CN112930936A - Gardens are with multi-functional mounting bracket cultivated in a pot - Google Patents

Abstract

The utility model relates to a gardens are with multi-functional mounting bracket cultivated in a pot, it is including the flowerpot that is used for planting the plant, still include the base, the support column of setting on the base, rotate a plurality of support rings of connection on the support column lateral wall and set up the guide ring at support ring inner ring wall, a plurality of support rings are arranged along the equidistant interval of axial of support column, the upper surface of a plurality of support rings just is equipped with a plurality of holding tanks that are used for settling the flowerpot along self circumference equipartition, the lateral wall of support column is equipped with and supplies guide ring pivoted annular, the inside outer loop chamber that is linked together with the annular that is equipped with of support column, the chamber wall in outer loop chamber just is equipped with a plurality of go-between along the. This application has the drive support ring and rotates for solar energy is to the effect of evenly shining cultivated in a pot on the support ring, makes the plant can stably grow.

Description

Gardens are with multi-functional mounting bracket cultivated in a pot

Technical Field

The utility model belongs to the technical field of garden equipment and specifically relates to a gardens are with multi-functional mounting bracket cultivated in a pot.

Background

Landscaping is an important component of urban design, public place decoration, indoor and outdoor decoration and the like, can beautify the environment and purify air, a plurality of potted plants can be placed in gardens, the potted plants are common decorations, the air can be purified and the potted plants can be enjoyed, the garden space can be saved, and the potted plants are generally placed on a potted plant support frame for achieving better ornamental value.

Chinese patent that bulletin number is CN210868946U discloses a horticulture arrangement frame cultivated in a pot, the on-line screen storage device comprises a base, base top fixedly connected with backward flow case, the backward flow case right-hand member is provided with the water pump, the backward flow case top left and right sides is the first backup pad of fixedly connected with respectively, the second backup pad, first backup pad, second backup pad top fixedly connected with roof, the roof below evenly is provided with the backup pad cultivated in a pot, backup pad fixed connection cultivated in a pot is first backup pad, between the second backup pad, there is the sprinkler pipe water pump top through water piping connection, sprinkler head is evenly installed to the sprinkler pipe bottom, the flowerpot fixed slot has evenly been seted up in the backup pad cultivated in a pot, this arrangement frame cultivated in a pot is convenient for remove overall position and is accepted sunshine.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because it is fixed to place cultivated in a pot on the backup pad, the sunlight shines inhomogeneous easily, has influenced the growth of the interior plant of cultivated in a pot.

Disclosure of Invention

Fix in order to improve cultivated in a pot in the backup pad, lead to the sunshine illumination inhomogeneous and influence the problem of vegetation in cultivated in a pot, this application provides a gardens are with multi-functional mounting bracket cultivated in a pot.

The application provides a pair of gardens are with multi-functional mounting bracket cultivated in a pot adopts following technical scheme:

the utility model provides a gardens are with multi-functional mounting bracket cultivated in a pot, is including the flowerpot that is used for planting the plant, still includes the base, sets up support column, the rotation on the base and connects a plurality of support rings on the support column lateral wall and set up the guide ring of rampart in the support ring, and is a plurality of the support ring is along the equidistant range of axial of support column, and is a plurality of the upper surface of support ring just is equipped with a plurality of holding tanks that are used for settling the flowerpot along self circumference equipartition, the lateral wall of support column is equipped with and supplies guide ring pivoted annular, the inside outer loop chamber that is linked together with the annular that is equipped with of support column, the chamber wall in outer loop chamber and the direction of height equipartition along the.

Through adopting above-mentioned technical scheme, the flowerpot that will plant the plant is placed in the holding tank, because the cooperation of guide ring and annular, has realized that the rotation between support ring and the support column lateral wall is connected, and then utilizes rotating assembly drive guide ring at the annular internal rotation, drives the synchronous rotation of support ring, and then drives a plurality of flowerpots synchronous rotation for the even shining of plant that the sun can be to a plurality of flowerpots, makes the growth that the plant can be stable.

Optionally, the rotating assembly includes ring gear that sets up at the guide ring inner ring wall, a plurality of driven gear with ring gear meshing, the inside of support column is equipped with the inner chamber, the inside wall of inner chamber is equipped with a plurality of rotation holes that are linked together with the outer loop chamber, and is a plurality of the equidistant range of direction of height along the support column of rotation hole, driven gear's partial lateral wall passes and rotates the hole and stretch into the inner chamber inside, the upper surface of base is equipped with the recess, install first motor in the recess, the drive shaft of first motor stretches into the inner chamber inside and is connected with the pivot, just be equipped with a plurality of driving gears along self axial equidistant range in the pivot, the driving gear meshes with a plurality of driven gear mutually.

Through adopting above-mentioned technical scheme, start first motor, the drive pivot rotates, drives a plurality of driving gear synchronous rotation, and then drives a plurality of driven gear synchronous rotation, drives the ring gear through a plurality of driven gear and rotates to drive the support ring and rotate, make the plant in a plurality of flowerpots can be even accept illumination, so that the growth that the plant can be stable.

Optionally, the inner side wall of the outer ring cavity is uniformly provided with a plurality of inner ring pipes along the height direction of the support column, the outer pipe wall of each inner ring pipe is provided with an inclined pipe, the higher end of each inclined pipe is connected with the inner ring pipe, the lower end of each inclined pipe penetrates through the side wall of the support column and is connected with the outer ring pipe, the outer ring pipe is sleeved on the support column, a plurality of nozzles are uniformly arranged on the lower surface of each outer ring pipe along the circumferential direction of the lower surface of the outer ring pipe, and the top of each support column is provided with a water supply assembly for supplying water to.

