CN219877102U

CN219877102U - Moisture collecting structure

Info

Publication number: CN219877102U
Application number: CN202321132852.7U
Authority: CN
Inventors: 周杰
Original assignee: Beijing Lvjiajie Landscape Engineering Co ltd
Current assignee: Beijing Lvjiajie Landscape Engineering Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-10-24
Anticipated expiration: 2033-05-11

Abstract

The utility model discloses a water collecting structure, which relates to the technical field of flower planting and comprises a water collecting barrel, wherein a water collecting cover is fixedly connected to the top of the water collecting barrel, a supporting structure is fixedly connected to the inner wall of the water collecting barrel, and a water collecting cavity for storing water is formed in the inner cavity of the water collecting barrel below the supporting structure. According to the utility model, through the cooperation arrangement among the structures such as the water collecting cover, the water collecting cavity, the sponge plate, the sponge column and the flowerpot, when flowers planted in the flowerpot lack of water caused by long-time forgetting watering of a user in a dry season, the sponge column can convey the water collected in the water collecting cavity to the sponge plate in the flowerpot under the capillary action for absorbing and using plants planted in the flowerpot, so that the problem that the flowers can be irrigated only by manually swinging the flowerpot after the water is collected by the conventional flowerpot or taking out the collected water is avoided as much as possible, and the use of the flowerpot is very inconvenient for the user.

Description

Moisture collecting structure

Technical Field

The utility model relates to the technical field of flower planting, in particular to a water collecting structure.

Background

Currently, with the improvement of living standard of people, flower planting is more and more popular among people. Among the existing flower planting devices, the flower cultivating pot is a very common planting device.

The utility model patent with publication number CN208850254U provides a flower pot for flower planting, which comprises a water collecting disc, a pot body, a ceramic net and a base; the bottom end of the water collecting disc is fixedly connected with the basin body, a water collecting groove with an annular structure is formed in the side wall of the basin body, and a plurality of first drain holes are formed in the upper circular array of the inner side wall of the water collecting groove; a slag blocking net is arranged at the opening position of the upper part of the water collecting tank; the shape of the basin body is of an inverted cone structure; the lower end of the basin body is of an opening structure, and a ceramic net with an inverted cone structure is detachably arranged in the opening of the lower end of the basin body; external threads are arranged outside the side wall of the lower end of the basin body; the detachable thread at the lower end of the basin body is connected with a base, the shape of the base is of an inverted cone structure matched with the basin body structure, the inner wall of an opening at the upper end of the base is provided with an internal thread matched with the external thread, and the basin body and the base are mutually matched and connected with the internal thread through the external thread; the base is internally provided with a water storage tank with an inverted cone structure, and a plurality of second drain holes are formed in the side wall of the upper part of the water storage tank in a circular array.

Above-mentioned flowerpot of growing flower need manual swing after collecting moisture grow the flowerpot or take out the moisture of collecting just can water flowers, lead to the user to use very inconvenient.

Disclosure of Invention

The utility model aims to solve or at least relieve the problem that the prior flowerpot needs to manually swing the flowerpot after collecting water or take out the collected water to irrigate flowers, so that users are very inconvenient to use.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a moisture collection structure, includes the water collection bucket, water collection bucket top fixedly connected with catchment cover, fixedly connected with bearing structure on the water collection bucket inner wall, the bearing structure below the water collection bucket inner chamber forms the water collection chamber that is used for storing moisture, the flowerpot has been placed to the bearing structure top, the through-hole has been seted up to the bottom of flowerpot, the sponge board has been laid to flowerpot inner chamber bottom, the lower surface center fixedly connected with sponge post of sponge board, the sponge post passes through the through-hole runs through flowerpot bottom and with the inside being linked together of water collection chamber.

Through adopting above technical scheme, during the use, the user is at first kept away from the one end of sponge board and is aimed at the through-hole of seting up on the flowerpot to push down the sponge board and make the sponge post run through the flowerpot diapire through the through-hole, until the sponge board is laminated completely with the bottom of flowerpot, then the user can lay planting soil above the sponge board and plant flowers, and place the flowerpot bottom on the bearing structure that the water collection bucket is inside to set up, when rainy season or user water, unnecessary moisture can fall on the water collection cover and slide down along the water collection cover under the action of gravity and store in the water collection chamber, forget the time when watering for a long time and lead to the flowers planted in the flowerpot to lack the moisture when the sponge board that the sponge post can be with the water collection intracavity portion to collect under the capillary action, supply the inside plant absorption and the use of planting of flowerpot, the problem that the current flower pot need manual swing after collecting moisture to support the flowerpot or take out can water to flower to carry out, lead to the user to very inconvenient use has been avoided as far as possible.

