CN114868548B - Gardens are with ration intelligent flowers rack that waters - Google Patents

Abstract

The invention provides a quantitative watering type intelligent flower placing rack for gardens, which comprises a base and a planting rack, wherein a rotating bracket is arranged on the base; the rotating bracket is connected with a plurality of planting frames, and each planting frame is provided with a plurality of planting assemblies for quantitative watering; the top of the rotating bracket is provided with an irrigation assembly for supplying water to the planting assembly, the lower part of the rotating bracket is provided with a water storage tank for supplying water to the irrigation assembly, the water storage tank is connected with a water source, and the planting frame is positioned below the irrigation assembly; the bottom of the rotating bracket is inserted into the base and is rotationally connected with the base. The invention controls the watering quantity of the plant seeds by taking the volume of the water bottle as a fixed value, and the water absorbing net and the water absorbing rope can ensure that the water is fully absorbed by the root system of the plant; changing the volume of the water bottle to change the plant with different quality; the system can realize a remote intelligent control system through the existing intelligent controller, a remote port and a server, reduces labor force and is more convenient to use.

Description

Gardens are with ration intelligent flowers rack that waters

Technical Field

The invention belongs to the technical field of garden equipment, and relates to a flower placing rack, in particular to a quantitative watering type intelligent flower placing rack for gardens.

Background

In gardens, flowers are planted in soil for people to enjoy; however, a large amount of land is occupied, and space utilization cannot be realized; therefore, people design a multi-layer flower placing rack, so that the space can be fully utilized, and a large number of flowers can be placed.

However, in the using process of the flower placing frame, watering needs to be controlled manually; when flowers are watered, the conditions of excessive watering or insufficient watering can occur, so that unstable flower growth and unhealthy flower growth are caused.

Flowers are often watered more in the watering process, so that soil is guaranteed to be fully soaked, plant roots fully absorb water, and redundant water passes through the soil and is discharged through drain holes at the bottom of the flowerpot, so that water source waste exists.

The growth habit of different plants is different, and the required water amount is also different, and for the operators without planting experience, the water amount cannot be controlled, so that serious damage is more easily caused to the plants in the aspect of watering.

In gardens, flower quantity is great, and the accurate control that waters to each basin flower can't be accomplished to the in-process of watering, adopts the shower nozzle to cover on a large scale generally and waters, waters the in-process and extravagant water source, can't be again to the watering amount of control to different plants.

Therefore, how to ensure that plants can be irrigated quantitatively and how to water different plants quantitatively is a problem to be solved.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a quantitative watering type intelligent flower placing frame for gardens, which aims to solve the technical problems that: how to realize quantitative irrigation of plants.

The aim of the invention can be achieved by the following technical scheme:

a quantitative watering type intelligent flower placing rack for gardens comprises a base and a planting rack, wherein a rotating bracket is arranged on the base; the rotary support is connected with a plurality of planting frames, and each planting frame is provided with a plurality of planting assemblies for quantitative watering; the top of the rotating support is provided with an irrigation assembly for supplying water to the planting assembly, the lower part of the rotating support is provided with a water storage tank for supplying water to the irrigation assembly, the water storage tank is connected with a water source, and the planting frame is positioned below the irrigation assembly; the bottom of the rotating support is inserted into the base and is connected with the base in a rotating way.

In the invention, the following components are added: the lower part of the rotating bracket is provided with a water storage tank for supplying water to the irrigation assembly so as to supply water to the planting assembly, the planting assembly can quantitatively water plants (plants such as flowers) and ensure that the plant root system fully absorbs water. The rotating bracket can drive the irrigation assembly and the planting assembly to synchronously rotate at the same time, so that the accuracy of water supply of the irrigation assembly to the planting assembly is ensured; in the rotation process of the planting assembly, the all-round sunlight of the seed plants is driven, the sunlight balance of a plurality of seed plants is ensured, the photosynthesis balance of the seed plants is facilitated, and the plants grow healthily; the rotation of the rotating bracket does not influence the normal operation of the irrigation assembly, and the use is very convenient; the equipment has simple structure, can be used in gardens, can be used in a household balcony, and has wide application range. The inside current intelligent control system and the power of being equipped with of base to control irrigate the subassembly and supply water to planting the timing of subassembly, in order to guarantee to plant the subassembly and can acquire the water source in time and regularly, quantitatively supply water to the plant. Meanwhile, the intelligent control system can control the irrigation assembly to be opened and closed according to weather conditions, so that batch and repeated water supply is realized in the hot days, and water supply is stopped or reduced in the rainy days, so that healthy growth of the seed plants is ensured.

The device comprises a base, a first rotating seat and first power equipment, wherein the base is internally provided with an equipment cavity;

the base top is offered and is supplied to rotate support male first through-hole, and first through-hole and equipment chamber intercommunication, rotate the bottom of support and insert equipment intracavity portion and with first rotation seat fixed connection, first power equipment is connected with first rotation seat transmission in order to drive first rotation seat rotation.

By adopting the structure, the first power equipment drives the first rotating seat to rotate, and then drives the rotating bracket to rotate.

A bearing assembly and a bearing bracket are arranged in the equipment cavity; the rotating support comprises a rotating piece, a fixed cylinder and a positioning plate, wherein the rotating piece is in a cylindrical barrel shape with an upward opening, the bottom of the rotating piece is fixedly connected with the first rotating seat, the bearing assembly is sleeved on the periphery of the rotating piece, and the bearing assembly is fixed on the bearing support; the positioning plate is fixed in the rotating piece, a water storage cavity is formed in the space below the positioning plate in the rotating piece, and a through hole is formed in the middle of the positioning plate; the fixed cylinder is inserted into the rotating piece, the bottom of the fixed cylinder is fixed with the locating plate, the top of the fixed cylinder is flush with the top of the rotating piece, the fixed cylinder and the rotating piece are coaxially arranged, an interlayer space is formed between the fixed cylinder and the rotating piece, and a channel connected with the water storage cavity is arranged in the fixed cylinder along the axis direction.

