CN221409855U - Double-layer water storage cultivation device - Google Patents

Abstract

The utility model provides a double-layer water storage cultivation device which comprises a cultivation outer box, a cultivation inner box and a water storage box, wherein the cultivation outer box comprises an inner chute, an inner supporting table and an outer rib sheet, the inner supporting table is arranged at the lower part of the inner wall of the cultivation outer box and is connected with the bottom of the inner chute into a whole, and the outer rib sheet and the bottom of the cultivation outer box are of an integrated structure; the cultivation inner box comprises a first semicircular box body and a second semicircular box body which can be detachably connected through a jogged structure; the outer sliding sheets are symmetrically arranged on the outer wall of the semicircular box body and are in sliding connection with the inner sliding groove; the outer supporting table is arranged at the top of the semicircular box body and is connected with the top of the outer sliding sheet into a whole; the vent holes are arranged on the outer wall of the semicircular box body, the convex feet are arranged at the bottom of the semicircular box body, and water absorbing cotton is arranged in the convex feet; the water storage box is arranged at the bottom of the outer cultivation box, and the outer prism sheet is inserted into the water storage box. The utility model has simple disassembly and assembly, can realize automatic water absorption, solves the problem of matrix dry cracking caused by untimely watering, and reduces the mechanical damage to plant root systems during pot replacement.

Description

Double-layer water storage cultivation device

Technical Field

The utility model belongs to the technical field of agricultural facilities, and particularly relates to a double-layer water storage cultivation device.

Background

Along with aesthetic demands of people on home environments and office environments, various potted plants are planted more and more in home, so that various cultivation vessels are applied, the cultivation vessels are simpler in structure and single in function, potted plants are often forgotten to be watered due to various busy conditions, pot soil is easily caused to become dry and cracked, water flow is often lost directly through cracks of the pot soil during re-watering, the pot soil cannot be fully moistened, and excessive fertilizer and water are also wasted. In addition, as the plant grows up, it needs to be planted in a changing pot, and in the changing pot process, the root system of the plant is easy to be damaged mechanically. Therefore, it is necessary to design a double-layer water-storage cultivation device.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model aims to provide a double-layer water storage cultivation device, wherein water-absorbing cotton is arranged in a cultivation inner box and is matched with a water storage box, so that automatic water absorption can be realized, the watering times are reduced, and the problem of fertilizer water waste caused by matrix dry cracking due to untimely watering is solved. Meanwhile, through the matching of the inner sliding chute and the outer sliding vane and the design of the embedded structure of the inner cultivation box, the device is easy and convenient to assemble and disassemble, and reduces the mechanical damage to plant roots during the pot replacement.

The utility model is realized by the following technical scheme:

The double-layer water storage cultivation device comprises a cultivation outer box, a cultivation inner box and a water storage box, wherein the cultivation outer box comprises an inner sliding groove, an inner supporting table and an outer rib, the inner sliding groove is formed in the inner wall of the cultivation outer box and longitudinally extends along the inner wall, the inner supporting table is arranged at the lower part of the inner wall of the cultivation outer box and is connected with the bottom of the inner sliding groove into a whole, the outer rib is arranged at the bottom of the cultivation outer box and is integrally structured with the cultivation outer box, and a bottom cavity for placing the cultivation inner groove is formed in the center of the outer rib and the inner supporting table; the cultivation inner box comprises a first semicircular box body and a second semicircular box body, and the first semicircular box body and the second semicircular box body can be detachably connected through a jogged structure arranged on the edge of one opposite side of the first semicircular box body and the second semicircular box body; the first semicircular box body and the second semicircular box body comprise outer sliding sheets, an outer supporting table, vent holes and protruding feet, the outer sliding sheets are symmetrically arranged on the outer walls of the first semicircular box body and the second semicircular box body and longitudinally extend along the outer walls of the semicircular box bodies, and the outer sliding sheets are in sliding connection with the inner sliding grooves; the outer supporting table is arranged at the top of the semicircular box body and is connected with the top of the outer sliding sheet into a whole; the vent holes are formed in the outer wall of the semicircular box body, the protruding feet are arranged at the bottom of the semicircular box body, and water absorbent cotton is arranged in the protruding feet; the water storage box is arranged at the bottom of the outer cultivation box, a circular opening is formed in the top of the water storage box, the outer edge piece is inserted into the water storage box through the circular opening, the outer edge piece is fixedly attached to the circular opening, and a water filling port is formed in the top of the water storage box.

