CN115024126A

CN115024126A - Integrated device for cultivating and transplanting nursery stock and flowers

Info

Publication number: CN115024126A
Application number: CN202210526925.4A
Authority: CN
Inventors: 尚冰冰; 王海锋
Original assignee: Anhui Dahui Eco Technology Development Co ltd
Current assignee: Anhui Dahui Eco Technology Development Co ltd
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-09-09

Abstract

The invention discloses a nursery stock and flower cultivation and transplantation integrated device, and particularly relates to the technical field of flower cultivation and transplantation, wherein the technical scheme is as follows: the solar energy power generation device comprises a base, a first supporting plate, a solar panel, a rear-drive moving wheel, a first motor and a gear, wherein the first supporting plate is arranged at the upper end of the left side of the base, the solar panel is arranged on the side wall and the upper end of the first supporting plate, the first motor is arranged at the lower end of the base, the gear is arranged at the output end of the first motor, the gear is arranged on the upper side of the base, and the rear-drive moving wheel is arranged at the lower end of the base, and the solar energy power generation device has the beneficial effects that: through cultivating and transplanting the nursery stock flowers and plants to set up as an organic whole, not only conveniently shift out the flowerpot to nursery stock flowers from the flower nursery, also conveniently dig the hole to the flower nursery, move the nursery stock flowers to another flower nursery from the flower nursery in, still conveniently spray water and nutrient solution simultaneously to the nursery stock flowers in the flower nursery, carry out the light filling to the nursery stock flowers, make the nursery stock flowers can more mechanized cultivation.

Description

Integrated device for cultivating and transplanting nursery stock and flowers

Technical Field

The invention relates to the field of flower cultivation and transplantation, in particular to a seedling and flower cultivation and transplantation integrated device.

Background

Flowers are herbaceous plants with ornamental value, are used for describing the general name of the plant appreciated, like yang and cold-resistant, have short branches of reproductive function, there are many kinds, typical flowers, on a minor axis of limited growth, grow calyx, petal and produce stamen and pistil of the germ cell, the flower is made up of corolla, calyx, receptacle, pistil, have various colors, grow various too, there are fragrance or not, etc., the flower maintenance refers to the specific demand according to flowers daily, carry on to flowers pruning, water, change soil, change pot and prevent the behavior such as pest and disease control and fertilization, the tactics to deal with various bad symptoms that the flowers appear.

The prior art has the following defects: after the existing nursery stocks and flowers are cultivated in a flower garden, the existing nursery stocks and flowers need to be transplanted into a flowerpot or another flower garden, and the process needs manpower for transplanting, is complex in operation, and wastes time and labor.

Therefore, the invention is necessary to provide an integrated device for cultivating and transplanting nursery stocks, flowers and plants.

Disclosure of Invention

Therefore, the integrated device for cultivating and transplanting the nursery stock flowers and flowers is used for integrating the cultivation and the transplanting of the nursery stock flowers and flowers, not only facilitating the movement of the nursery stock flowers from a flower garden into a flowerpot, but also facilitating the digging of a pit of the flower garden and the movement of the nursery stock flowers from the flower garden into another flower garden, and simultaneously facilitating the spraying of water and nutrient solution on the nursery stock flowers and the light filling of the nursery stock flowers, so that the nursery stock flowers and the flowers can be cultivated more mechanically, and the problems that the nursery stock flowers and the flowers need to be transplanted into the flowerpot or the other flower garden after being cultivated in the flower garden, the transplanting needs to be carried out by manpower, the operation is complex, and time and labor are wasted are solved.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides a nursery stock flowers are cultivated and are transplanted integrative device, includes that base, backup pad one, solar panel, rear-guard remove wheel, motor one and gear, backup pad one is installed in base left side upper end, solar panel is all installed to a backup pad lateral wall and upper end, motor one is installed to the base lower extreme, a motor output end installation gear, the gear sets up the upside at the base, the rear-guard removes the wheel and installs the lower extreme at the base, still includes: the irradiation mechanism, the cultivation mechanism and the transplanting mechanism are respectively arranged at the upper end of the base;

transplanting the mechanism and including gear plate, backup pad four and backup pad five, the gear plate rotates the upper end of installing at the base, gear plate meshing connection gear, four fixed mounting in the upper end of gear plate of backup pad, install on four upper end right sides in the backup pad five.

Preferably, the first hydraulic cylinder and the second hydraulic cylinder are respectively installed at the lower end of the fifth support plate, the output ends of the first hydraulic cylinder and the second hydraulic cylinder are connected with the sixth support plate, the first guide groove is formed in the right end of the fourth support plate, and the left end of the sixth support plate is slidably connected to the inner side of the first guide groove.