Optionally, the water collecting cover is in a horn-shaped structure, and the diameter of the top end of the water collecting cover is larger than that of the bottom end of the water collecting cover.

Through adopting above technical scheme, set up big-end-up's horn-like structure with the cover that catchments, unnecessary moisture when conveniently collecting rainwater and watering flowers through the cover that catchments.

Optionally, the supporting structure is a ring flange fixedly connected in the inner cavity of the water collecting barrel, and a groove matched with the bottom of the flowerpot in size is formed in the ring flange.

Through adopting above technical scheme, set up annular flange and be used for supporting the bottom of flowerpot, set up the recess in the centre of annular flange for place the flowerpot, make the flowerpot place more stably.

Optionally, a plurality of through holes are formed at the connection part between the annular flange and the inner wall of the water collecting barrel, and the through holes penetrate through the annular flange and are communicated with the inside of the water collecting cavity.

Through adopting above technical scheme, set up the through-hole, make the moisture that falls on annular flange pass annular flange inflow water collection intracavity portion through the through-hole and store.

Optionally, a plurality of drain holes are formed in the side wall of the water collecting cavity below the annular flange, and the drain holes are communicated with the inside of the water collecting cavity.

By adopting the technical scheme, the drain hole is arranged on the side wall of the water collecting cavity and used for removing redundant water, so that the problem that the root of the flower is soaked in rainwater and the growth of the flower is affected due to the fact that the water level in the water collecting barrel is too high is avoided as much as possible.

Optionally, the flowerpot is cylindric structure, the aperture of the through-hole of flowerpot bottom seting up is greater than the diameter of sponge post.

Through adopting above technical scheme, set up the aperture of through-hole to be greater than the diameter of sponge post, make the inside unnecessary rainwater of flowerpot can discharge through the through-hole, avoid the inside planting soil of flowerpot too moist as far as possible, influence the problem of flowers growth.

Optionally, the sponge post is cylindric structure, the bottom of sponge post downwardly extending with the laminating mutually of catchment chamber inner chamber diapire.

Through adopting above technical scheme, laminating bottom and the chamber diapire that catchments of sponge post mutually, the effect of absorbing water that can greatly increased sponge post makes the inside water level of chamber that catchments lower the sponge post still can play a role.

Optionally, a circular slag blocking net is covered between the inner wall of the water collecting cover and the top of the flowerpot.

Through adopting above technical scheme, set up to be annular pushing off the sediment net and be used for blockking impurity, avoid the impurity of great granule to fall into the water collection bucket inner chamber as far as possible, cause the problem that the through-hole blockked up easily.

In summary, the beneficial effects of the utility model are as follows:

according to the utility model, through the cooperation arrangement among the structures such as the water collecting cover, the water collecting cavity, the sponge plate, the sponge column and the flowerpot, when flowers planted in the flowerpot lack of water caused by long-time forgetting watering of a user in a dry season, the sponge column can convey the water collected in the water collecting cavity to the sponge plate in the flowerpot under the capillary action for absorbing and using plants planted in the flowerpot, so that the problem that the flowers can be irrigated only by manually swinging the flowerpot after the water is collected by the conventional flowerpot or taking out the collected water is avoided as much as possible, and the use of the flowerpot is very inconvenient for the user.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present utility model;

FIG. 2 is a schematic perspective view of a support structure of the present utility model;

fig. 3 is a schematic diagram of the connection structure of the flowerpot, the sponge board and the sponge column.

Reference numerals illustrate: 1. a water collecting barrel; 2. a water collecting cover; 3. an annular flange; 4. a through hole; 5. a groove; 6. a water collecting cavity; 7. a drain hole; 8. a flower pot; 9. a through hole; 10. a sponge plate; 11. a sponge column; 12. a slag blocking net.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-3.

