Disclosure of Invention
The technical problem to be solved by the invention is as follows: to the not enough of prior art existence, provide a structural design novel aerial fog cultivation equipment, possess air purification's effect when guaranteeing that plant daylighting is even.
In order to realize the purpose of the invention, the following technical scheme is adopted for realizing the purpose: a multifunctional plant aeroponic cultivation device comprises a bracket, a plurality of longitudinally arranged planting components rotatably arranged at the lower end of the bracket, and water tanks arranged below the planting components;
the upper end of the bracket is fixedly connected with a horizontal mounting plate, the upper end of the mounting plate is fixedly connected with a solar panel mounting frame, and the upper end of the solar panel mounting frame is provided with a solar panel;
the field planting assembly comprises a belt wheel horizontally arranged above the mounting plate, a bearing connected between the mounting plate and the belt wheel, a field planting pipe coaxially connected to the lower end of the belt wheel, a plurality of field planting elbows arranged on the outer wall of the field planting pipe and communicated with the inside of the field planting pipe, a water inlet pipe coaxially arranged in the field planting pipe, and a fixing seat fixedly connected to the lower end of the water inlet pipe and fixedly arranged at the bottom in the water tank;
a driving motor is installed on the installation plate, and belt wheels on the planting assemblies are in transmission connection with the driving motor through transmission belts; the driving motor and the solar cell panel are electrically connected with a controller;
the upper end of the water inlet pipe is fixedly connected with a water spraying lower joint, and the upper end of the water spraying lower joint is fixedly connected with a water spraying upper joint; the underwater spraying joint comprises a tubular lower plug-in connector fixedly plugged with the upper end of the water inlet pipe, a limiting part which is positioned in the middle of the lower plug-in connector and is integrally connected with the lower plug-in connector through a plurality of connecting ribs, and a connecting column which is integrally connected with the upper end of the limiting part; the connecting column, the limiting part and the lower plug connector are sequentially communicated, the diameter of the outer wall of the upper part of the lower plug connector is equal to that of the outer wall of the water inlet pipe, and the periphery of the upper end part of the lower plug connector is an arc surface; a water through opening is formed between the adjacent connecting ribs;
the water spray upper joint comprises a circular groove-shaped water spray cover with a downward opening, a water outlet pipe part integrally connected to the middle position of the upper end of the water spray cover, and a rotary joint integrally connected to the upper end of the water outlet pipe part; an annular water outlet gap is formed between the inner wall of the water spraying cover and the outer wall of the water spraying lower connector; the inner wall of the belt wheel is connected with a rotating frame, and the rotating joint is rotatably connected with the middle of the rotating frame;
more than two spraying interfaces and more than two water spraying ports for spraying water flow towards the inner wall of the planting pipe are formed on the side wall of the water outlet pipe part, and each spraying interface is connected with a spraying head for spraying in a space between the planting pipe and the water inlet pipe;
a piston body used for plugging the water spraying opening is arranged in the water outlet pipe part in a sliding mode, and a spring is arranged between the upper end of the piston body and the lower end of the rotating joint;
when the water pressure in the water outlet pipe part is smaller than a set water spraying pressure value, the water spraying opening is blocked by the piston body and is in a closed state; when the water pressure in the water outlet pipe part is greater than the set water spraying pressure value, the spring at the upper end of the piston body is compressed to enable the piston body to move upwards, so that the water spraying opening is in a conducting state;
the side wall of the planting pipe is uniformly provided with planting elbow jacks, and elbow positioning holes are formed in the side wall of the planting pipe above each planting elbow jack; the whole fixed planting elbow is L-shaped, one end of the fixed planting elbow is a socket end of the fixed planting basket, and the other end of the fixed planting elbow is a connecting end of the fixed planting pipe; two U-shaped notches are symmetrically formed in two sides of the planting elbow at the socket end part of the planting basket, an elastic sheet is formed on the planting elbow in the U-shaped notch range, two positioning convex strips are formed on the outer wall of the elastic sheet, and the two positioning convex strips are clamped on the inner wall surface and the outer wall surface of the planting pipe respectively; the position of the planting elbow, which is close to the socket end of the planting basket, is integrally connected with a positioning inserted rod which is inserted into the elbow positioning hole and used for enabling the socket end of the planting basket to be vertically upward;
the water tank comprises a water receiving tank body in the shape of a long rectangular tank and a water purifying tank body connected to one side of the water receiving tank body in the length direction; a water pump is installed in the water purifying tank body, the water outlet end of the water pump is connected with a water delivery pipe, the water outlet end of the water delivery pipe is respectively communicated with the fixing seats of the planting assemblies through a three-way joint, and the fixing seats are communicated with the water inlet pipe;
