CN113854130A

CN113854130A - Wisdom agricultural is with fertilization integrated device that waters

Info

Publication number: CN113854130A
Application number: CN202111178608.XA
Authority: CN
Inventors: 黄培明
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-10-10
Filing date: 2021-10-10
Publication date: 2021-12-31

Abstract

The invention discloses a watering and fertilizing integrated device for smart agriculture, which relates to the field of smart agriculture and comprises a main processing box, wherein a bottom cushion block is fixedly bonded on the bottom surface of the main processing box, a sealing cover plate is hinged to the top surface of the main processing box, a control panel is embedded on one side edge of the main processing box, an extension pipeline is horizontally arranged on one side edge of the main processing box far away from the control panel, a watering pipeline is uniformly welded on one side edge of the extension pipeline far away from the main processing box, a connecting inclined pipe is obliquely arranged on one side edge of the main processing box far away from the control panel, and a feeding pipeline is horizontally welded on one end of the connecting inclined pipe far away from the main processing box. The device has a simple design structure and is easy and convenient to operate, the integrated design of watering and feeding is adopted, so that the use is more convenient, meanwhile, the watering and fertilizing treatment at the point-to-point mode can not cause waste, and the work efficiency of watering and fertilizing is greatly improved.

Description

Wisdom agricultural is with fertilization integrated device that waters

Technical Field

The invention relates to the technical field of intelligent agriculture, in particular to a watering and fertilizing integrated device for intelligent agriculture.

Background

Wisdom agriculture is the wisdom economy in agriculture, or the concrete manifestation of wisdom economy modalities in agriculture. The intelligent agriculture is an important component of the intelligent economy, and for developing countries, the intelligent agriculture is a main component of the intelligent economy and is a main way for developing countries to eliminate poverty, realize the advantages of later development, stay after the economic development and realize overtaking the strategy.

When watering and fertilizing to present wisdom agricultural, all adopted the structure of split for the great simultaneous operation of volume also can bring the inconvenience, and all adopted the formula structure of spraying when the fertilization of split makes the scattering that fertilizer can not be accurate in the root position of plant, makes the extravagant condition that can cause fertilizer, and still needs the manual work to participate in the operation, makes the work efficiency greatly reduced who waters and fertilize.

Disclosure of Invention

The invention aims to provide a watering and fertilizing integrated device for smart agriculture, and aims to solve the problems that the existing smart agriculture in the background technology adopts a split structure when watering and fertilizing, so that the size is large, inconvenience is brought to operation, and a spraying structure is adopted when split fertilizing, so that fertilizer cannot be accurately scattered at the root of a plant, fertilizer waste is caused, and manual operation is required, so that the working efficiency of watering and fertilizing is greatly reduced.

In order to achieve the purpose, the invention provides the following technical scheme:

a watering and fertilizing integrated device for smart agriculture comprises a main processing box, wherein a bottom cushion block is fixedly bonded on the bottom surface of the main processing box, a sealing cover plate is hinged to the top surface of the main processing box, a control panel is inlaid on one side edge of the main processing box, an extension pipeline is horizontally arranged on one side edge of the main processing box far away from the control panel, a watering pipeline is uniformly welded on one side edge of the extension pipeline far away from the main processing box, a connecting inclined pipe is obliquely arranged on one side edge of the main processing box far away from the control panel, a feeding pipeline is horizontally welded at one end of the connecting inclined pipe far away from the main processing box, an isolation middle plate is vertically welded on the inner side edge of the main processing box, an extraction pump is bolted on the inner side bottom surface of the main processing box, a measuring block is placed on the inner side edge of the main processing box, a feeding funnel is welded on the inner side edge of the main processing box, the feeding hopper is characterized in that a material injection pipeline is horizontally welded at the bottom end of the feeding hopper, one end of the material injection pipeline is connected with a material injection motor through a bolt, a material injection shaft rod is horizontally inserted and arranged at the inner side edge of the material injection pipeline, helical blades are uniformly welded at the outer side edge of the material injection shaft rod, a through hole is formed in one end, far away from the material injection motor, of the material injection pipeline, a connecting pipe is horizontally inserted and connected at one side edge of the main processing box, an outer supporting pipe is horizontally inserted and connected at one side edge of the main processing box, a material distribution box body is welded at one end, far away from the main processing box, of the outer supporting pipe, the top surface of the material distribution box body is connected with a turnover motor through a bolt, a connecting soft block is fixedly clamped at the inner side edge of the material distribution box body, a turnover pipeline is arranged at the inner side edge of the material distribution box body, turnover shaft rods are symmetrically welded at the outer side edge of the turnover pipeline, and water dripping holes are uniformly formed at the outer side edge of the water injection pipeline, the inner side of the dripping hole is fixedly clamped with a colloid block, the inner side of the feeding pipeline is clamped with a movable ring body, the inner side edge of the movable ring body is clamped with a turnover plate, the outer side edge of the feeding pipeline is uniformly provided with buckling grooves, the inner side edge of the buckling groove is clamped with a rotating disc, the side edge of the rotating disc is horizontally inserted with a rotating shaft lever, the outer side edge of the rotating disc is symmetrically provided with feeding grooves, the inner side edge of the feeding pipeline is symmetrically provided with side clamping grooves, the inner side edge of the side clamping groove is clamped with a clamping block, the inner side edge of the side clamping groove is horizontally clamped with an extension spring, the inner side edge of the feeding pipeline is uniformly and fixedly clamped with a fixed ring, the side wall of the feeding pipeline is fixedly embedded with a timing motor, the outer side edge of the turnover plate is welded with a turnover fixture block, and the outer side edge of a shaft lever of the turnover fixture block is fixedly sleeved with a support spring.

As a preferred embodiment of the present invention: the number of the bottom cushion blocks is four, the four bottom cushion blocks are fixedly arranged at four corner positions of the bottom surface of the main processing box respectively, the four bottom cushion blocks are all made of hard rubber materials and arranged, the sealing cover plate is buckled and arranged at the position of the top opening end of the main processing box, the number of the control panels is two, and the two control panels are fixedly arranged at one side edge of the main processing box respectively and are close to the edge position.

As a preferred embodiment of the present invention: the extension pipeline level sets up and is close to the bottom surface position at a side of main processing case, and the outside limit of extension pipeline keeps fixed welding with the one end of connecting pipe and sets up, and the inside of extension pipeline keeps leading to with the inside of connecting pipe and connects the setting, and watering pipeline's number is many, and many watering pipeline parallel arrangement each other, and many watering pipeline all keep leading to with the inboard side of extension pipeline and connect the setting.

As a preferred embodiment of the present invention: the number of connecting the pipe chute is many, and the one end of many connection pipe chutes is all pegged graft and is established in the outside limit position of dividing the material box body, and the inside of many connection pipe chutes keeps leading to the setting with the inside of dividing the material box body, and the number of throwing the material pipeline keeps unanimous setting with the number of connecting the pipe chute, and the homogeneous one-to-one keeps leading to the setting each other, and many are thrown the material pipeline and are watered pipe homogeneous one-to-one and correspond stack formula parallel arrangement each other, keep apart the vertical fixed inboard central line position that sets up at the main processing case of medium plate.

As a preferred embodiment of the present invention: the fixed inboard that sets up at the main processing case of draw-out pump is close to a base angular position, and draw-out pump and a control panel's inside keeps electric connection setting each other, measures the piece setting in with the same inboard side position of draw-out pump, and measure the piece and keep electric connection setting each other with a control panel's inside, throws the vertical side position in keeping apart that the draw-out pump was kept away from to the medium plate to fixed setting of hopper.

As a preferred embodiment of the present invention: the opening has been seted up to the top surface of annotating the material pipeline, and the inside of annotating the material pipeline keeps leading to with the inside of throwing the material funnel and connects the setting, annotate the fixed one end central point that sets up at the notes material pipeline of material motor and put, and the output level welding of annotating the material motor sets up the one end position at the notes material axostylus axostyle, annotate the fixed axis position that sets up at the notes material pipeline of material axostylus axostyle level, and annotate the material axostylus axostyle and run through the inboard side position that leads to the perforation extension to outer stay tube at the one end level of keeping away from the notes material motor, helical blade's outside limit butt joint sets up the inside wall position at the notes material pipeline.

