CN212212058U - Flowerpot suitable for potted landscape plant carries root - Google Patents

Abstract

The utility model discloses a flowerpot suitable for potted landscape plant carries root. The flowerpot also comprises a root lifting device for lifting roots of the bonsai plants; the root lifting device comprises a left semi-cylindrical hollow cavity and a right semi-cylindrical hollow cavity which are symmetrical left and right; the left semi-cylindrical hollow cavity is provided with a semi-cylindrical socket, and the right semi-cylindrical hollow cavity is provided with a semi-cylindrical cutting; the left semi-cylindrical hollow cavity is provided with a left convex strip, an inserting column and a cylindrical baffle, and the right semi-cylindrical hollow cavity is provided with a right convex strip with a U-shaped through groove; the opening end of the pot body is provided with an annular boss, and the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively provided with a semi-circular insert ring; the turn-ups of basin body are equipped with the circular through-hole of interval arrangement, and the lower turn-ups of left half cylindrical hollow cavity and right half cylindrical hollow cavity are equipped with the screw rod of interval arrangement respectively to adopt the nut to screw up. The utility model discloses can fix the root carrying device on the flowerpot steadily, can not have mud to spill, it is all very convenient to install and dismantle.

Description

Flowerpot suitable for potted landscape plant carries root

Technical Field

The utility model belongs to the technical field of the potted landscape technique and specifically relates to a flowerpot suitable for potted landscape plant carries root.

Background

The bonsai comprises a flowerpot, bonsai plants and a flowerpot rack. The flowerpot used by the bonsai is usually a flowerpot with a shallow pot body so as to fully reflect the artistic appeal of the miniascape plant which shrinks into inches and is seen in a small size.

The root lifting is an extremely important modeling art in bonsai plant modeling, and a plurality of bonsai plants can remarkably improve the artistry of the bonsai plants and the aesthetic effect of the bonsai through the root lifting.

As is known, after a bonsai plant is heeled in, before roots are lifted, branches and leaves grow vigorously, and a crown is generally larger than the outer diameter of a flowerpot, so that the flowerpot for heeling in cannot be taken out upwards from the crown direction when the bonsai plant is transplanted, otherwise, the branches and leaves on the crown can be damaged.

For a long time, the root lifting operation of the bonsai plant is to firstly plant the bonsai plant in a flowerpot with a deep pot body, the deep flowerpot is provided with a thick soil layer, the root system of the bonsai plant can grow downwards as much as possible, when the root system which can meet the requirement of root lifting is grown, the flowerpot is broken, and the bonsai plant is fixedly planted in the flowerpot with the shallow pot body for root lifting. During transplanting, the root system and the branches and leaves need to be trimmed, so that the survival rate of the bonsai plants after root extraction can be improved. The potted landscape plant after root extraction needs a long recovery period to be transferred into normal growth due to the transplantation process of root cutting and pruning. There are two major drawbacks to adopting the traditional way to carry out root extraction: firstly, the flowerpot for heeling-in is broken to cause waste, and the production cost of bonsai manufacture is increased; secondly, the pot needs to be replaced and transplanted, and the modeling period after root lifting can be delayed due to root cutting and pruning.

In recent years, bonsai enthusiasts change root control devices to carry out root extraction of bonsai plants. The specific method comprises the following steps: firstly, cutting a section of root control device according to the size of a flowerpot for planting bonsai plants, fixing the head end and the tail end by bolts or aluminum wires, and then enclosing the flowerpot into a cylindrical structure, wherein the outer diameter of the cylindrical structure is slightly smaller than the inner diameter of the opening end of the flowerpot, so that the lower part of the cylindrical structure is inserted into the flowerpot filled with nutrient soil, then continuously adding the nutrient soil into the root control device, and then planting the bonsai plants in the root control device; therefore, the root system of the potted landscape plant can grow downwards as much as possible due to the fact that the thick soil layers are arranged in the root control device and the flowerpot, when the root system meeting the root lifting requirement is grown, the bolt or the aluminum wire is taken down, the root control device is removed, the nutrient soil around the root system is carefully removed, the exposed root system is washed clean by clear water, and the effect that the potted landscape plant lifts the root in the shallow flowerpot can be achieved. However, the root lifting by adopting the root control device has three defects: firstly, the root control device needs to be temporarily made into a cylindrical structure, so that the operation is troublesome; secondly, the manufactured root control device is not large or small, is difficult to be stably fixed on a flowerpot, and is easy to cause the root control device and potted plants in the root control device to be inclined due to long-time wind and rain, thereby being not beneficial to the standardized management of the potted plants; thirdly, the protruded top end of the root control device is provided with a large air hole, so that a large amount of slurry leaks out from the air hole in rainy days or when potted plants are watered, fertilizer water loss is caused, and the appearance is also influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a modified flowerpot for the root of carrying of potted landscape plant has following outstanding advantage: firstly, the installation and the disassembly are simple and convenient; the root lifting device can be stably fixed on the flowerpot, and is beneficial to the standardized management of bonsai plants; thirdly, no slurry leaks out, and the appearance is not influenced; fourthly, the detachable cloth can be reused without waste; fifthly, basin replacement and transplantation are not needed, and rapid modeling after root lifting is facilitated.