two cylindrical filter mounting openings which are longitudinally arranged are formed at the lower end of the water receiving tank body and close to the water purifying tank body, a waste water tank mounting opening which is horizontally arranged is formed below the two filter mounting openings on the water tank, a filtering assembly is slidably mounted in each of the two filter mounting openings, and a waste water box is mounted in each waste water tank mounting opening;
two waste water grooves are formed in the waste water box; more than two upper lugs are formed at the inner bottom of the waste water tank mounting opening, and a lower inclined plane is formed at one side of the upper lugs, which is close to the waste water tank mounting opening; a clamping push plate is slidably mounted at the inner bottom of the waste water tank mounting opening, lower convex blocks with the same number as the upper convex blocks are formed at the lower end of the clamping push plate, and an upper inclined plane is formed on one side, close to the upper convex blocks, of the lower convex blocks; when the lower convex block is positioned above the upper convex block, the upper ends of the two waste water tanks are respectively and hermetically abutted against the lower ends of the two filter mounting ports; when the lower convex block is separated from the upper convex block, the upper ends of the two waste water tanks are separated from the lower ends of the two filter mounting openings respectively;
pulleys in rolling connection with the lower end face of the waste water box are mounted on the upper portions of the two sides of the clamping push plate;
the filter assembly comprises a tubular filter cartridge, a filter plate arranged at the lower part of the filter cartridge and an electric cylinder for driving the filter cartridge to move up and down; the filter plate is a ceramic filter plate;
the inner wall of the lower part of the filter cylinder is provided with a mounting step for positioning the filter plate, and the lower end of the filter cylinder is in threaded connection with a filter plate clamping ring for fixing the filter plate on the filter cylinder; the side wall of the upper part of the filter cartridge is integrally connected with a drainage tank of which the water outlet end is positioned above the water purifying tank body;
two limiting rings are formed at the lower part of the outer wall of the filter cylinder, a limiting groove is formed between the two limiting rings, a sealing ring is sleeved in the limiting groove, and the outer wall of the sealing ring is in sliding connection with the inner wall of the filter mounting port; a longitudinal through groove is formed between the limiting groove and the lower end of the lower limiting ring on the outer wall of the filter cylinder, and the two limiting rings, the longitudinal through groove and the sealing ring are matched to form a one-way valve which is communicated in one way from top to bottom;
two symmetrically-arranged limiting columns are formed on the inner wall of the filter cartridge, longitudinal sliding grooves are symmetrically formed in the upper portions of the two limiting columns, a linkage sliding block is longitudinally slidably mounted between the longitudinal sliding grooves on the two sides, a sliding block limiting part used for preventing the linkage sliding block from being separated from the upper end of the longitudinal sliding groove is connected to the upper portion in the filter cartridge, and side through holes are formed in the upper portion of the sliding block limiting part at least in the position opposite to the drainage groove;
the lower end of an output rod of the electric cylinder is fixedly connected with the upper end of the linkage sliding block, the electric cylinder is fixedly arranged on a filtering bracket, and the filtering bracket is fixedly arranged on the water tank;
a brush holder is arranged below the filter plate and comprises an outer connecting ring and a plurality of connecting rod bodies which are integrally connected with the inner periphery of the outer connecting ring in a circumferential array mode; the upper end surface of each connecting rod body is uniformly connected with bristles, each connecting rod body is also rotatably provided with a steel driven roller which is in rolling connection with the lower end surface of the filter plate, and the rotating shaft direction of the driven roller is arranged along the radius direction of the outer connecting ring; an inner convex ring is formed at the lower part of the inner periphery of the filter plate clamping ring, an annular groove is formed between the inner convex ring and the filter plate, and an outer connecting ring of the brush holder is limited in the annular groove;
a driving frame is arranged between the filter plate and the limiting column in the filter cylinder, the driving frame comprises an annular outer connecting ring with a gap between the outer diameter and the inner wall of the filter cylinder, a circular-tube-shaped driven nut piece positioned at the center of the outer connecting ring, and a plurality of driving rod bodies which are integrally connected between the outer connecting ring and the lower end of the driven nut piece, each driving rod body is rotatably provided with a roller which is in rolling connection with the upper end surface of the filter plate, and the lower end of each driving rod body is also fixedly connected with a driving magnet which is in magnetic linkage with the driven roller to drive the brush frame to rotate;
the lower end of the linkage sliding block is integrally connected with a driving screw rod which is in threaded transmission connection with the driven nut piece; the pitch of the transmission thread between the driving screw rod and the driven nut piece is 1.5 to 3 times of the diameter of the driving screw rod; the linkage sliding block drives the driving frame to rotate in the process of sliding up and down along the longitudinal sliding groove;
when one electric cylinder drives one filtering component to ascend, the other electric cylinder drives the other filtering component to descend.
