阅读说明：本技术 一种农业环保移动装置 (Agricultural environmental protection mobile device ) 是由 陈云侠 于 2019-10-21 设计创作，主要内容包括：本发明公开了一种农业环保移动装置,包括移动箱,所述移动箱内设有搅拌电机腔,所述搅拌电机腔底壁内设有搅拌电机,搅拌电机向上的输出轴固定连接搅拌电机杆,搅拌电机杆上固定安装搅拌电机锥齿轮,搅拌电机腔左侧设有搅拌机构,所述搅拌机构包括搅拌传动腔和搅拌腔,装置内的搅拌机构对肥料混合物进行充分的搅拌,搅碎机构对农作物杆进行搅碎,由搅碎推动块将搅碎后的农作物杆从搅碎出口送出,流水机构内的流水挡板左右移动,肥料混合物从流水连接孔流向土地里,犁地机构可以选择是否对土地进行耕梨,移动机构内的移动轮转动,带动整个装置移动。(The invention discloses an agricultural environment-friendly moving device which comprises a moving box, wherein a stirring motor cavity is arranged in the moving box, a stirring motor is arranged in the bottom wall of the stirring motor cavity, an upward output shaft of the stirring motor is fixedly connected with a stirring motor rod, a stirring motor bevel gear is fixedly arranged on the stirring motor rod, a stirring mechanism is arranged on the left side of the stirring motor cavity and comprises a stirring transmission cavity and a stirring cavity, the stirring mechanism in the device is used for fully stirring a fertilizer mixture, a smashing mechanism is used for smashing the crop rod, the smashed crop rod is conveyed out from a smashing outlet by a smashing pushing block, a flowing water baffle in a flowing water mechanism moves left and right, the fertilizer mixture flows into the soil from a flowing water connecting hole, a plowing mechanism can select whether to plough the soil, and a moving wheel in the moving mechanism rotates to drive the whole device to move.)

1. The utility model provides an agricultural environmental protection mobile device, includes the movable box, its characterized in that: a stirring motor cavity is arranged in the movable box, a stirring motor is arranged in the bottom wall of the stirring motor cavity, an upward output shaft of the stirring motor is fixedly connected with a stirring motor rod, a stirring motor bevel gear is fixedly arranged on the stirring motor rod, a stirring mechanism is arranged on the left side of the stirring motor cavity and comprises a stirring transmission cavity and a stirring cavity, a stirring rack is arranged in the stirring transmission cavity, a stirring gear is meshed and installed on the stirring rack, a stirring rotating rod is arranged above the stirring gear, a stirring rod is arranged below the stirring gear, a stirring rod is fixedly installed on the stirring rod, a stirring mechanism is arranged on the right side of the stirring motor cavity and comprises a stirring cavity and a stirring main rod, a stirring wheel is fixedly installed on the stirring main rod, a stirring stacking cavity is arranged below the stirring cavity, a stirring pressure plate is installed in the stirring stacking cavity in a sliding fit manner, a stirring pushing cavity is arranged on the, stirring promotes intracavity sliding fit installation stirring promotion piece, the rabbling mechanism below is equipped with switching mechanism, switching mechanism includes switching piece and switching pole, the articulated installation switching connecting rod on the switching pole, through switching connecting rod transmission control stirring movable block in the switching mechanism removes, the switching mechanism right side is equipped with the flowing water mechanism, be equipped with the driving rod that flows in the flowing water mechanism, the driving wheel that flows fixed mounting flows on the driving rod, the downward output shaft fixed connection flowing water transmission mobile jib of agitator motor, fixed mounting flowing water owner bevel gear on the flowing water transmission mobile jib drives the driving rod that flows through flowing water owner bevel gear transmission and rotates, the flowing water mechanism right side is equipped with plough mechanism, be equipped with the plough chamber in the plough mechanism, the sliding fit installation plough slider in the plough chamber, fixed mounting plough sword on the plough slider twists the twisting piece in the plough mechanism drives the plough sword and reciprocates, and a moving mechanism is arranged below the opening and closing mechanism and comprises a moving motor, a downward output shaft of the moving motor is fixedly connected with a moving motor rod, and a moving wheel in the moving mechanism is driven to rotate through the rotation of the moving motor rod, so that the whole device moves.

2. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the stirring mechanism comprises a stirring motor fixedly installed in the bottom wall of the stirring motor cavity, a stirring motor rod fixedly installed on the top end surface of an upward output shaft of the stirring motor, a stirring motor rod fixedly installed on the top end surface of the stirring motor rod, a stirring motor bevel gear fixedly installed on the right side of the stirring motor cavity, a stirring cavity with an upward opening, a stirring transmission cavity arranged on the right side of the stirring cavity, a stirring main rod installed between the stirring transmission cavity and the stirring motor cavity in a rotating fit manner, a stirring bevel gear fixedly installed on the left end surface of the stirring main rod, a stirring bevel gear engaged with the stirring motor bevel gear, a stirring main gear fixedly installed on the right end surface of the stirring main rod, a stirring auxiliary rod installed between the left inner wall of the stirring cavity and the stirring transmission cavity in a rotating fit manner, a stirring auxiliary gear fixedly installed on the right end surface of the stirring auxiliary rod, and a stirring auxiliary gear engaged with the stirring main gear, the stirring auxiliary rod and the stirring main rod are positioned on the stirring cavity fixedly installed with stirring wheels, the stirring cavity is provided with a stirring stacking cavity below, the stirring cavity and the stirring stacking cavity are communicated with each other to form a stirring connection cavity, the stirring stacking cavity is internally provided with a sliding fit installation stirring pressure plate in a sliding fit manner, the stirring stacking cavity bottom wall is communicated with a stirring pressure cavity, the stirring stacking cavity bottom wall is communicated with a stirring transmission main cavity, the stirring pressure cavity is internally provided with a stirring rack in a sliding fit manner, the stirring rack is fixedly installed on the bottom end face of the stirring pressure plate, the stirring rack bottom end face and the stirring pressure cavity bottom wall are fixedly installed with a stirring pressure spring, the stirring pressure cavity left side is communicated with a stirring transmission main cavity, the stirring transmission main rod is rotatably installed between the front inner wall and the rear wall of the stirring transmission main cavity in a matching manner, the stirring transmission main rod is fixedly installed with a stirring main gear meshed with the stirring rack, the stirring transmission main rod is positioned on the front side of the stirring main gear, the left side of the stirring transmission main cavity is communicated with a stirring transmission auxiliary cavity, a stirring transmission auxiliary rod is installed between the front inner wall and the rear inner wall of the stirring transmission auxiliary cavity in a rotating matching mode, a stirring transmission auxiliary gear is fixedly installed on the stirring transmission auxiliary rod, a stirring chain is installed between the stirring transmission auxiliary gear and the stirring transmission main gear in a driving matching mode, a stirring transmission main bevel gear is fixedly installed on the stirring transmission auxiliary rod and positioned on the rear side of the stirring transmission auxiliary gear, a stirring pushing transmission cavity is arranged above the stirring transmission auxiliary cavity, a stirring bevel gear rod is installed between the stirring pushing transmission cavity and the stirring transmission auxiliary cavity in a rotating matching mode, a stirring transmission auxiliary bevel gear is fixedly installed on the bottom end face of the stirring bevel gear rod, the stirring transmission auxiliary bevel gear is meshed with the stirring transmission main bevel gear, and a stirring auxiliary gear is fixedly installed on the top end face of the stirring bevel gear, stir garrulous chamber left side intercommunication of stacking and be equipped with and stir garrulous promotion chamber, stir garrulous promotion chamber left side intercommunication and be equipped with and stir garrulous promotion rack chamber, stir garrulous promotion rack intracavity sliding fit installation with stir garrulous pinion toothing's stirring and promote the rack, stir garrulous promotion intracavity sliding fit installation with stir garrulous promotion rack right side end face fixed connection's stirring and promote the piece, stir garrulous chamber right side intercommunication of stacking and be equipped with the opening and stir garrulous export to the right ear.

3. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the stirring mechanism comprises a stirring threaded rod which is arranged between the inner wall of the left side of the stirring transmission cavity and the stirring motor cavity in a rotating fit manner, a stirring bevel gear is fixedly arranged on the end face of the right side of the stirring threaded rod and meshed with the bevel gear of the stirring motor, the stirring threaded rod is provided with a stirring slide block in a threaded fit manner, the end surface at the bottom of the stirring slide block is fixedly provided with a stirring rotating rod, a stirring rack is fixedly arranged between the left inner wall and the right inner wall of the stirring transmission cavity, a stirring cavity is arranged below the stirring transmission cavity, the end surface of the bottom of the stirring rotating rod is rotatably matched with a stirring gear meshed with the stirring rack, a stirring rod is fixedly arranged on the end surface of the bottom of the stirring gear, a stirring rod is fixedly arranged on the stirring rod, and a fertilizer inlet with an upward opening and communicated with the stirring cavity is formed in the left side of the stirring transmission cavity.

4. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the opening and closing mechanism comprises an opening and closing transmission cavity arranged below the stirring cavity, the bottom wall of the stirring cavity is communicated with a stirring connection cavity, the left side of the stirring connection cavity is communicated with a stirring moving cavity, a stirring moving block is arranged in the stirring moving cavity in a sliding fit manner, a main opening and closing spring is fixedly arranged between the left side end surface of the stirring moving block and the left side inner wall of the stirring moving cavity, an opening and closing rotating rod is fixedly arranged between the front inner wall and the rear inner wall of the opening and closing transmission cavity, an opening and closing connecting rod is rotatably and cooperatively arranged on the opening and closing rotating rod, an opening and closing driving rod penetrating through the moving box and hinged with the opening and closing connecting rod is fixedly arranged on the left side end surface of the stirring moving block, an opening and closing reset cavity is arranged on the right side of the opening and closing transmission cavity, an, switching reset block left side terminal surface fixed mounting runs through removal case left side terminal surface with switching connecting rod articulated switching pole, switching pole left side terminal surface fixed mounting switching block, stirring is connected chamber below intercommunication and is equipped with the flowing water and stir the chamber.

5. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the flowing water mechanism comprises a flowing water transmission main cavity arranged at the rear side of the flowing water stirring cavity, the bottom end face fixed mounting of a downward output shaft of the stirring motor penetrates through the flowing water transmission main rod of the top wall of the flowing water transmission main cavity, the flowing water transmission main rod bottom end face fixed mounting flowing water main bevel gear, the flowing water transmission main cavity and the flowing water stirring cavity are rotatably matched to mount a flowing driving rod between the inner walls of the front sides of the flowing water stirring cavity, the flowing water driving rod rear end face fixed mounting flowing water auxiliary bevel gear is fixedly mounted on the flowing water driving rod, the flowing water auxiliary bevel gear is meshed with the flowing water main bevel gear, the flowing driving rod is fixedly mounted with a flowing driving wheel, the flowing driving wheel outer end face fixed mounting flowing water stirring plate is arranged on the flowing water driving main cavity, a flowing water transmission auxiliary cavity is arranged above the flowing water transmission main rod, and a flowing water main gear fixedly mounted, a flowing eccentric wheel cavity is arranged below the flowing water transmission main cavity, a flowing water transmission auxiliary rod is installed between the flowing eccentric wheel cavity and the flowing water transmission auxiliary cavity in a rotating fit mode, a flowing eccentric wheel is fixedly installed on the end face of the bottom of the flowing water transmission auxiliary rod, an eccentric pushing plate is installed in the flowing eccentric wheel cavity in a sliding fit mode, an eccentric auxiliary spring is fixedly installed between the end face of the left side of the eccentric pushing plate and the inner wall of the left side of the flowing eccentric wheel cavity, an eccentric main spring is fixedly installed between the end face of the right side of the eccentric pushing plate and the inner wall of the right side of the flowing eccentric wheel cavity, a flowing water through hole with a downward opening is formed in the flowing water stirring cavity bottom wall in a communicating mode, a flowing water baffle cavity is arranged in the flowing water baffle cavity in a sliding fit mode, a flowing water baffle fixedly connected with the end face of, the water flowing baffle plate is characterized in that a water flowing baffle plate spring is fixedly installed between the end face of the left side of the water flowing baffle plate and the inner wall of the left side of the water flowing baffle plate cavity, and a water flowing nozzle with a right opening is arranged on the right side of the water flowing stirring cavity in a communicated mode.

6. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the plowing mechanism comprises a plowing transmission cavity arranged below the flowing water nozzle, the inner wall of the left side of the plowing transmission cavity is rotatably matched with a twisting rod penetrating through the end face of the right side of the movable box, a twisting block is fixedly arranged on the end surface of the right side of the twisting rod, a twisting main bevel gear is fixedly arranged on the end surface of the left side of the twisting rod, a plowing cavity is arranged below the plowing transmission cavity, a plowing transmission rod is arranged between the plowing cavity and the top wall of the plowing transmission cavity in a rotating fit manner, a twisting auxiliary bevel gear is fixedly arranged on the plowing transmission rod and is meshed with the twisting main bevel gear, a plowing slide block is arranged in the plowing cavity in a sliding fit manner, a plowing slide block threaded hole with an upward opening is formed in the plowing slide block, the plowing slide block threaded hole is in threaded fit with the plowing transmission rod, and a coulter penetrating through the movable box is fixedly installed on the end face of the bottom of the plowing slide block.

7. The agricultural environment-friendly mobile device as claimed in claim 1, wherein: the moving mechanism comprises a movable main fixing plate which is arranged symmetrically around the end face of the bottom of the movable box, a movable main rod is arranged between the movable main fixing plate in a rotating fit mode, a movable auxiliary bevel gear is arranged on the movable main rod in a fixed mounting mode, a movable motor is arranged in the end face of the bottom of the movable box in a fixed mounting mode, a movable motor rod is arranged on the bottom end face of a downward output shaft of the movable motor, the movable main bevel gear is arranged on the bottom end face of the movable motor rod in a fixed mounting mode, the movable main bevel gear is meshed with the movable auxiliary bevel gear, the end face of the bottom of the movable box is arranged around the movable main fixing plate right side, the movable auxiliary rod is arranged between the movable auxiliary fixing plates in a rotating fit mode, and the movable main rod and the movable auxiliary rod are arranged around the movable auxiliary rod.

