CN216392080U - Can judge good intelligent workshop benefit seedling equipment of seedling - Google Patents
Can judge good intelligent workshop benefit seedling equipment of seedling Download PDFInfo
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- CN216392080U CN216392080U CN202122651524.5U CN202122651524U CN216392080U CN 216392080 U CN216392080 U CN 216392080U CN 202122651524 U CN202122651524 U CN 202122651524U CN 216392080 U CN216392080 U CN 216392080U
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Abstract
The utility model relates to the technical field of agricultural planting, and discloses intelligent workshop seedling supplementing equipment capable of judging excellent seedlings, which comprises a moving vehicle and a support frame on the moving vehicle, wherein a camera is further installed on the support frame, a connecting frame is installed on the support frame, a clamping box used for clamping the seedlings is rotatably connected to the connecting frame, a first piston cavity for storing liquid is arranged in the clamping box, a first piston plate is slidably connected to the interior of the first piston cavity, and a first water pipe used for transmitting the liquid is further installed on the clamping box. The seedling clamping box is sprayed around the clamping box through the water tank, and then the liquid is used for wetting soil, so that the roots and the stems of the seedlings are separated from the soil, the situation that the roots and the stems of the seedlings are tightly connected with the soil and the roots and the stems of the seedlings are broken when the seedling clamping box moves out of the seedlings once the roots and the stems of the seedlings are tightly connected with the soil is avoided, and therefore the device wets the soil through the spraying liquid, and the situation that the roots and the stems are broken when the seedlings are moved is reduced.
Description
Technical Field
The utility model relates to the technical field of agricultural planting, in particular to intelligent workshop seedling supplementing equipment capable of judging excellent seedlings.
Background
The planting industry is a main component of agriculture and is characterized in that the land is taken as basic production information, the biological function of crops is utilized to convert solar energy into chemical potential and agricultural products, in essence, the planting industry takes the land as important production information, green plants are utilized to synthesize organic substances of carbon dioxide, water and mineral substances in the nature through photosynthesis, simultaneously, the solar energy is converted into chemical energy to be stored in the organic substances, wherein the complementary seedlings are the phenomena caused by non-uniformity during the seed sowing process, if the complementary seedlings are the seeds sowed, a place is sometimes found to have thinner seedlings after the seeds germinate, and a place is denser, the reason is mainly the phenomenon caused by non-uniformity during the seed sowing process, at the moment, chopsticks heads can be used to slowly pick up the small seedlings with too dense places, then pits are dug at the too thin places, and the picked-up small seedlings are put in, meanwhile, the surrounding soil needs to be slightly pressed and firmed, and the process is called seedling transplanting.
However, current can judge that good intelligent workshop of seedling equipment is mended when needs are mended the seedling, get the seedling device through control and insert in earth, take out the seedling from earth to transplant to the place that needs are mended the seedling, when getting the seedling device and taking out the seedling from original earth, the rhizome of its seedling can damage by a wide margin, and causes the condition that the survival rate is low after transplanting, and earth is inside harder, when getting the seedling device and taking out by force, must can damage the rhizome.
SUMMERY OF THE UTILITY MODEL
The utility model provides intelligent workshop seedling supplementing equipment capable of judging excellent seedlings, which has the beneficial effects of moistening soil and minimally damaging rootstocks, and solves the problems that when the intelligent workshop seedling supplementing equipment capable of judging excellent seedlings needs to supplement seedlings, a seedling taking device is controlled to be inserted into the soil, seedlings are taken out of the soil and transplanted to a place needing seedling supplementing, when the seedling taking device takes out the seedlings from the original soil, the rootstocks of the seedlings can be greatly damaged, so that the survival rate after transplantation is low, the interior of the soil is hard, and when the seedling taking device is forcibly taken out, the rootstocks can be inevitably damaged.
