CN220528670U - Cuttage structure for three-dimensional greening - Google Patents

Abstract

The utility model discloses a cuttage structure for three-dimensional greening, which comprises two vertical plates, wherein a transverse plate is fixed at the bottom end between the two vertical plates, a plurality of cuttage boxes are equidistantly arranged between the two vertical plates and above the transverse plate, a cuttage plugboard is arranged in each cuttage box, a plurality of jacks are arranged on each cuttage plugboard, flanges are fixed at two sides of the top end of each cuttage box, and U-shaped plates for supporting the flanges are fixed at the adjacent sides of the two vertical plates and close to the flanges. According to the utility model, the support frame is arranged, the support frame comprises two vertical plates and one transverse plate, a plurality of cutting boxes and cutting plates are arranged in the support frame, a plurality of through holes for cutting plants are formed in the middle of each cutting plate, each cutting plate is formed by compressing agricultural straws, the length and the width of each cutting plate are customizable, so that the value of waste utilization is realized, the cutting structure enables plant cutting to be three-dimensional, the same occupied area is used, and more cutting quantity can be realized.

Description

Cuttage structure for three-dimensional greening

Technical Field

The utility model relates to the technical field of planting, in particular to a cuttage structure for three-dimensional greening.

Background

Cutting is also called cutting, and is a common propagation method for cultivating plants, and the stems, leaves, roots, buds and the like of the plants (called cutting in gardening) can be cut, or the plants can be inserted into soil, sand or soaked in water, and the plants can be planted after rooting, so that the plants become independent new plants.

At present, when plants are cut, the plants are required to be cut into a plastic cup filled with soil, and then the cut plants are placed on the ground in order, but the cutting mode occupies a large area and is small in cutting quantity. When plants root, the cut plants need to be taken out from the plastic cups and transplanted, and the plastic cups are usually used only once, so that the environment is not protected, and the utility model provides a cutting structure for three-dimensional greening.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a cuttage structure for three-dimensional greening.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a cuttage structure for three-dimensional greening, includes two risers, two bottom mounting has the diaphragm between the riser, two just be located the diaphragm top equidistance between the riser and be equipped with a plurality of cuttage boxes, every inside the cuttage box all is equipped with the cuttage picture peg, and the cuttage board is straw material, a plurality of jacks have been seted up on the cuttage picture peg, every cuttage box top both sides all are fixed with the turn-ups, two the adjacent side of riser just are close to turn-ups department all are fixed with the U-shaped board that is used for supporting the turn-ups.

Furthermore, a plurality of transverse and longitudinal indentations are formed in the surface of the cutting board, and the cutting board is a board formed by compressing straw, so that the cutting board can be cut into a single cutting board along the indentations, and the subsequent transplanting of plants is facilitated.

Further, the turn-ups are close to U shaped plate opening one side and have seted up the locating hole, the perforation has been seted up to U shaped plate bottom and be close to locating hole department, sliding connection has the kelly in the perforation, kelly top and locating hole block, kelly bottom mounting has the baffle, fixedly connected with spring under baffle and the U shaped plate, fixedly connected with pull ring under the baffle, after kelly and locating hole block, the turn-ups can fix the U shaped plate inside.

Furthermore, the outside wall of cuttage box just is close to U-shaped board opening one side and is fixed with the handle, can follow the U-shaped inboard pull out of cuttage box through the handle.

Further, any riser lateral wall just is located every cuttage box top and all is fixed with the branch pipe that intakes, the one end that the branch pipe that intakes is located the cuttage box top is fixed with the shower nozzle, and all branch pipe other ends that intakes are connected with the intake manifold jointly, can spray nutrient solution and water in to the cuttage box through the shower nozzle.

Further, a plurality of cuttage box bottom all is equipped with the water receiving box, and water receiving box both ends respectively with two riser fixed connection, every cuttage box diapire has all seted up the hole that leaks for unnecessary water in the cuttage box can leak to the water receiving box in from the hole that leaks.