As a preferred embodiment of the present invention: the inside that leads to the hole keeps leading to with the inside of outer support tube and connects the setting, the one end of connecting pipe is fixed to be cup jointed the output position that sets up at the extraction pump, the perpendicular top surface that runs through branch material box body downwards of output of upset motor extends to inside, and extend the perpendicular welding setting downwards of end and put at the top position of upset axostylus axostyle, it adopts soft rubber materials preparation setting to connect the soft piece, and the one end fixed butt joint of connecting the soft piece sets up the one end position of outer support tube, and the fixed joint setting of the other end is in the one end position of upset pipeline, the upset pipeline corresponds the butt joint setting at the one end position of a connection pipe chute keeping away from the one end of connecting the soft piece.

As a preferred embodiment of the present invention: the upset axostylus axostyle is the fixed one end position that sets up near connecting the soft piece in the outside limit of upset pipeline of symmetry respectively, and the colloid piece adopts soft rubber materials preparation and central point to put and has seted up the through-hole, and the number of activity ring body is a plurality of, and a plurality of activity ring body parallel arrangement each other is in the inboard side position of throwing the material pipeline, and the bottom surface position is close to on the outside limit of throwing the material pipeline evenly seted up in the catching groove, and the inside in catching groove keeps leading to the setting with the inside of throwing the material pipeline.

As a preferred embodiment of the present invention: the side draw-in groove is two bisymmetry levels respectively and is seted up in the position between a plurality of solid fixed rings, and the joint piece is the fixed outside limit position that sets up at the activity ring body of symmetry respectively, and the fixed joint setting of one end of extension spring is in the side position of joint piece, and solid fixed ring's structural shape keeps unanimous setting with the activity ring body, and timing motor's output level welds the one end position that sets up at the rotation axostylus axostyle, and upset fixture block joint sets up inside the inboard draw-in groove of the activity ring body.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention arranges and fixes a plurality of watering pipelines at the root position of the plant, simultaneously leads a plurality of feeding pipelines to be evenly arranged at the top surface of the watering pipelines and the top position of the corresponding root of the plant, injects water into one side position of the isolation middle plate after opening the sealing cover plate, the isolation middle plate divides the main processing box into two areas, namely a water box and a feed box, a control panel of the water in the water box enables the extraction pump to extract the water in the water box to enter the extension pipeline, then leads the water to enter the interiors of the plurality of watering pipelines in a branch guide way, leads the water to extrude the colloid block under the action of pressure, leads the water to be sprayed out from the hole to water the plant, and leads the water in the interiors to be measured and detected under the suspension measurement of the measuring block, the amount of the water body can be detected and processed.

2. The invention puts the feed into the feeding funnel when feeding is needed, the feeding motor rotates after the control of a control panel, so that the feeding shaft rod rotates to drive the helical blade to rotate in the feeding pipeline, the extruded feed enters the outer supporting pipe from the through hole, the turning pipeline is driven to turn to a specified angle under the rotation of the control turning motor, then the feed enters the turning pipeline through the guide of the connecting soft block and finally enters the corresponding inner side position of the connecting inclined pipe, the injected feed overturns the movable ring body and the inner side overturning plate of the fixed ring, the feed can fill the inner side position of the feeding pipeline, the movable ring body slides and moves under the extrusion of the feed, and the movable ring body and the fixed ring extend to a specified distance, can effectual segmentation filling effect to the fodder, make the connecting shaft pole drive the rolling disc and rotate the processing under timing motor's rotation, let the fodder enter into corresponding inside edge position of throwing the silo, make the throw material groove that has the fodder shift out the catching groove under the rotation of rolling disc, make inside fodder drop into the plant root position that corresponds, device design simple structure is easy and simple to handle, adopted water and throw material integrated design more convenient when making the use, water and fertilize the processing and make and can not cause the waste in some counter point simultaneously, great improvement the work efficiency of the fertilization that waters.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of an integrated watering and fertilizing device for smart agriculture;

FIG. 2 is a schematic structural diagram of a front view section connection detail of an intelligent agricultural watering and fertilizing integrated device;

FIG. 3 is a schematic structural diagram of a connection detail of a side view section of a material injection pipeline of the integrated watering and fertilizing device for intelligent agriculture;