Through adopting above-mentioned technical scheme, utilize the water supply subassembly to provide the water supply for the inner ring pipe, the water source that gets into the inner ring pipe gets into the outer ring pipe through the water conservancy diversion effect of pipe chute in, has realized the water supply to the shower nozzle, and then can water the plant in the flowerpot through a plurality of shower nozzles for the plant can stable growth.

Optionally, the water supply assembly includes the water tank of installing at the support column roof, set up the multi-ported pipe on outer ring cavity inner chamber wall, install the automatically controlled valve in a plurality of branch pipes of multi-ported pipe and respectively with the delivery pipe that a plurality of branch pipes of multi-ported pipe link to each other, the person in charge of multi-ported pipe passes the roof of support column, the diapire of water tank in proper order and stretches into inside the water tank, the delivery pipe is kept away from the one end of multi-ported pipe and is passed the lateral wall of support column and be linked together.

Through adopting above-mentioned technical scheme, the water tank is inside to be used for storing the water source that has the nutrient solution, starts a plurality of automatically controlled valves simultaneously, and then in the water source accessible multi-ported pipe inflow water supply pipe in the water tank, through the delivery pipe, can send into the water source inside the inner ring.

Optionally, the inside of support ring is equipped with the cavity, be equipped with the lifter plate in the cavity, the upper surface of lifter plate is equipped with two relative elevator, the cell wall of holding tank is equipped with two relative lift holes, the lower surface of flowerpot is equipped with two relative lift grooves, the one end that the lifter plate was kept away from to the elevator passes the lift hole and inserts in the lift groove, be equipped with the height adjusting subassembly that is used for driving the lifter plate to go up and down in the cavity.

Through adopting above-mentioned technical scheme, according to the size of the interior plant of flowerpot, utilize altitude mixture control subassembly drive lifter plate to go up and down, and then drive the flowerpot through two elevator blocks and go up and down in step to adjust the flowerpot to suitable height, make the plant in two adjacent flowerpots can neatly discharge.

Optionally, the height adjusting assembly comprises a second motor installed on the inner bottom wall of the cavity, a bidirectional screw rod connected with a driving shaft of the second motor, a slider connected with two ends of the bidirectional screw rod in a threaded manner, a supporting rod connected with the upper surface of the slider in an articulated manner, and a dovetail block connected with one end of the supporting rod in an articulated manner, wherein the one end of the dovetail block is connected with the supporting rod in an articulated manner, the inner bottom wall of the cavity is provided with a sliding groove for sliding the slider, the lower surface of the lifting plate is provided with a dovetail groove for sliding the dovetail block, and the extending direction of the dovetail groove and the extending direction of the sliding groove are in the same direction.

By adopting the technical scheme, the second motor is started to drive the bidirectional screw rod to rotate, the sliding chute plays a role in guiding and limiting the sliding of the sliding blocks, the two sliding blocks are driven to be close to or away from each other, the two supporting rods are rotationally connected, and the two dovetail blocks are driven to be synchronously close to or away from each other through the supporting rods; on the contrary, when the two sliding blocks are far away from each other, the lifting plate moves downwards, and finally the height adjustment of the lifting plate is realized.

Optionally, the peripheral side wall of the water tank is obliquely provided with a transparent rain baffle, the higher end of the transparent rain baffle is connected with the side wall of the water tank, and the lower end of the transparent rain baffle faces the ground.

Through adopting above-mentioned technical scheme, through four transparent weather shields, play the effect of keeping off the rain to the flowerpot on a plurality of support rings, when avoiding rainy weather, inside the rainwater directly flowed into the flowerpot, lead to the water yield in the flowerpot too much and influence the normal growth of plant.

Optionally, the upper surface of the support ring is provided with a water retaining groove along the circumferential direction, a rain shielding ring plate is arranged in the water retaining groove in a sliding manner, a first electric cylinder used for driving the rain shielding ring plate to lift is arranged in the water retaining groove, a first sealing ring is arranged on the groove wall of the notch of the water retaining groove in an adhesive manner, and the inner ring wall of the first sealing ring is tightly attached to the side wall of the rain shielding ring plate.

Through adopting above-mentioned technical scheme, during rainy weather, start first electric jar, the drive keeps off the rain crown block and by the upper surface of the support ring of stretching out in the manger plate groove, utilizes the gap between the lateral wall of first sealing ring shutoff rain crown block and the manger plate groove wall simultaneously, can play the effect of keeping off the rain to the side of a plurality of flowerpots through the ring plate that keeps off the rain this moment, has further reduced the probability that the rainwater got into in the flowerpot for the plant can stably grow.

Optionally, the inner bottom wall of flowerpot is equipped with geotechnological cloth, the diapire equipartition of flowerpot is equipped with a plurality of holes 102 of permeating water, the inside slope of support ring is equipped with a plurality of water conservancy diversion holes, the higher one end in water conservancy diversion hole is linked together with the tank bottom wall corner of holding tank, the inside of support ring just is located the lower one end in water conservancy diversion hole and is equipped with the chamber of catchmenting, and is a plurality of the water conservancy diversion hole all is linked together with the chamber of catchmenting, the tank bottom wall of holding tank, the diapire in chamber of catchmenting all are equipped with the water conservancy diversion piece, the height dimension of water conservancy diversion piece is steadilyd decrease to both sides by the center, support.

