CN220044271U - Ventilating and permeable pipe for flowerpot and active ventilating and soil-wetting flowerpot using same - Google Patents

Abstract

The utility model discloses a ventilation and ventilation pipe for a flowerpot and a living ventilation and soil-wetting flowerpot using the ventilation and soil-wetting flowerpot, which comprises two convection type pipe bodies with pipe orifices respectively arranged at two ends of the pipe body, wherein when the convection type pipe bodies are arranged in the flowerpot, the pipe orifices are exposed on the surface of soil, and the pipe body parts are downwards extended and buried in the soil; the pipe orifices are communicated with each other through the pipe body to form convection; a plurality of ventilation holes are formed on the surface of the pipe body and are communicated to the inside of the pipe body. The ventilation pipe can provide ventilation function for the periphery of the root system distribution of plants in the flowerpot so as to improve the ventilation performance of soil around the plant root, thereby improving the planting quality of flowers; the flowerpot with the structure provided by the utility model can be used for remarkably reflecting the characteristics of rapid growth, good growth vigor, vigorous growth, luxuriant flowers and leaves and the like.

Description

Ventilating and permeable pipe for flowerpot and active ventilating and soil-wetting flowerpot using same

Technical Field

The utility model relates to the technical field of improvement of flowerpot structures, and mainly relates to a ventilation pipe design used in a flowerpot and a living ventilation soil-moistening flowerpot with a soil-moistening ventilation function.

Background

With the development of economy, flower cultivation gradually becomes popular hobbies and hobbies for ceramic life to relieve living pressure, and is also an indispensable decoration and decoration in offices and home rooms, and indoor flower cultivation is more and more popular with people. However, how to easily grow flowers indoors is a very well-known matter for many people to study. Taking orchid cultivation as an example, chinese historically treated orchid as a highly clean and elegant sign and was juxtaposed with "plum, bamboo, chrysanthemum" and collectively called "four monarch shoes". So orchid is a noble person frequently appearing in the circle of flower cultivation lovers, but orchid has quite high cultivation difficulty, and how to cultivate orchid is a technical hotspot of great concern in the industry. The orchid has high nutrient requirement, is rich in humus, loosens and fertilizes soil, and is the soil most suitable for orchid; meanwhile, the requirement of orchid on water is also relatively large, water is poured once in two or three days in spring and autumn, water can be poured once a day to two times in summer and once a week in winter, and the method can be generally summarized as follows: orchid is loved yin and is afraid of direct sunlight; wetting and drying are avoided; is rich in a great amount of humus; an air circulation environment is preferable. However, many flowers are cultivated indoors at present, and the ventilation requirement of orchids cannot be well met in ventilation, which is a key problem that common orchids are difficult to cultivate. The existing breathable flowerpot is breathable inwards from the bottom of the flowerpot, and the breathable structure gradually reduces the breathable effect along with hardening, solidification and other conditions of soil blocks, so that the breathable effect is poorer and poorer. And traditional flowerpot structure, it is relatively poor to moisten native efficiency, still needs extra water filling mouth to add water, leads to the structure complicacy, with high costs, the moist native inefficiency of moisturizing problem of water retention, and still some other flowerpot such as use water guide material to form siphon moisturizing, has the inhomogeneous problem of moisturizing regional concentration, also can lead to the circumstances that moisten native effect is poor. The inventor provides a technical product which is better beneficial to ventilation of plants in flowerpot cultivation on the basis of the original product patent CN217986109U, and aims to overcome the defects and shortcomings in the prior art.

Disclosure of Invention

In order to solve the problems and the defects in the prior art, the inventor provides a ventilation pipe for a flowerpot with a simple structure, ventilation and ventilation through research and development, and the ventilation function can be provided around the root system distribution of plants in the flowerpot, so that the ventilation performance of soil around the root of the plants is improved, and the cultivation quality of flowers can be improved. The utility model is realized in the following way:

a ventilation duct for a flowerpot, comprising: two pipe orifices are respectively arranged at two ends of the pipe body to form a convection type pipe body, when the pipe is arranged in the flowerpot, the two pipe orifices are exposed out of the soil surface, and the pipe body part extends downwards to be buried in the soil; the two pipe orifices are communicated with each other through the pipe body to form convection, and are provided with a plurality of ventilation holes which are formed on the surface of the pipe body and are communicated to the inside of the pipe body.

Furthermore, the convection type pipe body is formed by integral molding or is formed by splicing, combining and communicating a plurality of sections of pipelines.

Further, the convection type pipe body is integrally formed into a U shape, the two pipe orifice ends face upwards, and the pipe body faces downwards.