Further, the bottom wall of the water receiving box is connected with the drainage branch pipes, and the other ends of all the drainage branch pipes are connected with the drainage main pipe together, so that water in the water receiving box can be discharged along the drainage branch pipes and the drainage main pipe and can be reused.

The utility model has the beneficial effects that:

when the plant cutting machine is used, the support frame comprises two vertical plates and one transverse plate, a plurality of cutting boxes and cutting plates are arranged in the support frame, a plurality of through holes for cutting plants are formed in the middle of each cutting plate, the cutting plates are formed by compressing agricultural straws, the length and the width of each cutting plate are customizable, so that the value of waste utilization is realized.

Drawings

FIG. 1 is an overall schematic of the present utility model;

fig. 2 is a perspective view of a cutting box and a cutting board according to the present utility model;

FIG. 3 is a perspective view of a U-shaped plate of the present utility model;

fig. 4 is an enlarged view at a of the present utility model.

Legend description:

1. a riser; 2. a cross plate; 3. cutting box; 4. flanging; 5. a U-shaped plate; 6. inserting plates; 7. a jack; 8. indentation; 9. a handle; 10. positioning holes; 11. perforating; 12. a clamping rod; 13. a baffle; 14. a pull ring; 15. a spring; 16. a water inlet branch pipe; 17. a spray head; 18. a water inlet main pipe; 19. a water receiving box; 20. a water discharge branch pipe; 21. and a water draining main pipe.

Detailed Description

As shown in fig. 1-4, a cuttage structure for three-dimensional greening is related to, including two risers 1, bottom mounting has diaphragm 2 between two risers 1, and be located the equidistance of diaphragm 2 top and be equipped with a plurality of cuttage boxes 3 between two risers 1, every cuttage box 3 is inside to be equipped with cuttage picture peg 6, and cuttage board 6 is straw material, has offered a plurality of jacks 7 on the cuttage picture peg 6, and every cuttage box 3 top both sides all are fixed with turn-ups 4, and the adjacent side of two risers 1 just is close to turn-ups 4 department all is fixed with the U-shaped board 5 that is used for supporting turn-ups 4.

As shown in fig. 1, a plurality of transverse and longitudinal indentations 8 are formed in the surface of the cutting board 6, and the cutting board 6 is a board formed by compressing straw, so that the cutting board 6 can be cut into single cutting boards 6 along the indentations 8, and the subsequent transplanting of plants is facilitated.

As shown in fig. 1-4, a positioning hole 10 is formed in one side of the flange 4, which is close to the opening of the U-shaped plate 5, a perforation 11 is formed in the bottom of the U-shaped plate 5, which is close to the positioning hole 10, a clamping rod 12 is slidably connected in the perforation 11, the top end of the clamping rod 12 is clamped with the positioning hole 10, a baffle 13 is fixed at the bottom end of the clamping rod 12, a spring 15 is fixedly connected with the lower surface of the baffle 13 and the lower surface of the U-shaped plate 5, a pull ring 14 is fixed on the lower surface of the baffle 13, and after the clamping rod 12 is clamped with the positioning hole 10, the flange 4 can be fixed inside the U-shaped plate 5. The outside wall of the cuttage box 3 and one side close to the opening of the U-shaped plate 5 are fixed with handles 9, and the cuttage box 3 can be pulled out of the U-shaped plate 5 through the handles 9.

