CN210247637U - Split combined type flower device - Google Patents

Abstract

The utility model discloses a split combined type flower pot, which comprises a flower pot and a pot-shaped base, wherein the flower pot is suspended in the pot-shaped base through a flower pot supporting platform; a closed cavity is formed between the flowerpot and the pot-shaped base; the inner wall of the flowerpot is provided with a root control plate; the root control plate is used for guiding the plant root system to grow downwards; the flowerpot side wall is provided with a flowerpot side wall ventilating drain hole; the side wall of the basin-shaped base is provided with a base ventilation hole; the utility model can store the muddy water in the closed cavity formed by the pot-shaped base and the flowerpot, which is beautiful and sanitary; the bottom of the flowerpot is separated from muddy water in the pot-shaped base, so that the bottom of the flowerpot is smoothly and thoroughly drained, water is not easily stored, the air permeability is good, and root rot of plants is avoided; the plant root system grows downwards, so that pit root knotting caused by transverse growth is avoided, the root system is uniformly distributed in the soil, the water and fertilizer absorption capacity of the plant root system is improved, and the growth speed of plant branches and leaves is accelerated.

Description

Split combined type flower device

Technical Field

The utility model relates to a components of a whole that can function independently combination formula flower ware, specific theory belongs to the household utensils technical field cultivated in a pot of plant.

Background

At present, the known flowerpot is used for placing a tray at the bottom of the flowerpot for storing muddy water discharged from the flowerpot, and the mode has the following problems:

1. the muddy water is exposed in the tray, so that the tray is not beautiful and sanitary;

2. the bottom of the flowerpot is placed in the muddy water of the tray, so that the drainage is not smooth and thorough, the water is easy to be stored, the air permeability is poor, and the roots of plants are easy to rot;

3. the plant root system is coiled along the pot wall and grows transversely, so that the pit root is easy to form and knot, the root system is unevenly distributed in the soil, and the plant root system has poor capability of absorbing water and fertilizer, so that the plant branches and leaves grow slowly.

Chinese utility model patent CN201520491911.9 discloses a compound ventilative flowerpot, including flowerpot inner bag and flowerpot shell, wherein the flowerpot inner bag sets up in the flowerpot shell, and flowerpot inner bag and flowerpot shell bottom all are provided with the limbers, and the flowerpot inner bag external diameter is less than the flowerpot shell internal diameter, and flowerpot inner bag and flowerpot shell top are set up the space between flowerpot inner bag and the flowerpot shell through sealing and are shielded. The utility model discloses a compound ventilative flowerpot that provides adopts flowerpot inner bag and the nested mode of flowerpot shell for the flowerpot has more the practicality, the flowerpot inner bag can adopt the material that pottery or wooden etc. are fit for vegetation simultaneously, the flowerpot shell can adopt pottery, the material that exquisite visual effect can be realized to metal or plastics etc., the ventilative attribute of flowerpot inner bag has been guaranteed, can beautify wantonly as required simultaneously on the flowerpot shell of metal material, the practical value of flowerpot has greatly been promoted, the aesthetic property of flowerpot has been extended on the ventilative basis of taking into account the flowerpot.

Above-mentioned utility model patent has compromise flowerpot gas permeability and aesthetic property simultaneously, but still has the three problem of above proposition in the in-service use process.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a components of a whole that can function independently combination formula flower ware to above not enough, can realize following invention purpose:

1. the muddy water is stored in a closed cavity formed by the pot-shaped base and the flowerpot, so that the flowerpot is beautiful and sanitary;

2. the bottom of the flowerpot is separated from muddy water in the pot-shaped base, so that the bottom of the flowerpot is smoothly and thoroughly drained, water is not easily stored, the air permeability is good, and root rot of plants is avoided;

3. the plant root system grows downwards, so that pit root knotting caused by transverse growth is avoided, the root system is uniformly distributed in the soil, the water and fertilizer absorption capacity of the plant root system is improved, and the growth speed of plant branches and leaves is accelerated.

