CN210491835U - Can be applied to horticulture frame cultivated in a pot of multiple plant - Google Patents

Abstract

The utility model provides a can be applied to horticulture frame cultivated in a pot of multiple plant, it includes base, scalable stay tube, inner circle, outer lane, dead lever, the flowerpot body, anticollision strip, atomizing vibration piece and atomizing switch. The flowerpot body, including inner shell, aqua storage tank and infiltration hole, the base is fixed in the well lower part of flowerpot body inner shell, and the protruding cylinder of base top edge evenly distributed, scalable stay tube, including upper segment pipe and lower section pipe, each evenly distributed of one side of upper and lower section pipe has the screw hole of equidistance, the protruding cylinder of inner circle below edge evenly distributed, evenly distributed is fluted on the dead lever. The raised cylinder of the inner ring is connected with the first end of the upper section of circular tube, the second end of the upper section of circular tube is connected with the first end of the lower section of circular tube in a sliding manner, the second end of the lower section of circular tube is connected with the raised cylinder of the base, and the groove is respectively connected with the inner ring and the outer ring. The utility model discloses simple structure, convenient operation can be according to the three-dimensional show its effect of different plant characteristics, and ornamental effect is strong.

Description

Can be applied to horticulture frame cultivated in a pot of multiple plant

Technical Field

The utility model relates to a horticulture field especially relates to a horticulture frame cultivated in a pot that can be applied to multiple plant.

Background

Along with the improvement of living standard of people, higher requirements are put forward for spiritual enjoyment, people hope to live in a healthy and comfortable environment, green plants can purify indoor air well, and monotonous indoor colors can be added. The green plant's kind is very many, if place it subaerial, can seem indoor very crowded and seem disorderly, then people place it on horticulture frame, but current horticulture frame uses very inconveniently, and the function is very single, often a horticulture frame can only place a plant to current horticulture frame can only carry out simple green plant and put, can not satisfy people's daily demand.

Gardening is used as a component of agriculture, and relates to a cultivation and breeding technology of economic crop groups such as fruit trees, vegetables, flowers, ornamental trees and the like. China is used as a big garden country, wherein the planting area and the yield of vegetables, fruit trees and flowers are the first in the world, and the garden products become an effective way for developing rural economy and increasing the income of farmers, and play an indispensable role in the aspects of improving and beautifying the environment, protecting ecological balance and the like.

The cultivation of horticultural plants generally adopts a greenhouse protected land for cultivation, and sets the optimal growth conditions for the plants through greenhouse environment control, fertilizer and water management and actual condition management control of greenhouse growth. The potting technique is more common horticulture cultivation mode, but conventional potting technique is mostly put in the individual layer, leads to the space utilization in canopy room protection ground not high. The plant type of some plants is very high and large, the occupied space is large, potted plants often need to be matched with a frame to realize utilization of a three-dimensional space, most of the existing potted plant frames can only realize a single function, or support pot bodies or guide branches, and can only adapt to a certain type of plants, so that the production and management of modern gardening products are not facilitated.

SUMMERY OF THE UTILITY MODEL

To the problem of horticulture frame structure function singleness cultivated in a pot in order, the utility model provides a can be applied to horticulture frame cultivated in a pot of multiple plant, mainly in order to make horticulture frame cultivated in a pot adapt to the kind wider, the shaping is pleasing to the eye to make full use of cubical space is the rapid development of promoting urban agriculture simultaneously.