Referring to fig. 1-3, the water collecting structure comprises a water collecting barrel 1 for storing rainwater, dew and redundant water when plants are irrigated, wherein a water collecting cover 2 is fixedly connected to the top of the water collecting barrel 1. The inner wall of the water collecting barrel 1 is fixedly connected with a supporting structure, and a water collecting cavity 6 for storing water is formed in the inner cavity of the water collecting barrel 1 below the supporting structure. So that the excessive moisture can fall into the water collecting cavity 6 to be stored after being collected by the water collecting cover 2.

Flowerpot 8 that is used for planting flowers has been placed to bearing structure top, and through-hole 9 has been seted up to flowerpot 8's bottom, and flowerpot 8 inner chamber bottom has laid the sponge board 10 that carries out sealed effect to through-hole 9, and the size of sponge board 10 and the inner chamber bottom looks adaptation of flowerpot 8. Through the through hole 9 of seting up on the flowerpot 8 is sealed to the sponge board 10, can avoid in the flowerpot 8 being used for planting flowers planting soil to fall into the water chamber 6 inside from the through hole 9 as far as possible.

The center of the lower surface of the sponge plate 10 is fixedly connected with a sponge column 11, and the sponge column 11 penetrates through the bottom of the flowerpot 8 through the through hole 9 and is communicated with the inside of the water collecting cavity 6. When flowers planted in the flowerpot 8 lack moisture, the sponge column 11 can convey the moisture collected in the water collecting cavity 6 to the sponge plate 10 in the flowerpot 8 under the capillary action, so that plants planted in the flowerpot 8 can be absorbed and used.

When the flowerpot is used, a user aims at the through hole 9 formed in the flowerpot 8 at one end of the sponge column 11 far away from the sponge plate 10, and presses down the sponge plate 10 to enable the sponge column 11 to penetrate through the bottom wall of the flowerpot 8 through the through hole 9 until the sponge plate 10 is completely attached to the bottom of the flowerpot 8, then the user can lay planting soil above the sponge plate 10 to plant flowers, and place the bottom of the flowerpot 8 on the supporting structure arranged in the water collecting barrel 1, when a rainy season or the user irrigates, excessive water can fall on the water collecting cover 2 and slide down along the water collecting cover 2 into the water collecting cavity 6 under the action of gravity to be stored, when the water collected in the water collecting cavity 6 is conveyed to the sponge plate 10 in the flowerpot 8 under the capillary action after the user forgets to water, the plant planted in the flowerpot 8 is absorbed and used, and the problem that the user cannot conveniently use the flower can be caused by the fact that the existing flower collecting pot needs to be manually swung to nourish the water after the water is avoided as much as possible.

Referring to fig. 1, the water collecting cover 2 has a horn-shaped structure, and the top end diameter of the water collecting cover 2 is larger than the bottom end diameter of the water collecting cover 2. The water collecting cover 2 is arranged into a horn-shaped structure with a large upper part and a small lower part, so that rainwater and redundant water during flower watering can be conveniently collected through the water collecting cover 2.

Referring to fig. 1 and 2, the support structure is an annular flange 3 fixedly connected to the inner cavity of the water collecting barrel 1, and a groove 5 which is matched with the bottom of the flowerpot 8 in size is formed in the annular flange 3. The annular flange 3 is arranged to support the bottom of the flowerpot 8, and the groove 5 is formed in the middle of the annular flange 3 and used for placing the flowerpot 8, so that the flowerpot 8 is placed more stably.

Referring to fig. 2, a plurality of through holes 4 are formed at the connection of the annular flange 3 and the inner wall of the water collecting barrel 1, and the through holes 4 penetrate through the annular flange 3 and are communicated with the inside of the water collecting cavity 6. The through holes 4 are provided so that moisture falling on the annular flange 3 can flow through the through holes 4 through the annular flange 3 into the water collecting chamber 6 to be stored.

Referring to fig. 1, a plurality of drain holes 7 are formed in the side wall of the water collecting cavity 6 below the annular flange 3, and the plurality of drain holes 7 are communicated with the inside of the water collecting cavity 6. The side wall of the water collecting cavity 6 is provided with a drain hole 7 for removing redundant water, so that the problem that the root of the flower is soaked in rainwater and the growth of the flower is affected due to the fact that the water level in the water collecting barrel 1 is too high is avoided as much as possible.