For solving the technical problem, the utility model discloses a following technical scheme: a split combined type flower pot comprises a flower pot and a pot-shaped base, wherein the flower pot is suspended in the pot-shaped base through a flower pot supporting table; a closed cavity is formed between the flowerpot and the pot-shaped base, and the cavity is used for storing muddy water discharged by the flowerpot.

Further, the base vent holes are of a net structure; the flowerpot is characterized in that a base ventilation hole is formed in the side wall of the pot-shaped base, and the lower edge of the base ventilation hole is parallel and level to the bottom plane of the flowerpot.

Furthermore, a boss is arranged at the center of the bottom of the basin-shaped base, and the upper plane of the boss is flush with the lower edge of the ventilation hole of the base; the boss supports the weight of the flowerpot; a drainage groove is formed in the upper plane of the boss; the drainage groove is used for draining water and ventilating at the bottom of the flowerpot.

Furthermore, the upper part of the flowerpot is exposed above the pot-shaped base, and the middle lower part of the flowerpot is placed in the pot-shaped base; the top of the pot-shaped base is lower than the top of the flowerpot.

Further, the whole flowerpot is suspended at the middle lower part of the pot-shaped base; the top of the pot-shaped base is higher than the top of the flowerpot.

Further, a root control plate is arranged on the inner wall of the flowerpot; the root control plate is used for guiding the plant root system to grow downwards; the flowerpot side wall is provided with a flowerpot side wall ventilating drain hole, the flowerpot side wall ventilating drain hole is arranged in the cavity, and the flowerpot side wall ventilating drain hole is arranged between the adjacent root control plates; and a flowerpot bottom drain hole is formed in the bottom of the flowerpot.

Further, a base drain hole is formed in the bottom of the basin-shaped base; the base drain hole is used for draining muddy water in the basin-shaped base.

Further, the flowerpot support table is arranged in the middle of the flowerpot; the flowerpot supporting table is a concave-convex step or a conical surface step.

Further, the middle part of basin type base is provided with a base supporting platform, the base supporting platform touches the cooperation with a flowerpot supporting platform mutually, makes the whole suspension of flowerpot in basin type base.

The utility model adopts the above technical scheme after, compare with prior art, have following advantage:

1. the muddy water is stored in a closed cavity formed by the pot-shaped base and the flowerpot, so that the flowerpot is beautiful and sanitary;

2. the bottom of the flowerpot is separated from muddy water in the pot-shaped base, so that the bottom of the flowerpot is smoothly and thoroughly drained, water is not easily stored, the air permeability is good, and root rot of plants is avoided;

3. the plant root system grows downwards, so that pit root knotting caused by transverse growth is avoided, the root system is uniformly distributed in the soil, the water and fertilizer absorption capacity of the plant root system is improved, and the growth speed of plant branches and leaves is accelerated.

The present invention will be described in detail with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic structural view in section in front elevation of example 1;

FIG. 2 is a schematic top sectional view of the structure of embodiment 1;

FIG. 3 is a schematic structural view in section in front elevation of embodiment 2;

FIG. 4 is a schematic top sectional view of embodiment 2;

FIG. 5 is a schematic structural view in section in front elevation of embodiment 3;

FIG. 6 is a schematic top sectional view of embodiment 3;

FIG. 7 is a schematic sectional view of example 4 in a front view;

FIG. 8 is a schematic top sectional view of the preferred embodiment 4;

FIG. 9 is a schematic sectional view of example 5 in front elevation;

FIG. 10 is a schematic top sectional view of the preferred embodiment 5;

FIG. 11 is a schematic sectional view of example 6 in a front view;

FIG. 12 is a schematic top sectional view of the preferred embodiment 6;

FIG. 13 is a schematic sectional view of example 7 in a front view;

FIG. 14 is a schematic top sectional view of the preferred embodiment 7;

FIG. 15 is a schematic sectional view of example 8 in front elevation;

FIG. 16 is a schematic top sectional view of the preferred embodiment 8;

in the figure, the position of the upper end of the main shaft,

1-flowerpot, 2-flowerpot support platform, 3-pot base, 4-cavity, 5-base overflow vent hole, 6-root control plate, 7-flowerpot side wall ventilation drain hole, 8-flowerpot bottom drain hole, 9-boss, 10-drainage groove, 11-base drain hole and 12-base support platform.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described with reference to the accompanying drawings.