With the structure, the bottom of the rotating piece is fixedly connected with the first rotating seat, the rotating piece rotates along with the first rotating seat, and the bottom of the rotating piece is in bolt connection, welding, clamping or threaded connection with the first rotating seat; the bearing assembly sleeve is arranged on the periphery of the rotating piece, the bearing assembly and the bearing support can support the bottom of the rotating support, the rotating support is guaranteed not to incline, and the rotating support can normally rotate. The rotating piece is in a cylindrical barrel shape with an upward opening, so that the positioning plate and the fixed barrel are convenient to install; the through hole is set up at the locating plate middle part to with passageway and retaining chamber intercommunication, in order to supply water to the irrigation subassembly. An interlayer space is formed between the fixed cylinder and the rotating piece, so that the moving space of the planting frame is increased, and the insertion and the extraction of the planting frame are more convenient to adjust. The top of the fixed cylinder is flush with the top of the rotating piece, and the irrigation assembly is more stable in the rotation process of the fixed cylinder and the rotating piece; the fixed cylinder and the rotating piece are coaxially arranged, so that the rotation angular speed and the rotation direction of the fixed cylinder and the rotating piece are consistent, meanwhile, the damage to an irrigation assembly caused by the rotation of a channel is avoided, and the normal water supply is ensured.

The planting frame comprises a plugboard and a first limiting block, and the first limiting block is fixed on one side of the plugboard; the rotary part is provided with a plurality of first jacks for inserting the plugboards, and the peripheral surface of the fixed cylinder is provided with a plurality of second jacks for inserting the plugboards; the opening of the first jack is larger than that of the second jack, the first jack is a square hole, the second jack is a blind hole with an opening facing the first jack, a second limiting block is arranged at the position of the opening of the second jack, and the opening of the second jack is larger than the thickness of the plugboard; one end of the planting frame sequentially penetrates through the first jack and the interlayer space and is inserted into the second jack, and the first limiting block and the second limiting block are tightly pressed.

With the above structure, because an interlayer space is formed between the fixed cylinder and the rotating member, a lever mechanism is formed at the fulcrum where the plugboard contacts the first jack; one end of the plugboard far away from the fixed barrel is fixed with a plurality of planting assemblies, and the end is heavier, so that the other end (positioned in the second jack) of the plugboard can be driven to tilt upwards, and the first limiting block and the second limiting block are arranged side by side and mutually abutted; the first limiting block is positioned at the bottom of the second jack, so that the second limiting block forms a barrier to the movement of the first limiting block, and a limiting mechanism is further formed, so that the first limiting block is prevented from sliding out of the second jack; when the self-locking device is used, the plug board is pulled along the direction away from the fixed cylinder, so that the first limiting block and the second limiting block are pressed tightly to form the self-locking mechanism; in the rotation process of the rotating piece and the fixed cylinder, the planting frame has a tendency to move along the direction far away from the fixed cylinder under the action of centrifugal force, and the first limiting block and the second limiting block are in a locking state at the moment, so that the planting frame cannot shake and move, and the stability of the planting frame and the planting assembly is ensured; simultaneously, plant the frame and be convenient for manually take out in the rotation support, be convenient for change and maintenance, it is more convenient to use.

Along vertical direction, equidistant multiturn jack that sets up on the global of rotating the piece, every circle jack includes: a plurality of first jacks which are annularly and uniformly distributed along the peripheral surface of the rotating piece with the axis of the rotating piece as a reference; the fixed cylinder is provided with a plurality of second jacks corresponding to the first jacks.

By adopting the structure, the first jacks and the second jacks are regularly arranged, so that the planting frames can be placed at equal intervals, the same growth space of the plants on the planting assembly is ensured, the competition of sunlight and space among the plants is avoided, and the healthy growth of the plants is ensured; simultaneously, the plant show is also more pleasing to the eye. Along vertical direction, equidistant multiturn jack that sets up on the global of rotating the piece improves space utilization, increases the planting quantity in the unit space.

The planting assembly comprises a planting basin, a water absorption net, water absorption ropes, a rotating frame and a water bottle, wherein the planting basin is fixed on a plugboard, the water absorption net is placed in the planting basin, one end of each water absorption rope is connected with the water absorption net, the other end of each water absorption rope stretches into the water bottle, the plugboard is provided with second through holes, the number of the second through holes is the same as that of the water absorption ropes, the water absorption ropes penetrate through the second through holes in a one-to-one correspondence manner, and the diameter of the second through holes is larger than that of the water absorption ropes; the top of rotating frame is fixed in the bottom of plugboard, and the bottom of rotating frame is connected with the water-jug top rotation, and the water-jug is the ascending wide-necked bottle of opening.

By adopting the structure, plants are planted and cultivated in the planting pot, the water absorbing net is placed in the planting pot, the root system of the plants is wound on the water absorbing net, and the water in the water bottle is transmitted to the water absorbing net by the water absorbing rope so as to obtain water from the root system of the plants. The water absorption net and the water absorption rope are made of materials capable of generating capillary phenomenon, or materials capable of absorbing water rapidly to transmit the water, so that a pressure difference is formed when the plant root system absorbs the water, and then the continuous water absorption process of the water absorption net and the water absorption rope is driven, and the water is transmitted to the plant root system. When the irrigation assembly supplies water to the water bottle, water flow drops downwards from top to bottom to penetrate through the second through hole and enter the water bottle; because the capacity of the water bottle is limited, when one water bottle above is filled with water, the excessive water can overflow outwards and flow into the water bottle below, so that the process of sequentially pouring water from the water bottles from top to bottom is realized. After the lowest water bottle is filled with water, overflowed water finally flows into the water storage tank, so that the effect of saving water resources is realized; meanwhile, the capacity of the water bottle is a fixed value, the quantitative watering process is realized, and water is only required to be supplied to the water bottle on time; the operator adjusts the water supply times of the water bottle according to the growth habit of the plant, or adds stones into the water bottle, namely, the water storage capacity in the water bottle can be changed, so that the healthy growth of the plant is ensured. The water bottle is a wide-mouth bottle with an upward opening so as to ensure that the irrigation component can smoothly supply water into the water bottle.