The utility model provides the following technical scheme: an intelligent workshop seedling supplementing device capable of judging excellent seedlings comprises a moving vehicle and a support frame on the moving vehicle, wherein a camera is further mounted on the support frame, a connecting frame is mounted on the support frame, a clamping box used for clamping seedlings is rotatably connected to the connecting frame, a first piston cavity for storing liquid is arranged inside the clamping box, a first piston plate is slidably connected to the inside of the first piston cavity, a first water pipe used for transmitting the liquid is further mounted on the clamping box, an extruding device is further mounted on the clamping box and used for increasing the liquid pressure, a water tank is additionally arranged on the clamping box and used for spraying the liquid in the extruding device;
the clamping box is further rotatably connected with a stirring part, the stirring part is used for stirring soil, the stirring part comprises a rotating roller rotatably connected to the clamping box, and a groove is formed in the rotating roller.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the clamping box is also internally and slidably connected with a transmission rod, the transmission rod is connected with a first piston plate and is used for driving the first piston plate to slide, and a sealing device is also arranged on the first piston plate and is used for circulating liquid;
the sealing device comprises a sealing cavity arranged on a first piston plate, a sealing cover is connected in the sealing cavity in a sliding mode and used for sealing the cavity, a through hole is further formed in the first piston plate, a round plug is connected to the inside of the through hole in a sliding mode and connected with the sealing cover, a second spring is further installed on the first piston plate and connected with the sealing cover, and the second spring is used for driving the sealing cover to reset.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the inside of centre gripping box still is provided with the retaining chamber, the retaining chamber is used for storing liquid, still install the second water pipe on the centre gripping box, the second water pipe is used for carrying the liquid in retaining chamber department to first piston chamber department.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the rotating roller is further provided with a water spraying hole, the clamping box is further provided with a steel pipe, and the steel pipe is used for conveying liquid at the extruding device to the rotating roller.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the clamping box is characterized in that a conical plate is further mounted on the transmission rod and used for cutting soil, a transmission device is further mounted on the clamping box, a rack is mounted on the conical plate and used for driving the transmission device to rotate, and the transmission device is used for driving a short shaft to rotate;
the transmission device comprises a second gear which is connected in the clamping box in a rotating mode, the rack is used for meshing the second gear, a power storage device is installed on the second gear, a rotating rod is installed on the power storage device, a synchronous belt is connected to the rotating rod, and the rotating rod are connected through the synchronous belt.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the improved rack-and-pinion type gear rack is characterized in that a square groove is formed in the conical plate, the rack is connected to the inside of the square groove in a rotating mode, a welding strip is further installed on the conical plate and used for abutting against the rack, a second torque spring is further installed on the conical plate and connected with the rack, and the second torque spring is used for driving the rack to reset.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the power accumulating device comprises a shaft sleeve arranged on the second gear, a first torsion spring is arranged in the shaft sleeve, a rotary rod is arranged in the first torsion spring, a baffle is arranged on the rotary rod, a first elastic sheet is further arranged in the clamping box, and the baffle is used for abutting against the first elastic sheet.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the extrusion device is including installing the bin in centre gripping box one side, the inside of bin is provided with the storage storehouse, one side and the storage storehouse of steel pipe are linked together, the steel pipe is located the below of second piston board with the junction of centre gripping box, sliding connection has the second piston board in the storage storehouse, the second shell fragment is still installed to the inside of bin, the second piston board is used for contradicting the second shell fragment, the third spring is still installed to the inside of centre gripping box, the third spring is connected with the second piston board, the third spring is used for driving the second piston board and resets.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: the inside of centre gripping box still is provided with the second piston chamber, the inside sliding connection in second piston chamber has the regulating plate, be provided with the circulation mouth that is used for circulating liquid on the regulating plate, the inside of regulating plate is provided with the spread groove, still install the closing plate on the second piston board, closing plate sliding connection is in the inside of spread groove, the fourth spring is still installed to the inside of regulating plate, fourth spring and closing plate are to being connected, still install the square plate with second piston chamber looks adaptation on the regulating plate, set up the square hole that is used for circulating the air on the square plate.
As an alternative of the intelligent workshop seedling supplementing device capable of judging excellent seedlings, the utility model comprises the following steps: still install electric putter on the centre gripping box, electric putter is connected with the transfer line, electric putter is used for the drive transfer line to slide, still install mud-shifting piece on the centre gripping box, mud-shifting piece is contradicted on rotatory roller, mud-shifting piece is used for scraping adnexed earth on the rotatory roller.
The utility model has the following beneficial effects:
1. this can judge that fine intelligent workshop of seedling mends seedling equipment sprays around the centre gripping box through the basin, and then utilizes the moist earth of liquid, lets the rhizome and the earth separation of seedling, avoids kind of seedling rhizome and earth to be connected closely, in case the seedling rhizome is connected closely with earth and will lead to the centre gripping box to take place the cracked condition of rhizome when shifting out the seedling, therefore the device is through spraying the moist earth of liquid, takes place the cracked condition of rhizome when reducing to move the seedling.