The invention provides another multifunctional plant aerial fog cultivation device which comprises a support, a plurality of longitudinally arranged planting components and water tanks, wherein the plurality of longitudinally arranged planting components are rotatably installed at the lower end of the support;
the upper end of the bracket is fixedly connected with a horizontal mounting plate, the upper end of the mounting plate is fixedly connected with a solar panel mounting frame, and the upper end of the solar panel mounting frame is provided with a solar panel;
the field planting assembly comprises a belt wheel horizontally arranged above the mounting plate, a bearing connected between the mounting plate and the belt wheel, a field planting pipe coaxially connected to the lower end of the belt wheel, a plurality of field planting elbows arranged on the outer wall of the field planting pipe and communicated with the inside of the field planting pipe, a water inlet pipe coaxially arranged in the field planting pipe, and a fixing seat fixedly connected to the lower end of the water inlet pipe and fixedly arranged at the bottom in the water tank;
a driving motor is installed on the installation plate, and belt wheels on the planting assemblies are in transmission connection with the driving motor through transmission belts; the driving motor and the solar cell panel are electrically connected with a controller;
the upper end of the water inlet pipe is fixedly connected with a water spraying lower joint, and the upper end of the water spraying lower joint is fixedly connected with a water spraying upper joint; the underwater spraying joint comprises a tubular lower plug-in connector fixedly plugged with the upper end of the water inlet pipe, a limiting part which is positioned in the middle of the lower plug-in connector and is integrally connected with the lower plug-in connector through a plurality of connecting ribs, and a connecting column which is integrally connected with the upper end of the limiting part; the connecting column, the limiting part and the lower plug connector are sequentially communicated, the diameter of the outer wall of the upper part of the lower plug connector is equal to that of the outer wall of the water inlet pipe, and the periphery of the upper end part of the lower plug connector is an arc surface; a water through opening is formed between the adjacent connecting ribs;
the water spray upper joint comprises a circular groove-shaped water spray cover with a downward opening, a water outlet pipe part integrally connected to the middle position of the upper end of the water spray cover, and a rotary joint integrally connected to the upper end of the water outlet pipe part; an annular water outlet gap is formed between the inner wall of the water spraying cover and the outer wall of the water spraying lower connector; the inner wall of the belt wheel is connected with a rotating frame, and the rotating joint is rotatably connected with the middle of the rotating frame;
more than two spraying interfaces and more than two water spraying ports for spraying water flow towards the inner wall of the planting pipe are formed on the side wall of the water outlet pipe part, and each spraying interface is connected with a spraying head for spraying in a space between the planting pipe and the water inlet pipe;
a piston body used for plugging the water spraying opening is arranged in the water outlet pipe part in a sliding mode, and a spring is arranged between the upper end of the piston body and the lower end of the rotating joint;
when the water pressure in the water outlet pipe part is smaller than a set water spraying pressure value, the water spraying opening is blocked by the piston body and is in a closed state; when the water pressure in the water outlet pipe part is larger than the set water spraying pressure value, the spring at the upper end of the piston body is compressed to enable the piston body to move upwards, and therefore the water spraying opening is in a conducting state.
As a preferable scheme: the side wall of the planting pipe is uniformly provided with planting elbow jacks, and elbow positioning holes are formed in the side wall of the planting pipe above each planting elbow jack; the whole fixed planting elbow is L-shaped, one end of the fixed planting elbow is a socket end of the fixed planting basket, and the other end of the fixed planting elbow is a connecting end of the fixed planting pipe; two U-shaped notches are symmetrically formed in two sides of the planting elbow at the socket end part of the planting basket, an elastic sheet is formed on the planting elbow in the U-shaped notch range, two positioning convex strips are formed on the outer wall of the elastic sheet, and the two positioning convex strips are clamped on the inner wall surface and the outer wall surface of the planting pipe respectively; the position of the fixed planting elbow, which is close to the socket end of the fixed planting basket, is integrally connected with a positioning inserted rod which is inserted into the elbow positioning hole and used for enabling the socket end of the fixed planting basket to vertically face upwards.
As a preferable scheme: the water tank comprises a water receiving tank body in the shape of a long rectangular tank and a water purifying tank body connected to one side of the water receiving tank body in the length direction; the water purification device is characterized in that a water pump is installed in the water purification tank body, the water outlet end of the water pump is connected with a water delivery pipe, the water outlet end of the water delivery pipe is respectively communicated with the fixing seats of the planting assemblies through three-way joints, and the fixing seats are communicated with the water inlet pipe.
As a preferable scheme: two cylindrical filter mounting openings which are longitudinally arranged are formed at the lower end of the water receiving tank body and close to the water purifying tank body, a waste water tank mounting opening which is horizontally arranged is formed below the two filter mounting openings on the water tank, a filtering assembly is slidably mounted in each of the two filter mounting openings, and a waste water box is mounted in each waste water tank mounting opening;
two waste water grooves are formed in the waste water box; more than two upper lugs are formed at the inner bottom of the waste water tank mounting opening, and a lower inclined plane is formed at one side of the upper lugs, which is close to the waste water tank mounting opening; a clamping push plate is slidably mounted at the inner bottom of the waste water tank mounting opening, lower convex blocks with the same number as the upper convex blocks are formed at the lower end of the clamping push plate, and an upper inclined plane is formed on one side, close to the upper convex blocks, of the lower convex blocks; when the lower convex block is positioned above the upper convex block, the upper ends of the two waste water tanks are respectively and hermetically abutted against the lower ends of the two filter mounting ports; when the lower convex block is separated from the upper convex block, the upper ends of the two waste water tanks are separated from the lower ends of the two filter mounting openings respectively;
and pulleys in rolling connection with the lower end face of the wastewater box are mounted on the upper parts of the two sides of the clamping push plate.
As a preferable scheme: the filter assembly comprises a tubular filter cartridge, a filter plate arranged at the lower part of the filter cartridge and an electric cylinder for driving the filter cartridge to move up and down; the filter plate is a ceramic filter plate.