Preferably, the motor III is installed at the upper end of the supporting plate III, the connecting plate is detachably installed at the output end of the motor III, the connecting rod is installed at the lower end of the connecting plate, and the transplanting cylinder is installed at the lower end of the connecting rod.

Preferably, a fourth telescopic rod and a fifth telescopic rod are respectively installed at the lower end of the connecting plate, bulldozing supports are installed at the output ends of the fourth telescopic rod and the fifth telescopic rod, a through hole is formed in the upper end of the transplanting cylinder, and the bulldozing supports penetrate through the through hole to the inside of the transplanting cylinder.

Preferably, the outer wall of the upper end of the transplanting cylinder is detachably provided with a support ring, the side wall of the support ring is rotatably provided with a clamping plate, the outer wall of the support ring is provided with a motor IV, the four output ends of the motor are connected with the clamping plate, the outer wall of the transplanting cylinder is fixedly provided with a thread piece, the side wall of the transplanting cylinder is provided with a guide groove II, the inner wall of the lower end of the transplanting cylinder is provided with a soil inlet groove, the soil inlet groove and the guide groove II are slidably connected with a bulldozing plate, the lower end of the support ring is provided with a telescopic rod VI, and the six output ends of the telescopic rod are connected with the bulldozing plate.

Preferably, cultivate the mechanism and include water tank, nutrient solution case, retaining clip and water pump, the upper end at the base is installed to the water tank, the upper end at the water tank is installed to the nutrient solution case, retaining clip and water pump are installed respectively in the upper end of nutrient solution case.

Preferably, a supporting cylinder is installed inside the fixing clip through a bolt, a telescopic rod is installed inside the right end of the supporting cylinder, a supporting frame is installed on the three right ends of the telescopic rod, a spray head is installed on the inner wall of the supporting frame through the bolt, a multi-angle spray nozzle is installed at the lower end of the spray head, a motor II is installed at the lower end of the supporting frame, a rotating rod is installed at the output end of the motor II, and a water stirring plate I and a water stirring plate II are installed on the outer wall of the rotating rod respectively.

Preferably, a water main is connected between the water pump and the spray head, the right end of the water pump is connected with a joint, a first water distribution pipe is installed at the right end of the water tank, a second water distribution pipe is installed at the right end of the nutrient solution tank, and the right ends of the first water distribution pipe and the second water distribution pipe are respectively connected with the water main.

Preferably, the irradiation mechanism comprises a rotating shaft, a second supporting plate, a guide rod and a second telescopic rod, the rotating shaft is rotatably installed on the inner wall of the upper end of the base, the second supporting plate is installed at the upper end of the rotating shaft, and the guide rod and the second telescopic rod are respectively installed at the upper ends of the second supporting plate.

Preferably, two output erection bracing boards of telescopic link are three, three left end inner wall sliding connection guide arms of backup pad, the spacing ball of guide arm upper end screw thread installation, two right-hand member inner wall screw thread installation screw rods of backup pad, screw rod lower extreme threaded connection base, three right-hand members of backup pad pass through bolt installation fixing base, fixing base right-hand member fixed mounting vegetation lamp one, vegetation lamp one right-hand member inner wall sliding mounting vegetation lamp two, one two lateral walls of vegetation lamp all install telescopic link one, two lateral walls of vegetation lamp are connected to a telescopic link output.

The invention has the beneficial effects that:

by integrating the nursery stock and flower cultivation and transplanting, nursery stock and flower can be conveniently moved out of a flower pot from a flower garden, a flower garden can be conveniently dug, nursery stock and flower can be moved into another flower garden from the flower garden, meanwhile, water and nutrient solution can be conveniently sprayed on the nursery stock and flower in the flower garden, light can be supplemented to the nursery stock and flower, and the nursery stock and flower can be more mechanically cultivated;