2. This can judge excellent intelligent workshop benefit seedling equipment of seedling has realized increaseing the scope of the moist earth of liquid through rotatory roller, reduces the cracked condition of rhizome that takes place when transplanting seedlings, and the rotation through rotatory roller lets the rhizome of contradicting on rotatory roller move to the position that is close to the seedling, when avoiding the centre gripping box to continue to move down, and the centre gripping box extrudees the rhizome fracture.
Drawings
Fig. 1 is a schematic structural view of the whole of the present invention.
FIG. 2 is a schematic structural diagram of the clamping box and the connecting frame of the present invention.
Fig. 3 is a half sectional view of the cassette of the present invention.
Fig. 4 is a schematic structural view of the sealing device of the present invention.
FIG. 5 is a schematic view of a portion of the structure of FIG. 4 according to the present invention.
Fig. 6 is a schematic structural diagram of the transmission device of the present invention.
Fig. 7 is a schematic structural view of the tapered plate and the rack according to the present invention.
FIG. 8 is a schematic view of a portion of the structure shown in FIG. 6B according to the present invention.
FIG. 9 is a schematic view of the structure of the extruding apparatus of the present invention.
Fig. 10 is a schematic view showing the structures of a sealing plate and a square plate according to the present invention.
In the figure: 1. a mobile vehicle; 2. a sealing device; 21. a sealing cover; 22. sealing the cavity; 23. a round plug; 24. a through hole; 25. a second spring; 3. an extrusion device; 31. a storage tank; 32. a storage bin; 33. a second piston plate; 34. a third spring; 35. a second elastic sheet; 36. an adjusting plate; 37. a flow port; 38. a second piston chamber; 39. a square plate; 81. a square hole; 82. connecting grooves; 83. a sealing plate; 84. a fourth spring; 4. a transmission device; 41. a second gear; 42. rotating the rod; 43. a synchronous belt; 44. a shaft sleeve; 45. a first torsion spring; 46. a baffle plate; 47. a first spring plate; 48. a square groove; 49. welding the strips; 5. a stirring component; 51. a rotating roller; 52. a minor axis; 53. a water spray hole; 54. a groove; 7. an electric push rod; 8. a transmission rod; 9. a tapered plate; 10. a first piston plate; 11. a first piston chamber; 12. a first water pipe; 13. a second torque spring; 14. a water tank; 15. a water storage cavity; 16. a second water pipe; 17. a rack; 18. a connecting frame; 19. a clamping box; 20. a steel pipe; 91. a support frame; 92. a camera; 93. and (5) mud removing sheets.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
Please refer to fig. 1-3, an intelligent workshop seedling supplementing device capable of determining excellent seedlings, comprising a moving vehicle 1 and a support frame 91 on the moving vehicle 1, wherein a camera 92 is further installed on the support frame 91, a connection frame 18 is installed on the support frame 91, a clamping box 19 for clamping the seedlings is rotatably connected on the connection frame 18, a first piston cavity 11 for storing liquid is arranged inside the clamping box 19, a first piston plate 10 is slidably connected inside the first piston cavity 11, a first water pipe 12 for transmitting the liquid is further installed on the clamping box 19, an extruding device 3 is further installed on the clamping box 19, the extruding device 3 is used for increasing the liquid pressure, a water tank 14 is additionally installed on the clamping box 19, and the water tank 14 is used for spraying the liquid in the extruding device 3.
The clamping box 19 is also rotatably connected with a stirring part 5, the stirring part 5 is used for stirring soil, the stirring part 5 comprises a rotating roller 51 rotatably connected to the clamping box 19, and a groove 54 is formed in the rotating roller 51;
the clamping box 19 is further provided with an electric push rod 7, the electric push rod 7 is connected with the transmission rod 8, the electric push rod 7 is used for driving the transmission rod 8 to slide, the clamping box 19 is further provided with a mud-removing sheet 93, the mud-removing sheet 93 abuts against the rotating roller 51, and the mud-removing sheet 93 is used for scraping off the attached soil on the rotating roller 51.
In this embodiment: referring to fig. 1, the device shoots the picture through the camera 92, the operator watches the picture and decides whether to replant the seedling, when the seedling needs to be replanted, the clamping box 19 is controlled to be inserted into the soil, the seedling is taken out from the soil and transplanted to the place where the seedling needs to be replanted, however, when the clamping box 19 takes out the seedling from the original soil, the root and stem of the seedling can be greatly damaged, and the survival rate after transplantation is low, therefore, the device sprays liquid to wet the soil through the water tank 14 by arranging the water tank 14.