Through adopting above-mentioned technical scheme, through setting up geotechnological cloth, can avoid the soil in the flowerpot to fall out the flowerpot by the hole 102 of permeating water, when the water watering volume in the flowerpot is more, water in the flowerpot can be by the trough bottom wall of the hole 102 infiltration holding tank of permeating water, setting through the water conservancy diversion piece, make ponding in the holding tank can pile up to the corner of holding tank trough bottom wall, can be with the leading-in intracavity that catchments of rainwater through a plurality of water conservancy diversion holes, the rainwater accessible wash port that gets into the intracavity that catchments discharges, utilize the rubber to seal up and block up the wash port shutoff, the collection to the intracavity water that catchments can be realized.

It is optional, adjacent the relative lateral wall of support ring all is equipped with the back flow, two be equipped with first water pump between the back flow, the one end that first water pump was kept away from to the back flow stretches into the intracavity that catchments, the top lateral wall of support column slides and is equipped with the second water pump, the outlet connection of second water pump has the transition pipe and stretches into in the water tank, the mouth that draws water of second water pump is connected with the hose, the one end that the second water pump was kept away from to the hose is connected with the intubate, the lateral wall of support column is equipped with the second electricity jar that is used for driving the intubate and goes up and down, and the upper surface that is located a support ring of the top is equipped with under supplying intubate male annular slot, annular slot is linked together with the chamber that catchments, the sticky second sealing.

Through adopting above-mentioned technical scheme, start a plurality of first water pumps simultaneously, can extract the water source in the inside water-collecting cavity of a plurality of support rings of below to the inside water-collecting cavity of support ring of the top, restart the second electricity jar, the drive hose moves down, make the intubate pass the interior rampart of second sealing ring and insert in the annular slot, when inserting the inside water-collecting cavity of support ring of the top until the intubate, start the second water pump, through the transition pipe, hose and intubate, can be with the water source extraction in the water-collecting cavity of the top and send into inside the water tank, the cyclic utilization to the water resource has been realized, the water resource has been practiced thrift.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the guide ring is driven to rotate in the annular groove by the rotating assembly, the support rings are driven to synchronously rotate, and then the plurality of flowerpots are driven to synchronously rotate, so that the plants with the energy of the plurality of flowerpots can be uniformly irradiated by the sun, and the plants can stably grow;

2. the water supply assembly is used for supplying water to the inner ring pipe, and water source entering the inner ring pipe enters the outer ring pipe through the flow guiding effect of the inclined pipe, so that water is supplied to the spray heads, and plants in the flowerpot can be irrigated through the plurality of spray heads, so that the plants can stably grow;

3. the height adjusting assembly is used for driving the lifting plate to lift, and then the two lifting blocks are used for driving the flowerpot to lift synchronously, so that the flowerpot is adjusted to be at a proper height according to the size of the plants in the flowerpot;

4. in rainy days, the first electric cylinder is started to drive the rain shielding ring plate to extend out of the upper surface of the support ring from the water retaining groove, and the rain shielding ring plate can play a role in shielding rain for the side surfaces of a plurality of flowerpots, so that the probability of rainwater entering the flowerpots is further reduced, and plants can grow stably;

5. the water source in the supporting ring at the top can be extracted and sent into the water tank through the transition pipe, the hose and the insertion pipe, cyclic utilization of water resources is achieved, and water resources are saved.

Drawings

FIG. 1 is the overall structure of the multi-functional mounting bracket for potted plants for gardens in the embodiment of this application.

Fig. 2 is a sectional view taken along line a-a of fig. 1.

Fig. 3 is a schematic structural view showing a water supply assembly.

Fig. 4 is an enlarged view of a portion a in fig. 2.

Fig. 5 is an enlarged view of a portion B in fig. 2.

Fig. 6 is an enlarged view of a portion C of fig. 5.

Fig. 7 is an enlarged view of a portion D in fig. 5.

Fig. 8 is an enlarged view of a portion E of fig. 5.

Description of reference numerals: 1. a flower pot; 101. water permeable holes; 102. geotextile; 2. a base; 3. a support pillar; 4. a support ring; 5. accommodating grooves; 6. a guide ring; 7. a ring groove; 8. an outer ring cavity; 81. a connecting ring; 9. a rotating assembly; 91. a toothed ring; 92. a driven gear; 93. an inner cavity; 94. rotating the hole; 95. a first motor; 96. a rotating shaft; 97. a driving gear; 10. an inner ring pipe; 11. an outer ring pipe; 12. an inclined tube; 13. a spray head; 14. a water supply assembly; 141. a water tank; 142. a multi-pass tube; 143. an electrically controlled valve; 144. a water supply pipe; 15. a cavity; 16. a lifting plate; 17. a lifting block; 18. a lifting hole; 19. a lifting groove; 20. a height adjustment assembly; 201. a second motor; 202. a bidirectional screw rod; 203. a slider; 204. a strut; 205. a dovetail block; 206. a chute; 207. a dovetail groove; 208. a connecting shaft; 21. a transparent rain shield; 22. a water retaining groove; 23. a rain retaining ring plate; 24. a first electric cylinder; 25. a first seal ring; 26. a flow guide hole; 27. a water collection cavity; 28. a flow guide block; 29. a drain hole; 30. a return pipe; 31. a first water pump; 32. a second water pump; 33. a transition duct; 34. a hose; 35. inserting a tube; 36. a second electric cylinder; 37. an annular slot; 38. a second seal ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses gardens are with multi-functional mounting bracket cultivated in a pot. Referring to fig. 1, gardens are with multi-functional mounting bracket cultivated in a pot includes base 2, the last fixed surface of base 2 is equipped with support column 3, the vertical setting of support column 3, the cross section of support column 3 is circular, the cover is equipped with a plurality of support rings 4 on the lateral wall of support column 3, in this embodiment, the quantity of support ring 4 can be three, three support ring 4 is arranged along the direction of height equidistance of support column 3, support ring 4 rotates and connects on support column 3, the upper surface of a plurality of support rings 4 just is equipped with a plurality of holding tanks 5 along self circumference equipartition, it has flowerpot 1 that is used for planting the.