FIG. 4 is a schematic structural diagram of a top connection detail of the intelligent agricultural watering and fertilizing integrated device;

FIG. 5 is a schematic structural diagram of the connection details of the top view section of the distributing box body of the watering and fertilizing integrated device for intelligent agriculture;

FIG. 6 is a schematic structural diagram of a connection detail of a side view section of a watering pipe of the intelligent agricultural watering and fertilizing integrated device;

FIG. 7 is a schematic structural diagram of a front section connection detail of a feeding pipeline of the intelligent agricultural watering and fertilizing integrated device;

FIG. 8 is a schematic structural diagram of a connecting detail of a side view section of a feeding pipeline of the intelligent agricultural watering and fertilizing integrated device;

FIG. 9 is a schematic structural diagram of connection details of a timing motor of the integrated watering and fertilizing device for intelligent agriculture;

fig. 10 is a schematic structural diagram of connection details of a turning plate of the intelligent agricultural watering and fertilizing integrated device.

In the figure: 1. a main processing box; 2. a bottom cushion block; 3. sealing the cover plate; 4. a control panel; 5. an extension duct; 6. watering pipelines; 7. connecting an inclined pipe; 8. a feeding pipeline; 9. isolating the middle plate; 10. a pump; 11. a measuring block; 12. a feeding hopper; 13. a material injection pipeline; 14. a material injection motor; 15. injecting a material shaft lever; 16. a helical blade; 17. a through hole; 18. a connecting pipe; 19. an outer support tube; 20. a material distributing box body; 21. turning over a motor; 22. connecting the soft blocks; 23. turning over the pipeline; 24. turning over the shaft lever; 25. a water dripping hole; 26. colloidal blocks; 27. a movable ring body; 28. a turnover plate; 29. a fastening groove; 30. rotating the disc; 31. rotating the shaft lever; 32. a feeding trough; 33. a side card slot; 34. a clamping block; 35. an extension spring; 36. a fixing ring; 37. a timing motor; 38. turning over the fixture block; 39. supporting the spring.

Detailed Description

Referring to fig. 1-3, in the embodiment of the present invention, an integrated watering and fertilizing device for smart agriculture includes a main processing box 1, a bottom pad 2 is fixedly bonded to a bottom surface of the main processing box 1, a sealing cover plate 3 is hinged to a top surface of the main processing box 1, a control panel 4 is embedded on one side edge of the main processing box 1, the number of the bottom pad 2 is four, the four bottom pads 2 are respectively and fixedly disposed at four corner positions of the bottom surface of the main processing box 1, the four bottom pads 2 are all made of hard rubber materials, the sealing cover plate 3 is fastened to a top opening end position of the main processing box 1, the number of the control panels 4 is two, the two control panels 4 are respectively and fixedly disposed at a position close to an edge of one side edge of the main processing box 1, an extension pipeline 5 is horizontally disposed at a side edge of the main processing box 1 far from the control panel 4, a watering pipeline 6 is uniformly welded to the extension pipeline 5 at a side edge far from the main processing box 1, the extension pipeline 5 is horizontally arranged at a position close to the bottom surface at one side of the main processing box 1, the outer side edge of the extension pipeline 5 is fixedly welded with one end of a connecting pipe 18, the interior of the extension pipeline 5 is communicated with the interior of the connecting pipe 18, the number of the watering pipelines 6 is multiple, the watering pipelines 6 are arranged in parallel, the watering pipelines 6 are communicated with the inner side edge of the extension pipeline 5, the main processing box 1 is obliquely provided with connecting inclined pipes 7 at one side far away from the control panel 4, the connecting inclined pipes 7 are horizontally welded with feeding pipelines 8 at one end far away from the main processing box 1, the inner side edge of the main processing box 1 is vertically welded with an isolating middle plate 9, the number of the connecting inclined pipes 7 is multiple, one ends of the connecting inclined pipes 7 are inserted and arranged at the position of the outer side edge of the box body 20, the interiors of the connecting inclined pipes 7 are communicated with the interior of the distributing box body 20, the number of the feeding pipelines 8 is consistent with that of the connecting inclined pipes 7, the feeding pipelines 8 and the pouring water pipelines 6 are uniformly and correspondingly communicated, the feeding pipelines 8 and the pouring water pipelines 6 are uniformly and correspondingly arranged in a stacked parallel manner, the isolation middle plate 9 is vertically and fixedly arranged at the central line position of the inner side of the main processing box 1, the bottom surface position of the inner side of the main processing box 1 is connected with an extraction pump 10 through bolts, a measuring block 11 is arranged at the inner side of the main processing box 1, a feeding funnel 12 is welded at the inner side of the main processing box 1, the extraction pump 10 is fixedly arranged at the inner side of the main processing box 1 close to a bottom edge angle position, the extraction pump 10 and the inner part of one control panel 4 are electrically connected, the measuring block 11 is arranged at the same inner side position as the extraction pump 10, and the measuring block 11 and the inner part of one control panel 4 are electrically connected, the feeding hopper 12 is vertically and fixedly arranged at the inner side position of an opening at the top of one side of the isolation middle plate 9 far away from the extraction pump 10, a material injection pipeline 13 is horizontally welded at the bottom end of the feeding hopper 12, a material injection motor 14 is connected with one end of the material injection pipeline 13 through a bolt, a material injection shaft lever 15 is horizontally inserted and arranged at the inner side of the material injection pipeline 13, helical blades 16 are uniformly welded at the outer side of the material injection shaft lever 15, an opening is formed in the top surface of the material injection pipeline 13, the interior of the material injection pipeline 13 is communicated with the interior of the feeding hopper 12, the material injection motor 14 is fixedly arranged at the central position of one end of the material injection pipeline 13, the output end of the material injection motor 14 is horizontally welded at one end of the material injection shaft lever 15, the material injection shaft lever 15 is horizontally and fixedly arranged at the central axis position of the material injection pipeline 13, and one end of the material injection shaft lever 15 far away from the material injection motor 14 horizontally penetrates through the connecting hole 17 and extends to the inner side position of the outer supporting pipe 19, the outer side edges of the helical blades 16 are in butt joint with the inner side wall of the material injection pipeline 13, one end of the material injection pipeline 13 far away from the material injection motor 14 is provided with a through hole 17, and the inside of the through hole 17 is in through connection with the inside of an outer support pipe 19;