Soil wetting: according to fig. 3, when centre gripping box 19 is inserted in earth, drive transfer line 8 upwards to slide through electric putter 7, drive first piston plate 10 upwards to slide through transfer line 8, because first piston plate 10 and first piston chamber 11 looks adaptation, and then utilize first piston plate 10 to extrude the inside of the liquid inflow first water pipe 12 of first piston plate 10 top, spray around centre gripping box 19 through basin 14, and then utilize the moist earth of liquid, let the rhizome of seedling and earth separation, it is inseparable to avoid kind of seedling rhizome and earth to be connected, in case the seedling rhizome is connected closely with earth and will lead to the circumstances that the rhizome is cracked when centre gripping box 19 shifts out the seedling, consequently the device is through spraying the moist earth of liquid, the circumstances that the rhizome is cracked when reducing the transplanting of seedlings.
Shifting the rhizome: since the soil may be too tight and the roots and stems of the seedlings extend too long in the soil, and the sprayed liquid will not wet too much soil, and the situation that the roots and stems are broken when the seedling is moved out from the clamping box 19 still occurs, therefore, by rotating the clamping box 19 to connect the rotating roller 51, and arranging the groove 54 on the rotating roller 51, the groove 54 on the rotating roller 51 is stripped off a part of the soil by rotating the rotating roller 51, the soil at the groove 54 is stripped off by the mud-removing sheet 93 on the clamping box 19, and since the liquid is sprayed all the time, the soil which is not excavated by the rotating roller 51 is loosened by the liquid, then the roots and stems which are abutted against the rotating roller 51 are slowly extracted by the rotation of the rotating roller 51, so that the device realizes the range that the liquid wets the soil by the rotating roller 51, the situation that the roots and stems are broken when the seedlings are transferred is reduced, and by the rotation of the rotating roller 51, the rootstock abutting against the rotating roller 51 is moved to a position close to the seedling, so that the rootstock is prevented from being crushed and broken by the clamping box 19 when the clamping box 19 continues to move downwards.
Example 2
In this embodiment, an improvement is made on the basis of embodiment 1, as shown in fig. 1 to 5, a transmission rod 8 is further slidably connected in the clamping box 19, the transmission rod 8 is connected with a first piston plate 10, the transmission rod 8 is used for driving the first piston plate 10 to slide, a sealing device 2 is further disposed on the first piston plate 10, and the sealing device 2 is used for flowing liquid;
the sealing device 2 comprises a sealing cavity 22 arranged on the first piston plate 10, a sealing cover 21 is connected in the sealing cavity 22 in a sliding mode, the sealing cover 21 is used for sealing the sealing cavity 22, a through hole 24 is further formed in the first piston plate 10, a round plug 23 is connected in the through hole 24 in a sliding mode, the round plug 23 is connected with the sealing cover 21, a second spring 25 is further installed on the first piston plate 10, the second spring 25 is connected with the sealing cover 21, and the second spring 25 is used for driving the sealing cover 21 to reset.
In this embodiment:
unidirectional water spraying: according to embodiment 1, the first piston plate 10 slides in the first piston cavity 11, the first piston plate 10 presses the liquid in the first piston cavity 11 to flow to the water tank 14 for spraying, however, when the transmission rod 8 is reset, the first piston plate 10 moves downwards, which causes negative pressure in the first piston cavity 11, the water tank 14 draws air into the first piston cavity 11, which causes soil to block the water tank 14, therefore, the device is provided with the sealing cover 21 on the first piston plate 10, referring to fig. 4 and 5, when the first piston plate 10 slides upwards, because the first piston plate 10 has liquid, the liquid presses the sealing cover 21 to fall in the second spring 25, the sealing cover 21 seals the second spring 25, so that the first piston plate 10 becomes a complete plate, at this time, the liquid can be pressed by the first piston plate 10, when the first piston plate 10 slides downwards, because the first piston plate 10 is matched with the first piston cavity 11, and then the lower end of the first piston plate 10 is in a sealing state, at the moment, the round plug 23 is jacked upwards by gas at the lower end of the first piston plate 10, so that the round plug 23 pushes the sealing cover 21 to slide from the inside of the sealing cavity 22, and then the first piston plate 10 can circulate air through the sealing cavity 22 and the through hole 24, and therefore the first piston plate 10 cannot generate negative pressure when descending, and the possibility that soil blocks the water tank 14 is reduced.
Example 3
In this embodiment, an improvement is made on the basis of embodiment 2, as shown in fig. 1-5, a water storage cavity 15 is further provided inside the clamping box 19, the water storage cavity 15 is used for storing liquid, a second water pipe 16 is further mounted on the clamping box 19, and the second water pipe 16 is used for conveying the liquid at the water storage cavity 15 to the first piston cavity 11.
