CN210580388U - Artificial intelligence orchard water planting case that can add water automatically - Google Patents

Abstract

The utility model discloses an artificial intelligence orchard water planting case that can add water automatically, comprising a water tank, the last surface mounting of water tank has first central controller, the bottom outside of connecting rod is provided with the delivery port that the top runs through at cultivation inslot portion, second central controller's below is provided with the collecting box, the front end fixed mounting of collecting box has the pull ring, the bottom of collecting box and stopper all is connected with the bottom plate, the outer end surface connection of stopper has inner and bottom plate outer end welded landing leg, the top of landing leg and the lower surface welding who cultivates the groove, the lower surface of landing leg and the lower surface of bottom plate are located same horizontal plane. This but automatic watered artificial intelligence orchard water planting case utilizes pressure sensor can respond to the weight of water culture plate constantly to control the watering of nutrient solution according to its weight, and utilize the rotation of clean pole in recess inside, can cultivate the used earth sanitization of seedling in the recess.

Description

Artificial intelligence orchard water planting case that can add water automatically

Technical Field

The utility model relates to an artificial intelligence technical field specifically is an artificial intelligence orchard water planting case that can automatic watered.

Background

In an orchard, seedlings generally need to be specially cultivated, so that a water culture box is often used for cultivating the seedlings, and the water culture box is used for irrigating nutrient solution necessary for growth of the seedlings while meeting daily illumination of the seedlings, so that the growth and development of the seedlings are promoted, and the seedlings can grow healthily;

but current water planting case still has some shortcomings in the market, when cultivating the seedling, is difficult to when the seedling lacks the nutrient solution timely watering nutrient solution to the seedling, and sometimes can once only water the nutrient solution excessive, intelligent inadequately, and when the clearance, the used earth of cultivating the seedling is difficult to the sanitization, so develop an artificial intelligence orchard water planting case that can add water automatically now to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a but automatic watered artificial intelligence orchard water planting case has solved current water planting case when cultivating the seedling, is difficult to the timely watering nutrient solution of seedling when the seedling lacks the nutrient solution, and sometimes can once only water the nutrient solution excessive, intelligent inadequately, when clearing up, the used earth of cultivation seedling is difficult to the clean up problem.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: an artificial intelligent orchard water culture tank capable of automatically adding water comprises a water tank, wherein a first central controller is mounted on the upper surface of the water tank, a water inlet installed at the top end of the water tank is formed in the outer side of the first central controller, the water inlet is formed in the left end and the right end of the upper surface of the water tank, a telescopic rod located inside the water tank is connected to the lower surface of the first central controller, a blocking block is fixedly connected to the bottom end of the telescopic rod, a connecting pipe with the top end connected with the water tank is arranged below the blocking block, a supporting rod with the top end connected with the water tank is arranged at the outer end of the connecting pipe, a cultivating box is welded at the bottom end of the supporting rod, a box door is mounted at the front end of the cultivating box, a watering device is arranged inside the cultivating box, a cultivating plate is arranged below the watering device, and grooves with circular cross, the inner wall of the groove is tightly attached with a cleaning rod, a rotating shaft is arranged in the middle of the cleaning rod, the bottom end of the rotating shaft is connected with the inner bottom surface of the groove, the lower surface of the groove is connected with a pressure sensor, the upper surface of the outer end of the pressure sensor is attached with the lower surface of the cultivation plate, a cultivation groove is arranged below the pressure sensor, a connecting rod is inserted in the middle of the cultivation groove, the top end of the connecting rod is connected with the cultivation plate, the bottom end of the connecting rod is connected with a second central controller positioned outside the cultivation groove, a water outlet with the top end penetrating through the cultivation groove is arranged outside the bottom end of the connecting rod, a collection box is arranged below the second central controller, a pull ring is fixedly arranged at the front end of the collection box, limiting blocks are attached to the surfaces of the left end and the right end of the collection box, and the bottoms, the outer end surface of stopper is connected with inner and bottom plate outer end welded landing leg, the top of landing leg and the lower surface welding of culture tank, the lower surface of landing leg and the lower surface of bottom plate are located same horizontal plane.