Embodiment 1A split combined flower pot

As shown in fig. 1-2, the present embodiment provides a split combined type flower pot, which comprises a flower pot 1 and a pot-shaped base 3; the flowerpot 1 is suspended on the pot-shaped base 3; the upper part of the flowerpot 1 is exposed above the pot-shaped base 3, and the middle lower part of the flowerpot 1 is placed in the pot-shaped base 3; the top of the pot-shaped base 3 is lower than the top of the flowerpot 1;

a closed cavity 4 is formed between the flowerpot 1 and the pot-shaped base 3, and the bottom of the cavity 4 is used for storing muddy water discharged from the flowerpot 1;

a flowerpot support table 2 is arranged in the middle of the flowerpot 1; the flowerpot support platform 2 is a concave-convex step or a conical surface step; the flowerpot support platform 2 is arranged in the middle of the flowerpot 1;

the inner wall of the flowerpot 1 is provided with a plurality of root control plates 6, and the plurality of root control plates 6 are uniformly arranged; the root control plate 6 is vertical to the bottom of the flowerpot 1; the root control plate 6 separates the soil around the inner wall of the flowerpot 1 and guides the plant root system to grow downwards along the inner wall of the flowerpot 1 and the root control plate 6;

the side wall of the flowerpot 1 is provided with a plurality of flowerpot side wall breathable drain holes 7, the flowerpot side wall breathable drain holes 7 are arranged in the cavity 4, the flowerpot side wall breathable drain holes 7 are arranged between the adjacent root control plates 6, and the flowerpot side wall breathable drain holes 7 slow down or reduce water and fertilizer on the upper layer of the soil in the flowerpot 1 to be discharged out of the flowerpot, so that the air permeability and moisture retention of the soil on the upper part of the flowerpot 1 are improved;

a plurality of flowerpot bottom drain holes 8 are formed in the bottom of the flowerpot 1 and are used for draining excessive water in the flowerpot 1 and ensuring the bottom of the flowerpot 1 to drain water smoothly and ventilate;

the basin-shaped base 3 is of a cylindrical structure; the top end surface of the pot-shaped base 3 is in contact with the flowerpot support table 2, so that the flowerpot 1 is suspended on the pot-shaped base 3; the side wall of the basin-shaped base 3 is provided with a plurality of base vent holes 5, and the number of the base vent holes 5 is multiple; the base vent holes 5 are arranged along the side wall of the basin-shaped chassis 3 in a pairwise symmetrical manner; the air holes 5 of the base enable the air in the cavity 4 to generate convection, so that the air permeability of the flower device is improved;

the base ventilation holes 5 are of a net structure and can prevent mosquitoes from entering muddy water at the bottom of the basin-shaped base 3 to breed; can be through installing mosquito-proof worm net additional during the preparation of base ventilation hole 5, also can directly make mesh shape or annular mesh area structure with base ventilation hole 5, form base ventilation hole 5 that has network structure.

The lower edges of the base vent holes 5 are flush with the bottom plane of the flowerpot 1; muddy water discharged from the flowerpot 1 enters the bottom 3 of the pot-shaped base, and when the muddy water is excessive, the muddy water overflows through the lower edge of the ventilation hole 5 of the base.

In the use process of the flowerpot, the flowerpot 1 is supported on the pot-shaped base 3 through the flowerpot supporting table 2, so that the outer walls of the bottom and the middle lower part of the flowerpot 1 and the pot-shaped base 3 form a closed cavity 4, and the pot-shaped base 3 is used for storing muddy water discharged from the flowerpot 1, and is attractive and sanitary.

Through set up symmetrical base ventilation hole 5 on the lateral wall of basin type base 3, make the air in cavity 4 form the convection current easily, improve the ventilation air permeability in cavity 4.