Referring to fig. 2 and 3, the supporting column 3 is fixedly sleeved with a plurality of inner circular tubes 10 on the cavity wall of the outer circular cavity 8, the number of the inner circular tubes 10 is three, the three inner circular tubes 10 are respectively in one-to-one correspondence with the three supporting rings 4, the outer wall of each inner circular tube 10 is fixedly provided with an inclined tube 12, the higher end of each inclined tube 12 is connected with the inner circular tube 10, the lower end of each inclined tube 12 penetrates through the side wall of the supporting column 3 and is connected with the outer circular tube 11, the outer circular tube 11 is sleeved on the side wall of the supporting column 3, and the inner circular tubes 10, the inclined tubes 12 and the outer circular.

Outer ring canal 11's lower surface and along self circumference equipartition be equipped with a plurality of shower nozzles 13, a plurality of shower nozzles 13 and a plurality of flowerpot 1 one-to-one on the support ring 4, shower nozzle 13's apopore is towards flowerpot 1, the top of support column 3 is equipped with the water supply subassembly 14 that is used for providing the water source for interior ring canal 10, utilize water supply subassembly 14 to provide the water source for interior ring canal 10, because pipe chute 12 slope sets up, the water conservancy diversion that enters interior ring canal 10 inside water source accessible pipe chute 12 gets into outer ring canal 11 inside, and then can water the plant in the flowerpot 1 through a plurality of shower nozzles 13, can replace artifical manual watering, time and labor saving.

Referring to fig. 2 and 3, the water supply assembly 14 includes the water tank 141 installed at the top wall of the support column 3, the inside water source that can be used to store and have the nutrient solution of water tank 141, the inner chamber 93 wall mounting of outer ring cavity 8 has multi-ported tube 142, in this implementation, multi-ported tube 142 is the four-way pipe, the person in charge of multi-ported tube 142 passes the top wall of support column 3 in proper order, the diapire of water tank 141 and inside stretching into water tank 141, all install automatically controlled valve 143 in three spinal branch pipes of multi-ported tube 142, three branch pipes of multi-ported tube 142 all are connected with water supply pipe 144, the one end that water supply pipe 144 kept away from multi-ported tube 142 passes.

When the plants need to be watered, the electric control valve 143 is started, so that the water in the water tank 141 can flow into the water supply pipe 144 through the branch pipe of the three-way pipe, the water source can be sent into the inner ring pipe 10 through the water supply pipe 144, and the water supply to the spray head 13 is realized through the inclined pipe 12 and the outer ring pipe 11, so as to irrigate and maintain the plants.

Referring to fig. 2 and 4, the inner annular wall of the support ring 4 is provided with a guide ring 6, the side wall of the support column 3 is provided with a ring groove 7 for the guide ring 6 to rotate along the circumferential direction, and the support ring 4 is rotatably connected with the support column 3 through the matching of the ring groove 7 and the guide ring 6.

The inside of support column 3 is equipped with the outer ring chamber 8 that is linked together with a plurality of annular 7, the chamber wall of outer ring chamber 8 and the direction of height equipartition along support column 3 are equipped with a plurality of go-between 81, go-between 81's setting, make the support column 3 can be stable establish on base 2, avoid the disconnection of support column 3, the inside of outer ring chamber 8 is equipped with the rotating assembly 9 that is used for driving guide ring 6 at the 7 internal rotations of annular, it rotates on support column 3 to drive support ring 4, drive 1 synchronous rotations of flowerpot on the support ring 4, make the sun can shine evenly to the plant in the flowerpot 1, so that the plant can be abundant carry out photosynthesis, make the plant can the stable growth.

Referring to fig. 2 and 4, the rotating assembly 9 includes a toothed ring 91 disposed on the inner annular wall of the guide ring 6, the toothed ring 91 penetrates through the annular groove 7 and extends into the outer annular cavity 8, a plurality of driven gears 92 are engaged with the toothed ring 91, an inner cavity 93 is disposed inside the support pillar 3, a plurality of rotating holes 94 communicated with the outer annular cavity 8 are disposed on the inner side wall of the inner cavity 93, the plurality of rotating holes 94 correspond to the plurality of driven gears 92 one to one, the plurality of rotating holes 94 are arranged at equal intervals along the height direction of the supporting column 3, part of the side wall of the driven gear 92 passes through the rotating holes 94 and extends into the inner wall, a driving member for driving the plurality of driven gears 92 to synchronously rotate is arranged in the inner cavity 93, the driving member is used for driving the plurality of driven gears 92 to synchronously rotate, and then drive a plurality of ring gears 91 synchronous rotation to drive support ring 4 synchronous rotation, so that the plant that the sun can be to flowerpot 1 on support ring 4 shines evenly.