Further, the convection type pipe body comprises two sections of vertical pipe parts and one section of horizontal pipe part, the ventilation holes are uniformly distributed on the vertical pipe parts and the horizontal pipe parts, the ventilation holes are only formed in the pipe body part buried below the soil, and the part exposed above the soil is not provided with the ventilation holes.

Further, the ventilation holes on the vertical pipe part are arranged into three groups according to the vertical arrangement, wherein a group of ventilation holes are respectively formed in the front-back direction and the inner side direction, the outer pipe wall is not formed, the ventilation holes on the horizontal pipe part are arranged into three rows according to the transverse arrangement, wherein a row of ventilation holes are respectively formed in the front-back direction and the lower side direction, and the upper pipe wall is not formed.

The utility model also provides a living ventilation soil-wetting flowerpot, which is characterized in that at least one ventilation pipe for the flowerpot is arranged in soil in the flowerpot.

Further, the ventilation and ventilation pipe is buried in the area near the root of the plant flowers.

Further, a built-in water tank is arranged in the bottom area of the flowerpot, a water inlet and a water outlet communicated to the inside of the flowerpot are arranged on the bottom edge of the built-in water tank, and at least one overflow port communicated with the outer side of the flowerpot body is arranged on the upper part of the side wall of the built-in water tank; the basin body is provided with a hollowed-out bedplate on the transverse surface of the middle height position, a plurality of strip-hole-shaped or round-hole-shaped hollowed-out communication ports are formed in the hollowed-out bedplate, the area below the hollowed-out bedplate is communicated with the water inlet and outlet of the built-in water tank, and the area below the hollowed-out bedplate is filled with cultivation soil.

Further, a vent is arranged on the inward side wall of the basin body at a position opposite to the overflow port, and the vent is horizontally opposite to the overflow port on the built-in water tank and is used for ventilation; the cultivation soil comprises humus soil and fertilizer.

Further, the vent pipe is not contacted with the hollowed-out bedplate; when the flowerpot body is in a strip-shaped structure, the number of the built-in water tanks is two, the built-in water tanks are respectively positioned at two ends of the flowerpot body in the length direction, and the hollowed-out bedplate is arranged between the two flowerpot bodies.

The working principle of the utility model is introduced: the convection type pipe body structure is provided with two pipe orifices which are communicated with each other, a pipeline and the pipe orifices are communicated through the pipe body, air flow in air can enter along one pipe orifice and is discharged from the other pipe orifice, air holes are also increased to contact with abrupt empty spaces, air in soil can flow along with gaps of soil particles and the air holes, and when temperature difference between the air and outside air is formed along with temperature change in the soil, the air flow is promoted to flow through the air holes and the convection type pipe body, and the fluidity improves the air flow contact and flow efficiency of the soil, so that the air flow acts on plant roots and achieves ventilation effect; the effect of the convection double pipe orifice can form a homeopathic convection effect when the air flow flows in the pipe, and further improves the air circulation performance and the air permeability. The air holes arranged on the pipe body have the effect towards the side, the air holes do not need to be arranged on one surface close to the side wall of the flowerpot, the bottom transverse air holes do not need to be arranged on the upper side surface, a large amount of water in soil can be prevented from immersing into the pipe body, and the air holes arranged on the lower side in a row can be used as a discharge channel for water in the immersed pipe body. The flowerpot provided with the convection type pipe body has the characteristics of improving the ventilation performance and the ventilation performance of plant roots, can provide better cultivation environment for flowers difficult to cultivate, keep the ventilation of surrounding air of plants, can increase the oxygen content of soil, and enable the plant roots to breathe normally, so that the flower roots grow healthy, vigorous and developed, absorb nutrients quickly, and the flowers can grow healthy and exuberant. The flowerpot has the soil wetting function, the bottom of the cultivation soil can be contacted with water, fermentation of the organic fertilizer is promoted, fermentation of the organic fertilizer is completed in a specific area, but no root system exists in the area, root burning caused by too much fertilizer is prevented to a great extent, the fermented nutrients can be upwards conveyed to an upper soil interval along with a small amount of water under the direct siphoning action of soil, the plant root system is used for supplying nutrients required by growth of flowers, and the nutrient is a necessary condition for promoting healthy and flourishing growth of the flowers. Therefore, the structure of the utility model is matched with the ventilation pipe structure of the convection type pipe body, so that the moisture at the flower roots is proper, the soil is not hardened and agglomerated, the soil is moderate in fluffiness, good in ventilation and sufficient in nutrient, thereby being beneficial to the growth of the flower roots, promoting the growth of flowers, improving the growth quality and cultivating good flowers.