In this embodiment:
and (4) output quantification: referring to fig. 4, by arranging the water storage chamber 15 in the holding box 19 and storing a large amount of liquid in the water storage chamber 15, when the first piston plate 10 slides upward to press the liquid above the first piston plate 10 to the water tank 14, since a negative pressure is generated below the first piston plate 10 when the first piston plate 10 slides upward, the liquid in the water storage chamber 15 is pumped by the negative pressure to fill the interior of the first piston chamber 11, and when the first piston plate 10 slides downward, the liquid pressing round plug 23 and the sealing cover 21 slide upward through the liquid at the lower end of the first piston plate 10, so that the liquid at the lower end of the first piston plate 10 can flow to the upper end of the first piston plate 10, and the liquid is conveniently conveyed to the water tank 14 next time by the first piston plate 10, the liquid pressed by the first piston plate 10 is the same each time by arranging the water storage chamber 15, and the holding box 19 does not move downward for a certain distance, the condition of the liquid can not be extruded to first piston plate 10, and because the liquid that first piston plate 10 extrudeed every time all is the same, consequently from ground to the soil in, all can be wet by liquid to the earth that the centre gripping box 19 slided, and then the root and the meeting of earth separation more thoroughly, conveniently shift out the seedling to take place the cracked condition of rhizome when further reducing the seedling transplanting.
Example 4
This embodiment is an improvement on embodiment 1, and according to fig. 1-6, the rotating roller 51 is further provided with a water spraying hole 53, and the clamping box 19 is further provided with a steel pipe 20, and the steel pipe 20 is used for conveying the liquid at the extruding device 3 to the rotating roller 51.
In this embodiment:
the spraying range is enlarged: referring to fig. 6, be connected extrusion device 3 with rotatory roller 51 through steel pipe 20 for the liquid that first water pipe 12 was carried out can circulate rotatory roller 51 department, because rotatory roller 51 can rotate, and then when rotatory roller 51 was rotatory, spout hole 53 through rotatory roller 51 sprays liquid and hits on earth, make the device pass through the cooperation of rotatory roller 51 and spout hole 53, the scope of the moist earth of liquid has been increaseed, and then can let more rhizomes and earth separate, the cracked condition of rhizome when reducing the seedling.
Example 5
The embodiment is an improvement on embodiment 2, and as shown in fig. 1-6, a conical plate 9 is further mounted on the transmission rod 8, the conical plate 9 is used for cutting soil, a transmission device 4 is further mounted on the clamping box 19, a rack 17 is mounted on the conical plate 9, the rack 17 is used for driving the transmission device 4 to rotate, and the transmission device 4 is used for driving the short shaft 52 to rotate;
the transmission device 4 comprises a second gear 41 rotatably connected in the clamping box 19, the rack 17 is used for meshing the second gear 41, a power storage device is mounted on the second gear 41, a rotating rod 42 is mounted on the power storage device, a synchronous belt 43 is connected on the rotating rod 42, and the rotating rod 42 is connected with the rotating rod 42 through the synchronous belt 43.
In this embodiment:
driving and rotating: according to fig. 6, the driving rod 8 drives the conical plate 9 to lift upwards, so that the two rotating rollers 51 are not blocked by soil, if the conical plate 9 cannot move, after the clamping box 19 is inserted into the soil, the soil wraps the lower end of the clamping box 19, so that the two rotating rollers 51 are not communicated, even though the rotating rollers 51 can stir up the soil, the required time is long, the soil cannot be processed in time, once the conical plate 9 slides upwards, a groove is formed between the two rotating rollers 51, so that the two rotating rollers 51 can stir the soil and stir rhizomes conveniently, and the range of spraying liquid through the water spraying holes 53 is enlarged through the upward movement of the conical plate 9, because the rack 17 arranged on the conical plate 9 is meshed with the second gear 41, and the rack 17 drives the second gear 41 to rotate, the second gear 41 drives the rotating rod 42 to rotate, and the rotating rod 42 drives the synchronous belt 43 to rotate, the timing belt 43 drives the stub shaft 52 to rotate, thereby achieving rotation of the rotating roller 51.