The water storage tank is welded with the rotating piece, the rotating piece penetrates through the middle of the water storage tank, a plurality of water inlets for communicating the water storage cavity with the water storage tank are formed in the rotating piece, a filter screen is arranged in the water storage tank, and the filter screen is located above the water inlets; the water storage tank is characterized in that the opening of the water storage tank is upward, the bottom of the water storage tank is in non-pressure contact with the base, the top of the water storage tank is provided with a water receiving disc, the water receiving disc is in a bucket shape with the center recessed downwards, the middle of the water receiving disc is provided with a third through hole, the diameter of the third through hole is larger than that of the rotating piece, and the coverage area of the water receiving disc is larger than that of the water storage tank and the base.

By adopting the structure, water overflowed from the water bottle, rainwater, snow water and the like fall on the water receiving disc, and the water flows into the water storage tank through the third through hole so as to be extracted by the irrigation assembly. The water receiving disc is in a bucket shape with the center recessed downwards, so that water sources can be conveniently collected to the third through holes, and the water sources are ensured to enter the water storage tank; when the water source is too much, the water is overflowed from the edge of the water receiving disc, so that excessive water storage can not be caused. The coverage area of the water receiving disc is larger than that of the water storage tank and the base, so that the water storage tank and the base are prevented from being rusted by rainwater and overflowed water. A filter screen is arranged in the water storage tank to filter water, so that blockage is prevented; the diameter of the third through hole is larger than that of the rotating piece, so that the water can smoothly flow into the water storage tank; the water storage tank and the rotating piece are welded and fixed so that water leakage can not occur, and meanwhile, the water storage tank and the rotating piece synchronously rotate, so that a water source can smoothly enter the water storage cavity, and normal operation of equipment is not affected. The rotary part is provided with a plurality of water inlets for communicating the water storage cavity with the water storage tank, and a water source passes through the water inlets to enter the water storage cavity for the irrigation assembly to extract.

The irrigation assembly comprises a fixing frame, a water tank, a branch pipe, a water pump, a second water outlet pipe and a water inlet pipe; the fixing frame is fixed on the tops of the fixing cylinder and the rotating piece, and the water tank is fixed above the fixing frame through the bracket; the water pump is fixed on the fixing frame, the water outlet end of the water pump is connected with the water inlet end of the water tank through the second water outlet pipe, the water inlet end of the water pump is connected with the water inlet pipe, and the water inlet pipe downwards penetrates through the fixing frame and the channel and stretches into the water storage cavity; the water tank is connected with a plurality of branch pipes, a plurality of first water outlet pipes are arranged on the branch pipes, and the plurality of first water outlet pipes are located above the plurality of second through holes in a one-to-one correspondence mode.

By adopting the structure, the water inlet pipe passes through the fixing frame and the channel and stretches into the water storage cavity so as to obtain a water source, and the water source can be conveyed to the branch pipe and finally discharged from the first water outlet pipe; the irrigation component is positioned at the top of the rotating piece, and the water source can smoothly fall into the water bottle under the action of gravity. The irrigation component synchronously rotates along with the rotating piece, so that the accuracy of water supply to the water bottle is guaranteed, and smooth water supply is guaranteed.

The base is provided with a limit bracket, and the limit bracket comprises a rotating rod and a poking rod; the device cavity is internally provided with a second rotating seat and second power equipment, the lower end of the rotating rod extends into the device cavity and is fixed with the second rotating seat, and the second power equipment is in transmission connection with the second rotating seat so as to drive the second rotating seat to rotate; one end of the poking rod is connected with the rotating rod, and the poking rod is horizontally arranged; the poking rods are arranged in a plurality along the vertical direction, and the poking rods are the same as the planting assemblies in number.

With the structure, the drain hole is arranged at the bottom of the planting pot to drain the redundant water. Meanwhile, the second power equipment controls the second rotating seat to rotate so that the toggle rod points to the rotating shaft of the rotating piece; then, controlling the whole rotation of the rotating bracket, wherein in the rotation process, the poking rod is used for obstructing the water bottle so as to enable the water bottle to incline (the water bottle is rotationally connected with the rotating bracket), so that the water bottle rotates to a horizontal state or a water bottle opening downward state (if the water bottle is in a calabash shape, the abdomen glue is big, and when the water bottle is placed on a horizontal plane, the opening of the water bottle is in a downward state), and rainwater in the water bottle is discharged, so that excessive watering of plants is avoided; in order to prevent the separation of the water absorption rope, a connecting ring is arranged in the water bottle, and the bottom of the water absorption rope is connected with the connecting ring.

The base is provided with a light supplementing component, the light supplementing component comprises a light bar support, and a plurality of light bars are arranged on the light bar support.

By adopting the structure, the light supplementing component is provided with the power supply for supplying power to the light bar and the remote intelligent controller, so that the light bar can be controlled to be opened and closed at a remote end, the light supplementing effect of remote control is realized, and the light supplementing component is more intelligent to use. The plurality of lamp strips can illuminate the plants in an omnibearing way under the cooperation of the rotating bracket, so that the photosynthesis of the plants is ensured to be uniform and efficient.