Through being network structure at base ventilation hole 5, make the unable muddy water that gets into 3 bottoms of basin type base of mosquito breed the reproduction, avoided the propagation of mosquito disease, be favorable to healthily, base ventilation hole 5 can ventilate and can avoid the mosquito again.

When plants are watered, muddy water discharged from the flowerpot 1 is stored in the pot-shaped base 3, excessive muddy water overflows through the lower edge of the base vent hole 5 on the side wall of the pot-shaped base 3 (the flowerpot can be inclined to pour the excessive muddy water, the same applies below), and the base vent hole 5 can also be used as an overflow vent hole. At the same time, the water in the basin-shaped base 3 is evaporated and discharged through the base ventilation holes 5, so the base ventilation holes 5 can also be used as water evaporation holes.

The bottom plane of the flowerpot 1 is flush with the lower edge of the base vent hole 5, and when excessive muddy water exists in the pot-shaped base 3, the muddy water can overflow through the lower edge of the base vent hole 5; the water storage surface of the pot-shaped base 3 is not higher than the bottom plane of the flowerpot 1, so that the water drainage at the bottom of the flowerpot is smooth and thorough, water is not stored at the root of the plant, the root system is ventilated and does not rot, the water drainage and air permeability of the flowerpot is improved, and the quick growth of the plant is facilitated.

The root control plates 6 vertical to the bottom of the flowerpot are arranged on the inner wall of the flowerpot 1, so that soil around the inner wall of the flowerpot is partitioned, plant roots grow downwards along the root control plates 6 or the inner wall of the flowerpot under the blocking of the root control plates 6, the root control plates 6 limit the transverse growth of the roots, and the roots are prevented from being tied in pits; meanwhile, the root system is guided to the middle lower part of the center of the flowerpot soil by the root control plate 6, the water and fertilizer in the soil at the middle lower part of the flowerpot is more, the root system can absorb more water and fertilizer, the growth of plant branches and leaves is accelerated, and the plant growth and the propagation are facilitated.

The fine flowerpot side wall breathable drain holes 7 are formed between every two adjacent root control plates 6, so that water and fertilizer on the upper layer of the flowerpot soil are slowed down or reduced to be discharged out of the flowerpot, a large amount of water and fertilizer is enabled to permeate the soil on the middle lower part of the flowerpot downwards, and the breathable moisture-preserving performance is improved.

When the root system touches the bottom of the flowerpot, part of the root system grows out through the flowerpot side wall ventilation drain hole 7 at the lower part of the flowerpot and the flowerpot bottom drain hole 8 and then enters the cavity 4, the ventilation performance in the cavity 4 is good, the root system gradually withers or stops growing when the soil protection and the water supply are lost, and more lateral roots or fibrous roots grow out from the root system in the soil; the lateral roots or fibrous roots are large and vigorous in quantity, the water and fertilizer absorption capacity is strong, and the plant root systems are promoted to be strong and developed, so that the plant root systems are improved, the water and fertilizer absorption capacity of the plant root systems is enhanced, and the plant growth speed is increased.

The plant in the flowerpot 1 comprises a ventilation channel of the flowerpot device, wherein the ventilation channel is composed of a flowerpot side wall ventilation drain hole 7, a flowerpot bottom drain hole 8 and a base ventilation hole 5, and the ventilation channel is favorable for plant respiration to promote the rapid growth of branches and leaves. The flowerpot 1 is suspended in the pot-shaped base 3, and due to the shielding of the side wall of the pot-shaped base 3, soil on the lower portion in the flowerpot 1 is not irradiated by sunlight, so that the influence of external temperature change on the soil on the lower portion in the flowerpot is reduced, and the moisturizing effect is good.

In the embodiment, the flowerpot 1 is suspended in the pot-shaped base 3, the flowerpot can be taken out of the pot-shaped base 3 to be used for soaking the pot for watering the plants, water and fertilizer are soaked in soil in the pot through the ventilating drain holes 7 on the side wall of the flowerpot and the drain holes 8 at the bottom of the flowerpot, and the water absorption of the soaked pot is rapid and convenient; meanwhile, the muddy water in the basin-shaped base 3 can be cleaned to prevent the muddy water from deteriorating; this embodiment is suitable for small flower pots.