The utility model provides a can be applied to horticulture frame cultivated in a pot of multiple plant, it includes base, scalable stay tube, inner circle, outer lane, dead lever, the flowerpot body, anticollision strip, atomizing vibration piece and atomizing switch. The base is fixed at the middle lower part of the inner shell of the flowerpot body, first protruding cylinders are uniformly distributed on the periphery of the upper edge of the base, the telescopic supporting tube comprises an upper section of circular tube and a lower section of circular tube, equidistant threaded holes are uniformly distributed on one side of the upper section of circular tube and one side of the lower section of circular tube respectively, the relative positions of the upper section of circular tube and the lower section of circular tube can be fixed through screws, the length of the telescopic supporting tube can be freely extended and retracted, second protruding cylinders are uniformly distributed on the periphery of the lower edge of the inner ring, grooves are uniformly distributed on the fixing rod, the width of each groove is equal to the diameter of the inner ring and the diameter of the outer ring, the second protruding cylinders of the inner ring are connected with the first ends of the upper section of circular tube, the second ends of the upper section of circular tube are connected with the first ends of the lower section of circular tube in a sliding manner, the groove is respectively connected with the inner ring and the outer ring, and the position of the groove is kept fixed and is not deformed. The flowerpot body, it includes inner shell, aqua storage tank and infiltration hole, the inner shell with the top parallel and level of shell, the inner shell with the shell is constituteed the aqua storage tank, infiltration hole evenly distributed is in around the inner shell outer wall bottom, the anticollision strip is located respectively the top and the bottom of shell outer wall, the bottom of shell is equipped with the universal wheel, atomizing vibration piece evenly distributed is in the bottom of aqua storage tank, the atomizing switch is located one side of shell outer wall bottom.

Preferably, the inner ring, the outer ring, the base, the inner shell, the outer shell and the anti-collision strip are coaxial, and the first protruding cylinder of the base, the telescopic supporting tube and the second protruding cylinder of the inner ring are coaxial.

Preferably, the diameter of outer lane is greater than the diameter of inner circle, the first protruding cylindrical diameter of base is greater than the diameter of telescopic support tube lower segment pipe, the protruding cylindrical diameter of inner circle second is greater than the diameter of telescopic support tube upper segment pipe, the diameter of upper segment pipe is less than the diameter of lower segment pipe, the diameter of shell is greater than the diameter of inner shell, the height of shell is greater than the height of inner shell, the external diameter of anticollision strip is greater than the diameter of shell.

Preferably, the number of the telescopic support tubes is equal to the number of the second raised cylinders of the inner ring and the number of the first raised cylinders of the base, and the number of the threaded holes of the upper section circular tube is equal to the number of the threaded holes of the lower section circular tube.

Preferably, the anti-collision strips are symmetrically distributed on two sides of the flowerpot body shell, the universal wheels are symmetrically distributed on four vertex angles of the flowerpot body shell, the number of the anti-collision strips is two, and the number of the universal wheels is four.

The utility model has the advantages of as follows:

the utility model aims at reducing the workload of people, leading the automation degree of the gardening frame to be higher, thus not only ensuring the safety of workers, but also reducing the dead weight of the gardening frame. But also can carry out automatically regulated according to the height of different plants, do not need the manual work to climb to the eminence and adjust the support at top.

The utility model discloses can realize that multiple plant ties up and tie up moulding, can be according to the three-dimensional show its effect of different plant characteristics, occupation space is little, and ornamental effect is strong, has avoided single trunk to hang climing growth duration weak point, the not long shortcoming of ornamental period. In addition, the pot frame and the pot can be conveniently packed and transported and are easy to carry.

Drawings

FIG. 1 is a schematic view of the overall structure of a potted landscape architecture applicable to various plants;

FIG. 2 is a schematic view of the structure of the flower pot body of the potted landscape architecture applicable to various plants;

FIG. 3 is a schematic view of a half-section structure of a flower pot body of a potted landscape architecture, which can be applied to various plants;

FIG. 4 is a schematic view of the upper half of a potted landscape architecture of the present invention applicable to a variety of plants;

FIG. 5 is a schematic structural view of a retractable support tube of a potted landscape architecture applicable to a variety of plants;

FIG. 6 is a schematic structural view of a base of a potted landscape architecture of the present invention applicable to a variety of plants; and

fig. 7 is a schematic structural view of the combination of the inner and outer rings of the potted landscape shelf of the utility model applied to various plants.