The technical scheme of the utility model is that: the flowerpot suitable for the root lifting of the bonsai plant comprises a pot body, a pot bottom and a circular ring-shaped base, wherein the pot body, the pot bottom and the circular ring-shaped base are of an integrated structure, an integrally formed turned edge is arranged on the periphery of the outer edge of the top of the pot body, water leakage holes are formed in the pot bottom along the axis, and a plurality of U-shaped holes which are uniformly distributed and are opened downwards are formed in the periphery of the bottom of the circular ring-shaped base.

The utility model has the main characteristics that: the flowerpot further comprises a root lifting device for lifting roots of the bonsai plants.

The root lifting device comprises a left semi-cylindrical hollow cavity and a right semi-cylindrical hollow cavity which are bilaterally symmetrical, the outer edges of the bottom ends of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively provided with an integrally formed lower flanging, and the outer edges of the top ends of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively provided with an integrally formed upper flanging.

The front and rear right end parts of the left semi-cylindrical hollow cavity are respectively provided with a semi-cylindrical socket along the center line of the wall thickness, and the front and rear left end parts of the right semi-cylindrical hollow cavity respectively extend leftwards along the center line of the wall thickness to form a semi-cylindrical inserting strip matched with the semi-cylindrical sockets.

The hollow cavity of left semi-cylindrical, the upper right end on back external diameter surface be equipped with integrated into one piece's left sand grip along the axial respectively, the right-hand member middle part of left side sand grip is equipped with integrated into one piece's post of inserting, be 90 right angles between post of inserting and the left sand grip, the right-hand member of post of inserting is equipped with integrated into one piece's cylindrical baffle, the axis of cylindrical baffle is the same with the axis of left sand grip, the diameter of cylindrical baffle is greater than the diameter of post of inserting, preceding of right semi-cylindrical hollow cavity, the upper left end on back external diameter surface is equipped with integrated into one piece's right sand grip along the axial respectively, parallel side by side between right sand grip and the left sand grip, the top of right sand grip and left sand grip links together with the bottom of last turn-ups, the bottom of right sand grip is equipped with the post of inserting adaptation, U-shaped logical groove with opening down, when the post of inserting is inserted in the U-shaped logical groove, cylindrical baffle can prevent that .

The inner diameter periphery of the opening end of the pot body is provided with an annular boss, and the inner sides of the bottom ends of the left semi-cylindrical hollow cavity and the semi-cylindrical hollow cavity respectively extend downwards to form a semicircular inserting ring matched with the annular boss.

The both ends are equipped with two interval arrangement's round through-hole respectively about the turn-ups of basin body, the screw rod of the round through-hole adaptation of turn-ups about the turn-ups of the lower turn-ups left end of the hollow cavity of left semi-cylindrical and semi-cylindrical hollow cavity's turn-ups right-hand member of turn-ups down respectively downwardly extending formation and turn-ups about, both ends interval arrangement, the screw rod adopts nut detachably to screw up fixedly after passing round through-hole downwards.

Further, the inner diameter and the outer diameter of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively the same as the inner diameter and the outer diameter of the top end of the pot body, and the outer diameter of the lower flange of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity is the same as the outer diameter of the flange of the pot body.

Furthermore, the pot body, the pot bottom and the annular base are all made of ceramics.

Furthermore, the left half-cylindrical hollow cavity, the right half-cylindrical hollow cavity, the left raised line, the inserted column, the cylindrical baffle, the right raised line, the screw and the nut are all made of hard plastics.

The flowerpot further comprises a root lifting device for lifting roots of potted plants, and the root lifting device comprises a left semi-cylindrical hollow cavity and a right semi-cylindrical hollow cavity which are symmetrical left and right, so that the flowerpot is convenient to mount and dismount on the flowerpot body quickly.