Embodiment 2 a split combined flower pot

As shown in fig. 3-4, the present embodiment provides a split combined type flower pot, which is different from embodiment 1 in that, on the basis of embodiment 1, a boss 9 is provided at a central position of a bottom of the pot-shaped base 3, and the boss 9 protrudes upward; the upper plane of the boss 9 is flush with the lower edge of the base vent hole 5; the upper plane of the boss 9 is in contact with the bottom of the flowerpot 1 and supports the weight of the flowerpot 1, so that the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is reduced, and the bearing capacity of the flower device is improved.

The upper plane of the boss 9 is provided with a plurality of drainage grooves 10, the number of the drainage grooves 10 is multiple, the drainage grooves 10 are uniformly arranged along the boss 9, and the drainage grooves 10 are converged at the center of the boss 9; the drainage groove 10 is used for draining water and ventilating at the bottom of the flowerpot 1; excessive moisture in the flowerpot 1 is discharged into the bottom of the pot type base 3 through the flowerpot side wall ventilating and water discharging hole 7, the flowerpot bottom water discharging hole 8 and the water discharging groove 10, and excessive muddy water at the bottom of the pot type base 3 overflows through the lower edge of the base ventilating hole 5, so that smooth water discharging and ventilation at the bottom of the flowerpot 1 are guaranteed.

In the using process, the embodiment has the beneficial effects of the embodiment 1, and simultaneously has the following beneficial effects: in a relatively large flowerpot, because the flowerpot 1 contains much soil and has heavy weight, the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is large; the upward boss 9 is arranged at the center of the bottom of the pot-shaped base 3, the upper plane of the boss 9 is contacted with the bottom of the flowerpot 1, the boss 9 supports the weight of the flowerpot, and the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is reduced.

Excessive muddy water in the flowerpot is discharged into the pot-shaped base through the flowerpot side wall ventilating and draining hole 7, the flowerpot bottom draining hole 8 and the draining groove 10; the bottom of flowerpot 1, the last plane of boss 9 all flushes with base ventilation hole 5 lower limb mutually, and the muddy water of 1 exhaust of flowerpot is stored in basin type base 3, and too much muddy water overflows through base ventilation hole 5 lower limb.

The flowerpot 1 is supported on the boss 9, the bottom of the flowerpot 1 is higher than a muddy water plane in the pot-shaped base 3, and the upper plane of the boss 9 is provided with the drainage groove 10, so that the bottom of the flowerpot is smooth and thorough in drainage, free of water storage and smooth in ventilation, the root system of a plant can grow without rotten roots, and the bearing capacity and the drainage and ventilation performance of the flower pot are improved.

The flowerpot type base 3 with the boss 9 can support the weight of the flowerpot and can store muddy water discharged from the flowerpot, the boss is arranged at the center of the bottom of the flowerpot type base 3, the structure is simple, the development cost is low, the bearing capacity is high, and the flowerpot type base is suitable for medium-large flower pots.

Embodiment 3 a split combined flower pot

As shown in fig. 5 to 6, the present embodiment provides a split combined type flower pot, and is different from embodiment 1 in that the flower pot 1 is integrally suspended at the middle lower part of the pot-shaped base 3; the top of the pot-shaped base 3 is higher than the top of the flowerpot 1;

a base support table 12 is arranged in the middle of the pot-shaped base 3, and the base support table 12 is in contact fit with the flowerpot support table 2, so that the whole flowerpot 1 is suspended in the pot-shaped base 3;

in the using process, the embodiment has the beneficial effects of the embodiment 1, and simultaneously has the following beneficial effects: the whole suspension of flowerpot 1 is in the well lower part of basin type base 3, because the sheltering from of basin type base 3, the soil in flowerpot 1 does not receive sunshine direct injection, has reduced the influence of external temperature change soil in to the flowerpot, and it is effectual to moisturize.