the lower end of the connecting plate is respectively provided with a fourth telescopic link and a fifth telescopic link which drive the bulldozing bracket to lift in the transplanting cylinder, the output ends of the fourth telescopic link and the fifth telescopic link are respectively provided with the bulldozing bracket, the bulldozing bracket is pushed downwards and used for pushing flower seedlings and soil out of the transplanting cylinder, the outer wall of the upper end of the transplanting cylinder is detachably provided with a support ring, the side wall of the support ring is rotatably provided with a clamping plate, the clamping plate can turn upwards and downwards, when the clamping plate rotates to the lower part, the flowerpot is clamped and limited to prevent the flower seedlings from being transplanted into the flowerpot, the flowerpot topples over, a worker manually places the flowerpot at a specified position, when digging a hole in the flower garden, the clamping plate rotates to the upper part, the side wall of the transplanting cylinder is provided with a second guide groove, the second guide groove has the function of guiding when the bulldozing plate moves, the inner wall of the lower end of the transplanting cylinder is provided with a soil inlet groove, transplanting a section of thick bamboo and removing the flowerpot top, the bull-dozer pushes out the soil of advancing soil inslot portion downwards to the flowerpot in, makes the earth in the flowerpot sufficient, advances two inboard sliding connection bull-dozers in soil groove and the guide way, and the bull-dozer passes through six promotion of telescopic link, pushes out the soil of advancing soil inslot portion downwards, and support ring lower extreme installation telescopic link is six, and the bull-dozer is connected to six output of telescopic link, and the bull-dozer is used for push-and-pull bull-dozer.

Drawings

Fig. 1 is a top view of an integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

FIG. 2 is a front view of the installation of a transplanting mechanism in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

FIG. 3 is a structural diagram of a cultivation mechanism in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

FIG. 4 is a front view of a transplanting cylinder in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

fig. 5 is a top view of the clamping plate in the integrated device for cultivating and transplanting nursery stocks and flowers provided by the invention;

FIG. 6 is a structural view of the interior of a transplanting cylinder in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

FIG. 7 is a top view of a transplanting cylinder in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention;

fig. 8 is a structural diagram of an irradiation mechanism in the integrated device for cultivating and transplanting nursery stocks and flowers provided by the invention;

FIG. 9 is a top view of a first plant growth lamp and a second plant growth lamp installed in the integrated device for cultivating and transplanting nursery stocks and flowers provided by the invention;

fig. 10 is a structural diagram of a cultivating mechanism in the integrated device for cultivating and transplanting nursery stock, flowers and plants provided by the invention.

In the figure: the device comprises a base 1, a first support plate 11, a solar panel 12, a rear-drive moving wheel 13, a first motor 14, a gear 15, an irradiation mechanism 2, a rotating shaft 21, a second support plate 22, a screw 221, a guide rod 23, a limiting ball 231, a third support plate 24, a fixed seat 25, a first telescopic rod 26, a first plant growth lamp 27, a second plant growth lamp 28, a second telescopic rod 29, a cultivation mechanism 3, a water tank 31, a nutrient solution tank 32, a fixed clamp 33, a support cylinder 331, a water pump 34, a main water pipe 341, a joint 342, a first water distribution pipe 343, a second water distribution pipe 344, a third telescopic rod 35, a support frame 36, a spray head 37, a multi-angle spray nozzle 371, a second motor 38, a first water stirring plate 381, a second water stirring plate 382, a rotating rod 383, a transplanting mechanism 4, a gear plate 41, a fourth support plate 42, a first guide groove 421, a fifth support plate 422, a first hydraulic cylinder 423, a second hydraulic cylinder 424, a sixth support plate 43, a third motor 431, a connecting plate 44, a fourth telescopic rod, a fourth support plate, a third support plate 383, a third support plate, a connecting plate, Five telescopic rods 442, a support ring 45, a clamping plate 451, four motors 452, a connecting rod 46, a transplanting cylinder 47, a thread piece 471, a second guide groove 472, a soil inlet groove 473, a through hole 474, six telescopic rods 48, a soil pushing plate 481 and a soil pushing support 49.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Referring to the attached drawings 1-10, the invention provides an integrated device for cultivating and transplanting nursery stock, flowers and plants, which comprises a base 1, a first support plate 11, a solar panel 12, a rear-drive moving wheel 13, a first motor 14 and a gear 15, and further comprises: the irradiation mechanism 2, the cultivation mechanism 3 and the transplanting mechanism 4;

the first support plate 11 is arranged at the upper end of the left side of the base 1, the first support plate 11 has the function of installing the solar panel 12, the first support plate 11 not only supports the solar panel 12, but also increases the weight of the left end of the base 1, so that the weight of the left end and the right end of the base 1 is stable, the base 1 is also stable when moving, the solar panel 12 is arranged at the side wall and the upper end of the first support plate 11, the solar panel 12 absorbs solar energy and converts the solar energy into electric energy for electric equipment at the upper end of the base 1 to use, a battery is arranged in the first support plate 11 to store the electric energy, the first motor 14 is arranged at the lower end of the base 1, the first motor 14 has the function of rotating the gear 15, the first motor 14 can rotate and rotate the gear 15, the gear 15 is arranged at the output end of the first motor 14, the gear plate 41 is driven to rotate after the gear 15 is rotated, the gear 15 is arranged at the upper side of the base 1, and the rear-driving moving wheel 13 is arranged at the lower end of the base 1, rear-guard removes wheel 13 and removes through wireless remote switch control, shine mechanism 2, cultivate mechanism 3 and transplant mechanism 4 and install respectively in the upper end of base 1, shine mechanism 2 and be used for carrying out the effect that the vegetation lamp shines to nursery stock flowers, cultivate the mechanism 3 and be used for nursery stock flowers growth process to spray the effect of water and nutrient solution, and the effect of spraying water and nutrient solution after transplanting to nursery stock flowers, it is used for young nursery stock flowers transplanting to transplant mechanism 4 in the flowerpot, and transplant to in another flower nursery.