As shown in fig. 1 and 2, the side wall of any riser 1 and above each cutting box 3 is fixed with a water inlet branch pipe 16, one end of the water inlet branch pipe 16 above the cutting box 3 is fixed with a spray head 17, the other ends of the water inlet branch pipes 16 are commonly connected with a water inlet main pipe 18, and nutrient solution and water can be sprayed into the cutting box 3 through the spray head 17. The bottom ends of the plurality of cuttage boxes 3 are respectively provided with a water receiving box 19, two ends of the water receiving boxes 19 are respectively and fixedly connected with the two vertical plates 1, and the bottom wall of each cuttage box 3 is provided with a water leakage hole, so that redundant water in the cuttage boxes 3 can leak into the water receiving boxes 19 from the water leakage holes. The bottom wall of the water receiving box 19 is connected with the water discharging branch pipes 20, and the other ends of the water discharging branch pipes 20 are commonly connected with the water discharging main pipe 21, so that water in the water receiving box 19 can be discharged along the water discharging branch pipes 20 and the water discharging main pipe 21 and can be reused.

When in use, the utility model is characterized in that: plants are inserted into the insertion holes 7 of each cutting board 6, and then water or nutrient solution can be sprayed into each cutting box 3 through the water inlet header pipe 18, the water inlet branch pipes 16 and the spray heads 17, and excessive water can be leaked into the water receiving box 19 from the water leakage holes and discharged along the water outlet branch pipes 20 and the water outlet header pipe 21. When the plants subjected to cuttage are required to be transplanted, pull rings 14 on two sides of each cuttage box 3 are pulled to enable clamping rods 12 to be separated from positioning holes 10 on flanges 4, then the cuttage boxes 3 are pulled out of U-shaped plates 5 on two sides through handles 9, then the cuttage plates 6 are separated into small blocks along indentations 8 of the cuttage plates 6, a cuttage plugboard 6 is arranged at the bottom of each cuttage plant, and the plants and the cuttage plates 6 are planted together during transplanting.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. A cuttage structure for three-dimensional greening, its characterized in that: including two riser (1), two bottom mounting has diaphragm (2) between riser (1), two between riser (1) and be located diaphragm (2) top equidistance and be equipped with a plurality of cuttage boxes (3), every cuttage box (3) are inside to all be equipped with cuttage picture peg (6), and cuttage board (6) are straw material, a plurality of jacks (7) have been seted up on cuttage board (6), every cuttage box (3) top both sides all are fixed with turn-ups (4), two riser (1) adjacent side and be close to turn-ups (4) department all are fixed with U-shaped board (5) that are used for supporting turn-ups (4).

2. A cutting structure for three-dimensional greening according to claim 1, characterized in that: the surface of the cutting board (6) is provided with a plurality of transverse and longitudinal indentations (8).

3. A cutting structure for three-dimensional greening according to claim 1, characterized in that: the utility model discloses a U-shaped board (5) is located, U-shaped board (5) is located to be close to locating hole (10) and has been seted up perforation (11), sliding connection has card pole (12) in perforation (11), card pole (12) top and locating hole (10) block, card pole (12) bottom mounting has baffle (13), baffle (13) and U-shaped board (5) lower surface fixedly connected with spring (15), baffle (13) lower surface is fixed with pull ring (14).

4. A cutting structure for three-dimensional greening according to claim 1, characterized in that: the outer side wall of the cuttage box (3) and one side close to the opening of the U-shaped plate (5) are fixed with a handle (9).

5. A cutting structure for three-dimensional greening according to claim 1, characterized in that: any riser (1) lateral wall just is located every cuttage box (3) top and all is fixed with branch pipe (16) that intakes, the one end that branch pipe (16) that intakes are located cuttage box (3) top is fixed with shower nozzle (17), and all branch pipe (16) other ends that intakes are connected with intake manifold (18) jointly.

6. A cutting structure for three-dimensional greening according to claim 1, characterized in that: the bottom ends of the plurality of cuttage boxes (3) are respectively provided with a water receiving box (19), two ends of the water receiving boxes (19) are respectively and fixedly connected with the two vertical plates (1), and water leakage holes are formed in the bottom wall of each cuttage box (3).

7. The cuttage structure for three-dimensional greening according to claim 6, wherein: the bottom wall of the water receiving box (19) is connected with a drainage branch pipe (20), and the other ends of all the drainage branch pipes (20) are commonly connected with a drainage main pipe (21).