The main reference numbers:

base 1, first protruding cylinder 101, scalable stay tube 2, upper segment pipe 201, lower segment pipe 202, inner circle 3, the protruding cylinder 301 of second, outer lane 4, dead lever 5, universal wheel 6, anticollision strip 7, the flowerpot body 8, inner shell 801, shell 802, aqua storage tank 803, infiltration hole 804, atomizing vibration piece 9, atomizing switch 10.

Detailed Description

The technical contents, structural features, and achieved objects and effects of the present invention will be described in detail with reference to the accompanying drawings.

Can be applied to horticulture frame cultivated in a pot of multiple plant, as shown in fig. 1, it includes base 1, scalable stay tube 2, inner circle 3, outer lane 4, dead lever 5, anticollision strip 7, the flowerpot body 8, atomizing vibration piece 9 and atomizing switch 10.

Base 1 is fixed in the middle and lower part of the 8 inner casings 801 of flowerpot body, as shown in fig. 6, the first protruding cylinder 101 of evenly distributed all around at base 1 top edge, scalable stay tube 2, as shown in fig. 5, it includes upper segment pipe 201 and lower segment pipe 202, each evenly distributed of one side of upper segment pipe 201 and lower segment pipe 202 has the screw hole of equidistance, the quantity of screw hole is decided according to actual conditions, the relative position of accessible screw fixation upper segment pipe 201 and lower segment pipe 202, length can stretch out and draw back wantonly, as shown in fig. 5, the protruding cylinder 301 of evenly distributed second all around at 3 below edges of inner circle, evenly distributed is fluted on the dead lever 5, the quantity of recess is confirmed according to actual need, the width of recess equals with the diameter of inner circle 3 and the diameter of outer lane 4.

As shown in fig. 4, the second protruding cylinder 301 of the inner ring 3 is connected to the first end of the upper section of circular tube 201, the second end of the upper section of circular tube 201 is slidably connected to the first end of the lower section of circular tube 202, the second end of the lower section of circular tube 202 is connected to the first protruding cylinder 101 of the base 1, and the grooves on the fixing rod 5 are respectively connected to the inner ring 3 and the outer ring 4 to maintain the positions thereof fixed and not deformed.

The flowerpot body 8, as shown in fig. 2 and 3, it includes inner shell 801, outer shell 802, aqua storage tank 803 and infiltration hole 804, the top parallel and level of inner shell 801 and outer shell 802, aqua storage tank 803 is constituteed with outer shell 802 to inner shell 801, infiltration hole 804 evenly distributed is around inner shell 801 outer wall bottom, anticollision strip 7 is located the top and the bottom of outer shell 802 outer wall respectively, the bottom of outer shell 802 is equipped with universal wheel 6, universal wheel 6 can be according to the required illumination of plant, more convenient removal. The atomizing oscillating plates 9 are uniformly distributed at the bottom of the water storage tank 803, the atomizing switch 10 is positioned at one side of the bottom of the outer wall of the shell 802, and the number of the atomizing oscillating plates 9 is determined according to the actual application condition. The anti-collision strip 7 can prevent the occurrence of dangerous accidents in the moving process of the flowerpot body 8, and the atomization oscillation piece 9 carries out corresponding spraying irrigation according to the water demand of plants in different periods.

As shown in fig. 1, the inner ring 3, the outer ring 4, the base 1, the inner shell 801, the outer shell 802 and the bumper strip 7 are coaxial, and as shown in fig. 4, the first convex cylinder 101 of the base 1, the upper pitch round pipe 201 of the telescopic support pipe 2, the lower pitch round pipe 202 of the telescopic support pipe 2 and the third convex cylinder 301 of the inner ring 3 are coaxial.