Preferably, the inside of water tank of sprue is elevation structure, and the cross section size of sprue is greater than the cross section size of connecting pipe.

Preferably, the device that waters is including carrying water board and water jet, and the water jet is carrying the lower surface evenly distributed of water board to carry the connected mode of water board and connecting pipe to be the block connection, the water jet is located the cleaning rod directly over simultaneously.

Preferably, both ends all are the arc structure about clean pole, and clean pole is revolution mechanic on the recess to the recess symmetry sets up on the artificial board, and the artificial board is revolution mechanic in the inside of artificial board simultaneously.

Preferably, the upper surface of the cultivation tank is of an inclined structure, the cultivation tank and the water outlet form a disassembly structure, the top end of the water outlet penetrates through the inside of the cultivation tank, and the water outlet is located right above the collection box.

Preferably, the bottom plate and the limiting blocks are connected in a welding mode, the limiting blocks are symmetrically arranged on the bottom plate, the collecting box is of a sliding structure on the bottom plate, and the length dimension of the collecting box is the same as the distance dimension between the limiting block monomers.

(III) advantageous effects

The utility model provides a can automatic watered artificial intelligence orchard water planting case possesses following beneficial effect:

(1) the water tank is internally provided with a lifting structure, the pressure sensor senses the weight of the cultivation plate, then the signal is transmitted to the first central controller, and the first central controller utilizes the telescopic rod to control the lifting of the plugging block according to the signal, so that automatic water adding is realized.

(2) The seedling is irrigated through the water jet among the watering device to the nutrient solution, because the water jet just in time is located the recess directly over, so can ensure that the nutrient solution can be accurate watering on the seedling.

(3) Cleaning rod is the revolution mechanic in recess inside, and both ends are the arc structure, and the arc structure at cleaning rod both ends ensures that it can closely laminate with the inner wall of recess, through the rotation of self afterwards, can scrape the inside earth of recess, and the rotation of cultivation board can be so that even watering of nutrient solution is on the recess.

(4) When watering nutrient solution, because the influence of external uncertain factor, some nutrient solution can spill the outside at the cultivation board, through the slope structure of cultivation groove upper surface this moment, can retrieve in these nutrient solution drainage to the collection box.

(5) The collecting box is of a sliding structure on the bottom plate, so that the collecting box can be conveniently pulled out to recover the nutrient solution collected inside, the limiting block can limit the movement of the collecting box, the collecting box is ensured to be just positioned below the water outlet, and the nutrient solution is prevented from leaking outside.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic side view of the present invention;

fig. 4 is a schematic view of the top view structure of the cultivation plate of the present invention.

