CN220694030U - Flowerpot and planting system - Google Patents

Abstract

The utility model provides a flowerpot and a planting system, wherein the flowerpot comprises a flowerpot body, a water storage disc and a ventilation cup, the flowerpot body is provided with a containing cavity, a through hole communicated with the containing cavity is formed in the bottom of the containing cavity, a first air hole group is formed in the side wall of the flowerpot body and comprises a plurality of first air holes distributed along the circumferential direction of the flowerpot body, the first air holes penetrate through the side wall of the flowerpot body and are communicated with the containing cavity, the water storage disc is located at the bottom of the flowerpot body and is detachably connected with the flowerpot body, the water storage disc is provided with a water storage cavity communicated with the through hole, the ventilation cup comprises a cup portion and a connecting portion, a second air hole group is formed in the cup portion and comprises a plurality of second air holes, the second air holes are distributed along the circumferential direction of the cup portion, the cup portion penetrates through the cup portion and covers the through hole, the connecting portion is located at the cup opening of the cup portion, and the connecting portion is detachably connected with the flowerpot body, and at least one part of the cup portion is located in the containing cavity or the water storage cavity. The planting system comprises the flowerpot, and the flowerpot has the advantages of multiple purposes and good air permeability.

Description

Flowerpot and planting system

Technical Field

The utility model relates to the technical field of plant planting appliances, in particular to a flowerpot and a planting system provided with the flowerpot.

Background

The flowerpot is one of common devices for plant cultivation, and is provided with a containing cavity for containing plants and cultivation media (such as nutrient soil, ceramsite and the like), and the bottom of the containing cavity is provided with a drain vent hole, so that after the plants and the cultivation media are watered, water permeates the cultivation media from top to bottom to provide needed moisture for root systems of the plants, and redundant water is discharged out of the containing cavity through the drain vent hole, thereby avoiding the problems of mildew, decay and the like caused by long-time soaking of the root systems of the plants by water; in addition, the root system of the plant can also draw oxygen in the air through the water draining ventilation holes.

However, the existing flowerpots have the following defects:

firstly, the number of the water draining ventilation holes is small and the water draining ventilation holes are positioned at the bottom of the accommodating cavity, so that the oxygen which can be drawn by the root system of the plant through the water draining ventilation holes is extremely limited, and the healthy growth of the plant is not facilitated; in addition, when plants and cultivation media are watered, loose cultivation media such as cultivation soil are easy to subside under the action of water, so that the cultivation media in the accommodating cavity are tamped more and more, and the cultivation media can flow into the drainage air holes and block the drainage air holes, thereby further reducing oxygen which can be absorbed by root systems of the plants.

Second, the existing flowerpots are single in function, so that the flowerpots are difficult to be used with other plant planting devices, and the flowerpots can only be suitable for single plants. For example, the conventional flowerpot is applicable to only terrestrial plants, and is difficult to be applicable to aquatic plants, aerial plants and the like; if the aquatic plants are to be planted, a special flowerpot for the aquatic plants is required, and if the aerial plants are to be planted, a special flowerpot for the aerial plants is required.

Disclosure of Invention

In order to solve the problems, the main object of the present utility model is to provide a multipurpose flowerpot with good air permeability.

Another object of the present utility model is to provide a planting system provided with the above flowerpot.

In order to achieve the main object of the utility model, the flowerpot comprises a flowerpot body, a water storage disc and a ventilation cup, wherein the flowerpot body is provided with a containing cavity, a through hole is formed in the bottom of the containing cavity, the through hole penetrates through the flowerpot body and is communicated with the containing cavity, a first air hole group is formed in the side wall of the flowerpot body and comprises a plurality of first air holes, the first air holes are distributed along the circumferential direction of the flowerpot body and penetrate through the side wall of the flowerpot body and are communicated with the containing cavity, the water storage disc is located at the bottom of the flowerpot body and is detachably connected with the flowerpot body, the water storage disc is provided with a water storage cavity, the water storage cavity is communicated with the through hole, the ventilation cup comprises a cup portion and a connecting portion, a second air hole group is formed in the cup portion, the second air hole group comprises a plurality of second air holes, the second air holes are distributed along the circumferential direction of the cup portion, the cup portion covers the through hole, the connecting portion is located at the cup portion, the connecting portion is detachably connected with the flowerpot body, and at least one part of the cup portion is located in the containing cavity or the water storage cavity.