Referring to fig. 4, the driving piece is including rotating the pivot 96 of connection in inner chamber 93, the vertical setting of pivot 96, fixed cover is equipped with a plurality of driving gears 97 on the pivot 96, the lateral wall axle center department of driving gear 97 is equipped with the fixed orifices that supplies pivot 96 to pass, pivot 96 is fixed in the fixed orifices, in this embodiment, the quantity of a plurality of driving gears 97 can be three, three driving gear 97 and three ring gear 91 one-to-one, the upper surface of base 2 is equipped with the recess, the tank bottom wall fixed mounting of recess has first motor 95, the drive shaft of first motor 95 passes the lower surface of support column 3 and stretches into the inside of inner chamber 93, the drive shaft of first motor 95 links to each other with the bottom of pivot 96, start first motor 95, pivot 96 rotates, drive three driving gear 97 synchronous rotation, drive a plurality of driven ring gear 91 synchronous rotation, and.

Referring to fig. 5 and 6, a cavity 15 is formed inside the support ring 4, a lifting plate 16 is arranged inside the cavity 15, two opposite lifting blocks 17 are arranged on the upper surface of the lifting plate 16, the height direction of each lifting block 17 is the same as the height direction of the support column 3, two opposite lifting holes 18 are formed in the bottom wall of the accommodating tank 5 opposite to the notch of the accommodating tank 5, the two lifting holes 18 correspond to the two lifting blocks 17 one by one, the bottom end of each lifting block 17 is connected with the upper surface of the lifting plate 16, the top end of each lifting block 17 penetrates through each lifting hole 18 and extends into the accommodating tank 5, two opposite lifting grooves 19 are formed in the lower surface of the disc chuck, the two lifting grooves 19 correspond to the two lifting blocks 17 one by one, one end of each lifting block 17, which is located in the accommodating tank 5, is inserted into the lifting groove 19, a height adjusting assembly 20 for driving the lifting plate 16 to lift is arranged inside the cavity 15, the, drive flowerpot 1 through two elevator blocks 17 and go up and down, in this embodiment, holding tank 5's groove depth size is greater than flowerpot 1's height-size, through adjusting flowerpot 1's height to according to the branch and leaf size of plant, adjust flowerpot 1 to suitable height, so that the growth that the plant can be stable.

Referring to fig. 6, the height adjusting assembly 20 includes a second motor 201 installed on the inner bottom wall of the cavity 15, a driving shaft of the second motor 201 is connected with a bidirectional screw 202, the axial direction of the bidirectional screw 202 is in the same direction as the diameter direction of the support ring 4, both ends of the bidirectional screw 202 are in threaded connection with sliders 203, a sliding groove 206 for the two sliders 203 to slide is formed in the inner bottom wall of the cavity 15, the length direction of the sliding groove 206 is in the same direction as the axial direction of the bidirectional screw 202, upper surfaces of the two sliders 203 are hinged with supporting rods 204, the two supporting rods 204 are mutually staggered and combined to form an "X" shape, middle side walls of the two supporting rods 204 are rotatably connected through a connecting shaft 208, top ends of the two supporting rods 204 are hinged with dovetail blocks 205, a dovetail groove 207 for the two dovetail blocks 205 to slide is formed in the lower surface of the lifting plate 16, and.

The second motor 201 is started, the bidirectional screw 202 rotates, the sliding groove 206 plays a role in guiding and limiting the sliding of the sliding block 203, the two sliding blocks 203 are driven to approach or separate from each other along with the rotation of the bidirectional screw 202, when the two sliding blocks 203 approach each other, one end of the supporting rod 204 is hinged with the sliding block 203, the other end of the supporting rod 204 is hinged with the dovetail block 205, further, along with the sliding of the sliding block 203, the included angle between the two supporting rods 204 is gradually reduced, meanwhile, the two dovetail blocks 205 in the dovetail groove 207 are driven to approach each other, and at the moment, the lifting plate 16 is driven to move upwards; on the contrary, when the two sliding blocks 203 are away from each other, the included angle between the two supporting rods 204 is gradually increased to drive the two dovetail blocks 205 in the dovetail groove 207 to be away from each other, so that the lifting plate 16 moves downwards, and the height adjustment of the flowerpot 1 is realized.

Referring to fig. 2, the lateral wall all around of water tank 141 all inclines to be equipped with transparent weather shield 21, the higher one end of transparent weather shield 21 links to each other with the lateral wall of water tank 141, the lower one end of transparent weather shield 21 is towards ground, in this embodiment, through setting up four transparent weather shield 21, make when rainy weather, can play the effect of keeping off the rain to flowerpot 1 on the support ring 4, avoid the rainwater in flowerpot 1 too much, and cause and transparent weather shield 21 to be transparent material, make flowerpot 1 can accept the illumination of sun. So that the plant can stably grow.

Referring to fig. 6 and 7, in heavy rain weather, the environment is comparatively bad, for avoiding the rainwater to get into flowerpot 1 by the side of support column 3 inside and lead to the waterlogging of water in the flowerpot 1, be equipped with manger plate groove 22 at the upper surface of support ring 4 and along self circumference, manger plate groove 22 is the annular setting, it is equipped with rain-proof ring board 23 just to slide along the direction of height of support ring 4 in the manger plate groove 22, the diameter size of rain-proof ring board 23 is greater than the diameter size of support column 3, be less than the diameter size of support ring 4, be equipped with the first electric jar 24 that is used for driving rain-proof ring board 23 to go up and down in the manger plate.