In the figure: 1. a water tank; 2. a first central controller; 3. a water inlet; 4. a telescopic rod; 5. blocking; 6. a connecting pipe; 7. a support bar; 8. an incubator; 9. a box door; 10. a watering device; 1001. a water carrying plate; 1002. a water jet; 11. cultivating a plate; 12. a groove; 13. a cleaning rod; 14. a rotating shaft; 15. a pressure sensor; 16. a cultivation tank; 17. a connecting rod; 18. a second central controller; 19. a water outlet; 20. a collection box; 21. a pull ring; 22. a limiting block; 23. a base plate; 24. and (7) supporting legs.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-4, the utility model provides a technical solution: an artificial intelligent orchard water culture tank capable of automatically adding water comprises a water tank 1, a first central controller 2, a water inlet 3, a telescopic rod 4, a blocking block 5, a connecting pipe 6, a supporting rod 7, a cultivating tank 8, a tank door 9, a watering device 10, a cultivating plate 11, a groove 12, a cleaning rod 13, a rotating shaft 14, a pressure sensor 15, a cultivating tank 16, a connecting rod 17, a second central controller 18, a water outlet 19, a collecting tank 20, a pull ring 21, a limiting block 22, a bottom plate 23 and supporting legs 24, wherein the upper surface of the water tank 1 is provided with the first central controller 2, the outer side of the first central controller 2 is provided with the water inlet 3 arranged at the top end of the water tank 1, the water inlets 3 are arranged at the left end and the right end of the upper surface of the water tank 1, the lower surface of the first central controller 2 is connected with the telescopic rod 4 positioned inside the water tank 1, the bottom end of the telescopic rod 4 is fixedly connected with the, the outer end of the connecting pipe 6 is provided with a supporting rod 7 the top end of which is connected with the water tank 1, the bottom end of the supporting rod 7 is welded with an incubator 8, the front end of the incubator 8 is provided with a box door 9, a watering device 10 is arranged inside the incubator 8, a cultivating plate 11 is arranged below the watering device 10, the left end and the right end of the upper surface of the cultivating plate 11 are both provided with grooves 12 with circular cross-sectional shapes, the inner wall of the groove 12 is tightly attached with a cleaning rod 13, the left end and the right end of the cleaning rod 13 are both arc-shaped structures, the cleaning rod 13 is a rotating structure on the groove 12, the grooves 12 are symmetrically arranged on the cultivating plate 11, the cultivating plate 11 is a rotating structure inside the incubator 8, the cleaning rod 13 can clean the soil inside the groove 12 through the rotation of the cleaning rod, the arc-shaped structures at the two ends of the cleaning rod 13 ensure that the cleaning rod can be tightly attached with the inner wall of the groove 12, and the rotation, the middle position of the cleaning rod 13 is provided with a rotating shaft 14, the bottom end of the rotating shaft 14 is connected with the inner bottom surface of the groove 12, the lower surface of the groove 12 is connected with a pressure sensor 15, the upper surface of the outer end of the pressure sensor 15 is attached to the lower surface of the cultivation plate 11, a cultivation groove 16 is arranged below the pressure sensor 15, the upper surface of the cultivation groove 16 is in an inclined structure, the cultivation groove 16 and a water outlet 19 form a disassembly structure, the top end of the water outlet 19 penetrates through the cultivation groove 16, meanwhile, the water outlet 19 is positioned right above the collection box 20, the inclined structure on the upper surface of the cultivation groove 16 can conduct drainage on the nutrient solution accidentally spilled to enable the nutrient solution to flow out of the collection box 20, the water outlet 19 is positioned right above the collection box 20 to ensure that the nutrient solution cannot leak out when being recovered, a connecting rod 17 is inserted in the middle position of the cultivation groove 16, the bottom end of the connecting rod 17 is connected with a second central controller 18 positioned outside the cultivating groove 16, the outer side of the bottom end of the connecting rod 17 is provided with a water outlet 19 the top end of which penetrates through the cultivating groove 16, a collecting box 20 is arranged below the second central controller 18, the front end of the collecting box 20 is fixedly provided with a pull ring 21, the left end surface and the right end surface of the collecting box 20 are respectively attached with a limiting block 22, the bottom ends of the collecting box 20 and the limiting blocks 22 are respectively connected with a bottom plate 23, the bottom plate 23 and the limiting blocks 22 are connected in a welding mode, the limiting blocks 22 are symmetrically arranged on the bottom plate 23, the collecting box 20 is of a sliding structure on the bottom plate 23, the length dimension of the collecting box 20 is the same as the distance dimension between the single limiting blocks 22, the limiting blocks 22 can limit the movement of the collecting box 20 on the bottom plate 23, so, thereby recovering the nutrient solution, the outer end surface of the limiting block 22 is connected with a supporting leg 24 with the inner end welded with the outer end of the bottom plate 23, the top end of the supporting leg 24 is welded with the lower surface of the cultivating groove 16, and the lower surface of the supporting leg 24 and the lower surface of the bottom plate 23 are positioned on the same horizontal plane.

As shown in fig. 1, the block 5 has a lifting structure inside the water tank 1, and the cross-sectional size of the block 5 is larger than that of the connecting pipe 6, so that the block 5 can block the connecting pipe 6 completely through self lifting, thereby controlling the outflow of the nutrient solution.

As shown in FIG. 1, the watering device 10 comprises a water carrying plate 1001 and water spraying openings 1002, the water spraying openings 1002 are uniformly distributed on the lower surface of the water carrying plate 1001, the water carrying plate 1001 and the connecting pipe 6 are connected in a clamping mode, the water spraying openings 1002 are located right above the cleaning rod 13, the watering device 10 can be used for watering the nutrient solution on the seedlings, and the nutrient solution cannot fall outside the grooves 12 during watering because the water spraying openings 1002 are located right above the cleaning rod 13.