As a preferable scheme: the inner wall of the lower part of the filter cylinder is provided with a mounting step for positioning the filter plate, and the lower end of the filter cylinder is in threaded connection with a filter plate clamping ring for fixing the filter plate on the filter cylinder; the side wall of the upper part of the filter cartridge is integrally connected with a drainage tank of which the water outlet end is positioned above the water purifying tank body;
two limiting rings are formed at the lower part of the outer wall of the filter cylinder, a limiting groove is formed between the two limiting rings, a sealing ring is sleeved in the limiting groove, and the outer wall of the sealing ring is in sliding connection with the inner wall of the filter mounting port; and a longitudinal through groove is formed between the outer wall of the filter cylinder and the lower end of the limiting ring from the limiting groove to the lower part, and the two limiting rings, the longitudinal through groove and the sealing ring are matched to form a one-way valve which is communicated in one way from top to bottom.
As a preferable scheme: two symmetrically-arranged limiting columns are formed on the inner wall of the filter cartridge, longitudinal sliding grooves are symmetrically formed in the upper portions of the two limiting columns, a linkage sliding block is longitudinally slidably mounted between the longitudinal sliding grooves on the two sides, a sliding block limiting part used for preventing the linkage sliding block from being separated from the upper end of the longitudinal sliding groove is connected to the upper portion in the filter cartridge, and side through holes are formed in the upper portion of the sliding block limiting part at least in the position opposite to the drainage groove;
the lower end of an output rod of the electric cylinder is fixedly connected with the upper end of the linkage sliding block, the electric cylinder is fixedly arranged on a filtering bracket, and the filtering bracket is fixedly arranged on the water tank;
a brush holder is arranged below the filter plate and comprises an outer connecting ring and a plurality of connecting rod bodies which are integrally connected with the inner periphery of the outer connecting ring in a circumferential array mode; the upper end surface of each connecting rod body is uniformly connected with bristles, each connecting rod body is also rotatably provided with a steel driven roller which is in rolling connection with the lower end surface of the filter plate, and the rotating shaft direction of the driven roller is arranged along the radius direction of the outer connecting ring; an inner convex ring is formed at the lower part of the inner periphery of the filter plate clamping ring, an annular groove is formed between the inner convex ring and the filter plate, and an outer connecting ring of the brush holder is limited in the annular groove;
a driving frame is arranged between the filter plate and the limiting column in the filter cylinder, the driving frame comprises an annular outer connecting ring with a gap between the outer diameter and the inner wall of the filter cylinder, a circular-tube-shaped driven nut piece positioned at the center of the outer connecting ring, and a plurality of driving rod bodies which are integrally connected between the outer connecting ring and the lower end of the driven nut piece, each driving rod body is rotatably provided with a roller which is in rolling connection with the upper end surface of the filter plate, and the lower end of each driving rod body is also fixedly connected with a driving magnet which is in magnetic linkage with the driven roller to drive the brush frame to rotate;
the lower end of the linkage sliding block is integrally connected with a driving screw rod which is in threaded transmission connection with the driven nut piece; the pitch of the transmission thread between the driving screw rod and the driven nut piece is 1.5 to 3 times of the diameter of the driving screw rod; the linkage sliding block drives the driving frame to rotate in the process of sliding up and down along the longitudinal sliding groove;
when one electric cylinder drives one filtering component to ascend, the other electric cylinder drives the other filtering component to descend.
As a preferable scheme: the part of the bracket below the mounting plate is covered with a cover body made of a transparent film or an acrylic plate, and the upper part of the cover body is connected with an air delivery pipe communicated to the indoor.
As a preferable scheme: the rear ends of the spray heads extend into the water outlet pipe part, spray head matching openings with downward openings are formed in the periphery of the lower end of the piston body corresponding to the positions of the spray heads, and the side walls of the spray head matching openings are in sliding connection with the outer side walls of the spray heads; and a piston sealing ring is fixedly arranged on the periphery of the piston body.
Compared with the prior art, the invention has the beneficial effects that:
the invention is beneficial to the growth of plants, can purify the air and is suitable for planting the plants on the balcony of a family.
After the water pump entered the water inlet pipe, the water outlet gap between water spray lower clutch and the water spray upper clutch was spout from the water pump to along the downward high-speed flow of inlet tube outer wall, the rivers that flow downwards made field planting pipe upper end form the negative pressure, made the air of field planting pipe top pour into in the field planting pipe and along with rivers downward flow. The intraductal mobile air of field planting makes the root system of plant can carry out abundant respiration on the one hand to the ability of reinforcing root system absorption nutrient (the root system of plant absorbs transportation moisture and nourishment and all needs the energy of consuming, these energies are provided by root cell's respiration, the respiration is stronger, then the absorbing action of root system is stronger), when on the other hand air was from the intraductal flow of field planting, the particulate matter that carries in the air can be attached to the root system of plant, the root system of plant has played the purifying action to the intraductal air of field planting of flowing through promptly.
