CN222424819U - Self-priming water supply flower growing device - Google Patents

Abstract

The utility model relates to a self-priming water supply flower growing device which mainly comprises a planting cavity, a water storage cavity and a water absorption cotton rope, wherein the water storage cavity and the planting cavity are directly connected through a partition plate to form a connected structure, or the water storage cavity and the planting cavity are separated to form a side vertical split structure, soil is placed in the planting cavity, plants are planted in the soil, the water absorption cotton rope penetrates through a jack at the top of the water storage cavity to be connected with the water storage cavity and the planting cavity soil, and water is automatically absorbed through the water absorption cotton rope to supply water for plant growth, so that the self-priming flower growing device has the functions of evaporation prevention, self-storage rainwater (outdoor use) and automatic water supply. The utility model can avoid frequent watering of the flowers, overcome the defect of excessive or insufficient manual watering, and lead the people who cultivate the flowers to go out for a long time without worry about the watering of the flowers. The self-priming water supply flower growing device (flowerpot, flower stand and the like) with different sizes and types can be manufactured through technical improvement, so that all soil cultivated plants can be planted and grown by using the self-priming water supply flower growing device, and the self-priming water supply flower growing device is a scientific flower growing tool.

Description

Self-priming water supply flower growing device

Technical Field

The utility model relates to the technical field of flower gardening, in particular to a self-priming water supply flower growing device.

Background

The traditional flower-growing method is to plant soil in a flowerpot and then plant the plant, and manually irrigate and maintain the plant. The defects are frequent watering, insufficient watering or excessive root rot caused by insufficient maintenance experience, and inconvenient long-time departure due to household flower cultivation. The water storage cavity is arranged at the bottom of the soil (matrix) basin, the water storage cavity has the defect of limited water absorption height (generally less than 30cm and effectively), the height of the soil (matrix) basin is not more than 20cm according to the water cavity depth of 10cm, and water is required to be added in 5-10 days generally because the water absorption height of the capillary pipeline is too small. In a word, the lazy flower pot which is used at present and supplies water from the bottom can only be a dwarf flower pot, large flowers can not be planted, and the aim that the flower pot can not be worried about for a long time can not be achieved.

Therefore, a novel self-priming water supply flower growing device, namely a flowerpot and a flower stand, is urgently needed, a water storage cavity is arranged on the side edge of a planting cavity, and as a capillary water absorption cotton rope can be buried in soil in a falling manner by bypassing a jack at the top of the water storage cavity, the water absorption height and the water absorption capacity are obviously increased (proved by a large number of experiments), the water storage capacity can be designed according to requirements (the interval is designed to be more than 60 days when water is generally added), flowerpots and flower stands with different sizes can be designed, various flower plants are planted, and the function of self-storing rainwater is also realized outdoors. The technical improvement of the self-priming water supply flower growing device realizes the full coverage of the self-priming water supply flower growing technology on the flower growing demand, and can lead the flower growing person to go out for a long time without worry about flower growing.

Disclosure of utility model

The utility model provides a self-priming water supply flower growing device, namely a flowerpot and a flower stand, for solving the problems in the prior art.

The self-priming water supply flower growing device is mainly composed of a planting cavity, a water storage cavity and a water absorption cotton rope, wherein the water storage cavity is directly connected with the planting cavity through a partition plate to form a connected structure or the water storage cavity is separated from the planting cavity to form a side vertical split structure, soil is placed in the planting cavity, plants are planted in the soil, the water absorption cotton rope penetrates through a jack at the top of the water storage cavity to connect the water storage cavity with the soil of the planting cavity, and water is automatically absorbed by the water absorption cotton rope to supply water for plant growth.

Preferably, the water storage cavity is located at one of the single-side, double-side or outer-side annular structures of the planting cavity, the water storage cavity and the planting cavity are circular, annular, square, polygonal, vertical long-strip-shaped, and any one of various artistic shapes, and the water storage cavity and the device cavity are made of one of plastic, ceramic, glass and concrete materials.