Preferably, the inner sliding groove and the outer sliding piece are arranged in four pairs and are symmetrically arranged, and the width of the outer sliding piece is matched with the width of the inner sliding groove and the positions of the outer sliding piece are in one-to-one correspondence.

Preferably, the inner support table extends inward along the bottom circumferential direction of the inner wall of the cultivation outer box, and the width of extension of the inner support table is consistent with the width of the inner chute.

Preferably, the outer support table extends outwards along the top circumferential direction of the cultivation inner box, and the width of the extension of the outer support table is larger than that of the outer sliding sheet.

Preferably, the shapes and the sizes of the first semicircular box body and the second semicircular box body are the same, and drain holes are uniformly distributed at the bottoms of the first semicircular box body and the second semicircular box body.

Preferably, the embedded structures of the first semicircular box body and the second semicircular box body are grooves and protrusions which are arranged at intervals, the grooves of the first semicircular box body correspond to the protrusions of the second semicircular box body, and the corresponding grooves and protrusions are fixedly inserted.

Preferably, the diameter of the outer cultivation box is larger than that of the inner cultivation box, and the outer cultivation box and the inner cultivation box are connected through the inner sliding groove and the outer sliding piece to form four air storage cavities.

Preferably, the protruding foot is interior cavity hollow out construction, the height of protruding foot is less than the height of water storage box and is higher than the height of outer arris piece.

Preferably, a perspective window for observing the water level is arranged on the side wall of the water storage box, and universal wheels are arranged at the bottom of the water storage box.

Preferably, the diameter of the circular opening above the water storage box is equal to the diameter of the outer rib.

Compared with the prior art, the utility model has the following beneficial effects:

1. The double-layer water storage cultivation device is simple and convenient to assemble and disassemble through the matching of the inner sliding groove and the outer sliding blade and the design of the embedded structure of the inner box, can reduce the damage to the original matrix in the process of changing the pot, avoids the mechanical damage to the plant root system, shortens the seedling-recovering time after the cultivation container is replaced, and improves the survival rate.

2. The double-layer water storage cultivation device is characterized in that the water absorption cotton is arranged in the cultivation inner box and matched with the water storage box, so that the double-layer water storage cultivation device has a water storage function, can automatically absorb water, reduces watering times, and solves the problem of fertilizer and water waste caused by matrix dry cracking due to untimely watering.

3. According to the double-layer water storage cultivation device, the air storage cavity is arranged between the inner box and the outer box, so that the ventilation of plant root systems is increased, and the growth of green plants is better facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a double-layer water-storage cultivation device of the utility model;

FIG. 2 is a schematic view of the cultivation inner box of the present utility model;

FIG. 3 is a schematic view of the structure of the cultivation outer box of the present utility model;

FIG. 4 is a schematic view of the structure of the water storage cartridge of the present utility model;

FIG. 5 is a top view of the inner box of the present utility model.

The figure indicates:

1. Cultivating the outer box; 11. an inner chute; 12. an inner support table; 13. an outer edge piece; 14. a bottom cavity; 2. cultivating the inner box; 21. a first semicircular box body; 22. a second semicircular box body; 23. a fitting structure; 231. a groove; 232. a protrusion; 24. a drain hole; 25. an outer slide; 26. an outer support table; 27. a vent hole; 28. a protruding foot; 3. a water storage box; 31. a circular opening; 32. a water filling port; 33. a perspective window; 5. a universal wheel;

Detailed Description

The present utility model will be described in detail with reference to the accompanying drawings.

The double-layer water storage cultivation device comprises a cultivation outer box 1, a cultivation inner box 2 and a water storage box 3 as shown in fig. 1 to 3.