Compared with the prior art, this gardens are with ration intelligent flowers rack that waters has following advantage:

1. the invention utilizes the principle of free falling of water flow under the action of gravity to realize water supply to a plurality of water bottles along the vertical direction, overflows when the water is full, and overflows water can be timely recovered into the water storage tank, thereby avoiding waste, and the water supply scene of the irrigation assembly forms a rain curtain shape, thereby being very beautiful and being worth enjoying. The device controls the watering amount of each irrigation of the plants by taking the volume of the water bottle as a fixed value, and controls the watering amount and the watering time of each day by controlling the water supply times and the water supply time of each day to the water bottle; the water absorbing net and the water absorbing rope can ensure the effect that moisture is completely absorbed by plant roots, so that water sources are saved, and the roots can fully absorb the moisture.

2. The second power equipment controls the second rotating seat to rotate so that the toggle rod points to the rotating shaft of the rotating piece; the control rotation support integrally rotates, and in the rotation process, the poking rod is used for obstructing the water bottle, so that the water bottle is inclined, rainwater in the water bottle is discharged, and excessive watering of plants is avoided.

3. The system can realize a remote intelligent control system through the existing intelligent controller, a remote port and a server, reduces labor force and is more convenient to use.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the structure of the base and the rotating bracket in the present invention.

Fig. 3 is a schematic structural view of the rotating bracket of the present invention.

Fig. 4 is a cross-sectional view of a swivel bracket of the present invention.

Fig. 5 is a schematic perspective view of a planting assembly according to the present disclosure.

Fig. 6 is a schematic view of a planting assembly according to the present invention.

Fig. 7 is a schematic view of the structure of the irrigation assembly of the present invention.

In the figure, 1, a base; 10. an equipment chamber; 11. a bearing assembly; 12. a first rotating seat; 13. a first power plant; 14. a second rotating seat; 15. a second power plant; 16. a bearing support; 17. performing ground needling; 18. a first through hole; 2. a water receiving tray; 21. a third through hole; 3. a planting frame; 31. a plug board; 32. a first limiting block; 33. a second through hole; 4. planting an assembly; 41. planting pot; 42. a water absorbing net; 43. a water absorbing rope; 44. a rotating frame; 45. a water bottle; 5. an irrigation assembly; 51. a fixing frame; 52. a water dividing member; 53. a branch pipe; 54. a first water outlet pipe; 55. a water pump; 56. a second water outlet pipe; 57. a water inlet pipe; 6. rotating the bracket; 61. rotating the barrel; 62. a fixed cylinder; 63. an interlayer space; 64. a channel; 68. a positioning plate; 65. a first jack; 66. a second jack; 67. a second limiting block; 68. a support plate; 69. a water storage cavity; 7. a water storage tank; 71. a filter screen; 8. a limit bracket; 81. a rotating lever; 82. a toggle rod; 9. a light supplementing component; 91. a light bar bracket; 92. a light bar.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-7, the embodiment provides a quantitative watering type intelligent flower placing rack for gardens, which comprises a base 1 and a planting rack 3, wherein a rotating bracket 6 is arranged on the base 1;

the rotating bracket 6 is connected with a plurality of planting frames 3, and each planting frame 3 is provided with a plurality of planting assemblies 4 for quantitative watering;

the top of the rotating bracket 6 is provided with an irrigation assembly 5 for supplying water to the planting assembly 4, the lower part of the rotating bracket 6 is provided with a water storage tank 7 for supplying water to the irrigation assembly 5, the water storage tank 7 is connected with a water source, and the planting frame 3 is positioned below the irrigation assembly 5;

the bottom of the rotating bracket 6 is inserted into the base 1 and is connected with the base 1 in a rotating way.

In the invention, the lower part of the rotary bracket 6 is provided with the water storage tank 7 for supplying water to the irrigation component 5 so as to realize that the irrigation component 5 supplies water to the planting component 4, the planting component 4 realizes quantitative watering of the plants (flowers and other plants) and ensures that the root system of the plants fully absorbs water.

In the work, the rotating bracket 6 can drive the irrigation assembly 5 and the planting assembly 4 to synchronously rotate at the same time, so that the accuracy of water supply of the irrigation assembly 5 to the planting assembly 4 is ensured; in the rotation process of the planting assembly 4, the seed plants are driven to emit sunlight in all directions, so that the sunlight of a plurality of seed plants is balanced, the photosynthesis balance of the seed plants is facilitated, and the plants grow healthily; wherein, the rotation of the rotating bracket 6 does not influence the normal operation of the irrigation assembly 5, and the use is very convenient; the equipment has simple structure, can be used in gardens, can be used in a household balcony, and has wide application range.

It should be noted that, the base 1 is internally provided with an existing intelligent control system and a power supply to control the irrigation assembly 5 to supply water to the planting assembly 4 at regular time, so as to ensure that the planting assembly 4 can acquire a water source in time to supply water to the plants at regular time and quantity. Meanwhile, the intelligent control system can control the irrigation assembly 5 to be opened and closed according to weather conditions, so that batch and repeated water supply is realized in the hot days, and in rainy days, water supply is stopped or reduced, so that healthy growth of the seed plants is ensured.

The inside of the base 1 is provided with an equipment cavity 10, and a first rotating seat 12 and a first power equipment 13 are arranged in the equipment cavity 10;

the top of the base 1 is provided with a first through hole 18 for inserting the rotating bracket 6, the first through hole 18 is communicated with the equipment cavity 10, the bottom of the rotating bracket 6 is inserted into the equipment cavity 10 and fixedly connected with the first rotating seat 12, and the first power equipment 13 is in transmission connection with the first rotating seat 12 to drive the first rotating seat 12 to rotate.

The first power device 13 drives the first rotating seat 12 to rotate, and then drives the rotating bracket 6 to rotate.