The transplanting mechanism 4 comprises a gear plate 41, a support plate four 42 and a support plate five 422, the gear plate 41 is rotatably arranged at the upper end of the base 1, the gear plate 41 is driven by the gear 15 to rotate, the gear plate 41 is meshed with the gear 15, the gear plate 41 supports the support plate four 42 and the support plate five 422 to rotate, the support plate four 42 is fixedly arranged at the upper end of the gear plate 41, the support plate four 42 has the function of fixing the support plate five 422, the support plate five 422 is arranged at the right side of the upper end of the support plate four 42, the support plate five 422 has the function of supporting a hydraulic cylinder one 423 and a hydraulic cylinder two 424, the lower end of the support plate five 422 is respectively provided with the hydraulic cylinder one 423 and the hydraulic cylinder two 424, the hydraulic cylinder one 423 and the hydraulic cylinder two 424 have the function of driving the support plate six 43 to lift, the output ends of the hydraulic cylinder one 423 and the hydraulic cylinder two 424 are connected with the support plate six 43, and the support plate six 43 has the function of supporting a motor 431, the right end of the support plate four 42 is provided with a guide groove one 421, the guide groove one 421 has a function of guiding the support plate six 43, the left end of the support plate six 43 is slidably connected to the inner side of the guide groove one 421, the upper end of the support plate six 43 is provided with a motor three 431, the motor three 431 has a function of rotating the connecting plate 44, the output end of the motor three 431 is detachably provided with the connecting plate 44, the connecting plate 44 has a function of supporting the transplanting cylinder 47 to rotate, the lower end of the connecting plate 44 is provided with a connecting rod 46, the connecting rod 46 is used for connecting the connecting plate 44 and the transplanting cylinder 47, the lower end of the connecting rod 46 is provided with the transplanting cylinder 47, the transplanting cylinder 47 rotates and is inserted from above the flower seedlings to transplant the flower pits and has a function of digging flower nursery, the lower end of the connecting plate 44 is respectively provided with a telescopic rod four 441 and a telescopic rod five 442, and the telescopic rods 441 and five 442 have a function of driving the bulldozing bracket 49 to ascend and descend in the transplanting cylinder 47, the output ends of the four 441 telescopic rods and the five 442 telescopic rods are respectively provided with a bulldozing bracket 49, the bulldozing bracket 49 pushes downwards and is used for pushing flower seedlings and soil out of the transplanting cylinder 47, the upper end of the transplanting cylinder 47 is provided with a through hole 474, the through hole 474 has the effect of facilitating the lifting of the bulldozing bracket 49, the bulldozing bracket 49 penetrates through the through hole 474 to the inside of the transplanting cylinder 47, the outer wall of the upper end of the transplanting cylinder 47 is detachably provided with a support ring 45, the support ring 45 has the effect of supporting a clamp plate 451 in a rotating manner, the clamp plate 451 is rotatably arranged on the side wall of the support ring 45 and can be turned upwards and downwards, when the clamp plate 451 is turned to the lower side, the flowerpot is clamped and limited, when the flower seedlings are transplanted into the flowerpot, a flowerpot is toppled, a worker manually puts the flowerpot to a designated position, when digging a pit in the flower garden, the clamp plate 451 is turned to the upper side, the outer wall of the support ring 45 is provided with a motor four 452, the motor IV 452 has the function of driving the clamping plate 451 to rotate, the output end of the motor IV 452 is connected with the clamping plate 451, the outer wall of the transplanting cylinder 47 is fixedly provided with a thread piece 471, the thread piece 471 is convenient for the transplanting cylinder 47 to easily enter soil when rotating, the side wall of the transplanting cylinder 47 is provided with a second guide groove 472, the second guide groove 472 has the function of guiding the soil pushing plate 481 when moving, the inner wall of the lower end of the transplanting cylinder 47 is provided with a soil inlet groove 473, the soil inlet groove 473 has the function of entering soil, the transplanting cylinder 47 moves above the flowerpot, the soil in the soil inlet groove 473 is pushed out downwards by the soil pushing plate 481 to ensure that the soil in the flowerpot is sufficient, the soil pushing plate 481 is connected with the soil pushing plate 481 in a sliding mode inside the soil inlet groove 473, the telescopic rod VI 48 is arranged at the lower end of the support ring 45, the output end of the telescopic rod VI is connected with the soil pushing plate 481, the blade 481 has a function of pushing and pulling the blade 481.