From the above, the first air hole group is arranged on the side wall of the flowerpot body, so that the root system of the plant cultivated in the flowerpot can fully draw out external oxygen through the first air hole group, and the plant can grow normally and healthily; the design of the ventilation cup and the through holes at the bottom of the flowerpot body can also enable the root system of the plant to fully draw outside oxygen, and simultaneously plays a role in draining water, so that redundant water in the watering process can flow to the water storage disc for recycling, and the surrounding environment of the flowerpot is prevented from being polluted; the detachable connection of the water storage disc and the flowerpot body enables the flowerpot to be matched with other planting devices (such as a water planting box, a planting square tube and the like) for use, so that the use diversity of the flowerpot is improved; in addition, the detachable connection mode of the ventilation cup and the pot body and the assembly position of the ventilation cup are matched, so that the flowerpot can be suitable for different kinds of plants (such as terrestrial plants, aquatic plants, aerial plants and the like), and the application range of the flowerpot is wider.

The first bending piece group comprises a plurality of first bending pieces and a plurality of second bending pieces, wherein the first bending pieces are bent into the accommodating cavity, the second bending pieces are bent out of the accommodating cavity, the plurality of second bending pieces and the plurality of first bending pieces are distributed at intervals in the circumferential direction of the basin body, and a first air hole is formed between one second bending piece and one first bending piece which are adjacently arranged; the number of the first bending sheet groups is more than two, the first bending sheet groups of more than two are distributed along the first height direction of the basin body, and the first bending sheets of one group of the first bending sheet groups and the second bending sheets of the adjacent other group of the first bending sheet groups are distributed at intervals in the first height direction.

From the above, the design of the first bending piece group can effectively prevent the cultivation medium (such as nutrient soil) in the basin body from blocking the first air hole or leaking out of the basin body from the first air hole; and through the relative position design to two adjacent first bending piece groups, can promote the root system of plant and draw the effect of oxygen through first air vent group to can make the flowerpot more individualized, with the aesthetic feeling that promotes the flowerpot.

Another preferred scheme is that the height of the breathable cup is less than one third of the diameter of the cup mouth; the bottom end of the cup part is provided with a second bending piece group, the second bending piece group comprises a plurality of third bending pieces and a plurality of fourth bending pieces, the third bending pieces are bent into the cup part, the fourth bending pieces are bent out of the cup part, the fourth bending pieces and the third bending pieces are distributed at intervals in the circumferential direction of the cup part, and a second air hole is formed between one fourth bending piece and one third bending piece which are adjacently arranged; more than two third air holes are arranged on the end part of the cup bottom of the cup part, and the third air holes penetrate through the cup part.

From the above, the flowerpot is more suitable for the terrestrial plants through the design of the height of the ventilation cup; the second bending sheet group can effectively prevent the cultivation medium in the basin body from blocking the second air hole or leaking out of the basin body from the second air hole; in addition, the second air holes and the third air holes are also used for discharging the redundant water in the basin body out of the basin body so as to avoid that the root system of the unhappy water plant is soaked in the cultivation medium mixed with water for a long time, and meanwhile, the third air holes at the bottom of the cup body can also be used for the root system of the plant to draw oxygen.

Another preferred scheme is that the height of the breathable cup is greater than one half of the diameter of the cup mouth; a third bending piece group is formed on the cup part, the third bending piece group comprises a plurality of fifth bending pieces and a plurality of sixth bending pieces, the fifth bending pieces are bent inwards of the cup part, the sixth bending pieces are bent outwards of the cup part, the sixth bending pieces and the fifth bending pieces are distributed at intervals in the circumferential direction of the cup part, and a second air hole is formed between one sixth bending piece and one fifth bending piece which are adjacently arranged; the end part of the cup bottom of the cup part is provided with more than two fourth air holes, and the fourth air holes penetrate through the cup part; the number of the third bending sheet groups is more than two, the more than two third bending sheet groups are distributed along the second height direction of the ventilation cup, and the fifth bending sheet of one third bending sheet group and the sixth bending sheet of the adjacent other third bending sheet group are distributed at intervals in the second height direction.

From the above, through the design of the height of the ventilation cup, when the flowerpot body is matched with other planting devices for use, the flowerpot can be more suitable for aquatic plants or aerial plants; the third bending sheet group is designed to effectively prevent the cultivation medium in the basin body from blocking the second air hole or leaking out of the basin body from the second air hole; the effect of oxygen suction of the root system of the plant through the second air hole group and the water drainage effect on the water accumulated in the basin body can be improved through the design of the opposite arrangement of the two adjacent second bending sheet groups; and the fourth air hole can further promote the effect that the root system of plant draws oxygen and to the drainage effect of ponding in the basin body.