The device cavity 10 is internally provided with a bearing assembly 11 and a bearing bracket 16;

the rotating bracket 6 comprises a rotating piece 61, a fixed cylinder 62 and a positioning plate 68, wherein the rotating piece 61 is in a cylindrical barrel shape with an upward opening, the bottom of the rotating piece 61 is fixedly connected with the first rotating seat 12, the bearing assembly 11 is sleeved on the periphery of the rotating piece 61, and the bearing assembly 11 is fixed on the bearing bracket 16;

the positioning plate 68 is fixed inside the rotating member 61, a water storage cavity 69 is formed in the space below the positioning plate 68 in the rotating member 61, and a through hole is formed in the middle of the positioning plate 68;

the fixed cylinder 62 is inserted into the rotating member 61, the bottom of the fixed cylinder 62 is fixed with the positioning plate 68, the top of the fixed cylinder 62 is flush with the top of the rotating member 61, the fixed cylinder 62 is coaxially arranged with the rotating member 61, an interlayer space 63 is formed between the fixed cylinder 62 and the rotating member 61, and a channel 64 connected with the water storage cavity 69 is arranged in the fixed cylinder 62 along the axial direction.

The bottom of the rotating piece 61 is fixedly connected with the first rotating seat 12, the rotating piece 61 rotates along with the first rotating seat 12, and the bottom of the rotating piece 61 is in bolt connection, welding, clamping or threaded connection with the first rotating seat 12; the bearing assembly 11 is sleeved on the periphery of the rotating piece 61, the bearing assembly 11 and the bearing bracket 16 can support the bottom of the rotating bracket 6, the rotating bracket 6 is guaranteed not to incline, and the rotating bracket 6 can normally rotate.

The rotating piece 61 is in a cylindrical barrel shape with an upward opening, so that the positioning plate 68 and the fixed barrel 62 are convenient to install; the positioning plate 68 is provided with a through hole in the middle thereof to communicate with the channel 64 and the water storage chamber 69 so as to supply water to the irrigation assembly 5 (ensuring that the water inlet pipe 57 can be smoothly inserted into the water storage chamber 69).

An interlayer space 63 is formed between the fixed cylinder 62 and the rotating piece 61, so that the moving space of the planting frame 3 is increased, and the insertion and the extraction of the planting frame 3 are more convenient to adjust.

The top of the fixed cylinder 62 is flush with the top of the rotating piece 61, and the irrigation assembly 5 is more stable in the rotating process of the fixed cylinder 62 and the rotating piece 61; the fixed cylinder 62 is arranged coaxially with the rotating member 61, so that the rotation angular speed and the rotation direction of the fixed cylinder 62 and the rotating member 61 are consistent, and meanwhile, the damage to the irrigation assembly 5 (the water inlet pipe 57) caused by the rotation of the channel 64 is avoided, and the normal water supply is ensured.

If the channel 64 is not coaxial with the fixed cylinder 62, the channel 64 will squeeze the water inlet tube 57 during rotation of the fixed cylinder 62, and the water inlet tube 57 will shift, which will easily cause breakage of the water inlet tube 57, and at the same time, the joint between the water inlet tube 57 and the water inlet end of the water pump 55 will shake, which will easily cause breakage of the joint and water leakage.

The planting frame 3 comprises a plugboard 31 and a first limiting block 32, and the first limiting block 32 is fixed on one side of the plugboard 31;

the rotary member 61 is provided with a plurality of first insertion holes 65 through which the plug board 31 passes, and the circumferential surface of the fixed cylinder 62 is provided with a plurality of second insertion holes 66 through which the plug board 31 is inserted;

the opening of the first jack 65 is larger than the opening of the second jack 66, the first jack 65 is a square hole, the second jack 66 is a blind hole with an opening facing the first jack 65, a second limiting block 67 is arranged at the opening position of the second jack 66, and the opening of the second jack 66 is larger than the thickness of the plugboard 31;

one end of the planting frame 3 sequentially passes through the first jack 65 and the interlayer space 63 and is inserted into the second jack 66, and the first limiting block 32 and the second limiting block 67 are tightly pressed.

Since the interlayer space 63 is formed between the fixed cylinder 62 and the rotary member 61, a lever mechanism is formed at the fulcrum where the plug board 31 contacts the first insertion hole 65; one end of the plugboard 31 far away from the fixed barrel 62 is fixed with a plurality of planting assemblies 4, and the end is heavy, so that the other end (positioned in the second jack 66) of the plugboard 31 can be driven to tilt upwards, and the first limiting block 32 and the second limiting block 67 are arranged side by side and mutually abutted;

the first limiting block 32 is located at the bottom of the second jack 66, so that the second limiting block 67 forms a block to the movement of the first limiting block 32, and forms a limiting mechanism to prevent the first limiting block 32 from sliding out of the second jack 66;

when in use, the plug board 31 is pulled along the direction away from the fixed cylinder 62, so that the first limiting block 32 and the second limiting block 67 are pressed tightly to form a self-locking mechanism;

in the rotation process of the rotating piece 61 and the fixed cylinder 62, the planting frame 3 has a tendency to move along the direction far away from the fixed cylinder 62 under the action of centrifugal force, and at the moment, the first limiting block 32 and the second limiting block 67 are in a locking state, so that the planting frame 3 cannot shake and move, and the stability of the planting frame 3 and the planting assembly 4 is ensured;

simultaneously, plant frame 3 is convenient for take out in manual follow runing rest 6, is convenient for change and maintenance, and it is more convenient to use.

Along the vertical direction, equidistant multiturn jack that sets up on the global of rotor 61, every round jack includes: a plurality of first insertion holes 65 which are annularly and uniformly distributed along the circumferential surface of the rotating member 61 with respect to the axis of the rotating member 61;

the fixed cylinder 62 is provided with a plurality of second jacks 66 corresponding to the first jacks 65.

The first jacks 65 and the second jacks 66 are regularly arranged, so that the planting frames 3 can be placed at equal intervals, the same growth space of the plants on the planting assembly 4 is ensured, the competition of sunlight and space among the plants is avoided, and healthy growth of the plants is ensured; simultaneously, the plant show is also more pleasing to the eye.