The cultivation mechanism 3 comprises a water tank 31, a nutrient solution tank 32, a fixing clip 33 and a water pump 34, wherein the water tank 31 is installed at the upper end of the base 1, the water tank 31 is used for storing water, the nutrient solution tank 32 is installed at the upper end of the water tank 31, the nutrient solution tank 32 is used for storing nutrient solution, the fixing clip 33 and the water pump 34 are respectively installed at the upper end of the nutrient solution tank 32, the fixing clip 33 has the function of fixing a support cylinder 331, the water pump 34 is used for pumping water and nutrient solution, the support cylinder 331 is installed inside the fixing clip 33 through a bolt, the support cylinder 331 has the function of supporting a three telescopic rod 35, the position of the three telescopic rod 35 is fixed through a screw, a three telescopic rod 35 is installed inside the right end of the support cylinder 331, the three telescopic rod 35 has the function of supporting and extending a support 36, a support frame 36 is installed at the right end of the three telescopic rod 35, and the support frame 36 has the functions of supporting a spray head 37 and a second motor 38, the inner wall of the support frame 36 is provided with the spray head 37 through bolts, the spray head 37 has the function of connecting a water main 341, the lower end of the spray head 37 is provided with a multi-angle spray nozzle 371, the multi-angle spray nozzle 371 has the function of spraying nursery stock flowers in a multi-angle mode for cultivation, the lower end of the support frame 36 is provided with the motor II 38, the motor II 38 has the functions of rotating the rotating rod 383, the water stirring plate I381 and the water stirring plate II 382, the output end of the motor II 38 is provided with the rotating rod 383, the rotating rod 383 has the function of supporting the water stirring plate I381 and the water stirring plate II 382 to rotate, the outer wall of the rotating rod 383 is respectively provided with the water stirring plate I381 and the water stirring plate II 382, the water stirring plate I381 and the water stirring plate II have the function of stirring water and nutrient solution sprayed below the multi-angle spray nozzle 371 all around, so that more nursery stock flowers are sprayed, the water main 341 is connected between the water pump 34 and the spray head 37, the water main 341 has the function of feeding water into the spray head 37, the right end of the water pump 34 is connected with a connector 342, the connector 342 has the function of being connected with a first distributive pipe 343 and a second distributive pipe 344 respectively, the first distributive pipe 343 is installed at the right end of the water tank 31, the first distributive pipe 343 has the function of outputting water in the water tank 31, the second distributive pipe 344 is installed at the right end of the nutrient solution tank 32 and has the function of outputting nutrient solution in the nutrient solution tank 32, the water tank 31 and the nutrient solution tank 32 are provided with water inlets, the right ends of the first distributive pipe 343 and the second distributive pipe 344 are connected with a main water pipe 341 respectively, and electronic valves are arranged on the first distributive pipe 343 and the second distributive pipe 344, so that water and the nutrient solution can be pumped together or separately.

The irradiation mechanism 2 comprises a rotating shaft 21, a second support plate 22, a guide rod 23 and a second telescopic rod 29, the rotating shaft 21 is rotatably installed on the inner wall of the upper end of the base 1, the rotating shaft 21 has the function of facilitating the support and rotation of the second support plate 22, the second support plate 22 is installed on the upper end of the rotating shaft 21, the second support plate 22 has the function of supporting the guide rod 23 and the second telescopic rod 29, the guide rod 23 and the second telescopic rod 29 are respectively installed on the upper end of the second support plate 22, the guide rod 23 has the function of guiding the third support plate 24 and increasing the moving stability of the third support plate 24, the second telescopic rod 29 has the function of 2 lifting of the third support plate 24, the third support plate 24 is installed at the output end of the second telescopic rod 29, the third support plate 24 has the function of supporting the first plant growth lamp 27 and the second plant growth lamp 28, the guide rod 23 is slidably connected to the inner wall of the left end of the third support plate 24, a limiting ball 231 is installed on the upper end of the guide rod 23 in a threaded manner, and the limiting ball 231 has the function of preventing the third support plate 24 from being separated from the guide rod 23, a screw rod 221 is installed on the inner wall of the right end of the second support plate 22 in a threaded manner, and after the second support plate 22 rotates, fix the position of backup pad two 22 through screwing up screw rod 221, screw rod 221 lower extreme threaded connection base 1, bolt installation fixing base 25 is passed through to three 24 right-hand members of backup pad, fixing base 25 has the effect of connecting vegetation lamp 27, fixing base 25 right-hand member fixed mounting vegetation lamp 27, there is the lamp that shines to the plant vegetation lamp 27 lower extreme, vegetation lamp 27 still has the effect of supporting vegetation lamp two 28, vegetation lamp 27 right-hand member inner wall slidable mounting vegetation lamp two 28, vegetation lamp two 28 have the effect of shining the plant, telescopic link one 26 is all installed to vegetation lamp 27 both sides wall, vegetation lamp two 28 lateral walls are connected to telescopic link one 26 output, telescopic link one 26 has carries out the folding effect of push-and-pull to vegetation lamp two 28.