The bottom of the basin body is provided with a drain hole group, the drain hole group comprises a plurality of first drain holes, the first drain holes are distributed on the circumferential direction of the through hole, and the first drain holes penetrate through the basin body and are communicated with the accommodating cavity; the basin body is formed with a seventh bending piece at each first drain hole, the seventh bending piece bends from the first drain hole to the accommodating cavity, and the seventh bending piece is located above the first drain hole in the first height direction of the basin body.

From the above, the drain hole group at the bottom of the pot body can be used for draining the superfluous accumulated water in the pot body out of the pot body so as to avoid the root system of the non-happy plant from generating mildew and rot due to long-time soaking in the cultivation medium mixed with water; and the seventh bending piece is arranged at the first water drain hole, so that the first water drain hole can be effectively prevented from being blocked by a cultivation medium in the basin body due to sedimentation, the water drain effect of the basin body is ensured, and the root system of the plant can pass through the first water drain Kong Jiqu oxygen.

Further proposal is that the bottom of the basin body is formed with a step part, the water storage cavity is formed with a first supporting part, the step part is connected with the opening of the water storage cavity in a clamping way, and is adjacent to the first supporting part; the basin body is provided with a clamping part at the through hole, the clamping part is provided with a clamping position, and the connecting part is connected in the clamping position in a clamping way; the bottom of the water storage disc is provided with a second drain hole, and the flowerpot further comprises a sealing plug, wherein the sealing plug is detachably arranged in the second drain hole and seals the second drain hole.

From the above, through the assembly structure design of the water storage disc and the basin body, the water storage disc and the basin body are more convenient to assemble and disassemble, so that the basin body can be conveniently matched with other planting appliances; through the assembly structure design to the basin body and the ventilative cup for the dismouting of basin body and ventilative cup is more convenient, and makes the assembly position of ventilative cup can adjust according to the plant species of planting, thereby enlarges the application scope of flowerpot, makes the practicality of flowerpot stronger.

In order to achieve another object of the present utility model, the present utility model provides a planting system, which includes at least one flowerpot as described above.

From the above, the planting system provided with the flowerpot can enable the root system of the plant to better draw oxygen, and the planting system can be suitable for different kinds of plants (such as ground plants, aquatic plants, aerial plants and the like) through the flowerpot, so that the practicability of the planting system is improved, and the use cost of the planting system is reduced.

The planting system further comprises a water planting box, the water planting box is provided with a water storage bin, at least one first jack is arranged at the top of the water planting box, and the first jack penetrates through the top of the water planting box and is communicated with the water storage bin; the basin body can be separated with the water storage disk and placed at the top of the water planting box, and the breathable cup can be inserted into the first jack.

From the above, the water planting box can be matched with the flowerpot with the water storage disc removed to plant the aquatic plants, batch planting of the aquatic plants can be realized, management of a planting system is optimized, and planting cost and field are saved.

Still further scheme is, the water planting case includes box and lower box, and first jack shaping is on last box, and lower box is connected with last box detachably, encloses into the water storage bin between lower box and the last box.

From the above, through the design to the water planting case for the clean of water planting case, maintenance and use are more convenient, easy operation.

In a further scheme, the planting system further comprises a planting square tube, the planting square tube is hollow, at least one second jack is arranged on the first side wall of the planting square tube, and the second jack penetrates through the first side wall; the basin body can be separated from the water storage disc and placed on the first side wall, and the breathable cup can be inserted into the second jack.

From the above, cultivate the flowerpot that square pipe can cooperate to demolish the water storage disk and plant the aerial plant, and can realize planting the aerial plant in batches, optimize the management of planting system, save the planting cost.

Drawings

Fig. 1 is a block diagram of a first embodiment of a flower pot according to the present utility model.

Fig. 2 is a cross-sectional view of a first embodiment of the plant pot of the present utility model.

Fig. 3 is a block diagram of a pot body of a first embodiment of the flowerpot of the present utility model.

Fig. 4 is an enlarged view at a in fig. 3.

Fig. 5 is a structural view of a water storage tray of a first embodiment of the flowerpot of the present utility model.

Fig. 6 is a structural view of a ventilation cup in accordance with a first embodiment of the flowerpot of the present utility model.

Fig. 7 is a cross-sectional view of a ventilation cup in accordance with a first embodiment of the flowerpot of the present utility model.

Fig. 8 is a structural view of a ventilation cup in accordance with a second embodiment of the flowerpot of the present utility model.

Fig. 9 is a block diagram of a third embodiment of the port of the present utility model with parts of the components omitted.

Fig. 10 is a block diagram of a first embodiment of the planting system of the present utility model.

Fig. 11 is a block diagram of a hydroponic tank in accordance with a first embodiment of the planting system of the present disclosure.