Compared with the traditional flowerpot and the existing flowerpot, the utility model has the following beneficial effects:

(1) The ventilation pipe can improve ventilation performance aiming at soil of the area where the flower roots are located, increase ventilation effect, promote oxygen in the area where the flower roots are located to be absorbed by root systems, enable the flower roots to grow healthy, vigorous and developed, absorb nutrients quickly, and enable flowers to grow healthy and vigorous;

(2) Compared with the traditional flowerpot, the built-in water tank of the flowerpot has good water control capability, can store redundant water, can supply water to the soil in the area where the upper root system is located by forming natural soil adsorption capability after filling the soil by using the hollowed-out bedplate, has uniform whole process and can keep a 'watering-through' state, so that the occurrence of hardening phenomenon of the soil can be relieved, and the flowerpot has good soil wetting and moisturizing functions; the cultivation soil is mixed with fertilizers such as humus soil and organic fertilizer, so that the bottom of the cultivation soil is contacted with a water body, fermentation of the organic fertilizer is promoted, fermentation of the organic fertilizer is completed in a specific area, but the area is free of root systems, so that root burning caused by excessive fertilizer is prevented to a great extent, the fermented nutrients can be upwards conveyed to an upper soil interval along with a small amount of water under the direct siphoning action of the soil, the nutrients required by plant root systems are provided for the growth of flowers, and the cultivation soil is a necessary condition for promoting healthy and vigorous growth of the flowers;

(3) The flowerpot with the matched structure realizes the enhancement of air permeability and the full control of water and fertilizer, can avoid the condition of excessive root burning of fertilizer and the problem of poor air permeability caused by soil hardening; the planting difficulty of flowers which are difficult to cultivate is fundamentally reduced, such as flowers which are difficult to cultivate, such as orchids, and the like, and the flowerpot with the matched structure can obviously show the characteristics of rapid growth, good growth vigor, vigorous growth, luxuriant flowers and leaves and the like, and is easy to cultivate a good state; therefore, the product has wide market application prospect and popularization requirement.

Drawings

Fig. 1 is a schematic perspective view of a ventilation duct for a flowerpot according to the present utility model;

fig. 2 is a bottom perspective view of the ventilation duct for a flowerpot according to the present utility model;

fig. 3 is a schematic top view of the ventilation duct for a flowerpot according to the present utility model;

fig. 4 is a schematic cross-sectional structure of the ventilation duct for a flowerpot according to the present utility model;

fig. 5 is a schematic view showing a use state of the ventilation duct for a flowerpot according to the present utility model;

fig. 6 is a schematic view showing the internal structure of a living air-permeable soil-wetting flowerpot according to the present utility model;

fig. 7 is a schematic view showing a use state of the activated air-permeable soil-wetting flowerpot body in a strip-shaped structure;

fig. 8 is a perspective view showing a shape of a living air-permeable soil-moist flowerpot with a long strip structure;

fig. 9 is a schematic view of the internal structure of the activated air-permeable soil-moist flowerpot body in a strip-like structure;

wherein: 1-convection type pipe body, 11-pipe orifice, 12-ventilation hole, 13-vertical pipe part, 14-horizontal pipe part, 2-basin body, 3-built-in water tank, 31-water inlet and outlet, 32-overflow port, 33-hollow platen, 34-hollow communication port and 35-ventilation port.

Detailed Description

The objects, technical solutions and advantages of the present utility model will become more apparent by the following detailed description of the present utility model with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the utility model. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present utility model.

Example 1: ventilation duct for flower pot, as shown in fig. 1 to 5, comprises: two pipe orifices 11 are respectively arranged at two ends of the pipe body to the convection type pipe body 1, when the pipe is arranged in the flowerpot, the two pipe orifices 11 are exposed out of the soil surface, and the pipe body part extends downwards to be buried in the soil; the two pipe orifices 11 are communicated with each other through the pipe body to form convection, and are provided with a plurality of ventilation holes 12 which are formed on the surface of the pipe body and are communicated to the inside of the pipe body. The convection type pipe body 1 is provided with two pipe orifices 11 which are communicated with each other, a pipeline and the pipe orifices 11 which are communicated are formed through the pipe body, air flow in air can enter along one pipe orifice 11 and is discharged from the other pipe orifice 11, air holes 12 are also increased in contact with abrupt contact vacancies, air in soil can circulate along with soil particle gaps and the air holes 12, and when temperature difference between the air and the outside air is formed along with temperature change in the soil, the air flow can be promoted to realize the air flow through the air holes 12 and the convection type pipe body 1, and the air flow contact and flow efficiency of the soil is improved, so that the air flow acts on plant roots, and the ventilation effect is achieved; the effect of the convection double pipe orifice 11 can form a homeopathic convection effect when the air flow in the pipe flows, and further improves the air circulation performance and the air permeability.