When the cultivation box is used, firstly, nutrient solution is filled into the water tank 1 through the water inlet 3, the connecting pipe 6 is blocked by the blocking block 5 when the nutrient solution is filled, after the nutrient solution is filled, a worker opens the box door 9 at the front end of the cultivation box 8, seedlings to be cultivated are planted in the groove 12 on the upper surface of the cultivation plate 11, then, a fixed numerical value is set on the pressure sensor 15 with the model of CYYZ11, and then the box door 9 is closed;

then under the signal transmission of the pressure sensor 15, the first central controller 2 receives the weight signal of the cultivating plate 11, at this time, the block 5 is controlled to ascend through the telescopic rod 4, so that the nutrient solution inside the water tank 1 can flow into the watering device 10 through the connecting pipe 6, the water spray port 1002 inside the watering device 10 sprays the nutrient solution into the groove 12, so as to cultivate the seedling, at the same time of spraying the nutrient solution, the second central controller 18 also receives the signal of the pressure sensor 15, so that the cultivating plate 11 is controlled to rotate inside the cultivating box 8 through the connecting rod 17, so that the nutrient solution can be uniformly sprayed on the groove 12, until the cultivating plate 11 reaches the specified value after the nutrient solution is sprayed, the first central controller 2 and the second central controller 18 stop controlling the telescopic rod 4 and the connecting rod 17, and it is worth noting that, because the weight of the seedlings is increased due to the growth of the seedlings, the numerical value set on the pressure sensor 15 needs to be changed again by a worker at intervals to slightly increase the numerical value, so that the situation that the weight change caused by the growth of the seedlings affects the pressure sensor 15 to control the irrigation of the nutrient solution is avoided;

in the process of cultivating, if there is the nutrient solution unexpected unrestrained, will be guided by breeding groove 16, make it flow in to collection box 20 through delivery port 19, the staff can take out collection box 20 from bottom plate 23 through pull ring 21, thereby retrieve the nutrient solution, and stopper 22 can restrict collection box 20 and move about on bottom plate 23, thereby ensure that it is located the below of delivery port 19, avoid the nutrient solution to leak outward, and clean pole 13 then can be through self rotation inside recess 12, clean up the inside used earth of cultivating the seedling of recess 12, this is exactly this can automatic watered artificial intelligence orchard water planting case's use.

To sum up can obtain, 1, this artificial intelligence orchard water planting case that can add water automatically, sprue 5 is elevation structure in that water tank 1 is inside, and pressure sensor 15 responds to the weight of culture plate 11, then gives first central controller 2 with the signal transmission, and first central controller 2 utilizes telescopic link 4 to control the lift of sprue 5 according to the signal to realize automatic adding water.

2. This artificial intelligence orchard water planting case that can add water automatically, nutrient solution water for the seedling through the water jet 1002 among the device 10 that waters, because water jet 1002 just in time is located recess 12 directly over, so can ensure that the watering that nutrient solution can be accurate on the seedling.

3. This artificial intelligence orchard water planting case that can add water automatically, clean pole 13 is the revolution mechanic inside recess 12, and both ends are the arc structure, and the arc structure at clean pole 13 both ends ensures that it can closely laminate with the inner wall of recess 12, through the rotation of self afterwards, can scrape the inside earth of recess 12, and the rotation of artificial intelligence orchard 11 can make the even watering of nutrient solution on recess 12.

4. This artificial intelligence orchard water planting case that can add water automatically, when watering nutrient solution, because the influence of external uncertain factor, some nutrient solution can spill in the outside of culture plate 11, through the slope structure of 16 upper surfaces of culture tank, can retrieve these nutrient solution drainage to collecting box 20 this moment.