Fig. 12 is an exploded view of a hydroponic tank in accordance with a first embodiment of the planting system of the present disclosure.

Fig. 13 is a block diagram of a first embodiment of the planting system of the present utility model with some components omitted.

Fig. 14 is a block diagram of a second embodiment of the planting system of the present utility model.

Fig. 15 is a block diagram of a cultivating square tube in a second embodiment of the planting system of the present disclosure.

The utility model is further described below with reference to the drawings and examples.

Detailed Description

First embodiment of flower pot

Referring to fig. 1 and 2, a flowerpot 100 includes a pot body 1, a water storage tray 2, and a ventilation cup 3. Wherein, the water storage disc 2 is detachably connected with the basin body 1; the ventilation cup 3 is detachably connected with the basin body 1, and two different assembly positions are preferably arranged between the ventilation cup 3 and the basin body 1.

Referring to fig. 3, the tub 1 has a housing chamber 11, and the housing chamber 11 is used for housing plants and cultivation media (such as nutrient soil, haydite, etc.). The bottom of holding the chamber 11 is provided with through-hole 12, and through-hole 12 runs through the bottom of basin body 1, and through-hole 12 and hold chamber 11 intercommunication for hold in the chamber 11 because of the excessive ponding of watering production accessible through-hole 12 flows to the water storage dish 2 of basin body 1 below department and retrieve, in order to avoid polluting flowerpot 100 surrounding environment.

The side wall of the basin body 1 is provided with a first air hole 13 group, the first air hole 13 group comprises a plurality of first air holes 13, the first air holes 13 are distributed along the circumferential direction of the basin body 1, and the first air holes 13 penetrate through the side wall of the basin body 1, so that the first air holes 13 are communicated with the accommodating cavity 11. The first air holes 13 are arranged so that the root system of the plant cultivated in the flowerpot 100 can fully absorb the external oxygen through the first air holes 13, so that the plant can grow normally and healthily.

Preferably, referring to fig. 4, a first bending piece set 14 is formed on a side wall of the tub 1, and the first bending piece set 14 includes a plurality of first bending pieces 141 and a plurality of second bending pieces 142; the first bending piece 141 is bent into the accommodating cavity 11, the second bending piece 142 is bent out of the accommodating cavity 11, and the plurality of second bending pieces 142 and the plurality of first bending pieces 141 are distributed at intervals in the circumferential direction of the bowl body 1, so that the bending directions of the first bending piece 141 and the second bending piece 142 which are adjacently arranged are opposite, and the first air hole 13 is formed between the first bending piece 141 and the second bending piece 142 which are adjacently arranged. By providing the first bending piece group 14 to form the first air hole 13, the cultivation medium (such as nutrient soil) in the pot body 1 can be effectively prevented from blocking the first air hole 13, and the cultivation medium can be prevented from leaking out of the pot body 1 from the first air hole 13. Further, the number of the first bending piece groups 14 is more than two, that is, the number of the first air holes 13 is more than two; the two or more first bending pieces 14 are distributed along the first height direction of the basin 1, and the first bending pieces 141 of one first bending piece 14 are preferably distributed at intervals with the second bending pieces 142 of the adjacent other first bending piece 14 along the first height direction. Through the relative position design to two adjacent first bending piece group 14, can promote the root system of plant and draw the effect of oxygen through 13 groups of first air vent to can make flowerpot 100 more individualized, with the aesthetic feeling that promotes flowerpot 100.

In addition, a drain hole group can be arranged at the bottom of the basin body 1 according to the size of the basin body 1. For example, when the size of the tub 1 is large, a drain hole group is provided at the bottom of the tub 1 to assist the through hole 12 and the air-permeable cup 3 to drain the excessive water when watering the plants into the water storage tray 2, so as to prevent the root system of the unhappy plants from getting moldy and rotting due to long-time soaking in the cultivation medium mixed with water. Preferably, the drain hole group includes a plurality of first drain holes 15, the plurality of first drain holes 15 are distributed in the circumferential direction of the through hole 12, and the first drain holes 15 penetrate the tub 1 and communicate the accommodating chamber 11 and the water storage tray 2. When the size of the basin body 1 is larger, the number of the drainage hole sets may be more than two, and the drainage hole sets of more than two sets and the through holes 12 are distributed in concentric circles.

Further, the basin body 1 is formed with a seventh bending piece 16 at each first drain hole 15, the seventh bending piece 16 is bent from the first drain hole 15 into the accommodating cavity 11, and the seventh bending piece 16 is located above the first drain hole 15 in the first height direction of the basin body 1. The seventh bending piece 16 is arranged at the first drain hole 15, so that the first drain hole 15 can be effectively prevented from being blocked by the cultivation medium in the basin body 1 due to sedimentation, the drain effect of the basin body 1 is ensured, and meanwhile, the arrangement of the drain hole group can further assist the root system of the plant to better draw oxygen.