As shown in fig. 4, the diameter of the outer ring 4 is greater than that of the inner ring 3, the diameter of the first protruding cylinder 101 of the base 1 is greater than that of the lower pitch round pipe 202 of the telescopic support pipe 2, the diameter of the second protruding cylinder 301 of the inner ring 3 is greater than that of the upper pitch round pipe 201 of the telescopic support pipe 2, the diameter of the upper pitch round pipe 201 is less than that of the lower pitch round pipe 202, the diameter of the outer shell 802 is greater than that of the inner shell 801, the height of the outer shell 802 is greater than that of the inner shell 801, and the outer diameter of the bumper strip 7 is greater than that of the outer shell.

The number of the telescopic support pipes 2 is equal to the number of the second convex cylinders 301 of the inner ring 3 and the number of the first convex cylinders 101 of the base 1, and the number of the threaded holes of the upper section round pipe 201 is equal to the number of the threaded holes of the lower section round pipe 202.

The bumper strips 7 are symmetrically distributed on two sides of the outer shell 802 of the flowerpot body 8, the universal wheels 6 are symmetrically distributed on four top corners of the outer shell 802 of the flowerpot body 8, the number of the bumper strips 7 is two, and the number of the universal wheels 6 is four.

The utility model provides a method that can be applied to the potted plant frames cultivation management of multiple plant based on the device, specifically include following step:

(1) variety selection

The variety used for cultivating the pot culture frame should select the type with strong stress resistance, good ornamental value of flowers and fruits, vigorous growth vigor and long ornamental period after forming. Common varieties include ornamental wild cucumbers such as lovely cucumbers, hedgehog cucumbers, thumb watermelons, and fire ginseng fruits, and common flowers include sweetclover stems, ivy stems, and festuca flowers.

(2) Seeding and seedling raising

Firstly, the base 1 of the utility model is placed in a flower shelf basin on the inner shell 801 of the flowerpot body 8, and is compacted and buried by using matrix or soil; the melon variety can be cultivated in a plug seedling way, and the pot is poured when 4 true leaves grow; the flowers can be directly sown or cut and raised, and can be poured into the pot when the height of the flowers reaches 20 cm.

(3) Cultivation management

When the plant is higher than 10cm and grows out lateral branches, the plant can be correspondingly guided and fixed on the telescopic supporting tubes 2 of the flower stand basin, the plant grows below the inner ring 3, the lateral branches exceeding the number of the telescopic supporting tubes 2 are all cut off, and after the branches exceed the height of the inner ring 3 and the outer ring 4, the branches are fixed by using a tying winding ring.

The potted plant is trimmed while the growth condition and the appearance of the plant are beautiful. The nutrient absorption and photosynthesis of main branches and leaves and fruits are not affected, and simultaneously, the plant shape is smooth and balanced, and the fruits and the branches and leaves are distributed evenly.

a. Pruning of lateral branches

Old branches, dead branches and diseased branches on the plants; only long leaves and non-fruited spindly branches grow from the main stem; lateral branches that grow out when there are already more fruit bearing on the main lateral branches; cross branches that cause occlusion of fruits and large leaves. Cutting it from the side branch hair growing place; if the lateral branches have fruit, the fruit is cut short (about 5 cm from the fruit) along the first leaf at the end of the branch.

b. Blade trimming

More fruits need to be reserved in ornamental pot culture, the proportion of branches and leaves is reduced, and the fruits are prevented from being shielded by the leaves, so the leaves are properly sparse. Removing dry leaves, yellow leaves and diseased leaves which are lack of water and lose growth vigor.

c. Consideration of the whole

During pruning, the number of branches to be subtracted is determined according to the overall shape, and the appearance factors of symmetry, density, uniformity and the like are considered. If the plant leaves are dense and the branches are disordered, the pruning strength is increased, and more branches and leaves are removed; if the plant has sparse branches and leaves, more branches and leaves are reserved, and if necessary, part of lateral branches with better growth condition and diseased branches with diseases which can be removed are reserved.

d. Vine binding and branch fixing device

In daily management of the vine potted plant, in addition to pruning branches and leaves, the vines also need to be fixed in time, and the fixation of the vines needs to be noticed: the wide-angle bending of the vines is avoided, the vines are prevented from being broken and damaged, and the growth rule of the vines in the natural state is conformed to the greatest extent; when the vines are fixed, the growth states of the vines are connected with the structural characteristics of the flower shelf pot, the vines of the plants are correspondingly protected through the protective fence, and the illumination is sufficient.