Technical Field

The invention relates to the technical field of agriculture, in particular to an agricultural environment-friendly mobile device.

Background

With the rapid development of agricultural economy, the agricultural environment protection is more and more emphasized, ecological agriculture is a virtuous circle of material flow, energy flow and the like in agricultural production, and the development space of the ecological agriculture is further deepened.

In the prior art, during agricultural production, the irrigation of crop fertilizer mixture can not be controlled, so that fertilizer is excessively used, during fertilizer stirring, manual operation is often performed, the fertilizer cannot be stirred sufficiently, after crops are harvested, crop stalks can not be used well, resources are wasted, equipment used by farmers during labor is taken by the farmers, and the fertilizer is very inconvenient.

Disclosure of Invention

The invention aims to provide an agricultural environment-friendly mobile device, which is used for overcoming the defects in the prior art.

According to the embodiment of the invention, the agricultural environment-friendly moving device comprises a moving box, a stirring motor cavity is arranged in the moving box, a stirring motor is arranged in the bottom wall of the stirring motor cavity, an upward output shaft of the stirring motor is fixedly connected with a stirring motor rod, a stirring motor bevel gear is fixedly arranged on the stirring motor rod, a stirring mechanism is arranged on the left side of the stirring motor cavity and comprises a stirring transmission cavity and a stirring cavity, a stirring rack is arranged in the stirring transmission cavity, a stirring gear is meshed with and mounted on the stirring rack, a stirring rotating rod is arranged above the stirring gear, a stirring rod is arranged below the stirring gear, a stirring rod is fixedly mounted on the stirring rod, a stirring mechanism is arranged on the right side of the stirring motor cavity and comprises a stirring cavity and a stirring main rod, a stirring wheel is fixedly mounted on the stirring main rod, a stirring stacking cavity is arranged below the stirring cavity, and a stirring pressure plate is slidably mounted in the stirring, the left side of the stirring and stacking cavity is provided with a stirring and pushing cavity, the inside of the stirring and pushing cavity is in sliding fit installation and stirring and pushing block, the lower part of the stirring mechanism is provided with a switching mechanism, the switching mechanism comprises a switching block and a switching rod, the switching rod is hinged with an installation switching connecting rod, the switching rod is in transmission control through the switching connecting rod, a stirring moving block in the switching mechanism moves left and right, the right side of the switching mechanism is provided with a flow mechanism, the flow mechanism is internally provided with a flow driving rod, the flow driving rod is fixedly provided with a flow driving wheel, a downward output shaft of a stirring motor is fixedly connected with a flow driving main rod, the flow driving main bevel gear is fixedly installed on the flow driving main rod and drives the flow driving rod to rotate through the transmission of the flow main bevel gear, the right side of the flow mechanism is provided with a plowing cavity, a plowing slide block is installed in, wrench movement the piece of wrench movement in the mechanism of plowing drives the coulter and reciprocates, the closing mechanism below is equipped with moving mechanism, moving mechanism includes the moving motor, and the decurrent output shaft fixed connection moving motor pole of moving motor rotates through the moving motor pole and drives moving wheel in the moving mechanism rotates, makes whole device remove.