In combination with fig. 5, the water storage disc 2 is located at the bottom of the flowerpot body 1, and the water storage disc 2 is detachably connected with the flowerpot body 1, so that the flowerpot body 1 of the flowerpot 100 can be matched with other planting devices (such as a water planting box, a planting square tube and the like) for use, and the diversity of the use of the flowerpot 100 is improved. The water storage tray 2 has a water storage chamber 21, and the water storage chamber 21 communicates with the through hole 12. Preferably, the tub 1 is formed with a stepped portion 17 at the bottom thereof, and a first support portion 22 is formed in the water storage chamber 21; the step portion 17 may be engaged with the opening of the water storage chamber 21, that is, the step portion 17 may preferably be engaged with the inner cavity wall of the water storage chamber 21 by means of micro interference, and when the assembly of the tub 1 and the water storage tray 2 is completed, the step portion 17 abuts against the first supporting portion 22 in the water storage chamber 21. Through the assembly structure design to water storage dish 2 and basin body 1 for dismouting between water storage dish 2 and the basin body 1 is more convenient, thereby is convenient for basin body 1 and other planting utensil cooperation use. Of course, other matching structures can be adopted in the detachable connection manner between the basin body 1 and the water storage tray 2, for example, a first clamping portion is arranged on the basin body 1, and a second clamping portion is arranged on the water storage tray 2, so that when the basin body 1 and the water storage tray 2 are connected, the first clamping portion on the basin body 1 is matched and connected with the second clamping portion on the water storage tray 2, and the basin body 1 and the water storage tray 2 are fixed together.

Referring to fig. 6 and 7, the air-permeable cup 3 includes a cup portion 31 and a connecting portion 32. Wherein, the cup portion 31 is formed with a second air hole 311 group, the second air hole 311 group includes a plurality of second air holes 311, the second air holes 311 are distributed along the circumference of the cup portion 31, and the second air holes 311 penetrate the cup portion 31, such that the second air holes are communicated with the through holes 12. The arrangement of the first air holes 13 can enable redundant water to be discharged into the water storage disc 2 through the first air holes 13 and the through holes 12 when plants are irrigated, so that the root systems of the plants are prevented from being soaked in the cultivation medium mixed with water for a long time; in addition, the first air holes 13 enable the root system of the plant cultivated in the flowerpot 100 to fully draw the external oxygen through the first air holes 13, so that the plant can grow normally and healthily. It can be seen that the design of the ventilation cup 3 and the through hole 12 at the bottom of the flowerpot body 1 can make the root system of the plant more fully draw the external oxygen, and play the role of drainage simultaneously, so that the redundant water in the watering process can flow to the water storage disc 2 for recycling, and the surrounding environment of the flowerpot 100 is prevented from being polluted.

Preferably, in the present embodiment: the height h of the ventilation cup 3 is greater than preferably one half the diameter phi of the mouth of the ventilation cup 3; and a third bending piece set 312 is formed on the cup portion 31. The third bending piece set 312 includes a plurality of fifth bending pieces 3121 and a plurality of sixth bending pieces 3122, where the fifth bending pieces 3121 bend into the cup portion 31 of the cup body, the sixth bending pieces 3122 bend out of the cup portion 31, and the plurality of fifth bending pieces 3121 and the plurality of sixth bending pieces 3122 are distributed at intervals in the circumferential direction of the cup portion 31, so that bending directions of the fifth bending pieces 3121 and the sixth bending pieces 3122 which are adjacently disposed are opposite, and the second air hole 311 is formed between the sixth bending pieces 3122 and the fifth bending pieces 3121 which are adjacently disposed. By forming the second air holes 311 by providing the third bending piece group 312, the second air holes 311 can be effectively prevented from being blocked by the cultivation medium in the basin body 1, and the cultivation medium can be prevented from leaking into the water storage tray 2 from the second air holes 311, so that the cultivation medium in the basin body 1 is prevented from being lost. Further, the number of the third bending sheet groups 312 is more than two, the more than two third bending sheet groups 312 are distributed along the second height direction of the air permeable cup 3, and the fifth bending sheet 3121 of one third bending sheet group 312 and the sixth bending sheet 3122 of the adjacent other third bending sheet group 312 are distributed at intervals along the second height direction. Through the relative position design to two adjacent groups of third bending piece group 312, can promote the root system of plant and draw the effect of oxygen and the drainage effect of ventilative cup 3 through second gas pocket 311 group. Furthermore, the bottom of the cup 31 is provided with more than two fourth air holes 313, the fourth air holes 313 penetrate through the bottom of the cup 31, so that the fourth air holes 313 are communicated with the through holes 12, and the effect of oxygen extraction by the root system of the plant and the water drainage effect on the accumulated water in the basin 1 can be further improved by the arrangement of the fourth air holes 313.