The flowerpot 1 is integrally suspended in the pot-shaped base 3, the flowerpot 1 and the pot-shaped base 3 are combined into a whole and are convenient to move, and the flowerpot is very suitable for small-sized flower pots.

Embodiment 4A split combined flower pot

As shown in fig. 7-8, the present embodiment provides a split combined type flower vase, which is different from embodiment 3 in that, on the basis of embodiment 3, a boss 9 is provided at a central position of a bottom of the pot-shaped base 3, and the boss 9 protrudes upward; the upper plane of the boss 9 is flush with the lower edge of the base vent hole 5; the upper plane of the boss 9 is in contact with the bottom of the flowerpot 1 and supports the weight of the flowerpot 1, so that the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is reduced, and the bearing capacity of the flower device is improved.

The upper plane of the boss 9 is provided with a plurality of drainage grooves 10, the number of the drainage grooves 10 is multiple, the drainage grooves 10 are uniformly arranged along the boss 9, and the drainage grooves 10 are converged at the center of the boss 9; the drainage groove 10 is used for draining water and ventilating at the bottom of the flowerpot 1; excessive moisture in the flowerpot 1 is discharged into the bottom of the pot type base 3 through the flowerpot side wall ventilating and water discharging hole 7, the flowerpot bottom water discharging hole 8 and the water discharging groove 10, and excessive muddy water at the bottom of the pot type base 3 overflows through the lower edge of the base ventilating hole 5, so that smooth water discharging and ventilation at the bottom of the flowerpot 1 are guaranteed.

In the using process, the embodiment has the beneficial effects of the embodiment 3, and simultaneously has the following beneficial effects: in a relatively large flowerpot, because the flowerpot 1 contains much soil and has heavy weight, the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is large; the upward boss 9 is arranged at the center of the bottom of the pot-shaped base 3, the upper plane of the boss 9 is contacted with the bottom of the flowerpot 1, the boss 9 supports the weight of the flowerpot, and the pressure of the flowerpot 1 on the side wall of the pot-shaped base 3 is reduced.

Excessive muddy water in the flowerpot is discharged into the pot-shaped base through the flowerpot side wall ventilating and draining hole 7, the flowerpot bottom draining hole 8 and the draining groove 10; the bottom of flowerpot 1, the last plane of boss 9 all flushes with base ventilation hole 5 lower limb mutually, and the muddy water of 1 exhaust of flowerpot is stored in basin type base 3, and too much muddy water overflows through base ventilation hole 5 lower limb.

The flowerpot 1 is supported on the boss 9, the bottom of the flowerpot 1 is higher than a muddy water plane in the pot-shaped base 3, and the upper plane of the boss 9 is provided with the drainage groove 10, so that the bottom of the flowerpot is smooth and thorough in drainage, free of water storage and smooth in ventilation, the root system of a plant can grow without rotten roots, and the bearing capacity and the drainage and ventilation performance of the flower pot are improved.

The flowerpot type base 3 with the boss 9 can support the weight of the flowerpot and can store muddy water discharged from the flowerpot, the boss is arranged at the center of the bottom of the flowerpot type base 3, the structure is simple, the development cost is low, the bearing capacity is high, and the flowerpot type base is suitable for medium-large flower pots.

Embodiment 5A split combined type flower pot

As shown in fig. 9-10, the present embodiment provides a split combined type flower pot, which is different from embodiment 1 in that, on the basis of embodiment 1, a base drain hole 11 is provided at the bottom of the pot-shaped base 3, and the number of the base drain holes 11 is plural; the base drain hole 11 discharges muddy water in the basin-shaped base 3.

In the using process, the embodiment has the beneficial effects of the embodiment 1, and simultaneously has the following beneficial effects: a base drain hole 11 is arranged at the bottom of the pot-shaped base 3, and when plants are watered, muddy water discharged from the flowerpot 1 enters the bottom of the pot-shaped base 3 and is drained out of the pot through the base drain hole 11 arranged at the bottom of the pot-shaped base 3; the base drain hole 11 ensures that no water and mosquitoes are stored at the bottom of the pot-shaped base, and the embodiment is suitable for various flower seedling or plant planting cultivators.