referring to fig. 4-6, in the embodiment of the present invention, a watering and fertilizing integrated device for smart agriculture is provided, wherein a connecting pipe 18 is horizontally inserted into one side of a main processing box 1, an outer supporting pipe 19 is horizontally inserted into one side of the main processing box 1, a material separating box 20 is welded to one end of the outer supporting pipe 19 away from the main processing box 1, a turning motor 21 is bolted to a top surface of the material separating box 20, a connecting soft block 22 is fixedly clamped to an inner side of the material separating box 20, a turning pipeline 23 is arranged on the inner side of the material separating box 20, one end of the connecting pipe 18 is fixedly sleeved and connected to an output end of an extraction pump 10, an output end of the turning motor 21 vertically penetrates through the top surface of the material separating box 20 and extends into the inside, an extending end is vertically and downwardly welded to a top end of a turning shaft rod 24, the connecting soft block 22 is made of a soft rubber material, and one end of the connecting soft block 22 is fixedly abutted and connected to one end of the outer supporting pipe 19, the other end of the overturning pipeline 23 is fixedly clamped and arranged at one end of the overturning pipeline 23, one end of the overturning pipeline 23 far away from the connecting soft block 22 is correspondingly butted and arranged at one end of the connecting inclined pipe 7, overturning shaft rods 24 are symmetrically welded at the outer side edge of the overturning pipeline 23, water dripping holes 25 are uniformly formed in the outer side edge of the water pouring pipeline 6, a colloid block 26 is fixedly clamped and connected at the inner side edge of each water dripping hole 25, the overturning shaft rods 24 are respectively and symmetrically and fixedly arranged at one end of the outer side edge of the overturning pipeline 23 close to the connecting soft block 22, the colloid block 26 is made of a soft rubber material, and a through hole is formed in the center position of the colloid block;