The cup portion 31 of the air-permeable cup 3 covers the through hole 12, and the air-permeable cup 3 is detachably connected with the tub 1 through the connection portion 32. Preferably, in the present embodiment, the tub 1 is provided with a clamping portion 121 at the through hole 12, the clamping portion 121 is disposed around the through hole 12, the clamping portion 121 has a clamping position, and the connecting portion 32 is in clamping connection with the clamping position, so as to realize detachable connection between the ventilation cup 3 and the tub 1. Wherein, as a first installation position state, when the air-permeable cup 3 is installed on the tub 1, at least a part of the cup portion 31 of the air-permeable cup 3 is located in the accommodation chamber 11 of the tub 1, preferably, the cup portion 31 is located in the accommodation chamber 11; as a second installation position state, when the air-permeable cup 3 is installed to the tub 1, at least a part of the cup portion 31 is located in the water storage chamber 21; reference may be made in particular to the example of fig. 15. Through the assembly structure design to the basin body 1 and the ventilative cup 3 for the dismouting of basin body 1 and ventilative cup 3 is more convenient, and makes the assembly position of ventilative cup 3 can adjust according to the plant species of planting, thereby enlarges flowerpot 100's application scope, makes flowerpot 100's practicality stronger. In addition, the shapes of the basin body 1 and the water storage disc 2 can be changed according to the requirements.

In summary, through the structural design of the flowerpot 100, the flowerpot 100 can be suitable for different kinds of plants (such as ground plants, aquatic plants, aerial plants and the like), so that the practicability of the flowerpot 100 is enlarged, and the planting cost is reduced; in addition, the root system of the plant can better draw oxygen.

Second embodiment of flower pot

Referring to fig. 8, the present embodiment is different from the first embodiment of the flowerpot in the shape of a part of the portion of the ventilation cup, specifically, in the present embodiment:

the height of the ventilation cup 4 is smaller than one third of the diameter of the cup mouth of the ventilation cup 4, the cup bottom end of the cup portion 41 of the ventilation cup 4 is provided with a second bending piece group 412, the second bending piece group 412 comprises a plurality of third bending pieces 4121 and a plurality of fourth bending pieces 4122, the third bending pieces 4121 are bent into the cup portion 41, the fourth bending pieces 4122 are bent outwards of the cup portion 41, and the plurality of fourth bending pieces 4122 and the plurality of third bending pieces 4121 are distributed at intervals in the circumferential direction of the cup portion 41, so that the bending directions of the third bending pieces 4121 and the fourth bending pieces 4122 which are adjacently arranged are opposite, and the second air holes 411 are formed between the third bending pieces 4121 and the fourth bending pieces 4122 which are adjacently arranged. The flowerpot is more suitable for the terrestrial plants through the height design of the ventilation cup 4; the second bending piece set 412 can effectively prevent the cultivation medium in the basin body from blocking the second air hole 411 or leaking out of the basin body from the second air hole 411.

In addition, be provided with more than two third gas holes 413 on the bottom of cup portion 41's the bottom of cup portion, third gas hole 413 runs through cup portion 41 for third gas hole 413 and the through-hole intercommunication of basin body, third gas hole 413 are used for assisting in the second gas hole 411 to discharge the basin internal unnecessary water outside the basin body, in order to avoid the root system of the unhappy water plant to soak in the cultivation medium that mixes water for a long time, and the root system of the while cup bottom still can supply the root system of plant to draw oxygen to use.

It should be noted that, in this embodiment, the flowerpot may be configured with the ventilation cup 4 described in this embodiment and the ventilation cup 3 described in the first embodiment of the flowerpot, so that the user may select a ventilation cup that is matched with the ventilation cup according to the use requirement.

Third embodiment of flowerpot

Referring to fig. 9, the present embodiment is different from the above-described embodiment in that, in the present embodiment:

the bottom of the water storage disc 51 is provided with a second drain hole 511, and the second drain hole 511 is communicated with the water storage cavity 512; the flowerpot further includes a sealing plug 52, and the sealing plug 52 is detachably installed in the second drain hole 511 and seals the second drain hole 511. The second drain hole 511 and the sealing plug 52 are arranged to facilitate cleaning of accumulated water in the water storage disc 51, and are easy to operate and not easy to damage plants.