The cultivation outer box 1 comprises an inner chute 11, an inner supporting table 12 and an outer rib 13, wherein the inner chute 11 is arranged on the inner wall of the cultivation outer box 1 and longitudinally extends along the inner wall, the inner supporting table 12 is arranged on the lower portion of the inner wall of the cultivation outer box 1 and is fixedly connected with the bottom of the inner chute 11 into a whole, and the outer sliding sheet 25 of the cultivation inner box 2 is convenient to insert and fix. The inner support table 12 extends inwards along the circumferential direction of the inner wall of the cultivation outer box 1, namely towards the center of the cultivation outer box 1, and the extending width of the inner support table 12 is consistent with the width of the inner chute 11.

The outer rib 13 is arranged at the bottom of the cultivation outer box 1 and is of an integral structure with the cultivation outer box 1, the outer rib 13 and the center of the inner supporting table 12 form a bottom cavity 14, the cultivation inner box 2 is convenient to pass through and fix on the inner supporting table 12, and the protruding feet 28 of the cultivation inner box 2 extend into the water storage box 3 after passing through and continuously absorb water.

The cultivation inner box 2 comprises a first semicircular box body 21 and a second semicircular box body 22 with two semicircular structures, wherein the first semicircular box body 21 and the second semicircular box body 22 with the same shape and size can be detachably connected through a jogged structure 23 arranged on the opposite sides of the first semicircular box body 21 and the second semicircular box body 22 to form the cultivation inner box 2 with a circular structure, and in the preferred embodiment of the utility model, the cultivation inner box 2 refers to the cultivation inner box 2 formed by jogged connection of the first semicircular box body 21 and the second semicircular box body 22. Specifically, the engaging structure 23 of the first semi-circular box body 21 and the second semi-circular box body 22 is a groove 231 and a protrusion 232 that are disposed at intervals, and the groove 231 of the first semi-circular box body 21 corresponds to the protrusion 232 of the second semi-circular box body 22, and the corresponding groove and protrusion are inserted and fixed.

Drain holes 24 are uniformly distributed at the bottoms of the first semicircular box body 21 and the second semicircular box body 22 and are used for leaking redundant water in the water storage box 3 when watering from the top. The diameter of the outer cultivation box 1 is larger than that of the inner cultivation box 2, four air storage cavities are formed between the outer cultivation box 1 and the inner cultivation box 2 through the connection of the inner sliding chute 11 and the outer sliding vane 25, and the vent holes 27 are formed in the outer wall of the semicircular box body of the inner cultivation box 2, so that air can flow conveniently, and the growth of a green plant root system can be better promoted.

The first semicircular box body 21 and the second semicircular box body 22 respectively comprise an outer sliding sheet 25, an outer supporting table 26, vent holes 27 and protruding feet 28, the outer sliding sheet 25 is symmetrically arranged on the outer wall of the semicircular box body and longitudinally extends along the outer wall of the semicircular box body, the outer sliding sheet 25 is slidably connected with the inner sliding groove 11, in particular, the inner sliding groove 11 and the outer sliding sheet 25 are respectively arranged in four and two-to-two symmetrical mode, the width of the outer sliding sheet 25 is matched with the width of the inner sliding groove 11, the positions of the outer sliding sheets 25 are in one-to-one correspondence with the positions of the inner sliding grooves 11, and the cultivation inner box 2 and the cultivation outer box 1 are fixed through the cooperation of the inner sliding grooves 11 and the outer sliding sheets 25.

The outer supporting table 26 is arranged at the top of the semicircular box body, the outer supporting table 26 is fixedly connected with the top of the outer sliding sheet 25 into a whole, the outer supporting table 26 extends along the outer circular direction of the top edge of the inner cultivation box 2, the extending width of the outer supporting table 26 is larger than that of the outer sliding sheet 25, and the inner cultivation box 2 is conveniently taken out from the outer cultivation box 1.