During manufacturing, the convection type pipe body 1 is manufactured by integral molding or is manufactured by splicing, combining and communicating a plurality of sections of pipelines. The convection type pipe body 1 is integrally formed into a U shape, and two pipe orifices 11 are upward in end and downward in pipe body. The convection type pipe body 1 comprises two sections of vertical pipe parts 13 and one section of horizontal pipe part 14, the ventilation holes 12 are uniformly distributed on the vertical pipe parts 13 and the horizontal pipe parts 14, the ventilation holes 12 are only arranged on the pipe body part buried below the soil, and the ventilation holes 12 are not arranged on the part exposed above the soil. The ventilation holes 12 on the vertical pipe part 13 are vertically arranged into three groups, wherein a group of ventilation holes 12 are respectively formed in the front-back direction and the inner side direction, the ventilation holes 12 on the outer pipe wall are not formed, the ventilation holes 12 on the horizontal pipe part 14 are transversely arranged into three rows, wherein a row of ventilation holes 12 are respectively formed in the front-back direction and the lower side direction, and the ventilation holes 12 are not formed in the upper pipe wall. The air holes 12 arranged on the pipe body have the effect towards the side close to the side wall of the flowerpot, the air holes 12 do not need to be arranged on one side close to the side wall of the flowerpot, the transverse air holes 12 at the bottom do not need to be arranged on the upper side surface, a large amount of water in soil can be prevented from being immersed into the pipe body, and the air holes 12 arranged on the lower side in a row can be used as a water discharge channel in the immersed pipe body. The flowerpot provided with the convection type pipe body 1 has the characteristics of improving the ventilation performance and ventilation performance of plant roots, can provide better cultivation environment for flowers difficult to cultivate, keep the ventilation of surrounding air of plants, can increase the oxygen content of soil, and enable the plant roots to breathe normally, so that the flower roots grow healthily, flourishing and developed, absorb nutrients quickly, and the flowers can grow healthily and thriving.

Example 2: a living ventilation soil-wetting flowerpot is shown in figures 6-9, and is characterized in that at least one ventilation pipe for the flowerpot in the embodiment 1 is placed in soil in the flowerpot. The ventilation and ventilation pipe is buried in the area near the root of the plant flowers.

The bottom area of the flowerpot is provided with a built-in water tank 3, the bottom edge of the built-in water tank 3 is provided with a water inlet and outlet 31 communicated with the inside of the flowerpot, and the outward side wall of the built-in water tank 3 is provided with at least one overflow port 32 communicated with the outside of the flowerpot body 2 at the upper part; the basin body 2 is provided with a hollowed-out bedplate 33 on the transverse surface of the middle height position, the hollowed-out bedplate 33 is provided with a plurality of strip-hole-shaped or round-hole-shaped hollowed-out communication ports 34, the area below the hollowed-out bedplate 33 is communicated with the water inlet and outlet 31 of the built-in water tank 3, and the area below the hollowed-out bedplate 33 is filled with cultivation soil. The structure of built-in water tank 3 and fretwork platen 33 that the cooperation set up in the flowerpot bottom makes the flowerpot possess the moist soil function, can make the bottom and the water contact of planting the soil, promote the fermentation of organic fertilizer, the fermentation of organic fertilizer has been accomplished in specific region, but there is not the root system in this region, to a great extent prevented the condition of burning root that the fertilizer is excessively sufficient instead arouses, and the nutrient that ferments, can upwards carry to upper soil interval along with a small amount of moisture under the direct siphon effect of soil, supply plant root system to use, give sufficient flowers and plants growth required nutrient, also be the necessary condition that promotes healthy thriving and flourishing of flowers growth. Therefore, the structure of the utility model is matched with the ventilation pipe structure of the convection type pipe body 1, so that the moisture at the flower roots is proper, the soil is not hardened and agglomerated, the soil is moderate in fluffiness, good in ventilation and sufficient in nutrient, and the growth of the flower roots is facilitated, the growth quality is improved, and good flowers are cultivated.