When raining, start first electric jar 24, the piston rod of first electric jar 24 stretches out, drive rain-proof ring board 23 stretches out the upper surface of support ring 4, move down flowerpot 1 in holding tank 5 simultaneously, make rain-proof ring board 23 can block the plant in flowerpot 1 completely, avoid the rainwater to get into flowerpot 1 inside, and during strong wind weather, block flowerpot 1 through rain-proof ring board 23, avoid blowing down the plant in flowerpot 1, play the effect of protection, make the growth that the plant can be stable.

Referring to fig. 7, the first sealing ring 25 is adhered to the groove wall of the notch of the water retaining groove 22, the first sealing ring 25 can extend along the radial direction of the ring groove 7, the inner ring wall of the first sealing ring 25 is tightly attached to the side wall of the rain shielding ring plate 23, the first sealing ring 25 can seal the gap between the side wall of the rain shielding ring plate 23 and the groove wall of the water retaining groove 22, and rainwater is prevented from entering the ring groove 7.

Referring to fig. 5 and 6, in this embodiment, a plurality of holes 102 of permeating water are equipped with to the diapire equipartition of flowerpot 1, when watering too much to the water in flowerpot 1, water in flowerpot 1 flows away to holding tank 5 in through the hole 102 of permeating water easily, the interior diapire of flowerpot 1 is equipped with geotechnological cloth 102 layer, can avoid in the soil entering holding tank 5 of flowerpot 1 through geotechnological cloth 102 layer, pile up in holding tank 5 for avoiding the rainwater, the fixed water conservancy diversion piece 28 that is equipped with at the tank bottom wall of holding tank 5, the lateral wall of water conservancy diversion piece 28 is equipped with the through-hole that supplies elevator 17 to pass, the height dimension of water conservancy diversion piece 28 is steadilyd decrease to both sides by the center, and then the rainwater that gets into in the holding tank 5 is along with the water conservancy diversion of.

A plurality of flow guide holes 26 are obliquely arranged inside the support ring 4, the higher end of each flow guide hole 26 is communicated with the corner of the bottom wall of the accommodating groove 5, a water collecting cavity 27 is arranged inside the support ring 4 and at the lower end of each flow guide hole 26, the plurality of flow guide holes 26 are communicated with the water collecting cavity 27, a flow guide block 28 is also arranged on the inner bottom wall of the water collecting cavity 27, the flow guide block 28 and the support ring 4 are integrally formed, the height size of the flow guide block 28 is gradually reduced from the center to two sides, a plurality of drain holes 29 are arranged at the corner of the lower surface of the support ring 4, the plurality of drain holes 29 are communicated with the water collecting cavity 27, and accumulated water entering the water collecting cavity.

In this embodiment, the diameter of the three support rings 4 increases progressively from high to low along the height of the support column 3, and the collected water can be drained into the flowerpot 1 on the support ring 4 below through the drain holes 29 at the corners of the side walls of the support rings 4 above, so that the watering of plants in the flowerpot 1 is realized.

Rubber plugs are inserted into the drain holes 29 to prevent the plants in the flowerpot 1 from being continuously watered and growing.

Referring to fig. 5 and 8, the opposite side walls of two adjacent support rings 4 are provided with return pipes 30, the return pipes 30 are vertically arranged, a first water pump 31 is connected between the two return pipes 30, the first water pump 31 is fixedly mounted on the side wall of the support column 3, the two return pipes 30 are in one-to-one correspondence with the two support rings 4, one ends of the two return pipes 30 far away from the first water pump 31 extend into the water collecting cavities 27 inside the two support rings 4, the water collecting cavities 27 inside the two adjacent support rings 4 are communicated with each other through the first water pump 31 and the two return pipes 30, the first water pumps 31 are started simultaneously, and water in the water collecting cavity 27 inside the support ring 4 at the bottom can be extracted into the water collecting cavity 27 inside the support ring 4 at the top.

Wherein be located the support ring 4's of the top and be equipped with annular slot 37 along self circumference, annular slot 37 is linked together with the water collecting cavity 27 that is located the support ring 4 of the top, the vertical intubate 35 that sets up of slip in annular slot 37, the lateral wall fixed mounting of support column 3 has second electric jar 36, the piston rod of second electric jar 36 links to each other with the lateral wall of intubate 35, the flexible direction of the piston rod of second electric jar 36 and the direction of height of support column 3 syntropy, start second electric jar 36, drive intubate 35 goes up and down, can stretch into annular slot 37 and insert in the water collecting cavity 27 of the support ring 4 of the top.

The top of intubate 35 is connected with hose 34, the one end that intubate 35 was kept away from to hose 34 is connected with second water pump 32, second water pump 32 fixed mounting is at the lateral wall of support column 3, the outlet connection of second water pump 32 has transition pipe 33, the one end that second water pump 32 was kept away from to transition pipe 33 stretches into inside the water tank 141, start second water pump 32, through intubate 35, hose 34 and transition pipe 33 can be with the inside water extraction of catchmenting in the cavity 27 of the support ring 4 of the top and send into in the water tank 141, the recovery to catchmenting has been realized, so that to the plant watering in the potted plant, resources are saved.

Referring to fig. 5 and 8, a second sealing ring 38 is adhered to the wall of the annular slot 37, when the insertion tube 35 is inserted into the annular slot 37, the inner wall of the second sealing ring 38 is tightly attached to the sidewall of the insertion tube 35, and the second sealing ring 38 can seal the gap between the wall of the insertion tube 35 and the wall of the annular slot 37, so as to prevent dust or impurities in the air from falling into the water collecting cavity 27 from the annular slot 37.