For example, the lovely cucumber, the potted vines of the flower stand are thick and have large leaves, when the vine is fixed, the vines are uniformly fixed around the inner ring 3 and the outer ring 4 respectively by using the fixing clamps, and the coiling level is noticed, so that the leaves are naturally upward and the fruits hang freely.

When flowers are fixed, selecting a thicker part of the branch for fixing, such as a side branch or a leaf growing part; the pruned lateral branches are fixed near the old branches, so that the branches are prevented from being broken or fruits are prevented from falling off due to overlarge bending angles.

The following embodiments are combined to further describe a potted gardening shelf applicable to various plants:

firstly, the base 1 is fixed at the middle lower part of the inner shell 801 of the flowerpot body 8, because the diameter of the first convex cylinder 101 of the base 1 is larger than that of the lower pitch round pipe 202 of the telescopic support pipe 2, the diameter of the second convex cylinder 301 of the inner ring 3 is larger than that of the upper pitch round pipe 201 of the telescopic support pipe 2, the diameter of the upper pitch round pipe 201 is smaller than that of the lower pitch round pipe 202, then, the lower pitch circle pipe 202 of the telescopic support pipe 2 is connected with the first convex cylinder 101 on the base 1, the second end of the upper round tube 201 of the telescopic support tube 2 is connected with the second convex cylinder 301 of the inner ring 3, since the equidistant threaded holes are uniformly distributed on one side of each of the upper pitch round pipe 201 and the lower pitch round pipe 202, the number of the threaded holes is determined according to the actual situation, the relative positions of the upper round tube 201 and the lower round tube 202 can be fixed through screws, and the length of the upper round tube 201 and the lower round tube 202 can be freely extended and retracted, so that the upper round tube 201 and the lower round tube 202 are in threaded connection.

Because be equipped with the recess on the dead lever 5, the recess is along the length direction evenly distributed of dead lever 5, then, fixes inner circle 3 and outer lane 4 respectively in the recess on dead lever 5, and 6 symmetrical installations in four apex angles of the 8 shells 802 of the flowerpot body make things convenient for the removal of the flowerpot body 8, and the reasonable photosynthesis that utilizes makes the better growth of plant.

Finally, the anti-collision strips 7 are symmetrically arranged at the top and the bottom of the outer wall of the shell 802 of the flowerpot body 8 and fixedly connected with the outer wall 802, then the atomization oscillating piece 9 is uniformly fixed around the water storage tank 803, the atomization switch 10 is fixed at one side of the bottom of the outer wall of the shell 802, and the atomization oscillating piece 9 is connected with the atomization switch 10 through a wire.

Be located infiltration hole 804 on the 8 inner shell 801 outer walls of flowerpot body, can permeate the aqua storage tank 803 with the unnecessary moisture of vegetation in-process, when needs spray the plant and irrigate or wash plant surface itself, can open the atomizing switch 10 that is located 8 outer shells 802 bottom one side of flowerpot body, atomizing switch 10 triggers and is located aqua storage tank 803 bottom atomizing oscillating piece 9 all around, atomizing oscillating piece 9 atomizes the liquid in with the aqua storage tank 803 and sprays on the plant body, thereby reach irrigation and pleasing to the eye effect, realize the cyclic utilization of moisture, resources are saved.

Will the utility model discloses after the equipment is accomplished, according to the method of the potted plant frames cultivation management of the multiple plant that provides, carry out following relevant experiment.