A ventilation opening 35 is arranged on the inward side wall of the basin body 2 at a position opposite to the overflow opening 32, and the ventilation opening 35 is horizontally opposite to the overflow opening 32 on the built-in water tank 3 and is used for ventilation; the cultivation soil comprises humus soil and fertilizer. The vent pipe is not contacted with the hollowed-out bedplate 33; when the flowerpot body 2 is of a strip-shaped structure, the two built-in water tanks 3 are respectively positioned at two ends of the flowerpot body 2 in the length direction, and the hollowed-out bedplate 33 is arranged between the two flowerpot bodies 2. The flowerpot realizes the enhancement of air permeability and the full control of water and fertilizer, can avoid the condition of excessive root burning of fertilizer and the problem of poor air permeability due to soil hardening; the flowerpot with the matched structure can obviously embody the characteristics of rapid growth, good growth vigor, vigorous growth, luxuriant flowers and leaves and the like, and is easy to cultivate a good state.

It is to be understood that the above-described embodiments of the present utility model are merely illustrative of or explanation of the principles of the present utility model and are in no way limiting of the utility model. Accordingly, any modification, equivalent replacement, improvement, etc. made without departing from the spirit and scope of the present utility model should be included in the scope of the present utility model. Furthermore, the appended claims are intended to cover all such changes and modifications that fall within the scope and boundary of the appended claims, or equivalents of such scope and boundary.

Claims (10)

1. A ventilation permeability cell for flowerpot, its characterized in that includes:

the convection type pipe body (1), two pipe orifices (11) are respectively arranged at two ends of the pipe body, when the convection type pipe body is arranged in a flowerpot, the two pipe orifices (11) are exposed out of the soil surface, and the pipe body part extends downwards to be buried in the soil; the two pipe orifices (11) are communicated with each other through the pipe body to form convection;

the air holes (12) are formed in the surface of the pipe body and communicated with the inside of the pipe body.

2. A ventilation duct according to claim 1, characterized in that the convection duct body (1) is formed as one piece or by a combination of multiple sections of duct.

3. A ventilation duct according to claim 1, characterized in that the convection tube (1) is integrally formed in a U-shape with two nozzles (11) facing upwards and the tube facing downwards.

4. A ventilation and ventilation pipe according to claim 3, wherein the convection type pipe body (1) comprises two sections of vertical pipe parts (13) and one section of horizontal pipe part (14), the ventilation holes (12) are uniformly distributed on the vertical pipe parts (13) and the horizontal pipe parts (14), the ventilation holes (12) are only formed in the pipe body part buried under the soil, and the ventilation holes (12) are not formed in the part exposed above the soil.

5. The ventilation pipe according to claim 4, wherein the ventilation holes (12) in the vertical pipe section (13) are arranged in three groups in a vertical arrangement, wherein a group of ventilation holes (12) are respectively arranged in the front-rear direction and the inner side direction, the outer pipe wall is not arranged,

the ventilation holes (12) on the transverse pipe part (14) are arranged in three rows in a transverse arrangement, wherein, a row of ventilation holes (12) are respectively arranged in the front-back direction and the lower side direction, and the upper pipe wall is not arranged.

6. A living, breathable and soil-moist flowerpot, characterized in that at least one ventilation and soil-moist duct for a flowerpot according to any one of claims 1-5 is placed in the soil in the flowerpot.

7. The activated, breathable, soil-moist flowerpot of claim 6, wherein the ventilation duct is buried in a substantially nearby area of a plant flower.

8. The movable breathable soil-wetting flowerpot according to claim 6, characterized in that a built-in water tank (3) is arranged in the bottom area of the flowerpot, a water inlet and outlet (31) communicated to the inside of the flowerpot is arranged on the bottom edge of the built-in water tank (3), and at least one overflow port (32) communicated with the outer side of the flowerpot body (2) is arranged on the upper part of the outward side wall of the built-in water tank (3);

the basin body (2) is provided with a hollowed-out bedplate (33) on the transverse surface of the middle height position, a plurality of strip-hole-shaped or round-hole-shaped hollowed-out communication ports (34) are formed in the hollowed-out bedplate (33), the area below the hollowed-out bedplate (33) is communicated with the water inlet and outlet (31) of the built-in water tank (3), and the area below the hollowed-out bedplate (33) is filled with cultivation soil.

9. The movable breathable soil-wetting flowerpot according to claim 8, characterized in that a ventilation opening (35) is arranged on the inward side wall of the flowerpot body (2) at a position opposite to the overflow opening (32), and the ventilation opening (35) is horizontally opposite to the overflow opening (32) on the built-in water tank (3) and is used for ventilation;

the cultivation soil comprises humus soil and fertilizer.

10. The activated breathable soil-moist flowerpot according to claim 8, characterized in that the ventilation duct is not in contact with the hollowed-out platen (33); when the flowerpot body (2) is of a strip-shaped structure, the two built-in water tanks (3) are respectively positioned at two ends of the flowerpot body (2) in the length direction, and the hollowed-out bedplate (33) is erected between the two flowerpot bodies (2).