A further technical scheme is that the stirring mechanism comprises a stirring motor fixedly installed in the bottom wall of the stirring motor cavity, the top end face of an upward output shaft of the stirring motor is fixedly provided with a stirring motor rod, the top end face of the stirring motor rod is fixedly provided with a stirring motor bevel gear, the right side of the stirring motor cavity is provided with a stirring cavity with an upward opening, the right side of the stirring cavity is provided with a stirring transmission cavity, the stirring transmission cavity and the stirring motor cavity are rotatably matched to install a stirring main rod, the left end face of the stirring main rod is fixedly provided with a stirring bevel gear, the stirring bevel gear is meshed with the stirring motor bevel gear, the right end face of the stirring main rod is fixedly provided with a stirring main gear, the left inner wall of the stirring transmission cavity and the stirring transmission cavity are rotatably matched to install a stirring auxiliary rod, and the right end face of the stirring auxiliary rod is fixedly provided with a stirring auxiliary gear, the stirring auxiliary gear is meshed with the stirring main gear, the stirring auxiliary rod and the stirring main rod are positioned on the stirring main rod and are fixedly installed with stirring wheels in the stirring cavity, the stirring cavity is provided with a stirring cavity below which the stirring cavity is stacked, the stirring cavity and the stirring main rod are communicated and provided with a stirring connecting cavity between the stirring cavity, the stirring cavity is stacked and is internally provided with a sliding fit installation stirring pressure plate, the stirring cavity is stacked and is communicated with a bottom wall of the cavity and is provided with a stirring pressure cavity, the stirring pressure cavity is internally provided with a stirring rack in a sliding fit installation manner, the stirring rack is fixedly installed on the bottom end surface of the stirring rack and is fixedly installed with a stirring pressure spring between the bottom walls of the stirring pressure cavity, the left side of the stirring pressure cavity is communicated and provided with a stirring transmission main cavity, the stirring transmission main rod is rotatably installed between the front inner wall and the rear inner wall of the stirring transmission main cavity in a matching manner, and the stirring main gear is fixedly installed on, the stirring transmission main rod is positioned at the front side of the stirring main gear fixedly installed stirring transmission main gear, the left side of the stirring transmission main cavity is communicated with a stirring transmission auxiliary cavity, the stirring transmission auxiliary cavity is provided with a stirring transmission auxiliary rod in a rotating fit manner between the front inner wall and the rear inner wall, the stirring transmission auxiliary rod is fixedly installed with a stirring transmission auxiliary gear, a stirring chain is installed between the stirring transmission auxiliary gear and the stirring transmission main gear in a transmission fit manner, the stirring transmission auxiliary rod is positioned at the rear side of the stirring transmission auxiliary gear fixedly installed with a stirring transmission main bevel gear, a stirring pushing transmission cavity is arranged above the stirring transmission auxiliary cavity, the stirring pushing transmission cavity is rotatably installed with a stirring bevel gear rod between the stirring transmission auxiliary cavity, the bottom end surface of the stirring bevel gear is fixedly installed with a stirring transmission auxiliary bevel gear, the stirring transmission auxiliary bevel gear is engaged with the stirring transmission main bevel gear, stir garrulous bevel gear pole top terminal surface fixed mounting and stir garrulous pinion, stir garrulous stack chamber left side intercommunication and be equipped with and stir garrulous promotion chamber, it is equipped with and stirs garrulous promotion rack chamber to stir garrulous promotion chamber left side intercommunication, stir garrulous promotion rack intracavity sliding fit install with stir garrulous pinion engagement's stirring and promote the rack, stir garrulous promotion intracavity sliding fit install with stir garrulous promotion rack right side terminal surface fixed connection's stirring and promote the piece, it is equipped with the opening and stirs garrulous export to the ear right to stir garrulous stacking chamber right side intercommunication.

In a further technical scheme, the stirring mechanism comprises a stirring threaded rod which is arranged between the inner wall of the left side of the stirring transmission cavity and the stirring motor cavity in a rotating fit manner, a stirring bevel gear is fixedly arranged on the end face of the right side of the stirring threaded rod and meshed with the bevel gear of the stirring motor, the stirring threaded rod is provided with a stirring slide block in a threaded fit manner, the end surface at the bottom of the stirring slide block is fixedly provided with a stirring rotating rod, a stirring rack is fixedly arranged between the left inner wall and the right inner wall of the stirring transmission cavity, a stirring cavity is arranged below the stirring transmission cavity, the end surface of the bottom of the stirring rotating rod is rotatably matched with a stirring gear meshed with the stirring rack, a stirring rod is fixedly arranged on the end surface of the bottom of the stirring gear, a stirring rod is fixedly arranged on the stirring rod, and a fertilizer inlet with an upward opening and communicated with the stirring cavity is formed in the left side of the stirring transmission cavity.

According to a further technical scheme, the opening and closing mechanism comprises an opening and closing transmission cavity arranged below the stirring cavity, the bottom wall of the stirring cavity is communicated with and provided with a stirring connection cavity, the left side of the stirring connection cavity is communicated with and provided with a stirring moving cavity, a stirring moving block is installed in the stirring moving cavity in a sliding fit manner, a main opening and closing spring is fixedly installed between the left side end face of the stirring moving block and the left side inner wall of the stirring moving cavity, an opening and closing rotating rod is fixedly installed between the front inner wall and the rear inner wall of the opening and closing transmission cavity, an opening and closing connecting rod is installed on the opening and closing rotating rod in a rotating fit manner, an opening and closing driving rod penetrating through the moving box and hinged with the opening and closing connecting rod is fixedly installed on the left side end face of the stirring moving block, an opening and closing reset cavity is arranged on the right side, switching reset block left side terminal surface fixed mounting runs through removal case left side terminal surface with switching connecting rod articulated switching pole, switching pole left side terminal surface fixed mounting switching block, stirring is connected chamber below intercommunication and is equipped with the flowing water and stir the chamber.