Referring to fig. 3, the flowerpot 8 has a cylindrical structure, and the hole diameter of the through hole 9 formed at the bottom of the flowerpot 8 is larger than the diameter of the sponge column 11. The diameter of the through hole 9 is set to be larger than the diameter of the sponge column 11, so that redundant rainwater in the flowerpot 8 can be discharged through the through hole 9, and the problem that the planting soil in the flowerpot 8 is too wet to influence the growth of flowers is avoided as much as possible.

Referring to fig. 1, the sponge column 11 is in a cylindrical structure, and the bottom of the sponge column 11 extends downwards to be attached to the bottom wall of the inner cavity of the water collecting cavity 6. The bottom of the sponge column 11 is attached to the bottom wall of the water collecting cavity 6, so that the water absorbing effect of the sponge column 11 can be greatly increased, and the sponge column 11 can still play a role when the water level in the water collecting cavity 6 is low.

Referring to fig. 1, a circular slag blocking net 12 is covered between the inner wall of the water collecting cover 2 and the top of the flowerpot 8. The circular slag blocking net 12 is used for blocking impurities, so that the problem that the through holes 4 are blocked easily because the impurities with larger particles fall into the inner cavity of the water collecting barrel 1 is avoided as much as possible.

The implementation principle of the utility model is as follows: when the flowerpot is used, a user aims at the through hole 9 formed in the flowerpot 8 at one end of the sponge column 11 far away from the sponge plate 10, and presses down the sponge plate 10 to enable the sponge column 11 to penetrate through the bottom wall of the flowerpot 8 through the through hole 9 until the sponge plate 10 is completely attached to the bottom of the flowerpot 8, then the user can lay planting soil above the sponge plate 10 to plant flowers, and place the bottom of the flowerpot 8 on the supporting structure arranged in the water collecting barrel 1, when a rainy season or the user irrigates, excessive water can fall on the water collecting cover 2 and slide down along the water collecting cover 2 into the water collecting cavity 6 under the action of gravity to be stored, when the water collected in the water collecting cavity 6 is conveyed to the sponge plate 10 in the flowerpot 8 under the capillary action after the user forgets to water, the plant planted in the flowerpot 8 is absorbed and used, and the problem that the user cannot conveniently use the flower can be caused by the fact that the existing flower collecting pot needs to be manually swung to nourish the water after the water is avoided as much as possible.

The foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. Moisture collection structure, including catchment bucket (1), its characterized in that: the utility model discloses a flowerpot, including flowerpot (8), sponge board (10) have been laid to flowerpot (8) inner chamber bottom, sponge board (10) have been laid to sponge board (10)'s lower surface center fixedly connected with sponge post (11), sponge post (11) pass through hole (9) run through flowerpot (8) bottom and with the inside being linked together of catchment chamber (6).

2. The moisture collection structure of claim 1, wherein: the water collecting cover (2) is of a horn-shaped structure, and the diameter of the top end of the water collecting cover (2) is larger than that of the bottom end of the water collecting cover (2).

3. The moisture collection structure of claim 1, wherein: the support structure is fixedly connected with an annular flange (3) in the inner cavity of the water collecting barrel (1), and a groove (5) matched with the bottom of the flowerpot (8) in size is formed in the annular flange (3).

4. A moisture collection structure according to claim 3, wherein: the connection part of the annular flange (3) and the inner wall of the water collecting barrel (1) is provided with a plurality of through holes (4), and the through holes (4) penetrate through the annular flange (3) and are communicated with the inside of the water collecting cavity (6).

5. A moisture collection structure according to claim 3, wherein: a plurality of drain holes (7) are formed in the side wall of the water collecting cavity (6) below the annular flange (3), and the drain holes (7) are communicated with the inside of the water collecting cavity (6).

6. The moisture collection structure of claim 5, wherein: the flowerpot (8) is of a cylindrical structure, and the aperture of the through hole (9) formed in the bottom of the flowerpot (8) is larger than the diameter of the sponge column (11).

7. The moisture collection structure of claim 1, wherein: the sponge column (11) is of a cylindrical structure, and the bottom of the sponge column (11) extends downwards to be attached to the bottom wall of the inner cavity of the water collecting cavity (6).

8. The moisture collection structure of claim 1, wherein: a circular slag blocking net (12) is covered between the inner wall of the water collecting cover (2) and the top of the flowerpot (8).