Further, the spray head sprays water mist (nutrient solution is added into the water in the water tank) into the planting pipe to provide water and nutrients for the plant root system; meanwhile, the water mist can capture dust particles in air flowing through the planting pipe, and the water mist with the dust particles is finally attached to plant roots or falls into a water tank; meanwhile, the vaporization of water mist can be accelerated by the flowing air in the field planting pipe, the vaporization of the water mist can reduce the temperature in the field planting pipe in summer, and the influence of overhigh temperature of a plant root system on normal growth is avoided.
Every interval a period (1 to 24 hours), the controller increase the output of water pump for the inlet tube increases together with the water pressure in the water spray top connection, the spring atress of piston body upper end increases the compression and makes piston body rebound, thereby make the water jet switch on, the water jet sprays rivers to the field planting inside pipe wall, rivers flow along the field planting inside pipe wall, rivers flow downwards in-process have partly can receive blockking of field planting elbow, and trickle downwards along the root system of plant, wash away to the plant root system, the dust granule attached to on the root system can fall into the basin along with rivers.
According to the invention, water in the butt joint water tank is filtered by the filtering component and then discharged into the water purifying tank body, so that on one hand, the water spraying head and the atomizing head are prevented from being blocked by impurities in the water, on the other hand, the impurities in the water tank are stored in the wastewater box after being filtered, only regular cleaning is needed, the water in the water tank can be continuously used for a long time, and frequent water replacement is not needed.
At the ascending or initial stage that descends of electric cylinder drive cartridge filter, the linkage slider can upwards or one section distance of downstream along vertical spout, the linkage slider is last, the lower slip in-process drives the carriage and rotates, drive magnet on the carriage and steel material's driven gyro wheel between drive wheel drive brush yoke through magnetic force, thereby make the brush hair on the brush yoke under to the filter terminal surface scrub, make the filth and the filter of terminal surface break away from under the attached to the filter, it is less to make the filter downstream move and carry out filterable in-process resistance.
Drawings
Fig. 1 is a schematic structural view of the present invention.
Fig. 2 is a schematic structural view of the planting assembly.
Fig. 3 is a schematic cross-sectional structure of the planting assembly.
Fig. 4 is an enlarged view of the structure of the portion a of fig. 3.
Fig. 5 is an exploded view of the implant assembly in cross-section.
Fig. 6 is a schematic view of the structure of the water spray upper joint, the water spray lower joint and the piston body part.
Fig. 7 is a schematic view of the structure of the water jet in the on state.
Fig. 8 is a schematic structural view of a planting elbow.
Fig. 9 is a schematic structural view of the water tank and components mounted in the water tank.
FIG. 10 is a schematic view showing the structure of the water tub and the components mounted in the water tub in an exploded state.
Fig. 11 is a schematic view showing a part of the operation state of the filter assembly.
Fig. 12 is a schematic view of the mounting structure of the filter assembly portion.
Fig. 13 is an exploded view of the filter assembly.
Fig. 14 is a schematic structural view of the driving frame.
Fig. 15 is a schematic structural view of a brush holder.
1. A support; 10. mounting a plate; 11. a solar panel; 111. a solar panel mounting frame;
2. a field planting assembly;
21. planting pipes; 211. inserting holes of the fixed planting elbows; 212. positioning holes of the elbow;
22. a pulley; 222. a rotating frame; 23. a bearing;
24. planting the elbows; 240. a U-shaped notch; 241. an elastic sheet; 2411. positioning the convex strip; 242. positioning the inserted rod;
25. a water inlet pipe; 251. spraying an underwater joint; 2511. a lower plug; 2512. a limiting part; 2513. connecting columns; 2514. connecting ribs;
252. a water spraying upper joint; 2521. a water spraying cover; 2522. a water outlet pipe part; 2523. a rotating joint; 2524. a spray interface; 2525. a water jet;
253. a piston body; 2531. a spray head fitting port; 2532. a piston seal ring; 2533. a spring;
254. a spray head;
26. a fixed seat;
3. a drive motor; 31. a transmission belt;
4. a water tank; 41. a water receiving tank body; 42. a water purifying tank body; 421. an upper bump; 4211. a lower inclined plane; 43. a wastewater tank mounting port; 44. a filter mounting port;
5. a filter assembly; 51. a filtration rack; 52. a waste water box; 521. a wastewater tank; 53. an electric cylinder;
54. clamping the push plate; 541. a pulley; 542. a lower bump; 5421. an upper inclined plane;
55. a linkage slide block; 551. a drive screw;
56. a driving frame; 561. a driven nut member; 562. an outer connecting ring; 563. a driving rod body; 564. a roller; 565. a drive magnet;
57. a brush holder; 571. an outer connecting ring; 572. connecting the rod body; 573. a driven roller; 574. brushing;
58. a filter plate; 59. a slider limit piece; 591. a side through hole;
50. a filter cartridge; 501. a water discharge tank; 502. a limiting column; 503. a longitudinal chute; 504. a seal ring; 505. a limiting ring; 506. a longitudinal through groove; 507. a filter plate clamping ring;
6. a water pump; 61. a water delivery pipe.
Example 1
Referring to fig. 1 to 15, the present embodiment is a multifunctional plant aerosol cultivation device, which includes a frame 1, a plurality of longitudinally-arranged planting assemblies 2 rotatably installed at the lower end of the frame, and water tanks 4 disposed below the planting assemblies.