A further technical scheme, the flowing water mechanism includes setting up the flowing water transmission main cavity that the chamber rear side was stirred in the flowing water, the flowing water transmission mobile jib of the decurrent output shaft of agitator motor runs through to the bottom terminal surface fixed mounting of flowing water transmission main cavity roof, flowing water transmission mobile jib bottom terminal surface fixed mounting flowing water main bevel gear, flowing water transmission main cavity with the flowing water stir chamber front side inner wall between the normal running fit installation flow drive pole, flowing drive pole rear end face fixed mounting flowing water auxiliary bevel gear, flowing water auxiliary bevel gear with flowing water main bevel gear meshing, the last fixed mounting of flowing drive pole drives the driving wheel, flowing drives driving wheel outside end face fixed mounting flowing water stirring board, flowing water transmission main cavity top is equipped with the flowing water transmission auxiliary cavity, lie in on the flowing water transmission mobile jib flowing water transmission auxiliary cavity fixed mounting flowing water main gear, a flowing eccentric wheel cavity is arranged below the flowing water transmission main cavity, a flowing water transmission auxiliary rod is installed between the flowing eccentric wheel cavity and the flowing water transmission auxiliary cavity in a rotating fit mode, a flowing eccentric wheel is fixedly installed on the end face of the bottom of the flowing water transmission auxiliary rod, an eccentric pushing plate is installed in the flowing eccentric wheel cavity in a sliding fit mode, an eccentric auxiliary spring is fixedly installed between the end face of the left side of the eccentric pushing plate and the inner wall of the left side of the flowing eccentric wheel cavity, an eccentric main spring is fixedly installed between the end face of the right side of the eccentric pushing plate and the inner wall of the right side of the flowing eccentric wheel cavity, a flowing water through hole with a downward opening is formed in the flowing water stirring cavity bottom wall in a communicating mode, a flowing water baffle cavity is arranged in the flowing water baffle cavity in a sliding fit mode, a flowing water baffle fixedly connected with the end face of, the water flowing baffle plate is characterized in that a water flowing baffle plate spring is fixedly installed between the end face of the left side of the water flowing baffle plate and the inner wall of the left side of the water flowing baffle plate cavity, and a water flowing nozzle with a right opening is arranged on the right side of the water flowing stirring cavity in a communicated mode.

In a further technical scheme, the plowing mechanism comprises a plowing transmission cavity arranged below the flowing water nozzle, a torsion rod penetrating through the end face of the right side of the movable box is arranged on the inner wall of the left side of the plowing transmission cavity in a rotating fit manner, a twisting block is fixedly arranged on the end surface of the right side of the twisting rod, a twisting main bevel gear is fixedly arranged on the end surface of the left side of the twisting rod, a plowing cavity is arranged below the plowing transmission cavity, a plowing transmission rod is arranged between the plowing cavity and the top wall of the plowing transmission cavity in a rotating fit manner, a twisting auxiliary bevel gear is fixedly arranged on the plowing transmission rod and is meshed with the twisting main bevel gear, a plowing slide block is arranged in the plowing cavity in a sliding fit manner, a plowing slide block threaded hole with an upward opening is formed in the plowing slide block, the plowing slide block threaded hole is in threaded fit with the plowing transmission rod, and a coulter penetrating through the movable box is fixedly installed on the end face of the bottom of the plowing slide block.

In a further technical scheme, the moving mechanism comprises moving main fixed plates which are fixedly arranged at the front and back of the end surface of the bottom of the moving box and are symmetrical, a moving main rod is arranged between the front and back moving main fixed plates in a rotating matching way, a movable auxiliary bevel gear is fixedly arranged on the movable main rod, a movable motor is fixedly arranged in the end surface of the bottom of the movable box, a movable motor rod is fixedly arranged on the bottom end surface of the downward output shaft of the movable motor, a movable main bevel gear is fixedly arranged on the bottom end surface of the movable motor rod, the movable main bevel gear is meshed with the movable auxiliary bevel gear, the bottom end face of the movable box is located in the front and back of a movable auxiliary fixing plate which is symmetrically and fixedly installed around the right side of the movable main fixing plate, a movable auxiliary rod is installed between the movable auxiliary fixing plate in a matched mode, and movable wheels are fixedly installed on the front end face and the back end face of the movable main rod.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, the stirring mechanism in the device rotates through the stirring rod to fully stir the fertilizer mixture, so that the fertilizer can be better dissolved in water, the stirring wheel in the stirring mechanism stirs crop rods, the stirred crop rods are conveyed out from the stirring outlet by the stirring pushing block and are reused as the fertilizer, the resource of the crop rods is utilized, the flowing water baffle in the flowing water mechanism moves left and right, the flowing water through holes are intermittently communicated with the flowing water connecting holes, the fertilizer mixture flows into the soil from the flowing water connecting holes, the flowing water stirring plate can also convey the fertilizer mixture out from the flowing water nozzle, the irrigation quantity of the fertilizer mixture can be controlled, the plowing mechanism can select whether to plough the soil, the moving wheel in the moving mechanism rotates to drive the whole device to move, manual carrying is not needed, and the device is worthy of popularization.