referring to fig. 7-10, in the embodiment of the present invention, a watering and fertilizing integrated device for smart agriculture is provided, wherein an inner side edge of a feeding pipeline 8 is clamped with a movable ring 27, an inner side edge of the movable ring 27 is clamped with a turning plate 28, an outer side edge of the feeding pipeline 8 is uniformly provided with a plurality of buckling grooves 29, the number of the movable ring 27 is plural, the plurality of movable rings 27 are arranged in parallel at an inner side edge position of the feeding pipeline 8, the buckling grooves 29 are uniformly arranged at an outer side edge of the feeding pipeline 8 close to a bottom surface position, an inner part of the buckling grooves 29 is in through connection with an inner part of the feeding pipeline 8, an inner side edge of the buckling grooves 29 is clamped with a rotating disc 30, a side edge of the rotating disc 30 is horizontally inserted with a rotating shaft rod 31, an outer side edge of the rotating disc 30 is symmetrically provided with a feeding groove 32, an inner side edge of the feeding pipeline 8 is symmetrically provided with a side clamping groove 33, an inner side edge of the side clamping block 34 is clamped with the side clamping groove 33, the inboard side horizontal joint of side draw-in groove 33 has extension spring 35, the even fixed joint in inboard side of throwing material pipeline 8 has solid fixed ring 36, the fixed inlaying of lateral wall of throwing material pipeline 8 has timing motor 37, the outside limit welding of returning face plate 28 has upset fixture block 38, the fixed coupling in axostylus axostyle outside limit of upset fixture block 38 has supporting spring 39, side draw-in groove 33 is two bisymmetry levels respectively and is seted up in the position between a plurality of solid fixed ring 36, joint block 34 is the fixed outside limit position that sets up at activity ring body 27 of symmetry respectively, extension spring 35's the fixed joint of one end sets up the side position at joint block 34, gu fixed ring 36's structural shape keeps unanimous setting with activity ring body 27, timing motor 37's output level welding sets up the one end position at rotation axostylus axostyle 31, upset fixture block 38 joint sets up inside the inboard draw-in activity ring body 27.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