Horizontal mounting panel 10 of support upper end fixedly connected with, a solar panel mounting bracket 111 of mounting panel upper end fixedly connected with, a solar cell panel 11 is installed to solar panel mounting bracket upper end.
The field planting subassembly is including the band pulley 22 that is located the level setting of mounting panel top, connects bearing 23 between mounting panel and band pulley (the bearing is radial axial composite bearing), and coaxial coupling is at the field planting pipe 21 of band pulley lower extreme, install on the field planting pipe outer wall and with a plurality of field planting elbows 24 of the inside intercommunication of field planting pipe, the intraductal inlet tube 25 of coaxial setting in the field planting to and fixed connection is at inlet tube lower extreme and fixed mounting the fixing base 26 of bottom in the basin.
A driving motor 3 is installed on the installation plate, and belt wheels on the planting assemblies are in transmission connection with the driving motor through a transmission belt 31; the driving motor and the solar cell panel are electrically connected with a controller. The controller is further connected with a storage battery, when the controller detects that the current output by the solar cell panel is larger than a set value, the controller judges that sunlight irradiates, and then the controller controls the driving motor to drive each planting assembly to rotate. When no sunlight shines directly in cloudy days, rainy days or at night, the output current of the solar panel is small, and a small amount of electric energy generated by the solar panel is stored in the storage battery for the controller to use. When sunlight is not directly radiated, only diffuse reflection light exists on the periphery of the planting assembly, so that the planting assembly does not need to rotate, and the driving motor does not need to rotate.
The upper end of the water inlet pipe is fixedly connected with a water spraying lower joint 251, and the upper end of the water spraying lower joint is fixedly connected with a water spraying upper joint 252; the underwater spray joint comprises a tubular lower plug-in connector 2511 fixedly plugged with the upper end of the water inlet pipe, a limiting part 2512 which is positioned in the middle of the lower plug-in connector and integrally connected with the lower plug-in connector through a plurality of connecting ribs, and a connecting column 2513 which is integrally connected with the upper end of the limiting part; the connecting column, the limiting part and the lower plug connector are sequentially communicated, the diameter of the outer wall of the upper part of the lower plug connector is equal to that of the outer wall of the water inlet pipe, and the periphery of the upper end part of the lower plug connector is an arc surface; and a water through opening is formed between the adjacent connecting ribs.
The upper water spray joint comprises a circular groove-shaped water spray cover 2521 with a downward opening, a water outlet pipe portion 2522 integrally connected to the middle position of the upper end of the water spray cover, and a rotary joint 2523 integrally connected to the upper end of the water outlet pipe portion; an annular water outlet gap is formed between the inner wall of the water spraying cover and the outer wall of the water spraying lower connector; the inner wall of the belt wheel is connected with a rotating frame 222, and the rotating joint is rotatably connected with the middle of the rotating frame.
The connecting column is fixedly inserted with the lower end of the water outlet pipe, and the upper end of the limiting part is abutted against the inner top surface of the water spraying cover.
The shaping has more than two spraying interfaces 2524 and more than two water jet 2525 that are used for towards the inside wall jet stream of field planting pipe on the play outlet pipe portion lateral wall, is connected with the atomising head 254 that is used for spraying in the space between field planting pipe and inlet tube on each spraying interface.
A piston body 253 used for blocking the water spraying opening is arranged in the water outlet pipe part in a sliding mode, and a spring 2533 is arranged between the upper end of the piston body and the lower end of the rotary joint.
The rear ends of the spray heads extend into the water outlet pipe part, spray head matching openings 2531 with downward openings are formed in the periphery of the lower end of the piston body at positions corresponding to the spray heads, and the side walls of the spray head matching openings are in sliding connection with the outer side walls of the spray heads; and a piston sealing ring 2532 is fixedly arranged on the periphery of the piston body. The piston sealing ring can be provided with a plurality of sealing rings for preventing water from flowing to the upper part of the piston body.
When the water pressure in the water outlet pipe part is smaller than a set water spraying pressure value, the water spraying opening is blocked by the piston body and is in a closed state; when the water pressure in the water outlet pipe part is larger than the set water spraying pressure value, the spring at the upper end of the piston body is compressed to enable the piston body to move upwards, and therefore the water spraying opening is in a conducting state.
The upper end of the water inlet pipe is fixedly connected with a water spraying lower joint 251, and the upper end of the water spraying lower joint is fixedly connected with a water spraying upper joint 252; the underwater spray joint comprises a tubular lower plug-in connector 2511 fixedly plugged with the upper end of the water inlet pipe, a limiting part 2512 which is positioned in the middle of the lower plug-in connector and integrally connected with the lower plug-in connector through a plurality of connecting ribs, and a connecting column 2513 which is integrally connected with the upper end of the limiting part; the diameter of the outer wall of the upper part of the lower plug connector is equal to that of the outer wall of the water inlet pipe, and the periphery of the upper end part of the lower plug connector is an arc surface; and a water through opening is formed between every two adjacent connecting ribs, and water in the water inlet pipe enters the upper part of the underwater spraying joint through the water through opening.