The using process of the invention is as follows: the upper end of the left side of the base 1 is provided with a first supporting plate 11, the side wall and the upper end of the first supporting plate 11 are provided with the solar panels 12, the lower end of the base 1 is provided with a first motor 14, the output end of the first motor 14 is provided with a gear 15, the gear 15 is arranged at the upper side of the base 1, the rear drive moving wheel 13 is arranged at the lower end of the base 1, the gear plate 41 is rotatably arranged at the upper end of the base 1, the gear plate 41 is meshed with the gear 15, a fourth supporting plate 42 is fixedly arranged at the upper end of the gear plate 41, a fifth supporting plate 422 is arranged at the right side of the upper end of the fourth supporting plate 42, the lower ends of the fifth supporting plate 422 are respectively provided with a first hydraulic cylinder 423 and a second hydraulic cylinder 424, the output ends of the first hydraulic cylinder 423 and the second hydraulic cylinder 424 are connected with a sixth supporting plate 43, the right end of the fourth supporting plate 42 is provided with a first guide groove 421, the left end of the sixth supporting plate 43 is slidably connected to the inner side of the first guide groove 421, the upper end of the sixth supporting plate 43 is provided with a third motor 431, and the output end of the connecting plate 44 is detachably arranged on the third motor 431, the lower end of the connecting plate 44 is provided with a connecting rod 46, the lower end of the connecting rod 46 is provided with a transplanting cylinder 47, the lower end of the connecting plate 44 is respectively provided with a four telescopic rod 441 and a five telescopic rod 442, the output ends of the four telescopic rods 441 and the five telescopic rod 442 are respectively provided with a bulldozing bracket 49, the upper end of the transplanting cylinder 47 is provided with a through hole 474, the bulldozing bracket 49 penetrates through the through hole 474 to the inside of the transplanting cylinder 47, the outer wall of the upper end of the transplanting cylinder 47 is detachably provided with a support ring 45, the side wall of the support ring 45 is rotatably provided with a clamp plate 451, the outer wall of the support ring 45 is provided with a four motor 452, the output end of the four motor 452 is connected with the clamp plate 451, the outer wall of the transplanting cylinder 47 is fixedly provided with a thread piece 471, the side wall of the transplanting cylinder 47 is provided with a second guide groove 472, the inner wall of the lower end of the transplanting cylinder 47 is provided with an earth inlet groove 473, the earth plate 481 is slidably connected with the inner sides of the second guide groove 472, the lower end of the telescopic rod 45 is provided with a sixth telescopic rod 481, the water tank 31 is arranged at the upper end of the base 1, the nutrient solution tank 32 is arranged at the upper end of the water tank 31, the fixing clip 33 and the water pump 34 are respectively arranged at the upper end of the nutrient solution tank 32, the supporting cylinder 331 is arranged in the fixing clip 33 through a bolt, the three telescopic rods 35 are arranged in the right end of the supporting cylinder 331, the supporting frame 36 is arranged at the right end of the three telescopic rods 35, the sprayer 37 is arranged on the inner wall of the supporting frame 36 through a bolt, the multi-angle nozzle 371 is arranged at the lower end of the sprayer 37, the motor second 38 is arranged at the lower end of the supporting frame 36, the rotating rod 383 is arranged at the output end of the motor second 38, the first water stirring plate 381 and the second water stirring plate 382 are respectively arranged on the outer wall of the rotating rod 383, the main water pipe 341 is connected between the water pump 34 and the sprayer 37, the joint 342 is connected at the right end of the water pump 34, the first water diversion pipe 343 is arranged at the right