Drawings

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

FIG. 2 is a schematic sectional view taken along line A-A in FIG. 1;

FIG. 3 is a schematic cross-sectional view taken along line B-B of FIG. 1;

fig. 4 is a schematic sectional view in the direction C-C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-4, an agricultural environment-friendly mobile device according to an embodiment of the present invention includes a mobile box 11, a stirring motor cavity 90 is provided in the mobile box 11, a stirring motor 93 is provided in the bottom wall of the stirring motor cavity 90, an upward output shaft of the stirring motor 93 is fixedly connected to a stirring motor rod 91, a stirring motor bevel gear 89 is fixedly installed on the stirring motor rod 91, a stirring mechanism is provided on the left side of the stirring motor cavity 90, the stirring mechanism includes a stirring transmission cavity 12 and a stirring cavity 16, a stirring rack 14 is provided in the stirring transmission cavity 12, a stirring gear 15 is engaged and installed on the stirring rack 14, a stirring rotating rod 13 is provided above the stirring gear 15, a stirring rod 17 is provided below the stirring gear 15, a stirring rod 18 is fixedly installed on the stirring rod 17, a crushing mechanism is provided on the right side of the stirring motor cavity 90, the crushing mechanism includes a crushing cavity 87 and a crushing main, fixed mounting stirring wheel 86 on stirring mobile jib 85, stirring chamber 87 below is equipped with the stirring and stacks chamber 75, and the stirring is stacked and is moved chamber 75 left side and be equipped with stirring and promote chamber 79, and stirring promotes chamber 79 in sliding fit installation stirring and promotes piece 77, the rabbling mechanism below is equipped with the closing mechanism, the closing mechanism includes closing piece 27 and switching pole 26, and articulated installation switching connecting rod 25 on the switching pole 26, through switching connecting rod 25 transmission control stirring movable block 20 in the closing mechanism controls about, the closing mechanism right side is equipped with the running water mechanism, be equipped with in the running water mechanism and move movable rod 104, the last fixed mounting of movable rod 104 drives movable wheel 103, the decurrent output shaft fixed connection running water transmission mobile jib 101 of agitator motor 93, fixed mounting running water main bevel gear 100 on running water transmission mobile jib 101, drive pole 104 rotation that flows through flowing water main bevel gear 100 transmission, flowing water mechanism right side is equipped with plowing mechanism, be equipped with plowing cavity 55 in the plowing mechanism, plow cavity 55 sliding fit installation plowing slider 57, fixed mounting coulter 52 on the plowing slider 57, twist the piece 59 that twists in the plowing mechanism drives coulter 52 and reciprocates, the closing mechanism below is equipped with moving mechanism, moving mechanism includes mobile motor 28, and the decurrent output shaft fixed connection mobile motor pole 29 of mobile motor 28 rotates through mobile motor pole 29 and drives removal wheel 34 in the moving mechanism rotates, makes whole device remove.