Because the outer edges of the bottom ends of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively provided with the integrally formed lower flanging, the outer edges of the top ends of the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are respectively provided with the integrally formed upper flanging, the lower flanging is detachably screwed and fixed on the flanging on the periphery of the outer edge of the top end of the pot body through the screw rod and the screw cap, the upper flanging is favorable for improving the strength of the root lifting device, and the installation and the disassembly operation of the root lifting device are also convenient.

Because the front and rear right end parts of the left semi-cylindrical hollow cavity are respectively provided with the semi-cylindrical spigots along the center line of the wall thickness, the front and rear left end parts of the right semi-cylindrical hollow cavity respectively extend leftwards along the center line of the wall thickness to form the semi-cylindrical cuttings matched with the semi-cylindrical spigots, and after the semi-cylindrical cuttings are aligned and inserted into the semi-cylindrical spigots, slurry cannot leak from the interface between the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity in rainy days or when potted landscape plants are watered, the loss of fertilizer water is prevented, and the attractiveness of the root lifting device is.

Because the right upper ends of the front and back outer diameter surfaces of the left semi-cylindrical hollow cavity are respectively provided with an integrally formed left convex strip along the axial direction, the middle part of the right end of the left convex strip is provided with an integrally formed inserting column, a 90-degree right angle is formed between the inserting column and the left convex strip, the right end of the inserting column is provided with an integrally formed cylindrical baffle plate, the axis of the cylindrical baffle plate is the same as that of the left convex strip, the diameter of the cylindrical baffle plate is larger than that of the inserting column, the left upper ends of the front and back outer diameter surfaces of the right semi-cylindrical hollow cavity are respectively provided with an integrally formed right convex strip along the axial direction, the right convex strip and the left convex strip are parallel, the top ends of the right convex strip and the left convex strip are connected with the bottom end of the upper flanging together, the bottom end of the right convex strip is provided with a U-shaped through groove which is matched with the inserting column and has a, the inserting column is inserted into the U-shaped through groove, the cylindrical baffle can prevent the inserting column from being separated from the left end of the U-shaped through groove, and therefore the left semi-cylindrical hollow cavity and the right semi-cylindrical hollow cavity are detachably fastened together to form a cylindrical structure. The design is convenient for installation of potted landscape plants during field planting and also convenient for disassembly of potted landscape plants during root extraction.

Because the inner diameter circumference of the opening end of the basin body is provided with the annular boss, the inner sides of the bottom ends of the left semi-cylindrical hollow cavity and the semi-cylindrical hollow cavity respectively extend downwards to form the semi-circular inserting rings matched with the annular boss, and the semi-circular inserting rings of the left semi-cylindrical hollow cavity and the semi-circular inserting rings of the right semi-cylindrical hollow cavity are simultaneously inserted downwards onto the annular boss of the inner diameter circumference of the opening end of the basin body, the root lifting device is favorably and stably installed on the basin body, and mud can be prevented from leaking from a connector between the lower flanging of the root lifting device and the flanging of the basin body.

Because the both ends are equipped with two circular through-holes of interval arrangement respectively about the turn-ups of basin body, the screw rod of the circular through-hole adaptation of both ends interval arrangement about the turn-ups is formed to the downward extension respectively of the turn-ups left end of the lower turn-ups of left half cylindrical hollow cavity and right half cylindrical hollow cavity's turn-down right-hand member, screw up fixedly with nut detachably after the screw rod passes the circular through-hole downwards, like this, can enough install the root device on the basin body firmly, the quick, convenient dismantlement of the root device of carrying when the potted landscape plant carries the root again.

Because the internal diameter and the external diameter on left half cylindrical hollow cavity and right half cylindrical hollow cavity are the same with the internal diameter and the external diameter on the top of the basin body respectively, the turn-ups's of the lower external diameter on left half cylindrical hollow cavity and right half cylindrical hollow cavity is the same with the turn-ups's of the basin body external diameter, makes the utility model discloses a design is more reasonable, will carry a device to install the back on the basin body, and is whole more harmonious.

The pot body, the pot bottom and the annular base are made of ceramics, so that the pot body made of the ceramics is suitable for growth of the bonsai plant before root lifting and growth of the bonsai plant after root lifting, and has high artistic and aesthetic effects.