First embodiment of planting System

Referring to fig. 10, a planting system 600 includes a flowerpot 6 and a hydroponic tank 7, wherein the flowerpot 6 is a flowerpot according to any one of the first to third embodiments of the flowerpot described above. By setting the flowerpot 6 in the planting system 600 as the flowerpot according to any one of the first to third embodiments of the flowerpot described above, the root system of the plant can better draw oxygen, and by the flowerpot 6 described above, the planting system 600 can be applied to different kinds of plants (such as a ground plant, a aquatic plant, an aerial plant, etc.), so that the practicality of the planting system 600 is enlarged, and the use cost of the planting system 600 is reduced.

Referring to fig. 11 to 13, the hydroponic tank 7 has a water storage bin, and at least one first jack 711 is provided at the top of the hydroponic tank 7, and the first jack 711 penetrates the top of the hydroponic tank 7 and communicates with the water storage bin; preferably, the hydroponic tank 7 comprises an upper tank 71 and a lower tank 72, wherein the first jack 711 is formed on the upper tank 71, the lower tank 72 is detachably connected with the upper tank 71, a water storage bin is enclosed between the lower tank 72 and the upper tank 71, and the number of the first jacks 711 is multiple, so that the hydroponic tank 7 is more convenient to clean, maintain and use and easy to operate.

When the flowerpot 6 is matched with the water planting box 7, the flowerpot body 61 of the flowerpot 6 is separated from the water storage disc, then the flowerpot body 61 is placed on the top of the water planting box 7, and the ventilation cup 62 can be preferably used as the ventilation cup in the first embodiment of the flowerpot and is inserted into the first jack 711, so that when aquatic plants are planted, roots of the aquatic plants can better extend into the water planting box 7 through the ventilation cup 62 and contact with water in the water storage bin. It can be seen that the water planting box 7 can be matched with the flowerpot 6 with the water storage disc removed to plant the aquatic plants, and batch planting of the aquatic plants can be realized, so that the management of the planting system 600 is optimized, and the planting cost and the field are saved.

Second embodiment of planting System

Referring to fig. 14 and 15, the planting system further includes a planting square pipe 8 and a flowerpot, wherein the flowerpot 9 is the flowerpot according to any one of the first to third embodiments of the flowerpot described above. The flowerpot 9 in the planting system is set to be the flowerpot according to any one of the first to third embodiments, so that the planting square tube 8 can be matched with the flowerpot 9 with the water storage disc removed to plant aerial plants, batch planting of aerial plants can be achieved, management of the planting system is optimized, and planting cost is saved.

The cultivation square tube 8 is hollow, and the cultivation square tube 8 is provided with at least one second jack 81 on the first lateral wall, and the second jack 81 runs through the first lateral wall. When the flowerpot 9 is matched with the cultivation square tube 8 for use, the flowerpot body 91 of the flowerpot 9 can be separated from the water storage disc, the flowerpot body 91 is placed on the first side wall of the cultivation square tube 8, and meanwhile, the ventilation cup 92 of the flowerpot 9 can be inserted into the second jack 81.

It should be noted that, in this embodiment, the planting system may simultaneously configure the cultivation square tube 8 described in this embodiment and the hydroponic tank described in the first embodiment of the planting system to allow the user to select according to the needs. .

Finally, it should be emphasized that the foregoing description is merely illustrative of the preferred embodiments of the utility model, and that various changes and modifications can be made by those skilled in the art without departing from the spirit and principles of the utility model, and any such modifications, equivalents, improvements, etc. are intended to be included within the scope of the utility model.

Claims (10)

1. Flowerpot, its characterized in that includes:

the basin body is provided with a containing cavity, a through hole is formed in the bottom of the containing cavity, the through hole penetrates through the basin body and is communicated with the containing cavity, a first air hole group is formed in the side wall of the basin body and comprises a plurality of first air holes, the first air holes are distributed along the circumferential direction of the basin body, and the first air holes penetrate through the side wall of the basin body and are communicated with the containing cavity;

the water storage disc is positioned at the bottom of the basin body and detachably connected with the basin body, and is provided with a water storage cavity which is communicated with the through hole;

the breathable cup comprises a cup portion and a connecting portion, wherein a second air hole group is formed in the cup portion, the second air hole group comprises a plurality of second air holes, the second air holes are distributed along the circumference of the cup portion, the second air holes penetrate through the cup portion, the cup portion covers the through holes, the connecting portion is located at the mouth of the cup portion, the connecting portion is detachably connected with the basin body, and at least one part of the cup portion is located in the containing cavity or at least one part of the cup portion is located in the water storage cavity.