The bottom of the outer box 1 of cultivation is located to water storage box 3, the top of water storage box 3 is equipped with circular opening 31, the diameter of circular opening 31 equals the diameter of outer arris piece 13, outer arris piece 13 inserts in the water storage box 3 along the edge of the circular opening 31 of water storage box 3 upper end, and the lateral wall and the circular opening 31 laminating of outer arris piece 13 are fixed, at this moment, the bottom cavity 14 of the outer box 1 of cultivation and the inside intercommunication of water storage box 3, protruding foot 28 locates the bottom of the semicircle box body of the inner box 2 of cultivation and passes the bottom cavity 14 of the outer box 1 of cultivation and the circular opening 31 department of water storage box 3 top stretches into the inside of water storage box 3. The convex feet 28 are of hollow structures and are internally provided with absorbent cotton, so that the water in the water storage box 3 is conveniently and continuously absorbed, the watering times are reduced, and the problem that other cultivation containers are frequently watered can be solved.

The water filling port 32 is arranged on one side of the top of the water storage box 3, the perspective window 33 for observing the water level is arranged on the side wall of the water storage box 3 to observe the water level in the water storage box, the water storage box can be filled with water from the water filling port 32 at any time according to the requirement, and the water storage box can be detached when the water is filled. The height of the protruding feet 28 is lower than that of the water storage box 3 and higher than that of the outer rib 13, and when the outer rib 13 is inserted into the water storage box 3, a certain distance is kept between the protruding feet and the bottom of the water storage box 3, so that water flows through during water injection conveniently. When forgetting to fill the water storage box 3, the water level reserved in the water storage box is low, and when the absorbent cotton in the convex leg 28 cannot absorb water, the drying and cracking speed of the basin soil can be slowed down to a certain extent by means of evaporation. The bottom of the water storage box 3 is provided with a universal wheel 5, which is convenient for the random movement of the cultivation device.

The following describes the embodiments of the present utility model further:

When the utility model is used, firstly, two semicircular box bodies of the cultivation inner box 2 are assembled into a whole through the embedded structure 23, then, water absorbent cotton is filled into two groups of convex legs 28 with four hollow structures, and then, a layer of non-woven fabric is laid, and a matrix is filled and green plants are planted. And then the outer edge piece 13 of the cultivation outer box 1 is embedded into the circular opening 31 of the water storage box 3 for fixation, and finally the outer sliding piece 25 of the cultivation inner box 2 for planting plants is slid into the inner sliding groove 11 of the cultivation outer box 1 for fixation. At this time, four air storage cavities are formed between the outer cultivation box 1 and the inner cultivation box 2, so that the ventilation of plant root systems is greatly increased, and the growth of green plants is better facilitated.

In the daily maintenance of the green plants, only the water storage box 3 is fully filled with water, and the green plants automatically absorb water through the absorbent cotton in the bottom convex feet 28 of the cultivation inner box 2, so that the watering times are greatly reduced, and the problem of frequent watering of other cultivation containers is well solved. Meanwhile, the water storage box 3 is provided with the perspective window 33, so that the water quantity in the water storage box is conveniently observed, the water storage box does not need to be taken down when water needs to be added, and only water needs to be directly added through the water filling port 32. In addition, since the height of the protruding feet 28 of the cultivation inner box is lower than that of the water storage box 3, water in the water storage box always remains slightly in daily maintenance, and when water is forgotten to be added to the water storage box 3, the water can be evaporated to a certain extent, so that the dry cracking of the pot soil can be slowed down. When the basin soil is too dry and water needs to be sprayed from the top, excessive water can flow into the lower water storage box 3 through the drain hole 24 at the bottom of the inner cultivation box 2, so that the problem of waste caused by outflow of water is avoided.

Along with the continuous growth of green planting, when need change cultivation container to it, only need take out the cultivation inner box from the cultivation outer box, then slowly and break off with the fingers and thumb with force along the gomphosis structure of its intermediate position, again slowly take out whole root lump can, this operation compares with the normal direct green planting of pulling out from the top, the destruction to original basic lump has significantly reduced, avoided the unnecessary mechanical damage that causes to plant root system, thereby shortened the time of slowly seeding after changing cultivation container, the survival rate of green planting has also been improved simultaneously.