5. This artificial intelligence orchard water planting case that can add water automatically, collecting box 20 are sliding construction on bottom plate 23, are convenient for take it out retrieve the inside nutrient solution of collecting, and stopper 22 can restrict collecting box 20's removal, ensures that it just in time is located the below of delivery port 19, avoids the nutrient solution to leak outward.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a can automatic watered artificial intelligence orchard water planting case, includes water tank (1), its characterized in that: the water tank is characterized in that a first central controller (2) is mounted on the upper surface of the water tank (1), a water inlet (3) mounted at the top end of the water tank (1) is formed in the outer side of the first central controller (2), the water inlet (3) is formed in the left end and the right end of the upper surface of the water tank (1), a telescopic rod (4) located inside the water tank (1) is connected to the lower surface of the first central controller (2), a blocking block (5) is fixedly connected to the bottom end of the telescopic rod (4), a connecting pipe (6) with the top end connected with the water tank (1) is arranged below the blocking block (5), a supporting rod (7) with the top end connected with the water tank (1) is arranged at the outer end of the connecting pipe (6), an incubator (8) is welded to the bottom end of the supporting rod (7), a chamber door (9) is mounted at the front end of the incubator (8), a watering device, a cultivating plate (11) is arranged below the watering device (10), grooves (12) with circular cross-sectional shapes are formed in the left end and the right end of the upper surface of the cultivating plate (11), cleaning rods (13) are tightly attached to the inner walls of the grooves (12), rotating shafts (14) are installed at the middle positions of the cleaning rods (13), the bottom end of each rotating shaft (14) is connected with the inner bottom surface of the corresponding groove (12), pressure sensors (15) are connected to the lower surfaces of the grooves (12), the upper surfaces of the outer ends of the pressure sensors (15) are attached to the lower surface of the cultivating plate (11), a cultivating groove (16) is arranged below the pressure sensors (15), connecting rods (17) are inserted in the middle positions of the cultivating grooves (16), the top ends of the connecting rods (17) are connected with the cultivating plate (11), the bottom ends of the connecting rods (17) are connected with a second central controller (18) located outside the cultivating groove (16), the bottom outside of connecting rod (17) is provided with the top and runs through delivery port (19) inside breeding groove (16), the below of second central controller (18) is provided with collecting box (20), the front end fixed mounting of collecting box (20) has pull ring (21), both ends surface is all laminated to limiting block (22) about collecting box (20), the bottom of collecting box (20) and limiting block (22) all is connected with bottom plate (23), the outer end surface of limiting block (22) is connected with inner and bottom plate (23) outer end welded landing leg (24), the top of landing leg (24) and the lower surface welding who breeds groove (16), the lower surface of landing leg (24) and the lower surface of bottom plate (23) are located same horizontal plane.

2. The artificial intelligence orchard water culture box capable of automatically adding water according to claim 1, characterized in that: the inside of water tank (1) of sprue (5) is elevation structure, and the cross section size of sprue (5) is greater than the cross section size of connecting pipe (6).

3. The artificial intelligence orchard water culture box capable of automatically adding water according to claim 1, characterized in that: watering device (10) including carrying water board (1001) and water jet (1002), and water jet (1002) are at the lower surface evenly distributed who carries water board (1001) to carry the connected mode of water board (1001) and connecting pipe (6) to be the block connection, water jet (1002) are located cleaning rod (13) directly over simultaneously.

4. The artificial intelligence orchard water culture box capable of automatically adding water according to claim 1, characterized in that: both ends all are the arc structure about clean pole (13), and clean pole (13) are revolution mechanic on recess (12) to recess (12) symmetry sets up on artificial board (11), and artificial board (11) are revolution mechanic in the inside of artificial board (8) simultaneously.

5. The artificial intelligence orchard water culture box capable of automatically adding water according to claim 1, characterized in that: the upper surface of the cultivation tank (16) is of an inclined structure, the cultivation tank (16) and the water outlet (19) form a disassembly structure, the top end of the water outlet (19) penetrates through the inside of the cultivation tank (16), and meanwhile the water outlet (19) is located right above the collection box (20).

6. The artificial intelligence orchard water culture box capable of automatically adding water according to claim 1, characterized in that: the bottom plate (23) and the limiting blocks (22) are connected in a welding mode, the limiting blocks (22) are symmetrically arranged on the bottom plate (23), the collecting box (20) is of a sliding structure on the bottom plate (23), and meanwhile the length dimension of the collecting box (20) is the same as the distance dimension between the limiting blocks (22) individually.

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