The upper water spraying joint is in a circular groove shape with an opening facing, and an annular water outlet gap is formed between the inner wall of the upper water spraying joint and the outer wall of the lower water spraying joint; the middle of the upper end of the water spray upper joint is integrally connected with a rotary joint 2523, the inner wall of the belt wheel is connected with a rotary frame 222, and the rotary joint is rotatably connected with the middle of the rotary frame.
The side wall of the planting pipe is uniformly provided with planting elbow jacks 211, and elbow positioning holes 212 are formed in the side wall of the planting pipe above each planting elbow jack; the whole fixed planting elbow is L-shaped, one end of the fixed planting elbow is a socket end of the fixed planting basket, and the other end of the fixed planting elbow is a connecting end of the fixed planting pipe; two U-shaped notches 240 are symmetrically formed in two sides of the planting elbow at the socket end part of the planting basket, an elastic sheet 241 is formed on the planting elbow in the U-shaped notch range, two positioning convex strips 2411 are formed on the outer wall of the elastic sheet, and the two positioning convex strips are clamped on the inner wall surface and the outer wall surface of the planting pipe respectively; the position of the planting elbow close to the socket end of the planting basket is integrally connected with a positioning inserted rod 242 which is inserted into the elbow positioning hole and used for enabling the socket end of the planting basket to face upwards vertically.
The water tank 4 comprises a water receiving tank body 41 in the shape of a long rectangular tank and a water purifying tank body 42 connected to one side of the water receiving tank body in the length direction; the water purification device is characterized in that a water pump 6 is installed in the water purification tank body, the water outlet end of the water pump is connected with a water delivery pipe 61, the water outlet end of the water delivery pipe is respectively communicated with the fixing seats of the planting assemblies through three-way joints, and the fixing seats are communicated with the water inlet pipe.
After the water pump entered the water inlet pipe, the water outlet gap between water spray lower clutch and the water spray upper clutch was spout from the water pump to along the downward high-speed flow of inlet tube outer wall, the rivers that flow downwards made field planting pipe upper end form the negative pressure, made the air of field planting pipe top pour into in the field planting pipe and along with rivers downward flow. The intraductal mobile air of field planting makes the root system of plant can carry out abundant respiration on the one hand to the ability of reinforcing root system absorption nutrient (the root system of plant absorbs transportation moisture and nourishment and all needs the energy of consuming, these energies are provided by root cell's respiration, the respiration is stronger, then the absorbing action of root system is stronger), when on the other hand air was from the intraductal flow of field planting, the particulate matter that carries in the air can be attached to the root system of plant, the root system of plant has played the purifying action to the intraductal air of field planting of flowing through promptly.
Further, the spray head sprays water mist (nutrient solution is added into the water in the water tank) into the planting pipe to provide water and nutrients for the plant root system; meanwhile, the water mist can capture dust particles in air flowing through the planting pipe, and the water mist with the dust particles is finally attached to plant roots or falls into a water tank; meanwhile, the vaporization of water mist can be accelerated by the flowing air in the field planting pipe, the vaporization of the water mist can reduce the temperature in the field planting pipe in summer, and the influence of overhigh temperature of a plant root system on normal growth is avoided.
Every interval a period (1 to 24 hours), the controller increase the output of water pump for the inlet tube increases together with the water pressure in the water spray top connection, the spring atress of piston body upper end increases the compression and makes piston body rebound, thereby make the water jet switch on, the water jet sprays rivers to the field planting inside pipe wall, rivers flow along the field planting inside pipe wall, rivers flow downwards in-process have partly can receive blockking of field planting elbow, and trickle downwards along the root system of plant, wash away to the plant root system, the dust granule attached to on the root system can fall into the basin along with rivers.
Example 2
The present embodiment is further modified from embodiment 1 as follows: connect the position shaping of water tank body 41 lower extreme near the water purification cell body to have two vertically columniform filter installing ports 44 that set up, it has the waste water tank installing port 43 of a level setting to lie in two filter installing port below shaping on the basin, two each slidable mounting has a filtering component 5 in the filter installing port, install a waste water box 52 in the waste water tank installing port.
Two waste water grooves 521 are formed in the waste water box 52; more than two upper lugs 421 are formed at the inner bottom of the waste water tank mounting opening, and a lower inclined surface 4211 is formed at one side of the upper lugs close to the opening of the waste water tank mounting opening; a clamping push plate 54 is slidably mounted at the inner bottom of the waste water tank mounting opening, lower convex blocks 542 with the same number as the upper convex blocks are formed at the lower end of the clamping push plate, and an upper inclined plane 5421 is formed on one side of each lower convex block, which is close to the upper convex block; when the lower convex block is positioned above the upper convex block, the upper ends of the two waste water tanks are respectively and hermetically abutted against the lower ends of the two filter mounting ports; when the lower convex block is separated from the upper convex block, the upper ends of the two waste water tanks are separated from the lower ends of the two filter mounting openings respectively.
And pulleys 541 which are in rolling connection with the lower end face of the waste water box are arranged on the upper parts of the two sides of the clamping push plate.
The clamping push plate is used for driving the wastewater box to move up and down, so that a wastewater tank on the wastewater box is sealed or separated from the lower end of the filter mounting opening.
