CN-224218985-U - Vertical spliced and stacked plant cultivation frame

Abstract

The utility model discloses a vertical spliced and stacked plant cultivation frame which comprises a filtering water tank, a cultivation structure and a water receiving box, wherein the filtering water tank is fixedly arranged at the top of the cultivation structure, the water receiving box is fixedly arranged at the bottom of the cultivation structure, a fixed water guide tank and a water suction pump are arranged in the filtering water tank, each side of the cultivation structure is provided with a side grid plate, the side grid plates are provided with a plurality of detachable grid filling plates distributed in a matrix manner, the middle part in the cultivation structure is provided with a fixed water guide column, the lower end of the water guide tank faces to the top port of the water guide column, the side grid plates can be clamped with a single-frame cultivation container and a three-frame cultivation container, the single-frame cultivation container and the three-frame cultivation container are communicated with the inside of the cultivation structure, four corners of the cultivation structure are provided with clamping upright posts, and a climbing support base is arranged in the single-frame cultivation container. The utility model has the advantages that the planting quantity of crops in unit area is improved, different cultivation containers can be selected according to the characteristics of plants, and the planting modes of soil culture or aeroponic culture can be switched.

Inventors

• LI YONG

Assignees

• 李雍

Dates

Publication Date

20260512

Application Date

20250507

Claims (5)

1. 1. The vertical spliced stacked plant cultivation frame is characterized by comprising a filtering water tank (1), a cultivation structure (3) and a water receiving box (2), wherein the filtering water tank (1) is fixedly arranged at the top of the cultivation structure (3), and the water receiving box (2) is fixed at the bottom of the cultivation structure (3); The utility model discloses a cultivation structure, including filtering water tank (1), cultivation structure (3), filtering water tank (1) are equipped with fixed guiding gutter (101), suction pump (102), cultivation structure (3) each side is side grid board (306), side grid board (306) are equipped with detachable net filler plate (302) that a plurality of matrixes distribute, and middle part is equipped with fixed guiding water column (308) in cultivation structure (3), guiding gutter (101) lower extreme towards guiding water column (308) top port, but side grid board (306) joint single frame cultivation container (301), three frame cultivation container (305), single frame cultivation container (301), three frame cultivation container (305) and cultivation structure (3) inside intercommunication, but the four corners of cultivation structure (3) are joint stand (309), but be equipped with climbing support base (304) in single frame cultivation container (301), cultivation structure (3) bottom is equipped with a plurality of holes that leak (307).
2. 2. A vertical splice stackable plant growing rack according to claim 1, characterized in that an atomizer holder (103) is mountable in the filter tank (1).
3. 3. A vertical splice stackable plant growing rack according to claim 1, characterized in that the growing structure (3) is provided with a fixed plant fixing clasp (303) on one side.
4. 4. The vertical splice stackable plant growing rack of claim 1, wherein the clampable upright (309) is for clamping an expanded growing structure (3).
5. 5. The vertical spliced stacked plant cultivation stand as claimed in claim 1, characterised in that the water receiving box (2) is fixed on a chassis (201) at the bottom of the cultivation structure (3), and the water receiving box (2) is located at the bottom of a plurality of water leakage holes (307).

Description

Vertical spliced and stacked plant cultivation frame Technical Field The utility model relates to the technical field of vertical spliced and stacked plant cultivation frames, in particular to a vertical spliced and stacked plant cultivation frame. Background Modern agriculture is continuously developed, vertical planting (vertical farming) becomes a high-efficiency sustainable agricultural production mode, and gradually becomes an important method for solving the production problems of food and ornamental green planting. At present, a large number of cultivation frames are used for planting plants in the vertical planting field, most of the cultivation frames are planted in a soilless culture multilayer mode, and a light supplementing lamp is arranged between each layer of cultivation frames to provide illumination for the plants, so that the problems that the plant growth space is limited, the soil is not supported and fixed, the plant root system growth space is insufficient, the plants fall down, the electricity consumption and the like are generated. Disclosure of utility model The utility model aims to provide a vertical spliced and stacked plant cultivation frame so as to solve the problems in the background technology. In order to solve the technical problems, the utility model provides the following technical scheme: The utility model relates to a vertical spliced and stacked plant cultivation frame which comprises a filtering water tank, a cultivation structure and a water receiving box, wherein the filtering water tank is fixedly arranged at the top of the cultivation structure; The cultivation device is characterized in that a fixed water guide groove and a water suction pump are arranged in the filtering water tank, each side of the cultivation structure is provided with a side grid plate, the side grid plates are provided with a plurality of detachable grid filling plates distributed in a matrix mode, the middle part of the cultivation structure is provided with a fixed water guide column, the lower end of the water guide groove faces the top port of the water guide column, the side grid plates can be clamped with a single-frame cultivation container and a three-frame cultivation container, the single-frame cultivation container, the three-frame cultivation container and the cultivation structure are communicated with each other, four corners of the cultivation structure are provided with clamping upright posts, a climbing support base is arranged in the single-frame cultivation container, and a plurality of water leakage holes are formed in the bottom of the cultivation structure. As an improvement, an atomizer bracket can be arranged in the filtering water tank. As an improvement, one side of the cultivation structure is provided with a fixed plant fixing buckle. As an improvement, the clampable upright post is used for clamping and expanding the cultivation structure. As an improvement, the water receiving box is fixed on a bottom plate at the bottom of the cultivation structure, and the water receiving box is positioned at the bottoms of the water leakage holes. As an improvement, the water leakage holes are arranged on the chassis of the cultivation structure. Compared with the prior art, the vertical plant cultivation frame has the advantages that the vertical plant cultivation frame which can be spliced and stacked can better utilize the planting space, the side grid plates on the cultivation frame can enable a user to select the planting position of plants by himself, and the plant cultivation containers on the cultivation frame can be selected according to the size of the plants. The method improves the planting quantity of crops in a unit area, can select different cultivation containers according to the characteristics of plants, and can switch the planting modes of soil culture or aeroponic culture. Drawings In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will briefly introduce the drawings that are required to be used in the embodiments or the description of the prior art, and it is apparent that the drawings listed below are only some of the schematic views of the present utility model, but not all of them. Fig. 1 is a schematic view of a vertical splice-stackable plant cultivation stand according to the present utility model. Fig. 2 is a schematic structural view of a vertical plant cultivation stand capable of being spliced and stacked according to the second embodiment of the present utility model. Fig. 3 is a schematic diagram of a spliced stacking structure of a vertical plant cultivation frame capable of being spliced and stacked according to the present utility model. Fig. 4 is a schematic diagram of a second splicing and stacking structure of a vertical plant cultivation frame capable of being spliced and stacked. Fig. 5 is a schematic view of a filter tank of a vertica