Because the left semi-cylindrical hollow cavity, the right semi-cylindrical hollow cavity, the left raised line, the inserted column, the cylindrical baffle, the right raised line, the screw rod and the screw cap are all made of hard plastics, the root lifting device is convenient to process and can be repeatedly used after being detached.

The utility model has the advantages that:

the root-lifting device for bonsai plants has the following outstanding advantages: firstly, the installation and the disassembly are simple and convenient; the root lifting device can be stably fixed on the flowerpot, and is beneficial to the standardized management of bonsai plants; thirdly, no slurry leaks out, and the appearance is not influenced; fourthly, the detachable cloth can be reused without waste; fifthly, basin replacement and transplantation are not needed, and rapid modeling after root lifting is facilitated.

Drawings

The specific structure of the present invention is given by the following embodiments and the accompanying drawings.

Fig. 1 is a schematic structural diagram of the specific structure of the present invention.

Fig. 2 is a view from direction K of fig. 1.

Fig. 3 is a sectional view a-a of fig. 1.

Fig. 4 is a sectional view B-B of fig. 1.

In the figure: the flowerpot comprises a left semi-cylindrical hollow cavity 1, a left convex strip 2, an inserting column 3, a right convex strip 4, a cylindrical baffle 5, an upward flanging 6, a right semi-cylindrical hollow cavity 7, a U-shaped through groove 8, a semi-circular inserting ring 9, a downward flanging 10, a circular through hole 11, a screw cap 12, a screw rod 13, a pot body 14, a circular ring-shaped base 15, a U-shaped hole 16, a flanging 17, a water leakage hole 18, a pot bottom 19, a semi-cylindrical inserting strip 20, a semi-cylindrical socket 21 and an annular boss 22.

Detailed Description

The present invention will be further described with reference to the following examples.

Example (b): as shown in fig. 1-4, the flowerpot suitable for root lifting of potted plants comprises a pot body 14, a pot bottom 19 and a circular base 15, wherein the pot body 14, the pot bottom 19 and the circular base 15 are of an integrated structure, an integrally formed turned edge 17 is arranged on the periphery of the outer edge of the top end of the pot body 14, water leakage holes 18 are formed in the pot bottom 19 along the axis, and a plurality of uniformly distributed U-shaped holes 16 with downward openings are arranged on the periphery of the bottom end of the circular base 15.

The utility model has the main characteristics that: the flowerpot also comprises a root lifting device for lifting roots of the bonsai plants.

The root lifting device comprises a left semi-cylindrical hollow cavity 1 and a right semi-cylindrical hollow cavity 7 which are bilaterally symmetrical, the outer edges of the bottom ends of the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are respectively provided with an integrally formed lower flanging 10, and the outer edges of the top ends of the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are respectively provided with an integrally formed upper flanging 6.

The front and rear right end parts of the left semi-cylindrical hollow cavity 1 are respectively provided with a semi-cylindrical socket 21 along the center line of the wall thickness, and the front and rear left end parts of the right semi-cylindrical hollow cavity 7 respectively extend leftwards along the center line of the wall thickness to form a semi-cylindrical inserting strip 20 matched with the semi-cylindrical sockets 21.

The right upper ends of the front and back outer diameter surfaces of the left semi-cylindrical hollow cavity 22 are respectively provided with an integrally formed left convex strip 2 along the axial direction, the middle part of the right end of the left convex strip 2 is provided with an integrally formed inserting column 3, a 90-degree right angle is formed between the inserting column 3 and the left convex strip 2, the right end of the inserting column 3 is provided with an integrally formed cylindrical baffle 5, the axis of the cylindrical baffle 5 is the same as the axis of the left convex strip 2, the diameter of the cylindrical baffle 5 is larger than that of the inserting column 3, the left upper ends of the front and back outer diameter surfaces of the right semi-cylindrical hollow cavity 7 are respectively provided with an integrally formed right convex strip 4 along the axial direction, the right convex strip 4 and the left convex strip 2 are parallel and parallel, the top ends of the right convex strip 4 and the left convex strip 2 are connected with the bottom end of an upturned edge 6, the bottom end of the right convex strip 4 is provided with a U-shaped through groove 8 which is matched with the inserting column 3 and has a downward opening, thereby detachably fastening the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 together.

The inner diameter circumference of the opening end of the pot body 14 is provided with an annular boss 22, and the inner sides of the bottom ends of the left semi-cylindrical hollow cavity 1 and the semi-cylindrical hollow cavity 7 respectively extend downwards to form a semicircular insert ring 9 matched with the annular boss 22.