The filter assembly comprises a circular tube-shaped filter cartridge 50, a filter plate 58 mounted at the lower part of the filter cartridge, and an electric cylinder 53 for driving the filter cartridge to move up and down; the filter plate is a ceramic filter plate.
The inner wall of the lower part of the filter cylinder is provided with a mounting step for positioning the filter plate, and the lower end of the filter cylinder is in threaded connection with a filter plate clamping ring 507 for fixing the filter plate on the filter cylinder; the side wall of the upper part of the filter cartridge is integrally connected with a drainage tank 501 of which the water outlet end is positioned above the water purifying tank body.
Two limiting rings 505 are formed at the lower part of the outer wall of the filter cylinder, a limiting groove is formed between the two limiting rings, a sealing ring 504 is sleeved in the limiting groove, and the outer wall of the sealing ring is in sliding connection with the inner wall of the filter mounting port; a longitudinal through groove 506 is formed between the limiting groove and the lower end of the limiting ring on the outer wall of the filter cylinder, and the two limiting rings, the longitudinal through groove and the sealing ring are matched to form a one-way valve which is communicated in one way from top to bottom. When the filter cartridge moves downwards relative to the filter mounting opening, the sealing ring is in sealing abutment with the limiting ring positioned above the filter cartridge, so that the one-way valve is in a stop state; when the filter cartridge moves upwards relative to the filter mounting opening, the sealing ring abuts against the limiting ring positioned below the sealing ring, the upper portion and the lower portion of the sealing ring are communicated through the longitudinal through groove, the one-way valve is in a conduction state, negative pressure is formed below the filter plate in the filter mounting opening, and water in the water receiving groove flows into the filter mounting opening from the one-way valve between the filter cartridge and the filter mounting opening (the resistance of water flowing through the filter plate is much larger than that of the one-way valve, so that the water flowing through the filter plate can be ignored when the one-way valve is conducted).
The filter cartridge is characterized in that two limiting columns 502 which are symmetrically arranged are formed on the inner wall of the filter cartridge, longitudinal sliding grooves 503 are symmetrically formed on the upper portions of the two limiting columns, a linkage sliding block 55 is longitudinally slidably mounted between the longitudinal sliding grooves on the two sides, a sliding block limiting part 59 used for blocking the linkage sliding block from being separated from the upper end of the longitudinal sliding groove is connected to the upper portion in the filter cartridge, and side through holes 591 are formed in the upper portion of the sliding block limiting part at least in the position opposite to the drainage groove.
The lower end of an output rod of the electric cylinder is fixedly connected with the upper end of the linkage sliding block, the electric cylinder is fixedly arranged on a filtering bracket 51, and the filtering bracket is fixedly arranged on the water tank 4.
A brush holder 57 is arranged below the filter plate, and comprises an outer connecting ring 571 and a plurality of connecting rod bodies 572 integrally connected with the inner periphery of the outer connecting ring in a circumferential array mode; bristles 574 are uniformly connected to the upper end face of each connecting rod body, a steel driven roller 573 in rolling connection with the lower end face of the filter plate is rotatably mounted on each connecting rod body, and the rotating shaft direction of the driven roller is arranged along the radius direction of the outer connecting ring; an inner convex ring is formed on the lower portion of the inner periphery of the filter plate clamping ring, an annular groove is formed between the inner convex ring and the filter plate, and the outer connecting ring of the brush holder is limited in the annular groove. When the brush holder rotates, the brush hair brushes the lower end face of the filter plate.
A driving frame 56 is arranged between the filter plate and the limiting column in the filter cartridge, and the distance between the upper end of the filter plate and the limiting column is slightly larger than the height of the driving frame. The driving frame comprises an annular outer connecting ring 562 with a gap between the outer diameter and the inner wall of the filter cylinder, a tubular driven nut element 561 positioned at the center of the outer connecting ring, and a plurality of driving rod bodies 563 integrally connected between the lower ends of the outer connecting ring and the driven nut element, each driving rod body is rotatably provided with a roller 564 in rolling connection with the upper end surface of the filter plate, and the lower end of each driving rod body is fixedly connected with the driven roller to drive a driving magnet 565 for rotating the brush holder through magnetic force linkage.
The lower end of the linkage sliding block is integrally connected with a driving screw 551 which is in threaded transmission connection with the driven nut component; the pitch of the transmission thread between the driving screw rod and the driven nut piece is 1.5 to 3 times of the diameter of the driving screw rod; the linkage sliding block drives the driving frame to rotate in the process of sliding up and down along the longitudinal sliding groove.
When one electric cylinder drives one filtering component to ascend, the other electric cylinder drives the other filtering component to descend, so that the two filtering components inject filtered water into the water purifying tank body in turn.
At the ascending or initial stage that descends of electric cylinder drive cartridge filter, the linkage slider can upwards or one section distance of downstream along vertical spout, the linkage slider is last, the lower slip in-process drives the carriage and rotates, drive magnet on the carriage and steel material's driven gyro wheel between drive wheel drive brush yoke through magnetic force, thereby make the brush hair on the brush yoke under to the filter terminal surface scrub, make the filth and the filter of terminal surface break away from under the attached to the filter, it is less to make the filter downstream move and carry out filterable in-process resistance.