Along the vertical direction, the circumference of the rotating member 61 is provided with a plurality of circles of jacks at equal intervals, so that the space utilization rate is improved, and the planting quantity in the unit space is increased.

The planting assembly 4 comprises a planting basin 41, a water absorption net 42, water absorption ropes 43, a rotating frame 44 and water bottles 45, the planting basin 41 is fixed on the plugboard 31, the water absorption net 42 is placed in the planting basin 41, one end of each water absorption rope 43 is connected with the water absorption net 42, the other end of each water absorption rope 43 extends into each water bottle 45, the plugboard 31 is provided with second through holes 33, the number of the second through holes 33 is the same as that of the water absorption ropes 43, the water absorption ropes 43 penetrate through the second through holes 33 in a one-to-one correspondence manner, and the diameter of each second through hole 33 is larger than that of the water absorption rope 43;

the top of the rotating frame 44 is fixed at the bottom of the plugboard 31, the bottom of the rotating frame 44 is rotationally connected with the top of the water bottle 45, and the water bottle 45 is a wide-mouth bottle with an upward opening.

The planting is cultivated in planting basin 41, and the water absorbing net 42 is placed in planting basin 41, and the root system of planting twines on water absorbing net 42, and water in the water bottle 45 is transmitted to water absorbing net 42 to water absorbing rope 43 for the plant root system obtains moisture.

It should be noted that, the water absorbing net 42 and the water absorbing rope 43 are made of materials capable of generating capillary phenomenon, or materials capable of absorbing water rapidly to transmit the water, so that the plant root system forms a pressure difference when absorbing the water, and further drives the continuous water absorbing process of the water absorbing net 42 and the water absorbing rope 43 to finish the transportation of the water to the plant root system.

When the irrigation assembly 5 supplies water to the water bottle 45, the water drops downwards from above to pass through the second through hole 33 and enter the water bottle 45; because the capacity of the water bottles 45 is limited, when one water bottle 45 above is filled with water, the excessive water overflows outwards and flows into the water bottle 45 below, so that the process of pouring water from the water bottles 45 from top to bottom is realized. After the lowest water bottle 45 is filled with water, overflowed water finally flows into the water storage tank 7, so that the effect of saving water resources is realized;

meanwhile, the capacity of the water bottle 45 is a fixed value, the quantitative watering process is realized, and only water needs to be supplied to the water bottle 45 on time; the operator can adjust the water supply times of the water bottle 45 according to the growth habit of the plant, or can change the water storage amount in the water bottle 45 by adding stones (or other non-water-absorbing substances with the density larger than that of water, such as sand, etc.) into the water bottle 45, thereby ensuring the healthy growth of the plant.

The water bottle 45 is a wide-mouth bottle with an upward opening so as to ensure that the irrigation assembly 5 can smoothly supply water into the water bottle 45.

The water storage tank 7 is welded with the rotating piece 61, the rotating piece 61 penetrates through the middle of the water storage tank 7, a plurality of water inlet holes for communicating the water storage cavity 69 with the water storage tank 7 are formed in the rotating piece 61, a filter screen 71 is arranged in the water storage tank 7, and the filter screen 71 is located above the water inlet holes;

the water storage tank 7 opening is upwards, and the bottom of water storage tank 7 and base 1 do not have pressure contact, and water collector 2 is set up at water storage tank 7 top, and water collector 2 is central undercut's bucket form, and water collector 2 middle part is equipped with third through-hole 21, and the diameter of third through-hole 21 is greater than the diameter of rotating piece 61, and the coverage area of water collector 2 is greater than the coverage area of water storage tank 7.

Water, rainwater, snow water and the like overflowed from the water bottle 45 fall on the water receiving tray 2, and the water flows into the water storage tank 7 through the third through hole 21 for extraction by the irrigation assembly 5. The water receiving disc 2 is in a bucket shape with the center recessed downwards, so that water sources can be conveniently collected to the third through hole 21, and the water sources are ensured to enter the water storage tank 7; when the water source is too much, the water overflows from the edge of the water receiving disc 2, and excessive water storage cannot be caused. The coverage area of the water pan 2 is larger than that of the water storage tank 7 and the base 1, so that the water storage tank 7 and the base 1 are prevented from being rusted by rainwater and overflowed water.

A filter screen 71 is arranged in the water storage tank 7 to filter water, so that blockage is prevented; the diameter of the third through hole 21 is larger than that of the rotating member 61, so that the water can smoothly flow into the water storage tank 7;

the rotating member 61 is provided with a plurality of water inlets for communicating the water storage cavity 69 with the water storage tank 7, and a water source passes through the water inlets to enter the water storage cavity 69 for extraction by the irrigation assembly 5.

It should be noted that, the water storage tank 7 and the rotating member 61 are welded and fixed so as not to leak water, and meanwhile, the water storage tank 7 and the rotating member 61 rotate synchronously, so that the water source can smoothly enter the water storage cavity 69 without affecting the normal operation of the device.

The irrigation assembly 5 comprises a fixed frame 51, a water tank 52, a branch pipe 53, a water pump 55, a second water outlet pipe 56 and a water inlet pipe 57;

the fixing frame 51 is fixed on the tops of the fixing cylinder 62 and the rotating piece 61, and the water tank 52 is fixed above the fixing frame 51 through a bracket;

the water pump 55 is fixed on the fixed frame 51, the water outlet end of the water pump 55 is connected with the water inlet end of the water tank 52 through the second water outlet pipe 56, the water inlet end of the water pump 55 is connected with the water inlet pipe 57, and the water inlet pipe 57 downwards passes through the fixed frame 51 and the channel 64 and stretches into the water storage cavity 69;

the water tank 52 is connected with a plurality of branch pipes 53, a plurality of first water outlet pipes 54 are arranged on the branch pipes 53, and the plurality of first water outlet pipes 54 are positioned above the plurality of second through holes 33 in a one-to-one correspondence manner.