Example 6
The present embodiment is an improvement made on the basis of embodiment 5, and as shown in fig. 1 to 7, a square groove 48 is provided on the conical plate 9, the rack 17 is rotatably connected inside the square groove 48, a welding strip 49 is further installed on the conical plate 9, the welding strip 49 is used for abutting against the rack 17, a second torque spring 13 is further installed on the conical plate 9, the second torque spring 13 is connected with the rack 17, and the second torque spring 13 is used for driving the rack 17 to return.
In this embodiment: according to embodiment 5, the conical plate 9 slides upwards, the second gear 41 is driven to rotate by the rack 17 on the conical plate 9, the second gear 41 drives the rotating rod 42 and the synchronous belt 43 to drive the rotating roller 51 to rotate, however, when the conical plate 9 slides downwards, the rack 17 on the conical plate 9 reversely drives the second gear 41 to rotate, so as to cause the rotating roller 51 to reversely rotate, because the rotating roller 51 can drive the rhizome to approach to the position of the seedling, once the rotating roller 51 reversely rotates, the rotating roller 51 can drive the rhizome to approach to the position of the seedling for doing useless work, so the rack 17 is set as one-way tooth;
avoiding reverse pulling of the rootstock: according to fig. 7, when the tapered plate 9 moves upward, the rack 17 abuts against the welding strip 49, the rack 17 can transmit the rotation of the second gear 41, when the tapered plate 9 slides downward, the rack 17 is rotationally connected to the inside of the square groove 48, the rack 17 is extruded by the second gear 41 to rotate to the inside of the square groove 48, and the rack 17 cannot transmit the rotation of the second gear 41, so that the rack 17 can only transmit the rotation of the second gear 41 in one direction, and the reverse rotation of the rotating roller 51 is avoided.
Example 7
In this embodiment, an improvement is made on the basis of embodiment 5, and as shown in fig. 1 to 8, the power accumulating device includes a shaft sleeve 44 installed on the second gear 41, a first torsion spring 45 is installed in the shaft sleeve 44, a rotating rod 42 is installed in the first torsion spring 45, a baffle 46 is installed on the rotating rod 42, a first elastic sheet 47 is further installed inside the clamping box 19, and the baffle 46 is used for abutting against the first elastic sheet 47.
In this embodiment: according to embodiment 5, when the transmission rod 8 drives the conical plate 9 to move upwards, the transmission rod 8 will drive the first piston plate 10 to squeeze the liquid to spray through the water spraying hole 53, since the rack 17 on the conical plate 9 will drive the second gear 41 to rotate when moving, the second gear 41 will drive the rotating rod 42 and the synchronous belt 43 to drive the rotating roller 51 to rotate, and further, when the liquid is sprayed, the water spraying hole 53 will already rotate, which will cause the rhizome not to be completely separated from the soil, and the rotating roller 51 will forcibly stir the rhizome to move, which will cause the rhizome to break, and in order to reduce the occurrence of this, the bushing 44 is installed on the second gear 41.
Wetting the soil, stirring the soil: referring to fig. 8, when the water tank 14 drives the second gear 41 to rotate, the second gear 41 drives the shaft sleeve 44 to rotate, the shaft sleeve 44 drives the rotating rod 42 to rotate, since the baffle 46 on the rotating rod 42 is limited by the first elastic sheet 47, and further when the second gear 41 drives the rotating rod 42 to rotate, the rotating rod 42 does not rotate, so the shaft sleeve 44 compresses the first torsion spring 45, at this time, the first piston plate 10 first squeezes the liquid to spray on the soil, first wets the soil to completely separate the rhizome from the soil, and then only when the rotating force of the shaft sleeve 44 is large enough, so that the baffle 46 passes through the first elastic sheet 47, the first torsion spring 45 releases the rotating compression force, and further the rotating rod 42 is driven to rotate by the first torsion spring 45, and the rotating rod 42 drives the timing belt 43 and the rotating roller 51 to rotate.
Example 8
The present embodiment is an improvement made on the basis of embodiment 1, and as shown in fig. 1 to 9, the squeezing device 3 includes a storage box 31 installed on one side of the clamping box 19, a storage bin 32 is installed inside the storage box 31, one side of the steel tube 20 is communicated with the storage bin 32, a joint of the steel tube 20 and the clamping box 19 is located below the second piston plate 33, the second piston plate 33 is connected inside the storage bin 32 in a sliding manner, a second elastic sheet 35 is further installed inside the storage box 31, the second piston plate 33 is used for abutting against the second elastic sheet 35, a third spring 34 is further installed inside the clamping box 19, the third spring 34 is connected with the second piston plate 33, and the third spring 34 is used for driving the second piston plate 33 to reset.