The left end and the right end of a flange 17 of the pot body 14 are respectively provided with two round through holes 11 which are arranged at intervals, the left end of a lower flange 10 of the left semi-cylindrical hollow cavity 1 and the right end of the lower flange 10 of the semi-cylindrical hollow cavity 7 respectively extend downwards to form a screw 13 which is matched with the round through holes 11 which are arranged at intervals at the left end and the right end of the flange 17, and the screw 13 is screwed and fixed by adopting a screw cap 12 in a detachable mode after penetrating through the round through holes 11 downwards.

Preferably, the inner diameter and the outer diameter of the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are respectively the same as the inner diameter and the outer diameter of the top end of the pot body 14, and the outer diameter of the lower flange 10 of the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 is the same as the outer diameter of the flange 17 of the pot body 14.

Preferably, the pot body 14, the pot bottom 19 and the annular base 15 are made of ceramics.

Preferably, the left semi-cylindrical hollow cavity 1, the right semi-cylindrical hollow cavity 7, the left convex strip 2, the inserted column 3, the cylindrical baffle 5, the right convex strip 4, the screw 13 and the nut 12 are all made of hard plastics.

It should be noted that: the pot body and the root lifting device can be designed and manufactured into products with different specifications so as to meet the root lifting requirements of different potted landscape plants.

The utility model discloses an operating condition is:

before the potted plant is heeled in, firstly, the semi-cylindrical insert 20 of the right semi-cylindrical hollow cavity 7 is aligned downwards and leftwards and inserted into the semi-cylindrical socket 21 of the left semi-cylindrical hollow cavity 1, meanwhile, after the insert 3 on the left convex strip 2 of the left semi-cylindrical hollow cavity 1 is aligned and inserted into the U-shaped through groove 8 on the right convex strip 4 of the right semi-cylindrical hollow cavity 7, the cylindrical baffle 5 of the insert 3 can prevent the insert 3 from being separated from the left end of the U-shaped through groove 8, and therefore the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are detachably fastened together; then, the fastened semicircular insert ring 9 of the left semi-cylindrical hollow cavity 1 and the fastened semicircular insert ring 9 of the right semi-cylindrical hollow cavity 7 are simultaneously inserted downwards onto the annular boss 22 of the pot body 14; finally, two screws 13 on the lower flanging 10 of the left semi-cylindrical hollow cavity 1 and two screws 13 on the lower flanging 10 of the right semi-cylindrical hollow cavity 7 are simultaneously aligned and downwards inserted into two circular through holes 11 which are arranged at intervals and are respectively arranged at the left end and the right end of the flanging 17 of the pot body 14, and then the screw caps 12 are detachably screwed and fixed, thus completing the installation of the root lifting device.

After the root lifting device is installed, nutrient soil is filled into the pot body 14 and the root lifting device, and the potted landscape plants are temporarily planted in the root lifting device, so that normal cultivation management can be carried out.

The root system of the potted plant grows downwards in the root lifting device and the soil layer of the pot body 14, when the root system grows to meet the root lifting requirement, the screw cap 12 is screwed down, two hands respectively grab the upper flanging 6 of the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7, the two hands lift up slightly, the screw 13 is pulled out of the round through hole 11 on the flanging 17 of the pot body 14, the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are pulled out of the annular boss 22 of the pot body 14 at the same time, then one hand presses the left semi-cylindrical hollow cavity 1, the other hand pulls the right semi-cylindrical hollow cavity 7 upwards slightly, the U-shaped through groove 8 on the right convex strip 4 of the right semi-cylindrical hollow cavity 7 is pulled out of the inserting column 3 on the left convex strip 2 of the left semi-cylindrical hollow cavity 1 upwards, and finally the inserting strip 20 of the right semi-cylindrical hollow cavity 7 is pulled out of the semi-cylindrical inserting column 2 of, the left semi-cylindrical hollow cavity 1 and the right semi-cylindrical hollow cavity 7 are separated from each other left and right and are detached from the pot body 14.

After the root lifting device is detached from the pot body 14, the effect of lifting roots of the bonsai plants in a shallow flowerpot can be achieved only by carefully scraping off the nutrient soil around the roots and washing the exposed roots with clear water.