end of the water tank 31, the second diversion pipe 344 is arranged at the right end of the nutrient solution tank 32, the first diversion pipe 343 and the right end of the diversion pipe 341 are respectively connected with the main water pipe 341, the rotating shaft 21 is rotatably installed on the inner wall of the upper end of the base 1, the supporting plate II 22 is installed on the upper end of the rotating shaft 21, the guide rod 23 and the telescopic rod II 29 are respectively installed on the upper end of the supporting plate II 22, the supporting plate III 24 is installed on the output end of the telescopic rod II 29, the inner wall of the left end of the supporting plate III 24 is slidably connected with the guide rod 23, the limiting ball 231 is installed on the upper end of the guide rod 23 in a threaded mode, the screw rod 221 is installed on the inner wall of the right end of the supporting plate II 22 in a threaded mode, the lower end of the screw rod 221 is connected with the base 1 in a threaded mode, the fixing seat 25 is installed at the right end of the supporting plate III 24 through bolts, the plant growth lamp I27 is fixedly installed at the right end of the fixing seat 25, the plant growth lamp II 28 is installed on the inner wall of the right end of the plant growth lamp I27 in a threaded mode, the telescopic rods 26 are installed on two side walls of the plant growth lamp I27, the output end of the telescopic rod I26 is connected with the side wall of the plant growth lamp II 28, the plant flower pot, the transplanting barrel 47 is firstly moved to the upper portion of the seedling flower, the connecting plate 44 is rotated by the motor III 431, the connecting plate 44 drives the connecting rod 46 and the transplanting cylinder 47 to rotate, the hydraulic cylinder 423 and the hydraulic cylinder 424 drive the support plate six 43 to lift, the transplanting cylinder 47 rotates to dig flowers into the soil, the soil enters the soil groove 473, the motor 14 drives the gear 15 to rotate, the gear 15 drives the gear plate 41 to rotate, the gear plate 41 drives the transplanting mechanism 4 to integrally rotate, the transplanting cylinder 47 moves to the upper part of a flowerpot which is put by a worker in advance, the transplanting cylinder 47 descends, the motor four 452 drives the clamping plate 451 to rotate, the clamping plate 451 rotates to the lower part to clamp the flowerpot, then the telescopic rod six 48 pushes the bulldozing plate 481 downwards, the bulldozing plate 481 pushes the soil in the soil groove 473 into the flowerpot, the telescopic rod four 441 and the telescopic rod five 442 push the bulldozing bracket 49 downwards, the bulldozing bracket 49 pushes the soil and the flowers in the transplanting cylinder 47 into the flowerpot integrally, and the water and the nutrient solution can be respectively pumped into the spray head 37 by the water pump 34 through the water dividing pipe 343 and the water dividing pipe two 344, the first water distribution pipe 343 and the second water distribution pipe 344 are provided with electronic valves, so that water and nutrient solution can be pumped together or pumped separately, the second motor 38 drives the first water distribution plate 381 and the second water distribution plate 382 to rotate, the first water distribution plate 381 and the second water distribution plate 382 stir the water and the nutrient solution outwards, the telescopic rod three 35 can change the position of the spray head 37 in a telescopic mode, the second support plate 22 can rotate on the base 1 through the rotating shaft 21 and is fixed through the screw rod 221, the third support plate 24 is upwards pushed by the second telescopic rod 29, the heights of the first plant growth lamp 27 and the second plant growth lamp 28 are adjusted, the second plant growth lamp 28 can be pulled out of the first plant growth lamp 27 through outwards pushing of the first telescopic rod 26, and flowers are irradiated and cultivated through the first plant growth lamp 27 and the second plant growth lamp 28.