The water inlet pipe 57 passes through the fixing frame 51 and the channel 64 and extends into the water storage cavity 69 to obtain a water source, and the water source can be conveyed to the branch pipe 53 and finally discharged from the first water outlet pipe 54; the irrigation assembly 5 is positioned on top of the rotating member 61 so that the water source can fall smoothly into the water bottle 45 under the force of gravity.

The irrigation assembly 5 rotates in synchronization with the rotating member 61, thereby ensuring the accuracy of water supply to the water bottle 45 and ensuring smooth progress of water supply.

The base 1 is provided with a limit bracket 8, and the limit bracket 8 comprises a rotating rod 81 and a toggle rod 82;

the device cavity 10 is internally provided with a second rotating seat 14 and a second power device 15, the lower end of a rotating rod 81 stretches into the device cavity 10 and is fixed with the second rotating seat 14, and the second power device 15 is in transmission connection with the second rotating seat 14 to drive the second rotating seat 14 to rotate;

one end of the toggle rod 82 is connected with the rotating rod 81, and the toggle rod 82 is horizontally arranged; the toggle rods 82 are arranged in a plurality along the vertical direction, and the toggle rods 82 are the same as the planting assemblies 4 in number.

Part of the areas are in rainy season, and are continuously overcast and rainy, so that the watering amount of the seed plants needs to be controlled, and the situation that the root systems are drowned due to the fact that the seed plants absorb excessive rainwater is avoided.

Therefore, a drain hole is opened at the bottom of the planting pot 41 to drain the excessive moisture. Meanwhile, the second power device 15 controls the second rotating seat 14 to rotate, so that the toggle rod 82 points to the rotating shaft of the rotating member 61; then, the rotating bracket 6 is controlled to integrally rotate, in the rotating process, the poking rod 82 blocks the water bottle 45, so that the water bottle 45 is inclined (the water bottle 45 is in rotating connection with the rotating frame 44), the water bottle 45 is rotated to be in a horizontal state or the opening of the water bottle 45 is downward (if the water bottle 45 is in a calabash shape, the abdomen glue is big, and when the water bottle 45 is placed on a horizontal plane, the opening of the water bottle 45 is in a downward state), and rainwater in the water bottle 45 is discharged, so that excessive watering of the plant is avoided;

meanwhile, in order to prevent the water absorbing rope 43 from being separated, a connecting ring is arranged inside the water bottle 45, and the bottom of the water absorbing rope 43 is connected with the connecting ring.

It should be noted that the second power device 15 is connected to an intelligent control system to implement remote intelligent control.

The base 1 is provided with a light supplementing assembly 9, the light supplementing assembly 9 comprises a light bar bracket 91, and a plurality of light bars 92 are arranged on the light bar bracket 91.

The light supplementing component 9 is provided with a power supply and a remote intelligent controller for supplying power to the light bar 92 so as to control the light bar 92 to be turned on and off at a remote end, thereby realizing the light supplementing effect of remote control and realizing more intelligent use. The plurality of light bars 92 can illuminate the plants in all directions under the cooperation of the rotating bracket 6, and the photosynthesis of the plants is ensured to be uniform and efficient.

In summary, the invention utilizes the principle of free falling of water flow under the action of gravity to realize water supply to a plurality of water bottles 45 along the vertical direction, overflows when the water is full, and overflowed water can be timely recovered into the water storage tank 7, so that waste is avoided, and the water supply view of the irrigation assembly 5 forms a rain curtain shape, thereby being very attractive and being worth enjoying. The device controls the watering amount of each irrigation of the plants by taking the volume of the water bottle 45 as a fixed value, and controls the watering amount and the watering time every day by controlling the water supply times and the water supply time to the water bottle 45 every day; the water absorbing net 42 and the water absorbing ropes 43 can ensure the effect that moisture is completely absorbed by plant roots, namely, water sources are saved, and the roots fully absorb the moisture. The system can realize a remote intelligent control system through the existing intelligent controller, a remote port and a server, reduces labor force and is more convenient to use.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (5)

1. The utility model provides a gardens are with ration intelligent flowers rack that waters, includes base (1) and planting frame (3), its characterized in that is provided with on base (1) and rotates support (6);

the rotary support (6) is connected with a plurality of planting frames (3), and each planting frame (3) is provided with a plurality of planting assemblies (4) for quantitative watering;

the top of the rotating bracket (6) is provided with an irrigation assembly (5) for supplying water to the planting assembly (4), the lower part of the rotating bracket (6) is provided with a water storage tank (7) for supplying water to the irrigation assembly (5), the water storage tank (7) is connected with a water source, and the planting frame (3) is positioned below the irrigation assembly (5);

the bottom of the rotating bracket (6) is inserted into the base (1) and is rotationally connected with the base (1);

an equipment cavity (10) is formed in the base (1), and a first rotating seat (12) and a first power device (13) are arranged in the equipment cavity (10);

the top of the base (1) is provided with a first through hole (18) for inserting the rotating bracket (6), the first through hole (18) is communicated with the equipment cavity (10), the bottom of the rotating bracket (6) is inserted into the equipment cavity (10) and fixedly connected with the first rotating seat (12), and the first power equipment (13) is in transmission connection with the first rotating seat (12) to drive the first rotating seat (12) to rotate;

a bearing assembly (11) and a bearing bracket (16) are arranged in the equipment cavity (10);

the rotating support (6) comprises a rotating piece (61), a fixed cylinder (62) and a positioning plate (68), wherein the rotating piece (61) is in a cylindrical barrel shape with an upward opening, the bottom of the rotating piece (61) is fixedly connected with the first rotating seat (12), the bearing assembly (11) is sleeved on the periphery of the rotating piece (61), and the bearing assembly (11) is fixed on the bearing support (16);