The first embodiment is as follows:

ornamental cucumber gardening shelf shaping potting test

(1) Variety selection

The method is used for cultivating the variety of the pot culture frame, and the experiment selects ornamental cucumbers such as lovely cucumbers, small hedgehog cucumbers, meteor hammer cucumbers and the like which have strong stress resistance, good fruit bearing ornamental value, vigorous growth vigor and long ornamental period after forming.

(2) Seeding and seedling raising

Firstly, the base 1 of the utility model is placed in a flower shelf basin on the inner shell 801 of the flowerpot body 8, and is compacted and buried by using matrix or soil; and then plug seedling the experimental ornamental cucumber variety, pouring the seedlings when 4 true leaves grow, and keeping the temperature and moisture during the growth process.

(3) Branch binding management in seedling stage

When the cucumber seedling is higher than 10cm and produces lateral branches, the cucumber seedling can be correspondingly guided and fixed on the telescopic supporting pipes 2 of the flower stand pot, each telescopic pipe 2 is guaranteed to climb upwards corresponding to one branch, the relative position between the upper section circular pipe 201 and the lower section circular pipe 202 is adjusted in real time according to the growth condition of the seedling plant, the cucumber seedling is fixed in the threaded hole through screws, the cucumber seedling grows below the inner ring 3, the lateral branches exceeding the number of the telescopic supporting pipes 2 are all cut off, and after tendrils exceed the height of the inner ring 3 and the outer ring 4, the cucumber seedling is fixed through a climing clamping ring.

(4) Pruning branches and leaves

Old branches, dead branches and diseased branches on the plants; only long leaves and non-fruited spindly branches grow from the main stem; lateral branches that grow out when there are already more fruit bearing on the main lateral branches; cross branches that cause occlusion of fruits and large leaves; cutting it from the side branch hair growing place; if the lateral branches have fruit, the fruit is cut short (about 5 cm from the fruit) along the first leaf at the end of the branch.

(5) Vine binding and branch fixing device

The branches and tendrils are prevented from being bent, broken and damaged at a large angle, and the growth direction of the branches and tendrils is conformed as much as possible; when the fixing is carried out, the growing direction of the branches and tendrils is connected with the structural characteristics of the gardening frame. When the vine is fixed, the vine is uniformly fixed around the inner ring 3 and the outer ring 4 by using the fixing clamps, and the coiling level is noticed, so that the leaves are naturally upward and the fruits hang freely.

Example two:

moulding pot experiment of Pistacia struthiopteris Hort gardening shelf

(1) Variety selection

The method is used for cultivating potted plant frame shaping varieties, and the experiments select the liana Pistacia struma which has strong stress resistance, good ornamental value, vigorous growth potential and long ornamental value after shaping.

(2) Cutting seedling raising

Firstly, the base 1 of the utility model is placed in a flower shelf basin on the inner shell 801 of the flowerpot body 8, and is compacted and buried by using matrix or soil; and cutting and raising seedlings of the Pistacia lentiscus, pouring the seedlings into pots when the Pistacia lentiscus grows to be 20cm high, and keeping the temperature and moisture during the growth process.

(3) Branch binding management in seedling stage

When the aerial branches are grown on the aerial branch vines with the plant height being higher than 40cm, the aerial branch vines can be correspondingly guided and fixed on the telescopic supporting pipes 2 of the flower stand basin, each telescopic pipe 2 is guaranteed to climb upwards corresponding to one branch, the relative position between the upper circular pipe 201 and the lower circular pipe 202 is adjusted in real time according to the growth condition of the aerial branch vines, the aerial branch vines grow below the inner ring 3 and are fixed by using a tying and clamping winding ring after the aerial branches exceed the heights of the inner ring 3 and the outer ring 4 and the lateral branches exceed the number of the telescopic supporting pipes all cut off.

(4) Pruning branches and leaves

Pruning dead branches, residual branches and weak branches on the plants; removing dry leaves, yellow leaves and diseased leaves which are lack of water and lose growth vigor.