Claims (4)

1. A flowerpot suitable for carrying roots of potted plants comprises a pot body (14), a pot bottom (19) and a circular base (15), wherein the pot body (14), the pot bottom (19) and the circular base (15) are of an integrated structure, an integrally formed turned edge (17) is arranged on the periphery of the outer edge of the top end of the pot body (14), water leakage holes (18) are formed in the pot bottom (19) along the axis, and a plurality of uniformly distributed U-shaped holes (16) with downward openings are formed in the periphery of the bottom end of the circular base (15);

the method is characterized in that: the flowerpot further comprises a root lifting device for lifting roots of the potted plant;

the root lifting device comprises a left semi-cylindrical hollow cavity (1) and a right semi-cylindrical hollow cavity (7) which are bilaterally symmetrical, the outer edges of the bottom ends of the left semi-cylindrical hollow cavity (1) and the right semi-cylindrical hollow cavity (7) are respectively provided with an integrally formed lower flanging (10), and the outer edges of the top ends of the left semi-cylindrical hollow cavity (1) and the right semi-cylindrical hollow cavity (7) are respectively provided with an integrally formed upper flanging (6);

the front and rear right end parts of the left semi-cylindrical hollow cavity (1) are respectively provided with a semi-cylindrical socket (21) along the center line of the wall thickness, and the front and rear left end parts of the right semi-cylindrical hollow cavity (7) respectively extend leftwards along the center line of the wall thickness to form a semi-cylindrical inserting strip (20) matched with the semi-cylindrical sockets (21);

the utility model discloses a hollow cavity of left semi-cylindrical (1) preceding, the upper right end on back external diameter surface is equipped with integrated into one piece's left sand grip (2) respectively along the axial, the right-hand member middle part of left side sand grip (2) is equipped with integrated into one piece's post of inserting (3), it is 90 right angles to insert between post (3) and left sand grip (2), the right-hand member of inserting post (3) is equipped with integrated into one piece's cylindrical baffle (5), the axis of cylindrical baffle (5) is the same with the axis of left sand grip (2), the diameter of cylindrical baffle (5) is greater than the diameter of inserting post (3), preceding, the upper left end on back external diameter surface of right semi-cylindrical hollow cavity (7) is equipped with integrated into one piece's right sand grip (4) respectively along the axial, parallel side by side between right sand grip (4) and left sand grip (2), the top of right sand grip (4) and left sand grip (2) links together with the bottom of upturning limit (6), the bottom of right, The U-shaped through groove (8) with the downward opening is formed, when the inserting column (3) is inserted into the U-shaped through groove (8), the cylindrical baffle (5) can prevent the inserting column (3) from being separated from the left end of the U-shaped through groove (8), and therefore the left semi-cylindrical hollow cavity (1) and the right semi-cylindrical hollow cavity (7) are detachably fastened together;

the inner diameter circumference of the opening end of the pot body (14) is provided with an annular boss (22), and the inner sides of the bottom ends of the left semi-cylindrical hollow cavity (1) and the semi-cylindrical hollow cavity (7) respectively extend downwards to form a semicircular insert ring (9) matched with the annular boss (22);

the basin body (14) turn-ups (17) about both ends be equipped with two interval arrangement's round through-hole (11) respectively, the left end of the lower turn-ups (10) of the hollow cavity of left side semicircle pillar-shaped (1) and the right-hand member of the lower turn-ups (10) of the hollow cavity of semicircle pillar-shaped (7) downwardly extending respectively forms with turn-ups (17) about both ends interval arrangement's round through-hole (11) screw rod (13) of adaptation, screw rod (13) adopt nut (12) detachably to screw up fixedly after passing round through-hole (11) downwards.

2. A flowerpot suitable for carrying roots of potted plants as claimed in claim 1, wherein the inner diameter and the outer diameter of the left semi-cylindrical hollow cavity (1) and the right semi-cylindrical hollow cavity (7) are respectively the same as the inner diameter and the outer diameter of the top end of the pot body (14), and the outer diameter of the lower flange (10) of the left semi-cylindrical hollow cavity (1) and the right semi-cylindrical hollow cavity (7) is the same as the outer diameter of the flange (17) of the pot body (14).

3. A flowerpot suitable for lifting roots of potted plants according to claim 1, wherein the pot body (14), the pot bottom (19) and the annular base (15) are all made of ceramic.

4. A flowerpot suitable for a root of a bonsai plant according to claim 1, wherein the left semi-cylindrical hollow cavity (1), the right semi-cylindrical hollow cavity (7), the left convex strip (2), the inserting column (3), the cylindrical baffle (5), the right convex strip (4), the screw (13) and the screw cap (12) are all made of hard plastics.

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