the positioning plate (68) is fixed inside the rotating piece (61), a water storage cavity (69) is formed in the space below the positioning plate (68) in the rotating piece (61), and a through hole is formed in the middle of the positioning plate (68);

the fixed cylinder (62) is inserted into the rotating piece (61), the bottom of the fixed cylinder (62) is fixed with the positioning plate (68), the top of the fixed cylinder (62) is flush with the top of the rotating piece (61), the fixed cylinder (62) is coaxially arranged with the rotating piece (61), an interlayer space (63) is formed between the fixed cylinder (62) and the rotating piece (61), and a channel (64) connected with the water storage cavity (69) is arranged in the fixed cylinder (62) along the axial direction;

the planting frame (3) comprises a plugboard (31) and a first limiting block (32), and the first limiting block (32) is fixed on one side of the plugboard (31);

a plurality of first jacks (65) for inserting the plug boards (31) are formed in the rotating piece (61), and a plurality of second jacks (66) for inserting the plug boards (31) are formed in the peripheral surface of the fixed cylinder (62);

the opening of the first jack (65) is larger than the opening of the second jack (66), the first jack (65) is a square hole, the second jack (66) is a blind hole with an opening facing the first jack (65), a second limiting block (67) is arranged at the opening position of the second jack (66), and the opening of the second jack (66) is larger than the thickness of the plugboard (31);

one end of the planting frame (3) sequentially penetrates through the first jack (65) and the interlayer space (63) and is inserted into the second jack (66), and the first limiting block (32) and the second limiting block (67) are tightly pressed;

along vertical direction, equidistant multiturn jack that sets up on the global of rotating piece (61), every round jack includes: a plurality of first insertion holes (65) which are annularly and uniformly distributed along the peripheral surface of the rotating member (61) with the axis of the rotating member (61) as a reference;

a plurality of second jacks (66) corresponding to the first jacks (65) are formed on the fixed cylinder (62);

the planting assembly (4) comprises a planting basin (41), a water absorption net (42), water absorption ropes (43), a rotating frame (44) and water bottles (45), wherein the planting basin (41) is fixed on a plugboard (31), the water absorption net (42) is placed in the planting basin (41), one end of each water absorption rope (43) is connected with the corresponding water absorption net (42), the other end of each water absorption rope (43) extends into each water bottle (45), the plugboard (31) is provided with second through holes (33), the second through holes (33) are the same as the water absorption ropes (43), the water absorption ropes (43) penetrate through the second through holes (33) in a one-to-one mode, and the diameter of each second through hole (33) is larger than that of each water absorption rope (43);

the top of the rotating frame (44) is fixed at the bottom of the plugboard (31), the bottom of the rotating frame (44) is rotationally connected with the top of the water bottle (45), and the water bottle (45) is a wide-mouth bottle with an upward opening.

2. The quantitative watering type intelligent flower placement frame for gardens according to claim 1, wherein the water storage tank (7) is welded with the rotating piece (61), the rotating piece (61) penetrates through the middle of the water storage tank (7), a plurality of water inlet holes for water storage cavities (69) to be communicated with the water storage tank (7) are formed in the rotating piece (61), a filter screen (71) is arranged in the water storage tank (7), and the filter screen (71) is located above the water inlet holes;

the water storage tank (7) is opened upwards, the bottom of the water storage tank (7) is in non-pressure contact with the base (1), the top of the water storage tank (7) is provided with a water receiving disc (2), the water receiving disc (2) is in a bucket shape with the center recessed downwards, the middle part of the water receiving disc (2) is provided with a third through hole (21), the diameter of the third through hole (21) is larger than that of the rotating piece (61), and the coverage area of the water receiving disc (2) is larger than that of the water storage tank (7) and the base (1).

3. A quantitative watering type intelligent flower placement frame for gardens according to claim 2, characterized in that the irrigation component (5) comprises a fixing frame (51), a water tank (52), a branch pipe (53), a water pump (55), a second water outlet pipe (56) and a water inlet pipe (57);

the fixing frame (51) is fixed at the tops of the fixing cylinder (62) and the rotating piece (61), and the water tank (52) is fixed above the fixing frame (51) through a bracket;

the water pump (55) is fixed on the fixing frame (51), the water outlet end of the water pump (55) is connected with the water inlet end of the water tank (52) through the second water outlet pipe (56), the water inlet end of the water pump (55) is connected with the water inlet pipe (57), and the water inlet pipe (57) downwards penetrates through the fixing frame (51) and the channel (64) and stretches into the water storage cavity (69);

the water tank (52) is connected with a plurality of branch pipes (53), a plurality of first water outlet pipes (54) are arranged on the branch pipes (53), and the plurality of first water outlet pipes (54) are located above the plurality of second through holes (33) in a one-to-one correspondence mode.

4. A quantitative watering type intelligent flower placing rack for gardens according to claim 3, characterized in that a limiting bracket (8) is arranged on the base (1), and the limiting bracket (8) comprises a rotating rod (81) and a toggle rod (82);

the device comprises a device cavity (10), a first rotating seat (14) and a first power device (15), wherein the first rotating seat (14) and the first power device (15) are arranged in the device cavity (10), the lower end of a rotating rod (81) extends into the device cavity (10) and is fixed with the first rotating seat (14), and the first power device (15) is in transmission connection with the first rotating seat (14) to drive the first rotating seat (14) to rotate;

one end of the poking rod (82) is connected with the rotating rod (81), and the poking rod (82) is horizontally arranged; the toggle rods (82) are arranged in a plurality along the vertical direction, and the number of the toggle rods (82) is the same as that of the planting assemblies (4).

5. The quantitative watering type intelligent flower placement frame for gardens according to claim 4, wherein a light supplementing component (9) is arranged on the base (1), the light supplementing component (9) comprises a light bar support (91), and a plurality of light bars (92) are arranged on the light bar support (91).