(5) Vine binding and branch fixing device

Fixing at the thicker part of the branch, such as the side branch or the leaf growing part; fixing the trimmed side branches near old branches to avoid branch breakage or flower bud falling caused by overlarge bending angle and conform to the growth direction of branches as much as possible; when the fixing is carried out, the growing direction of the branches and tendrils is connected with the structural characteristics of the gardening frame. When the vine is fixed, the vine is uniformly fixed around the inner ring 3 and the outer ring 4 by using the fixing clamps, and the coiling level is noticed, so that the leaves are naturally upward and the fruits hang freely.

The utility model discloses a to the structural design of cultivation facility, realized the moulding cultivation of multiple type plant, and simple structure, convenient to use simultaneously according to the characteristics and the growth characteristic of moulding cultivation, has summarized a cultivation method, and this method is very favorable to vegetation and moulding, and the shaping is pleasing to the eye make full use of cubical space, for the development that promotes urban agriculture, has made active contribution.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (5)

1. A potted gardening frame applicable to various plants comprises a base, a telescopic supporting tube, an inner ring, an outer ring, a fixed rod, a flowerpot body, an anti-collision strip, an atomization oscillating sheet and an atomization switch,

the base is fixed at the middle lower part of the inner shell of the flowerpot body, the first raised cylinders are uniformly distributed on the periphery of the upper edge of the base, the telescopic supporting tube comprises an upper section of circular tube and a lower section of circular tube, equidistant threaded holes are uniformly distributed on one side of each of the upper section of circular tube and the lower section of circular tube, the relative positions of the upper section of circular tube and the lower section of circular tube can be fixed through screws, the length of the telescopic supporting tube can be freely extended and retracted, second raised cylinders are uniformly distributed on the periphery of the lower edge of the inner ring, grooves are uniformly distributed on the fixing rod, the width of each groove is equal to the diameter of the inner ring and the diameter of the outer ring, the second raised cylinders of the inner ring are connected with the first ends of the upper section of circular tube, the second ends of the upper section of circular tube are connected with the first ends of the lower section of circular tube in a sliding manner, the groove is respectively connected with the inner ring and the outer ring, and the position of the groove is kept fixed and is not deformed; and

the flowerpot body, it includes inner shell, aqua storage tank and infiltration hole, the inner shell with the top parallel and level of shell, the inner shell with the shell is constituteed the aqua storage tank, infiltration hole evenly distributed is in around the inner shell outer wall bottom, the anticollision strip is located respectively the top and the bottom of shell outer wall, the bottom of shell is equipped with the universal wheel, atomizing vibration piece evenly distributed is in the bottom of aqua storage tank, the atomizing switch is located one side of shell outer wall bottom.

2. A potted landscape architecture as defined in claim 1 where the inner ring, outer ring, base, inner shell, outer shell and bumper strip are concentric, and the first raised cylinder of the base, telescoping support tube and second raised cylinder of the inner ring are concentric.

3. A potted landscape architecture as defined by claim 2, wherein the outer ring has a diameter larger than that of the inner ring, the first raised cylinder of the base has a diameter larger than that of the lower round tube of the telescopic support tube, the second raised cylinder of the inner ring has a diameter larger than that of the upper round tube of the telescopic support tube, the upper round tube has a diameter smaller than that of the lower round tube, the outer shell has a diameter larger than that of the inner shell, the outer shell has a height larger than that of the inner shell, and the anti-collision strip has an outer diameter larger than that of the outer shell.

4. A potted landscape architecture as defined by claim 3 wherein the number of telescopic support tubes is equal to the number of second raised cylinders of the inner ring and the number of first raised cylinders of the base, respectively, and the number of threaded holes of the upper pitch round tube is equal to the number of threaded holes of the lower pitch round tube.

5. A potted landscape architecture as defined in claim 1, wherein the anti-collision strips are symmetrically distributed at both sides of the flowerpot body housing, the universal wheels are symmetrically distributed at four top corners of the flowerpot body housing, the number of the anti-collision strips is two, and the number of the universal wheels is four.