The embodiment of the application provides a gardens are with implementation principle of multi-functional mounting bracket cultivated in a pot: at first put into holding tank 5 with flowerpot 1 in, insert lift block 17 in lift groove 19 simultaneously, restart second motor 201, drive two-way lead screw 202 and rotate, drive two sliders 203 and be close to each other or keep away from each other, drive two dovetail blocks 205 and be close to each other or keep away from each other through two branches 204 to adjust lifter plate 16 to suitable height, and then can adjust flowerpot 1 to suitable height according to the size and specification of plant.

When outdoor weather is better, start first motor 95, drive pivot 96 rotates, drives a plurality of driving gear 97 synchronous rotation, and then drives a plurality of driven gear 92 rotations to drive a plurality of ring gears 91 synchronous rotation, and then drive a plurality of support ring 4 and rotate, make the sun evenly shine to the plant on the support ring 4, make the growth that the plant can be stable.

The electric control valve 143 is opened, so that water in the water tank 141 can enter the inner ring pipe 10 through the multi-way pipe 142 and the water supply pipe 144, and then water can flow into the outer ring pipe 11 through the inclined pipe 12, so that water supply to the spray heads 13 is realized, and then the plants in the flowerpot 1 can be watered through the plurality of spray heads 13, so that the plants can be maintained.

When the water yield to the plant watering in flowerpot 1 is too much, water in flowerpot 1 can flow into holding tank 5 through permeable hole 102 in, through the direction of water conservancy diversion piece 28, can be with the leading-in tank bottom wall corner of holding tank 5 of water in the holding tank 5, and can discharge ponding into in the chamber 27 that catchments through a plurality of water conservancy diversion holes 26, the collection to ponding has been realized, treat that the water in the chamber 27 that catchments reaches a certain amount after, start a plurality of first water pumps 31 simultaneously, can with the ponding extraction in the chamber 27 that catchments of the support ring 4 of below in the support ring 4 and send into the inside chamber 27 that catchments of support ring 4 of the top.

And then the second electric cylinder 36 is started, the insertion pipe 35 is driven to move downwards and is sequentially inserted into the annular slot 37 and the water collecting cavity 27, then the second water pump 32 is started, water in the water collecting cavity 27 inside the support ring 4 at the top is extracted and sent into the water tank 141, the water recycling is realized, and the water resource is saved.