The above description is only a preferred embodiment of the present invention, and any person skilled in the art may modify the present invention or modify it into an equivalent technical solution by using the technical solution described above. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims

1. The utility model provides a nursery stock flowers are cultivated and are transplanted integrative device, includes base (1), backup pad (11), solar panel (12), rear-guard and remove wheel (13), motor (14) and gear (15), install in base (1) left side upper end backup pad (11), solar panel (12) are all installed to backup pad (11) lateral wall and upper end, motor (14) are installed to base (1) lower extreme, motor (14) output installation gear (15), gear (15) set up the upside at base (1), rear-guard removes wheel (13) and installs the lower extreme at base (1), its characterized in that still includes: the irradiation mechanism (2), the cultivation mechanism (3) and the transplanting mechanism (4) are respectively arranged at the upper end of the base (1);

transplanting mechanism (4) includes gear plate (41), four (42) of backup pad and five (422) of backup pad, gear plate (41) rotate and install the upper end in base (1), gear plate (41) meshing connection gear (15), four (42) fixed mounting in the upper end of gear plate (41) of backup pad, install on four (42) upper end right sides of backup pad in five (422) of backup pad.

2. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 1, wherein: pneumatic cylinder (423) and pneumatic cylinder two (424) are installed respectively to five (422) lower extremes of backup pad, six (43) of backup pad are connected to pneumatic cylinder (423) and pneumatic cylinder two (424) output, guide way one (421) have been seted up to backup pad four (42) right end, six (43) left end sliding connection of backup pad is inboard in guide way one (421).

3. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 2, wherein: supporting plate six (43) upper end installation motor three (431), motor three (431) output demountable installation connecting plate (44), connecting plate (44) lower extreme installation connecting rod (46), a section of thick bamboo (47) is transplanted in connecting rod (46) lower extreme installation.

4. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 3, wherein: the lower end of the connecting plate (44) is provided with a fourth telescopic rod (441) and a fifth telescopic rod (442), the output ends of the fourth telescopic rod (441) and the fifth telescopic rod (442) are provided with a bulldozing bracket (49), the upper end of the transplanting cylinder (47) is provided with a through hole (474), and the bulldozing bracket (49) penetrates through the through hole (474) to the inside of the transplanting cylinder (47).

5. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 3, wherein: a supporting ring (45) is detachably mounted on the outer wall of the upper end of the transplanting cylinder (47), a clamping plate (451) is rotatably mounted on the side wall of the supporting ring (45), a motor IV (452) is mounted on the outer wall of the supporting ring (45), the clamping plate (451) is connected to the output end of the motor IV (452), a thread piece (471) is fixedly mounted on the outer wall of the transplanting cylinder (47), a guide groove II (472) is formed in the side wall of the transplanting cylinder (47), a soil inlet groove (473) is formed in the inner wall of the lower end of the transplanting cylinder (47), the soil inlet groove (473) and the guide groove II (472) are connected with a bulldozer (481) in an inner side sliding mode, a telescopic rod six (48) is mounted at the lower end of the supporting ring (45), and the bulldozer (481) is connected to the output end of the telescopic rod six (48).

6. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 1, wherein: cultivate mechanism (3) and include water tank (31), nutrient solution case (32), fixing clip (33) and water pump (34), the upper end at base (1) is installed in water tank (31), the upper end at water tank (31) is installed in nutrient solution case (32), the upper end at nutrient solution case (32) is installed respectively in fixing clip (33) and water pump (34).

7. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 6, wherein: the utility model discloses a water repellent plate, including fixing clip (33), a fixing clip (331) is inside to be passed through bolt erection bracing section of thick bamboo (331), support a section of thick bamboo (331) right-hand member internally mounted telescopic link three (35), three (35) right-hand member erection bracing frame (36) of telescopic link, support frame (36) inner wall passes through bolt installation shower nozzle (37), multi-angle nozzle (371) are installed to shower nozzle (37) lower extreme, support frame (36) lower extreme installation motor two (38), motor two (38) output installation bull stick (383), water repellent plate one (381) and water repellent plate two (382) are installed respectively to bull stick (383) outer wall.

8. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 6, wherein: the water main (341) is connected between the water pump (34) and the spray head (37), the right end of the water pump (34) is connected with a joint (342), a first water distribution pipe (343) is installed at the right end of the water tank (31), a second water distribution pipe (344) is installed at the right end of the nutrient solution tank (32), and the right ends of the first water distribution pipe (343) and the second water distribution pipe (344) are respectively connected with the water main (341).

9. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 1, wherein: shine mechanism (2) including pivot (21), backup pad two (22), guide arm (23) and second (29) of telescopic link, pivot (21) rotate to be installed at base (1) upper end inner wall, pivot (21) upper end installation backup pad two (22), guide arm (23) and second (29) of telescopic link are installed respectively to backup pad two (22) upper end.

10. The integrated device for nursery stock, flower and plant cultivation and transplantation as claimed in claim 9, wherein: telescopic link two (29) output erection bracing board three (24), three (24) left end inner wall sliding connection guide arms (23) of backup pad, spacing ball (231) of screw thread installation on guide arm (23), backup pad two (22) right-hand member inner wall screw thread installation screw rod (221), screw rod (221) lower extreme threaded connection base (1), bolt installation fixing base (25) are passed through to three (24) right-hand members of backup pad, fixing base (25) right-hand member fixed mounting vegetation lamp (27), vegetation lamp (27) right-hand member inner wall sliding mounting vegetation lamp two (28), vegetation lamp (27) both sides wall all installs telescopic link one (26), two (28) lateral walls of vegetation lamp are connected to telescopic link one (26) output.