Preferably, the number of the water inlet holes is multiple, the top of the water storage cavity is provided with a plurality of water absorption cotton rope jacks, a plurality of water absorption cotton ropes can be inserted, and the water absorption cotton rope jacks can be used for overflow outflow.

Preferably, the water storage cavity cover plate water inlet holes are designed into one or more according to the size of the planting cavity and are used for filling water for flower growing or self-storing rainwater.

Preferably, the bottom of the planting cavity is provided with a plurality of water leakage holes, the water leakage holes are communicated with the planting cavity for water drainage, and the self-suction water supply flower stand bottom plate can be directly designed into a grid water leakage net.

The beneficial effects of the utility model are as follows:

The utility model has the functions of evaporation prevention, self-priming water supply and self-rainwater storage (outdoor use), can avoid frequent watering, overcomes the defect of excessive or insufficient manual watering, and can lead the flower-growing person to go out for a long time without worry about flower watering. The self-priming water supply flower growing device-flower pot and flower stand with different sizes can be manufactured through technical improvement, so that all soil cultivated plants can be planted and grown by using the self-priming water supply flower growing device, and the self-priming water supply flower growing device is a scientific flower growing tool.

Drawings

Fig. 1 is a schematic view of the whole self-priming water supply flowerpot with the annular water storage cavity.

Fig. 2 is a schematic sectional view of the self-priming water supply flowerpot with the annular water storage cavity.

Fig. 3 is a schematic structural view of a secondary self-priming water supply flower stand according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of a three-sided vertical water storage chamber and a plurality of flowerpots according to an embodiment of the utility model.

In the figures 1-4, 1, a basin body, 2, a water storage cavity, 3, a planting cavity, 11, a water leakage hole, 21, water for watering flowers, 22, a water absorption cotton rope, 23, a cover plate, 24, a water inlet hole, 31, soil, 32 and plants.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The self-priming water supply flowerpot comprises a flowerpot body 1, wherein a water storage cavity 2 and a planting cavity 3 are arranged in the flowerpot body 1, the water storage cavity 2 and the planting cavity 3 are directly connected through a partition plate to form a connected structure, soil 31 is placed in the planting cavity 3, plants 32 are planted in the soil 31, flower watering water 21 is stored in the water storage cavity 2, a cover plate 23 is fixedly connected to the top end of the water storage cavity 2, a water inlet hole 24 is formed in the cover plate 23, the cover plate 23 is used for preventing internal water evaporation, the water inlet hole 24 is used for filling flower-growing rainwater or self-accumulating rainwater, a water absorption cotton rope 22 is placed in the water storage cavity 2, and the other end of the water absorption cotton rope 22 penetrates through a jack at the top of the partition plate to be embedded in the soil 31.

After the self-priming water supply flowerpot water storage cavity 2 is filled with water, one end of 1 to 4 water absorption cotton ropes 22 is buried into flowerpot soil (matrix) 31, the other end of the water absorption cotton ropes penetrates through a jack at the top of the water storage cavity 2 and is inserted into the bottom of the water storage cavity, and the water storage cavity 2 automatically absorbs water through the cotton ropes to supply water to the flowerpot. As long as the water storage cavity 2 is kept with water, the flowerpot plants can not be dried up, and reasonable and scientific water supply can be obtained. When the water storage cavity 2 is used outdoors, rainwater can be stored. In terms of the number of the water absorbing cotton strings 22, it is required to determine according to the water demand characteristics of the planted flowers, the size of the crown, etc. The flowerpot can also be used by combining self-priming water supply with manual irrigation, such as setting the optimal water level range of the water storage cavity 2 for different plants 32 to achieve optimal flower growing effect, adding water-soluble fertilizer in the water storage cavity, spraying water on leaves of the plants in dry seasons, and the like.