Embodiment 6 a split combined type flower pot

As shown in fig. 11-12, the present embodiment provides a split combined flower device, which is different from embodiment 2 in that, on the basis of embodiment 2, a base drainage hole 11 is formed around the boss 9; the number of the base drain holes 11 is multiple; the base drain hole 11 discharges muddy water in the basin-shaped base 3.

In the using process, the embodiment has the beneficial effects of the embodiment 2, and simultaneously has the following beneficial effects: set up base wash port 11 in the periphery of boss 9, the muddy water that flowerpot 1 discharged gets into basin type base 3 bottom through drain tank 10 on the boss 9 to outside the basin is arranged through base wash port 11, base wash port 11 has ensured that basin type base bottom does not deposit water, does not grow the mosquito.

The boss 9 and the base wash port 11 that the basin type base 3 bottom set up have ensured that the basin type base 3 can support the weight of flowerpot and can discharge the exhaust muddy water of flowerpot again, and this embodiment is suitable for various flower seedling or plant planting cultivators.

Embodiment 7A split combined type flower pot

As shown in fig. 13 to 14, the present embodiment provides a split combined type flower pot, which is different from embodiment 3 in that a base drain hole 11 is formed at the bottom of the pot-shaped base 3, and the number of the base drain holes 11 is plural; the base drain hole 11 discharges muddy water in the basin-shaped base 3.

In the using process, the embodiment has the beneficial effects of the embodiment 3, and simultaneously has the following beneficial effects: a base drain hole 11 is arranged at the bottom of the pot-shaped base 3, and when plants are watered, muddy water discharged from the flowerpot 1 enters the bottom of the pot-shaped base 3 and is drained out of the pot through the base drain hole 11 arranged at the bottom of the pot-shaped base 3; the base drain hole 11 ensures that no water and mosquitoes are stored at the bottom of the pot-shaped base, and the embodiment is suitable for small flower seedling or plant planting cultivators.

Embodiment 8A split combined type flower pot

As shown in fig. 15-16, the present embodiment provides a split combined type flower device, which is different from embodiment 4 in that, on the basis of embodiment 2, a base drainage hole 11 is formed around the boss 9; the number of the base drain holes 11 is multiple; the base drain hole 11 discharges muddy water in the basin-shaped base 3.

In the using process, the embodiment has the beneficial effects of the embodiment 4, and simultaneously has the following beneficial effects: set up base wash port 11 in the periphery of boss 9, the muddy water that flowerpot 1 discharged gets into basin type base 3 bottom through drain tank 10 on the boss 9 to outside the basin is arranged through base wash port 11, base wash port 11 has ensured that basin type base bottom does not deposit water, does not grow the mosquito.

The boss 9 and the base wash port 11 that the basin type base 3 bottom set up have ensured that the basin type base 3 can support the weight of flowerpot and can discharge the muddy water of flowerpot discharge again, and this embodiment is suitable for big-and-middle-sized flower seedling or plant planting cultivation ware.

In conclusion, the flowerpot has simple integral structure, the flowerpot is suspended in the pot-shaped base, so that water is thoroughly drained from the bottom of the flowerpot without water storage, and the ventilation performance is good; soil at the middle lower part of the flowerpot is shielded by the pot-shaped base and is not directly irradiated by sunlight, so that the direct influence of external temperature on the soil is reduced, and the moisturizing effect is good; the cavity 4 can store muddy water discharged by the flowerpot, and is beautiful and sanitary;

the base ventilation holes 5 are formed in the side wall of the pot-shaped base 3, so that air in the cavity 4 is easy to form convection, and the ventilation performance of the flower pot is further improved; the bottom of the flowerpot is flush with the lower edge of the base vent hole 5, and excessive muddy water at the bottom of the pot-shaped base 3 is discharged through the lower edge of the base vent hole 5, so that the bottom of the flowerpot is ensured to be thoroughly and smoothly drained, water is not stored, and ventilation is smooth;