a plurality of watering pipelines 6 are uniformly installed and fixedly arranged at the positions of plant roots, and are arranged, a plurality of feeding pipelines 8 are uniformly arranged on the top surfaces of the watering pipelines 6 and at the positions of the tops of the corresponding plant roots, then water is injected into one side edge of an isolation middle plate 9 after a sealing cover plate 3 is opened, the isolation middle plate 9 divides a main treatment box 1 into two areas, namely a water box and a material box, a control panel 4 of the water in the water box is arranged to enable an extraction pump 10 to extract the water in the water box to enter an extension pipeline 5, then the water enters the interiors of the watering pipelines 6 in a branch guide way, the water extrudes a rubber block 26 under the action of pressure, water can be sprayed out from holes to water plants, and the water in the interiors can be measured and detected under the suspension measurement of a measurement block 11, can detect the amount of the water body, throw the fodder into the inside of throwing the hopper 12 when needing to throw the material, make the rotation of annotating the material motor 14 after a control panel 4 control, thereby make annotating the material axostylus axostyle 15 and rotating the inside processing of driving helical blade 16 at the notes pipeline 13 of annotating, make the extrusion fodder enter into the inside of outer supporting tube 19 from leading to the via hole 17, make and drive the upset pipeline 23 and overturn to the appointed angle under the rotation of control upset motor 21 simultaneously, then the fodder enters into the inside of the upset pipeline 23 through connecting the soft block 22 direction, finally enter into the inboard side position of the corresponding connection pipe chute 7, the fodder of infusing overturns the effect to the inboard side upset board 28 of movable ring 27 and fixed ring 36, make the fodder can fill the inboard side position of throwing the material pipeline 8, and make the movable ring 27 slip the removal processing under the extrusion of fodder, make and extend to appointed distance between activity ring body 27 and the solid fixed ring 36 after, can effectual segmentation filling effect to the fodder, make connecting shaft pole 31 drive the rolling disc 30 rotation under timing motor 37's rotation and handle, let the fodder enter into the inboard side position that corresponds feeding groove 32, make the feeding groove 32 that has the fodder shift out catching groove 29 under rolling disc 30's rotation, make inside fodder input corresponding plant root position, make activity ring body 27 removal effect under extension spring 35's drawing, make the fodder can be filled the position between activity ring body 27 and solid fixed ring 36 full all the time and be convenient for throw the material and handle.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides a wisdom agricultural is with fertilization integrated device that waters, includes main processing case (1), its characterized in that, the bottom surface of main processing case (1) is fixed to bond has end cushion (2), the top surface hinge connection of main processing case (1) has sealed apron (3), one side of main processing case (1) is inlayed and is had control panel (4), main processing case (1) is provided with extension pipeline (5) at a side level of keeping away from control panel (4), extension pipeline (5) have watering pipeline (6) in the even welding of one side of keeping away from main processing case (1), main processing case (1) is provided with connection pipe chute (7) in one side slope of keeping away from control panel (4), the horizontal welding of one end of keeping away from main processing case (1) of connection pipe chute (7) has material feeding pipeline (8), the vertical to the median plate welding of main processing case (1) has isolation (9), the device is characterized in that an extraction pump (10) is connected to the bottom surface of the inner side of the main processing box (1) through bolts, a measuring block (11) is placed on the inner side of the main processing box (1), a feeding funnel (12) is welded on the inner side of the main processing box (1), a material injection pipeline (13) is horizontally welded at the bottom end of the feeding funnel (12), a material injection motor (14) is connected to one end of the material injection pipeline (13) through bolts, a material injection shaft rod (15) is horizontally inserted and arranged on the inner side of the material injection pipeline (13), helical blades (16) are uniformly welded on the outer side of the material injection shaft rod (15), a through hole (17) is formed in one end, far away from the material injection motor (14), a connecting pipe (18) is horizontally inserted and connected to one side of the main processing box (1), an outer supporting pipe (19) is horizontally inserted and connected to one side of the main processing box (1), the outer supporting pipe (19) is welded with a material distributing box body (20) at one end far away from the main processing box (1), the top surface of the material distributing box body (20) is connected with a turnover motor (21) through bolts, the inner side edge of the material distributing box body (20) is fixedly clamped with a connecting soft block (22), the inner side edge of the material distributing box body (20) is provided with a turnover pipeline (23), the outer side edge of the turnover pipeline (23) is symmetrically welded with a turnover shaft lever (24), the outer side edge of the watering pipeline (6) is uniformly provided with water dripping holes (25), the inner side edge of the water dripping holes (25) is fixedly clamped with a rubber block (26), the inner side edge of the feeding pipeline (8) is clamped with a movable ring body (27), the inner side edge of the movable ring body (27) is clamped with a turnover plate (28), and the outer side edge of the feeding pipeline (8) is uniformly provided with buckling grooves (29), the inboard side joint of catching groove (29) is provided with rolling disc (30), the side level of rolling disc (30) is pegged graft and is had rotation axostylus axostyle (31), the outside limit symmetry of rolling disc (30) has been seted up and has been thrown silo (32), the inboard side symmetry of throwing material pipeline (8) has been seted up side draw-in groove (33), the inboard side joint of side draw-in groove (33) has joint piece (34), the inboard side level joint of side draw-in groove (33) has extension spring (35), the even fixed joint in inboard side of throwing material pipeline (8) has solid fixed ring (36), the fixed inlaying of lateral wall of throwing material pipeline (8) has timing motor (37), the outside limit welding of returning face plate (28) has upset fixture block (38), the axostylus axostyle outside limit of upset fixture block (38) is fixed to be cup jointed supporting spring (39).

2. The intelligent agricultural watering and fertilizing integrated device as claimed in claim 1, wherein the number of the bottom cushion blocks (2) is four, the four bottom cushion blocks (2) are respectively and fixedly arranged at the four corners of the bottom surface of the main processing box (1), the four bottom cushion blocks (2) are all made of hard rubber materials, the sealing cover plate (3) is fastened and arranged at the top opening end position of the main processing box (1), the number of the control panels (4) is two, and the two control panels (4) are respectively and fixedly arranged at one side edge of the main processing box (1) close to the edge position.

3. The intelligent agricultural watering and fertilizing integrated device according to claim 1, wherein the extension pipe (5) is horizontally arranged at a position close to the bottom of one side of the main processing box (1), the outer side of the extension pipe (5) is fixedly welded with one end of the connecting pipe (18), the interior of the extension pipe (5) is communicated with the interior of the connecting pipe (18), the number of the watering pipes (6) is multiple, the watering pipes (6) are arranged in parallel, and the watering pipes (6) are communicated with the inner side of the extension pipe (5).