Example 2

As shown in fig. 3, the self-priming water supply flower stand is of a side-mounted conjoined structure of a water storage cavity and a planting cavity, the shape of the self-priming water supply flower stand is in a long strip shape, a plurality of cotton rope insertion holes are formed in the top of the water storage cavity according to planting requirements, a plurality of water absorption cotton ropes are arranged, a cover plate is arranged on the top of the water storage cavity, a plurality of water inlet holes are formed in the cover plate and used for manually adding water or self-storing rainwater, and a plurality of water leakage holes are formed in the bottom of the planting stand or the bottom plate is directly made into a water leakage grid structure. The self-priming water supply flower stand has the functions of self-rainwater storage, evaporation prevention and self-priming water supply when used outdoors, can be used for planting large plants, has large water storage capacity, can supply water for the flower stand for 3-5 months, and is widely applicable to terraces, gardens and balconies.

Example 3

As shown in fig. 4, the water storage cavity (2) and the planting cavity (3) are separately arranged, the water storage cavity is made into a long strip-shaped side-standing water storage cavity, and a plurality of flowerpots (planting cavities) are simultaneously placed in front of the water storage cavity, so that a strip-shaped large water tank is formed and a combination body for simultaneously supplying water to the flowerpots is formed. The device for the side-standing water storage cavity and the plurality of flowerpots also has the functions of self-storing rainwater, preventing evaporation and self-sucking water supply when in outdoor use, has large water storage capacity, can supply water for the plurality of flowerpots for 3-5 months, can supply water for the large flowerpots, and is widely applicable to terraces, gardens and balconies.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A self-priming water supply device for growing flowers, comprising a water storage chamber (2), a planting chamber (3), and a water-absorbing cotton rope (22), characterized in that: a cover plate (23) is fixedly connected to the top of the water storage chamber (2) to prevent the evaporation of internal water, the cover plate (23) is provided with a water inlet hole (24) for artificial water addition or self-storage of rainwater, and the water storage chamber (2) stores water for watering flowers (21); Soil (31) is placed inside the planting cavity (3), and plants (32) are planted inside the soil (31). One end of the absorbent cotton rope (22) is buried in the soil (31) in the planting cavity, and the other end passes through the plug hole at the top of the water storage cavity (2) and is inserted into the bottom of the water storage cavity (2). According to the principle of capillary water movement, the absorbent cotton rope (22) continuously and automatically absorbs water from the water storage cavity (2) to provide water for the growth of the plants (32). 2. A self-priming water supply device for growing flowers according to claim 1, characterized in that: the water storage chamber (2) is located in one of the single-side, double-side or outer annular structures of the planting chamber (3), and the planting chamber (3) and the water storage chamber (2) have a body shape of any one of circular, square, polygonal, and elongated. 3. A self-priming water supply device for growing flowers according to claim 1, characterized in that: the water storage chamber (2) and the planting chamber (3) can be a connected structure or a separate structure, and can also be designed so that one water storage chamber supplies water to multiple independent planting chambers (3) at the same time, or multiple independent water storage chambers supply water to one planting chamber at the same time; the material of the water storage chamber (2) and the planting chamber (3) is one of plastic, ceramic, glass, and concrete materials. 4. A self-priming water supply device for growing flowers according to claim 1, characterized in that: a plurality of water-absorbing cotton rope (22) insertion holes are provided on the top of the water storage chamber (2), and a plurality of water-absorbing cotton ropes (22) can be inserted, and the insertion holes can also be used for overflow water to flow out. 5. A self-priming water supply device for growing flowers according to claim 1, characterized in that: one or more water inlet holes (24) of the water storage chamber (2) and the cover plate (23) are designed according to the size of the basin body (1) for filling water for growing flowers or self-storing rainwater. 6. A self-priming water supply flower-growing device according to claim 1, characterized in that: a leakage hole (11) is provided at the bottom end of the planting cavity (3), and the number of the leakage holes (11) is set to be multiple for drainage; the bottom plate of the self-priming water supply flower stand can be directly designed as a grid leakage net.