In rainy days, the tops of the support rings 4 can be shielded from rain through the four transparent rain baffles 21, so that the influence on the normal growth of plants caused by excessive rain in the flowerpot 1 is avoided; can start first electric jar 24 simultaneously, drive rain ring board 23 shifts up for rain ring board 23 extends to the upper surface of support ring 4, can carry out the side to the plant in a plurality of flowerpots 1 on the support ring 4 and keep off the rain, has further reduced the probability that the rainwater got into in the flowerpot 1, makes the plant can stably grow.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A multifunctional potted mounting frame for gardens, comprising a flowerpot (1) for planting plants, characterized in that: also comprising a base (2), a support column (3) arranged on the base (2), a rotating A plurality of support rings (4) connected to the side walls of the support column (3) and a guide ring (6) arranged on the inner ring wall of the support ring (4), a plurality of the support rings (4) along the Arranged at equal distances in the axial direction, a plurality of accommodating grooves (5) for arranging flower pots (1) are arranged on the upper surfaces of several of the support rings (4) and along the circumferential direction thereof, and the side walls of the support columns (3) are provided with There is a ring groove (7) for the guide ring (6) to rotate, and an outer ring cavity (8) communicated with the ring groove (7) is provided inside the support column (3). A plurality of connecting rings (81) are evenly distributed on the cavity wall and along the height direction of the support column (3), and the outer ring cavity (8) is provided with a rotary drive for driving the guide ring (6) to rotate in the ring groove (7). component (9). 2. The multifunctional potted plant mounting frame for gardening according to claim 1, wherein the rotating assembly (9) comprises a toothed ring (91) arranged on the inner ring wall of the guide ring (6), and a toothed ring (91). 91) Several driven gears (92) meshing, the support column (3) is provided with an inner cavity (93), and the inner side wall of the inner cavity (93) is provided with a communication with the outer ring cavity (8) The plurality of rotating holes (94) are arranged at equal intervals along the height direction of the support column (3), and part of the side walls of the driven gear (92) extend through the rotating holes (94) into the inner cavity (93), the upper surface of the base (2) is provided with a groove, a first motor (95) is installed in the groove, and the drive shaft of the first motor (95) extends into it A rotating shaft (96) is connected inside the cavity (93), and a plurality of driving gears (97) are arranged on the rotating shaft (96) and are arranged at equal intervals along its own axis. The driving gear (97) and a plurality of driven gears ( 92) engage. 3. The multifunctional potted plant mounting frame for gardening according to claim 1, characterized in that: a plurality of inner ring pipes ( 10), the outer pipe wall of the inner ring pipe (10) is provided with an inclined pipe (12), the higher end of the inclined pipe (12) is connected with the inner ring pipe (10), and the inclined pipe (12) Its lower end passes through the side wall of the support column (3) and is connected with an outer ring pipe (11), the outer ring pipe (11) is sleeved on the support column (3), and the outer ring pipe (11) A plurality of spray heads (13) are evenly distributed along the lower surface of the support column (3) along its circumference, and a water supply assembly (14) is provided on the top of the support column (3) for providing a water source to the inner ring pipe (10). 4. The multifunctional potted plant mounting frame for gardening according to claim 3, wherein the water supply assembly (14) comprises a water tank (141) installed on the top wall of the support column (3), and a water tank (141) installed in the outer ring cavity (14). 8) The multi-way pipe (142) on the inner cavity wall, the electronically controlled valve (143) installed in several branch pipes of the multi-way pipe (142), and the water supply pipes (143) respectively connected with the several branch pipes of the multi-way pipe (142) 144), the main pipe of the multi-pass pipe (142) passes through the top wall of the support column (3), the bottom wall of the water tank (141) and extends into the water tank (141) in turn, and the water supply pipe (144) is far away from the multi-channel. One end of the through pipe (142) passes through the side wall of the support column (3) and communicates with the outer ring pipe (11). 5. The multifunctional potted plant mounting frame for gardening according to claim 1, wherein a cavity (15) is provided inside the support ring (4), and a lift plate is provided in the cavity (15). (16), the upper surface of the lifting plate (16) is provided with two opposite lifting blocks (17), the groove wall of the accommodating groove (5) is provided with two opposite lifting holes (18), the flower pot is The lower surface of (1) is provided with two opposite lifting grooves (19). The end of the lifting block (17) away from the lifting plate (16) passes through the lifting hole (18) and is inserted into the lifting groove (19). The cavity (15) is provided with a height adjusting assembly (20) for driving the lifting plate (16) to rise and fall. 6. The multifunctional potted plant mounting frame for gardening according to claim 5, wherein the height adjustment assembly (20) comprises a second motor (201) installed on the inner bottom wall of the cavity (15), and a second motor (201) installed on the inner bottom wall of the cavity (15). Two-way screw (202) connected with the drive shafts of the two motors (201), a slider (203) threadedly connected to both ends of the two-way screw (202), and a support rod hingedly connected to the upper surface of the slider (203) (204), a dovetail block (205) hingedly connected to the end of the support rod (204) away from the sliding block (203), the inner bottom wall of the cavity (15) is provided with a sliding block for the sliding block (203) to slide A groove (206), the lower surface of the lift plate (16) is provided with a dovetail groove (207) for the dovetail block (205) to slide, and the extension direction of the dovetail groove (207) is the same as the extension of the chute (206) The directions are in the same direction, and the middle side walls of the two support rods (204) are rotatably connected by a connecting shaft (208). 7. The multifunctional potted plant mounting frame for gardening according to claim 1, wherein the surrounding side walls of the water tank (141) are obliquely provided with transparent rain shields (21), and the transparent rain shields ( The higher end of 21) is connected to the side wall of the water tank (141), and the lower end of the transparent rain shield (21) faces the ground. 8 . The multifunctional potted plant mounting frame for gardening according to claim 1 , wherein a water retaining groove ( 22 ) is provided on the upper surface of the support ring ( 4 ) and along its own circumferential direction, and the water retaining groove ( 22 ) A rain shielding ring plate (23) is provided in each sliding, the water shielding groove (22) is provided with a first electric cylinder (24) for driving the rain shielding ring plate (23) up and down, and the ring groove (7) is provided with a first electric cylinder (24). A first sealing ring (25) is glued on the groove wall at the slot, and the inner ring wall of the first sealing ring (25) is closely attached to the side wall of the rain guard ring plate (23). 9. The multifunctional potted plant mounting frame for gardening according to claim 1, wherein the inner bottom wall of the flowerpot (1) is provided with a geotextile (102), and the bottom wall of the flowerpot (1) is provided with a geotextile (102). A number of permeable holes 102 are evenly distributed, and a number of guide holes (26) are inclined inside the support ring (4). The corners communicate with each other, a water collecting cavity (27) is provided inside the support ring (4) and located at the lower end of the guide hole (26), and a plurality of the guide holes (26) are connected to the water collecting cavity (26). 27) are connected, the bottom wall of the accommodating tank (5) and the bottom wall of the water collecting cavity (27) are provided with a guide block (28), and the height dimension of the guide block (28) is from the center to the center. The two sides are gradually reduced, and a plurality of drainage holes (29) are provided at the corners of the lower surface of the support ring (4). The insert is provided with a rubber seal. 10. The multifunctional potted plant mounting frame for gardening according to claim 1, wherein the opposite side walls of the adjacent support rings (4) are provided with return pipes (30), and the two return pipes (30) are provided with return pipes (30). A first water pump (31) is arranged between ), the end of the return pipe (30) away from the first water pump (31) extends into the water collecting cavity (27), and the top side wall of the support column (3) slides A second water pump (32) is installed, and the water outlet of the second water pump (32) is connected with a transition pipe (33) and extends into the water tank (141), and the water outlet of the second water pump (32) is connected with a A hose (34), one end of the hose (34) away from the second water pump (32) is connected with a cannula (35), and a side wall of the support column (3) is provided with a drive to drive the cannula (35) to rise and fall The second electric cylinder (36), the upper surface of the uppermost support ring (4) is provided with an annular slot (37) into which the lower cannula (35) is inserted, and the annular slot (37) is connected with the set The water cavity (27) is communicated with each other, and the groove wall of the annular slot (37) is glued with a second sealing ring for sealing the gap between the side wall of the cannula (35) and the groove wall of the annular slot (37). (38).

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