utility model is spliced in a clamping way, so that the assembly, disassembly, transportation and transportation are convenient, and the cast die is simple in structure and low in cost. In rainy days, rainwater can permeate through the soil and the water permeable holes on the partition plate 2 and is stored in the water storage frame 1; when the green plants lack of water, the water guide belt guides the water in the water storage frame 1 into the soil, thereby reducing the watering frequency and reducing the labor intensity. The partition plate 2 is not only used for supporting soil, but also used for preventing the roots of green plants from growing in the water storage frame 1, so that the space of the water storage frame 1 is occupied, and the water storage capacity of the water storage frame 1 is reduced.

Embodiment two:

the difference from the first embodiment is that: as shown in fig. 6, the side wall of the planting frame 3 is provided with a plurality of air holes 8. The air holes 8 provide enough oxygen for green plant growth and avoid hypoxia death.

Embodiment III:

the difference from the first embodiment is that: as shown in fig. 6, the planting frame 3 is provided with water pipes 9 symmetrically arranged at both sides of the planting frame 3. The outer end of one of the water pipes 9 is connected with a tap water pipe through a pipeline. When the water quantity in the water storage frame 1 is insufficient, the water can be supplemented by opening the valve on the tap water pipe, and the operation is simple and convenient; and the water pipe 9 is arranged on the planting frame 3, so that watering operation is completed while water is replenished. When the rainfall is too large, the redundant water can be discharged through the other water pipe 9, so that the green plant is prevented from being drowned. When a plurality of planting frames 3 are arranged in the horizontal direction, adjacent water pipes 9 are connected, and one water pipe 9 on the outer side is connected with a tap water pipe.

Embodiment four:

the difference from the first embodiment is that: as shown in fig. 8, the bottom of the water storage frame 1 is provided with a mud pipe 10, which is symmetrically arranged at two sides of the water storage frame 1, and the mud pipe 10 is plugged by a plug in a normal state. Because the rainwater is mixed with impurities, the rainwater can be deposited at the bottom of the water storage frame 1, so that the water storage capacity of the water storage frame 1 is reduced, and the impurities in the water storage frame 1 can be discharged by opening the plug. When the water storage frame 1 is spliced in the horizontal direction, adjacent sludge discharge pipes 10 are connected.

Fifth embodiment:

compared with the fourth embodiment, the difference is that: as shown in fig. 5, since the impurities in the rainwater are distributed to the bottom of the water storage frame 1 and the diameter of the sludge discharge pipe 10 is small, it is difficult to discharge all the impurities, so the following design is made: the bottom plate 11 of the water storage frame 1 is obliquely arranged, and the mud discharging pipe 10 is connected with the lower part of the bottom plate 11. As such, impurities may accumulate at the lower portion of the bottom plate 11, thereby facilitating cleaning.

Example six:

the difference from the first embodiment is that: geotextile 13 is also placed at the upper end of the partition plate 2. Geotechnical cloth 13 not only can place soil and get into retaining frame 1, can also be used for filtering the rainwater, reduces the impurity in the retaining frame 1 to reduce the frequency of clearance.

Embodiment seven:

the difference from the first embodiment is that: as shown in fig. 5, a pillar 12 is further connected between the partition plate 2 and the water storage frame 1, and the concrete structure is as follows: the lower extreme of baffle 2 is provided with the card takeover, and the upper end of card takeover is provided with inwards bellied limiting plate. The upper end of the pillar 12 is inserted into the clamping pipe and abuts against the limiting plate, and the lower end abuts against the bottom plate 11. The support posts 12 are used for improving the structural strength of the partition board 2 and avoiding deformation and fracture caused by compression of the partition board 2.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (9)

1. A root device for bush planting, characterized in that: comprises a water storage frame (1), wherein the upper end of the water storage frame is sequentially clamped with a baffle plate (2) and a planting frame (3);

a water guide belt is inserted on the partition plate (2), one end of the water guide belt is inserted in the water storage frame (1), and the other end of the water guide belt is inserted in the planting frame (3);

the water storage frames (1) are fixedly clamped by the clamping blocks (4) when spliced in the horizontal direction, and are fixedly clamped by the clamping blocks when spliced in the vertical direction;

and the planting frames (3) are fixed in a clamping manner when spliced in the vertical direction.

2. A root device for bush planting according to claim 1, wherein: the upper ends of the planting frame (3) and the water storage frame (1) are provided with lugs (14), and the lower ends of the planting frame and the water storage frame are provided with clamping grooves (5);

the baffle (2) is provided with the clamping groove (5) for clamping the convex block (14);

when the planting frame (3) and the water storage frame (1) are spliced in the vertical direction, the protruding blocks (14) are clamped with the clamping grooves (5).

3. A root device for bush planting according to claim 1, wherein: a bayonet (6) is arranged at the side part of the water storage frame (1);

the clamping block (4) is provided with two clamping plates (7);

when the water storage frames (1) are spliced, the clamping plates (7) are respectively clamped with the adjacent bayonets (6).

4. A root device for bush planting according to claim 1, wherein: the side wall of the planting frame (3) is provided with a plurality of air holes (8).

5. A root device for bush planting according to claim 1, wherein: water pipes (9) are arranged on two sides of the planting frame (3), and one water pipe (9) is connected with a tap water pipe.

6. A root device for bush planting according to claim 1, wherein: mud pipes (10) are arranged on two sides of the bottom of the water storage frame (1).

7. A shrub planting root device as claimed in claim 6, wherein: the bottom plate (11) of the water storage frame (1) is obliquely arranged, and the mud discharge pipe (10) is connected with the lower part of the bottom plate (11).

8. A root device for bush planting according to claim 1, wherein: and a support column (12) is also connected between the partition plate (2) and the water storage frame (1).

9. A root device for bush planting according to claim 1, wherein: geotechnical cloth (13) is also arranged at the upper end of the partition plate (2).