the root control plate 6 arranged in the flowerpot 1 limits the transverse growth of the plant root system, avoids the knotting of the plant roots, and is beneficial to the smooth growth of the plant root system; a fine flowerpot side wall ventilation drain hole 7 is formed between every two adjacent root control plates 6, so that excessive water and fertilizer in the upper layer of the flowerpot soil is reduced, and ventilation and moisture preservation of the flowerpot soil are guaranteed;

the bottom of the pot-shaped base 3 is provided with a boss 9 which can support the weight of the flowerpot and store muddy water discharged by the flowerpot;

the base drain hole 11 is arranged at the bottom of the pot type base 3, so that water and mosquitoes are not stored at the bottom of the flower pot, and flower seedling or plant planting and cultivation are facilitated;

the utility model can select whether the base ventilation holes 5 adopt net ventilation holes for avoiding mosquitoes according to the application range of the flower device, so as to improve the ventilation performance of the flower device;

the utility model can be used for various flower ornamental flower devices, vegetable planting boxes or plant planting cultivators.

The foregoing is illustrative of the best mode of the invention, and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The protection scope of the present invention is subject to the content of the claims, and any equivalent transformation based on the technical teaching of the present invention is also within the protection scope of the present invention.

Claims (8)

1. The utility model provides a components of a whole that can function independently combination formula vase, includes flowerpot (1) and basin type base (3), its characterized in that: the flowerpot (1) is suspended in the pot-shaped base (3) through the flowerpot supporting table (2); a closed cavity (4) is formed between the flowerpot (1) and the pot-shaped base (3), and the cavity (4) is used for storing muddy water discharged from the flowerpot (1);

a boss (9) is arranged at the center of the bottom of the basin-shaped base (3), and the upper plane of the boss (9) is flush with the lower edge of the base ventilation hole (5); the boss (9) supports the weight of the flowerpot (1); a drainage groove (10) is formed in the upper plane of the boss (9); the drainage groove (10) is used for draining water and ventilating at the bottom of the flowerpot (1).

2. The split modular flower receptacle of claim 1, wherein: the base ventilation holes (5) are of a net structure; the flowerpot is characterized in that a base ventilation hole (5) is formed in the side wall of the pot-shaped base (3), and the lower edge of the base ventilation hole (5) is flush with the bottom plane of the flowerpot (1).

3. The split modular flower receptacle of claim 1, wherein: the upper part of the flowerpot (1) is exposed above the pot-shaped base (3), and the middle lower part of the flowerpot (1) is placed in the pot-shaped base (3); the top of the pot-shaped base (3) is lower than the top of the flowerpot (1).

4. The split modular flower receptacle of claim 1, wherein: the flowerpot (1) is integrally suspended at the middle lower part of the pot-shaped base (3); the top of the pot-shaped base (3) is higher than the top of the flowerpot (1).

5. The split modular flower receptacle of claim 1, wherein: the inner wall of the flowerpot (1) is provided with a root control plate (6); the root control plate (6) is used for guiding the plant root system to grow downwards; the flowerpot side wall ventilation drain hole (7) is formed in the side wall of the flowerpot (1), the flowerpot side wall ventilation drain hole (7) is formed in the cavity (4), and the flowerpot side wall ventilation drain hole (7) is formed between the adjacent root control plates (6); and a flowerpot bottom drain hole (8) is formed in the bottom of the flowerpot (1).

6. The split modular flower receptacle of claim 1, wherein: a base drain hole (11) is formed in the bottom of the basin-shaped base (3); the base drain hole (11) is used for draining muddy water in the basin-shaped base (3).

7. The split modular flower receptacle of claim 1, wherein: the flowerpot support table (2) is arranged in the middle of the flowerpot (1); the flowerpot supporting table (2) is a concave-convex step or a conical surface step.

8. The split modular flower receptacle of claim 1, wherein: the flowerpot is characterized in that a base supporting table (12) is arranged in the middle of the pot-shaped base (3), and the base supporting table (12) is matched with the flowerpot supporting table (2) in a contact mode, so that the flowerpot (1) is integrally suspended in the pot-shaped base (3).

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