In this embodiment:
increasing hydraulic pressure: referring to fig. 9, the liquid is transferred to the storage bin 32 through the first water pipe 12, since the second piston plate 33 is abutted by the second elastic sheet 35, and the steel pipe 20 is located at the lower end of the second piston plate 33, and only when the liquid pressure on the second piston plate 33 reaches a certain position, the liquid pressure presses the second piston plate 33 downwards, so that the second piston plate 33 rushes against the second elastic sheet 35, and exposes the steel pipe 20, so that the squeezed liquid quickly impacts the inside of the steel pipe 20 and is discharged from the water spraying holes 53.
Example 9
The present embodiment is an improvement made on the basis of embodiment 8, as shown in fig. 1 to 10, a second piston chamber 38 is further provided inside the clamping box 19, an adjusting plate 36 is slidably connected inside the second piston chamber 38, a circulation port 37 for circulating liquid is provided on the adjusting plate 36, a connection groove 82 is provided inside the adjusting plate 36, a sealing plate 83 is further installed on the second piston plate 33, the sealing plate 83 is slidably connected inside the connection groove 82, a fourth spring 84 is further installed inside the adjusting plate 36, the fourth spring 84 is connected to the sealing plate 83, a square plate 39 adapted to the second piston chamber 38 is further installed on the adjusting plate 36, and a square hole 81 for circulating air is provided on the square plate 39.
In this embodiment: according to the embodiment 8, the second piston plate 33 is pressurized with the liquid to clean the soil on the roots and stalks with the high pressure liquid, but if the rotating roller 51 always sprays the high pressure liquid, the high pressure liquid is caused to spray and break the roots and stalks, so that the apparatus is provided with the adjusting plate 36 on the second piston plate 33,
gradually reducing the water pressure:
as shown in fig. 10, when the second piston plate 33 is pressed down by the high-pressure liquid, the sealing plate 83 is pulled down by the second piston plate 33, the sealing plate 83 pulls the fourth spring 84 down, because the amount of air flowing through the square hole 81 of the square plate 39 is limited, and the fourth spring 84 pulls the adjusting plate 36 to descend, the adjusting plate 36 can only slowly descend through the square hole 81, thereby exposing a small portion of the regulating plate 36, allowing the left-hand liquid to flow through the flow opening 37, because the adjusting plate 36 descends slowly and the exposed space of the flow opening 37 is small, the pressure can be enhanced when the liquid passes through the flow opening 37, the flow opening 37 is gradually and completely exposed along with the continuous descending of the adjusting plate 36, so that the pressure of the liquid cannot be changed when the liquid passes through the flow opening 37, therefore, the device can gradually reduce the water pressure, thereby avoiding the high-pressure liquid from jetting the rhizome to cause the fracture.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (10)
1. The utility model provides a can judge that fine intelligent workshop of seedling mends seedling equipment, includes support frame (91) on locomotive (1) and locomotive (1), still install camera (92) on support frame (91), install link (18), its characterized in that on support frame (91): the seedling-clamping device is characterized in that a clamping box (19) used for clamping seedlings is rotatably connected to the connecting frame (18), a first piston cavity (11) used for storing liquid is arranged in the clamping box (19), a first piston plate (10) is slidably connected to the interior of the first piston cavity (11), a first water pipe (12) used for transmitting liquid is further mounted on the clamping box (19), an extruding device (3) is further mounted on the clamping box (19), the extruding device (3) is used for increasing the liquid pressure, a water tank (14) is additionally arranged on the clamping box (19), and the water tank (14) is used for spraying the liquid in the extruding device (3);
still rotate on centre gripping box (19) and be connected with stirring part (5), stirring part (5) are used for mixxing earth, stirring part (5) are including rotating rotatory roller (51) of connection on centre gripping box (19), be provided with recess (54) on rotatory roller (51).
2. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good according to claim 1, wherein: a transmission rod (8) is further connected in the clamping box (19) in a sliding manner, the transmission rod (8) is connected with a first piston plate (10), the transmission rod (8) is used for driving the first piston plate (10) to slide, a sealing device (2) is further arranged on the first piston plate (10), and the sealing device (2) is used for liquid circulation;
sealing device (2) is including setting up sealed chamber (22) on first piston plate (10), sliding connection has sealed lid (21) in sealed chamber (22), sealed lid (21) are used for sealed chamber (22), still be provided with through-hole (24) on first piston plate (10), the inside sliding connection of through-hole (24) has round stopper (23), round stopper (23) are connected with sealed lid (21), still install second spring (25) on first piston plate (10), second spring (25) are connected with sealed lid (21), second spring (25) are used for driving sealed lid (21) and reset.
3. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good or not according to claim 2, wherein: the inside of centre gripping box (19) still is provided with retaining chamber (15), retaining chamber (15) are used for storing liquid, still install second water pipe (16) on centre gripping box (19), second water pipe (16) are used for carrying the liquid of retaining chamber (15) department first piston chamber (11) department.
4. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good according to claim 1, wherein: the rotating roller (51) is further provided with a water spraying hole (53), the clamping box (19) is further provided with a steel pipe (20), and the steel pipe (20) is used for conveying liquid at the extruding device (3) to the rotating roller (51).
5. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good or not according to claim 2, wherein: the transmission rod (8) is further provided with a conical plate (9), the conical plate (9) is used for cutting soil, the clamping box (19) is further provided with a transmission device (4), the conical plate (9) is provided with a rack (17), the rack (17) is used for driving the transmission device (4) to rotate, and the transmission device (4) is used for driving the short shaft (52) to rotate;
transmission (4) are including rotating second gear (41) of connection in centre gripping box (19), rack (17) are used for meshing second gear (41), install the power storage device on second gear (41), install rotary rod (42) on the power storage device, be connected with hold-in range (43) on rotary rod (42), be connected through hold-in range (43) between rotary rod (42) and rotary rod (42).
6. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good or not according to claim 5, wherein: be provided with square groove (48) on conical plate (9), rack (17) rotate to be connected in the inside of square groove (48), still install welding strip (49) on conical plate (9), welding strip (49) are used for contradicting rack (17), still install second torque spring (13) on conical plate (9), second torque spring (13) are connected with rack (17), second torque spring (13) are used for driving rack (17) and reset.
7. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good or not according to claim 6, wherein: the power accumulating device comprises a shaft sleeve (44) installed on a second gear (41), a first torsion spring (45) is installed in the shaft sleeve (44), a rotary rod (42) is installed in the first torsion spring (45), a baffle (46) is installed on the rotary rod (42), a first elastic sheet (47) is further installed inside the clamping box (19), and the baffle (46) is used for abutting against the first elastic sheet (47).
8. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good or not according to claim 4, wherein: extrusion device (3) are including installing bin (31) in centre gripping box (19) one side, the inside of bin (31) is provided with storage storehouse (32), one side and storage storehouse (32) of steel pipe (20) are linked together, steel pipe (20) are located the below of second piston plate (33) with the junction of centre gripping box (19), sliding connection has second piston plate (33) in storage storehouse (32), second shell fragment (35) are still installed to the inside of bin (31), second piston plate (33) are used for contradicting second shell fragment (35), third spring (34) are still installed to the inside of centre gripping box (19), third spring (34) are connected with second piston plate (33), third spring (34) are used for driving second piston plate (33) and reset.
9. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good according to claim 8, wherein: the inside of centre gripping box (19) still is provided with second piston chamber (38), the inside sliding connection in second piston chamber (38) has regulating plate (36), be provided with circulation mouth (37) that are used for circulating liquid on regulating plate (36), the inside of regulating plate (36) is provided with spread groove (82), still install closing plate (83) on second piston plate (33), closing plate (83) sliding connection is in the inside of spread groove (82), fourth spring (84) are still installed to the inside of regulating plate (36), fourth spring (84) are connected with closing plate (83), still install square plate (39) with second piston chamber (38) looks adaptation on regulating plate (36), square hole (81) that are used for circulating air have been seted up on square plate (39).
10. The intelligent workshop seedling supplementing device capable of judging whether seedlings are good according to claim 1, wherein: still install electric putter (7) on centre gripping box (19), electric putter (7) are connected with transfer line (8), electric putter (7) are used for drive transfer line (8) to slide, still install mud scraper (93) on centre gripping box (19), mud scraper (93) are contradicted on rotatory roller (51), mud scraper (93) are used for scraping adnexed earth on rotatory roller (51).
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CN202122651524.5U CN216392080U (en) | 2021-11-02 | 2021-11-02 | Can judge good intelligent workshop benefit seedling equipment of seedling |
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CN202122651524.5U CN216392080U (en) | 2021-11-02 | 2021-11-02 | Can judge good intelligent workshop benefit seedling equipment of seedling |
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CN202122651524.5U Active CN216392080U (en) | 2021-11-02 | 2021-11-02 | Can judge good intelligent workshop benefit seedling equipment of seedling |
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