The above examples are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the spirit of the present utility model.

Claims (10)

1. A double-layer water storage cultivation device is characterized by comprising a cultivation outer box, a cultivation inner box and a water storage box,

The outer cultivation box comprises an inner sliding groove, an inner supporting table and an outer edge piece, wherein the inner sliding groove is arranged on the inner wall of the outer cultivation box and longitudinally extends along the inner wall, the inner supporting table is arranged at the lower part of the inner wall of the outer cultivation box and is connected with the bottom of the inner sliding groove into a whole, the outer edge piece is arranged at the bottom of the outer cultivation box and is of an integral structure with the outer cultivation box, and a bottom cavity for placing the inner cultivation box is formed in the center of the outer edge piece and the inner supporting table;

The cultivation inner box comprises a first semicircular box body and a second semicircular box body, and the first semicircular box body and the second semicircular box body can be detachably connected through a jogged structure arranged on the edge of one opposite side of the first semicircular box body and the second semicircular box body; the first semicircular box body and the second semicircular box body comprise outer sliding sheets, an outer supporting table, vent holes and protruding feet, the outer sliding sheets are symmetrically arranged on the outer walls of the first semicircular box body and the second semicircular box body and longitudinally extend along the outer walls of the semicircular box bodies, and the outer sliding sheets are in sliding connection with the inner sliding grooves; the outer supporting table is arranged at the top of the semicircular box body and is connected with the top of the outer sliding sheet into a whole; the vent holes are formed in the outer wall of the semicircular box body, the protruding feet are arranged at the bottom of the semicircular box body, and water absorbent cotton is arranged in the protruding feet;

The water storage box is arranged at the bottom of the outer cultivation box, a circular opening is formed in the top of the water storage box, the outer edge piece is inserted into the water storage box through the circular opening, the outer edge piece is fixedly attached to the circular opening, and a water filling port is formed in the top of the water storage box.

2. The double-layer water storage cultivation device according to claim 1, wherein the inner sliding groove and the outer sliding piece are arranged in four and two-to-two symmetrical mode, and the width of the outer sliding piece is matched with the width of the inner sliding groove and corresponds to the positions one by one.

3. The double-layered water-storage cultivation apparatus according to claim 1, wherein the inner support stand extends inward along a bottom circumferential direction of the inner wall of the cultivation outer box, and a width of the inner support stand extending is identical to a width of the inner slide groove.

4. The double-deck water storage cultivation apparatus according to claim 1, wherein the outer support stand extends outwardly in a top circumferential direction of the cultivation inner box, and the outer support stand extends to a width larger than that of the outer slide.

5. The double-layer water storage cultivation device according to claim 1, wherein the first semicircular box body and the second semicircular box body are identical in shape and size, and drain holes are uniformly distributed in bottoms of the first semicircular box body and the second semicircular box body.

6. The double-layer water storage cultivation device according to claim 5, wherein the embedded structures of the first semicircular box body and the second semicircular box body are grooves and protrusions which are arranged at intervals, the grooves of the first semicircular box body correspond to the protrusions of the second semicircular box body, and the grooves and the protrusions which correspond to each other are fixedly inserted.

7. The double-layer water storage cultivation device according to claim 1, wherein the diameter of the cultivation outer box is larger than that of the cultivation inner box, and four air storage cavities are formed between the cultivation outer box and the cultivation inner box through connection of the inner sliding groove and the outer sliding piece.

8. The double-layer water storage cultivation device according to claim 1, wherein the protruding feet are of an inner hollow structure, and the height of the protruding feet is lower than that of the water storage box and higher than that of the outer edge piece.

9. The double-layer water storage cultivation device according to claim 1, wherein a perspective window for observing the water level is arranged on the side wall of the water storage box, and a universal wheel is arranged at the bottom of the water storage box.

10. The double-layered water-storage cultivation apparatus according to claim 9, wherein a diameter of the circular opening above the water storage box is equal to a diameter of the outer ridge.