2. The flowerpot as in claim 1, wherein:

the side wall of the basin body is provided with a first bending sheet group, the first bending sheet group comprises a plurality of first bending sheets and a plurality of second bending sheets, the first bending sheets are bent into the accommodating cavity, the second bending sheets are bent out of the accommodating cavity, the plurality of second bending sheets and the plurality of first bending sheets are distributed at intervals in the circumferential direction of the basin body, and a first air hole is formed between each second bending sheet and each first bending sheet, which are adjacently arranged;

the number of the first bending sheet groups is more than two, the first bending sheet groups are distributed along the first height direction of the basin body, and the first bending sheets of one group of the first bending sheet groups and the second bending sheets of the adjacent other group of the first bending sheet groups are distributed at intervals in the first height direction.

3. The flowerpot as in claim 1, wherein:

the height of the breathable cup is smaller than one third of the diameter of the cup opening;

the bottom end of the cup part is provided with a second bending sheet group, the second bending sheet group comprises a plurality of third bending sheets and a plurality of fourth bending sheets, the third bending sheets are bent towards the inside of the cup part, the fourth bending sheets are bent towards the outside of the cup part, the plurality of fourth bending sheets and the plurality of third bending sheets are distributed at intervals in the circumferential direction of the cup part, and a second air hole is formed between one fourth bending sheet and one third bending sheet which are adjacently arranged;

more than two third air holes are formed in the bottom end portion of the cup portion, and the third air holes penetrate through the cup portion.

4. The flowerpot as in claim 1, wherein:

the height of the breathable cup is larger than one half of the diameter of the cup opening;

a third bending sheet group is formed on the cup part, the third bending sheet group comprises a plurality of fifth bending sheets and a plurality of sixth bending sheets, the fifth bending sheets are bent towards the inside of the cup part, the sixth bending sheets are bent towards the outside of the cup part, the plurality of sixth bending sheets and the plurality of fifth bending sheets are distributed at intervals in the circumferential direction of the cup part, and a second air hole is formed between each of the sixth bending sheets and each of the fifth bending sheets, which are adjacently arranged;

more than two fourth air holes are formed in the bottom end part of the cup part, and penetrate through the cup part;

the number of the third bending sheet groups is more than two, the more than two third bending sheet groups are distributed along the second height direction of the ventilation cup, and the fifth bending sheet of one third bending sheet group and the sixth bending sheet of the adjacent other third bending sheet group are distributed at intervals in the second height direction.

5. The flowerpot as in claim 1, wherein:

the bottom of the basin body is provided with a drain hole group, the drain hole group comprises a plurality of first drain holes, the plurality of first drain holes are distributed in the circumferential direction of the through hole, and the first drain holes penetrate through the basin body and are communicated with the accommodating cavity;

the basin body is formed with seventh bending pieces at each first drain hole, the seventh bending pieces bend from the first drain holes to the accommodating cavities, and the seventh bending pieces are located above the first drain holes in the first height direction of the basin body.

6. The flowerpot as claimed in any one of claims 1 to 5 wherein:

the bottom of the basin body is provided with a step part in a molding way, the water storage cavity is internally provided with a first supporting part, the step part is connected with the opening of the water storage cavity in a clamping way, and the step part is adjacent to the first supporting part;

the basin body is provided with a clamping part at the through hole, the clamping part is provided with a clamping position, and the connecting part is connected in the clamping position in a clamping way;

the bottom of water storage disk is provided with the second wash port, the flowerpot still includes the sealing plug, sealing plug detachably installs in the second wash port and seal the second wash port.

7. A planting system comprising at least one plant pot according to any one of claims 1 to 6.

8. The planting system of claim 7, wherein:

the planting system further comprises a water planting box, the water planting box is provided with a water storage bin, at least one first jack is arranged at the top of the water planting box, and the first jack penetrates through the top of the water planting box and is communicated with the water storage bin;

the basin body can be separated from the water storage disc and placed at the top of the water culture tank, and the ventilation cup can be inserted into the first jack.

9. The planting system of claim 8, wherein:

the hydroponic tank comprises:

the first jack is formed on the upper box body;

the lower box body is detachably connected with the upper box body, and the water storage bin is enclosed between the lower box body and the upper box body.

10. A planting system according to any one of claims 7 to 9, wherein:

the planting system further comprises a planting square pipe, the planting square pipe is hollow, at least one second jack is arranged on the first side wall of the planting square pipe, and the second jack penetrates through the first side wall;

the basin body can be separated from the water storage disc and placed on the first side wall, and the ventilation cup can be inserted into the second jack.