4. The intelligent agricultural watering and fertilizing integrated device according to claim 1, wherein the number of the connecting inclined pipes (7) is multiple, one ends of the connecting inclined pipes (7) are inserted into the outer side of the material distribution box body (20), the inner portions of the connecting inclined pipes (7) and the inner portion of the material distribution box body (20) are in communication connection, the number of the feeding pipelines (8) and the number of the connecting inclined pipes (7) are consistent, the feeding pipelines and the watering pipelines (6) are in one-to-one correspondence and are in stacked parallel, and the isolation middle plate (9) is vertically and fixedly arranged at the inner center line position of the main treatment box (1).

5. An integrated intelligent agricultural watering and fertilizing device as claimed in claim 1, wherein the suction pump (10) is fixedly disposed inside the main processing box (1) near a bottom corner position, the suction pump (10) and the inside of a control panel (4) are electrically connected with each other, the measuring block (11) is disposed at the same inner side position as the suction pump (10), the measuring block (11) and the inside of a control panel (4) are electrically connected with each other, and the feeding funnel (12) is vertically and fixedly disposed at an inner side position of an opening on one side of the isolation middle plate (9) far away from the suction pump (10).

6. The intelligent agricultural watering and fertilizing integrated device as claimed in claim 1, wherein the top surface of the material injection pipeline (13) is provided with an opening, the interior of the material injection pipeline (13) is communicated with the interior of the feeding funnel (12), the material injection motor (14) is fixedly arranged at the center of one end of the material injection pipeline (13), the output end of the material injection motor (14) is horizontally welded at one end of the material injection shaft rod (15), the material injection shaft rod (15) is horizontally and fixedly arranged at the central axis position of the material injection pipeline (13), the material injection shaft rod (15) is horizontally penetrated through the through hole (17) at one end far away from the material injection motor (14) and extends to the inner side position of the outer support pipe (19), and the outer side of the helical blade (16) is butted with the inner side wall of the material injection pipeline (13).

7. The intelligent integrated watering and fertilizing device for agriculture of claim 1, the inside of the through hole (17) is communicated with the inside of the outer supporting pipe (19), one end of the connecting pipe (18) is fixedly sleeved and arranged at the output end of the extraction pump (10), the output end of the turnover motor (21) vertically penetrates through the top surface of the material distribution box body (20) downwards and extends to the inside, the extending end is vertically welded downwards at the top end of the turning shaft lever (24), the connecting soft block (22) is made of soft rubber material, and one end of the connecting soft block (22) is fixedly butted at one end of the outer supporting pipe (19), and the other end is fixedly clamped and arranged at one end of the turnover pipeline (23), and one end of the turnover pipeline (23) far away from the connecting soft block (22) is correspondingly butted and arranged at one end of the connecting inclined pipe (7).

8. The intelligent agricultural watering and fertilizing integrated device as claimed in claim 1, wherein the turnover shaft rods (24) are respectively and symmetrically and fixedly arranged at the outer side edge of the turnover pipeline (23) close to one end of the connecting soft block (22), the rubber block (26) is made of soft rubber materials, the center of the rubber block is provided with a through hole, the number of the movable ring bodies (27) is multiple, the movable ring bodies (27) are arranged at the inner side edge of the feeding pipeline (8) in parallel, the buckling grooves (29) are uniformly formed at the outer side edge of the feeding pipeline (8) close to the bottom surface, and the inside of the buckling grooves (29) is communicated with the inside of the feeding pipeline (8).

9. The intelligent agricultural watering and fertilizing integrated device as claimed in claim 1, wherein the side clamping grooves (33) are respectively arranged between the plurality of fixing rings (36) in a pairwise symmetrical manner, the clamping blocks (34) are respectively arranged at the outer side positions of the movable ring body (27) in a symmetrical and fixed manner, one end of the tension spring (35) is fixedly clamped at the side positions of the clamping blocks (34), the structural shape of the fixing rings (36) is consistent with that of the movable ring body (27), the output end of the timing motor (37) is horizontally welded at one end position of the rotating shaft rod (31), and the overturning clamping block (38) is clamped inside the inner side clamping groove of the movable ring body (27).