Beneficially or exemplarily, the mincing mechanism comprises a stirring motor 93 fixedly installed in the bottom wall of the stirring motor cavity 90, a stirring motor rod 91 is fixedly installed on the top end surface of an upward output shaft of the stirring motor 93, a stirring motor bevel gear 89 is fixedly installed on the top end surface of the stirring motor rod 91, a mincing cavity 87 with an upward opening is arranged on the right side of the stirring motor cavity 90, a mincing transmission cavity 80 is arranged on the right side of the mincing cavity 87, a mincing rod 85 is installed between the mincing transmission cavity 80 and the stirring motor cavity 90 in a rotating fit manner, a mincing bevel gear 88 is fixedly installed on the left end surface of the mincing rod 85, the mincing bevel gear 88 is meshed with the stirring motor bevel gear 89, a mincing main gear 81 is fixedly installed on the right end surface of the mincing rod 85, and a mincing auxiliary rod 97 is installed between the left inner wall of the mincing cavity 87 and the mincing transmission cavity 80 in a rotating fit manner, the right side end face fixed mounting of the stirring auxiliary rod 97 stirs the crushing auxiliary gear 98, the stirring auxiliary gear 98 and the stirring main gear 81 are engaged, the stirring auxiliary rod 97 and the stirring main rod 85 are located in the stirring cavity 87, the fixed mounting stirring wheel 86 is arranged in the stirring cavity 87, the stirring cavity 87 is provided with the stirring cavity 75 below, the stirring cavity 87 and the stirring cavity 75 are communicated with each other and are provided with a stirring connecting cavity 113, the stirring cavity 75 is arranged with a stirring pressure plate 73 in a sliding fit manner, the stirring cavity 75 is arranged with a stirring pressure cavity 63 in a bottom wall communicated manner, the stirring pressure cavity 63 is arranged with a stirring rack 72 in a sliding fit manner, the bottom end face of the stirring rack 72 is fixedly mounted with the bottom end face of the stirring pressure cavity 63 in a fixed mounting manner, the stirring pressure spring 62 is fixedly mounted between the bottom wall of the stirring pressure cavity 63, the stirring pressure cavity 63 is arranged with a stirring main transmission cavity 64 in a left side communicated manner, the utility model discloses a stirring transmission main body, including stirring transmission main body 64, stirring transmission main body 68, fixed mounting on the stirring transmission main body 68 with stir the stirring main gear 66 of garrulous rack 72 meshing, it lies in on the stirring transmission main body 68 stirring transmission main gear 67 of garrulous main gear 66 front side fixed mounting, stirring transmission main body 64 left side intercommunication is equipped with stirring transmission auxiliary chamber 71, the stirring transmission auxiliary chamber 71 front and back rotates the cooperation between the inner wall and installs stirring transmission auxiliary 47, fixed mounting stirring transmission auxiliary gear 48 on the stirring transmission auxiliary shaft 47, stirring transmission auxiliary gear 48 with stirring transmission main gear 67 between the transmission cooperation installation stirring chain 65, stirring transmission auxiliary shaft 47 is located stirring transmission auxiliary gear 48 rear side fixed mounting stirring transmission main bevel gear 69, stirring transmission auxiliary chamber 71 top is equipped with stirring and promotes transmission chamber 83, the stirring and crushing driving cavity 83 and the stirring and crushing driving auxiliary cavity 71 are installed with a stirring and crushing bevel gear rod 76 in a rotating and matching mode, the bottom end face of the stirring and crushing bevel gear rod 76 is fixedly provided with a stirring and crushing driving auxiliary bevel gear 70, the stirring and crushing driving auxiliary bevel gear 70 is meshed with the stirring and crushing driving main bevel gear 69, the top end face of the stirring and crushing bevel gear rod 76 is fixedly provided with a stirring and crushing auxiliary gear 82, the left side of the stirring and crushing driving cavity 75 is communicated with a stirring and crushing pushing cavity 79, the left side of the stirring and crushing pushing cavity 79 is communicated with a stirring and pushing rack cavity 84, the stirring and crushing pushing rack cavity 84 is internally and slidably installed with a stirring and pushing rack 78 meshed with the stirring and crushing auxiliary gear 82, a stirring and pushing block 77 which is fixedly connected with the right end face of the stirring and pushing rack 78 is installed in a sliding and matching mode in the stirring and pushing cavity 79, the right side of the stirring and crushing and stacking cavity 75 is communicated with a, thus, crop rods enter from the mincing cavity 87, the stirring motor 93 is started to drive the stirring motor rod 91 to rotate, the stirring motor rod 91 drives the mincing main rod 85 to rotate by meshing with the mincing bevel gear 88, the mincing main rod 85 drives the mincing main gear 81 to rotate, the mincing main gear 81 drives the mincing auxiliary rod 97 to rotate by meshing with the mincing auxiliary gear 98, so that the mincing wheel 86 rotates to mince the crop rods, then the crop rods enter the mincing and stacking cavity 75, the mincing pressure plate 73 drives the mincing rack 72 to move downwards by pressure, the mincing main gear 66 rotates by meshing, the mincing main gear 66 rotates to drive the mincing transmission main rod 68 and the mincing transmission main gear 67 to rotate, the mincing transmission main gear 67 drives the mincing transmission auxiliary gear 48 to rotate by transmission of the mincing chain 65, the mincing transmission auxiliary gear 48 rotates to drive the mincing transmission auxiliary rod 47 and the mincing transmission main bevel gear 69 to rotate, the primary crushing transmission bevel gear 69 drives the secondary crushing transmission bevel gear 70 to rotate through meshing, the secondary crushing transmission bevel gear 70 rotates to drive the crushing bevel gear rod 76 to rotate, the crushing bevel gear rod 76 rotates to drive the secondary crushing gear 82 to rotate, the secondary crushing gear 82 rotates to drive the crushing pushing rack 78 to move left and right, the crushing pushing rack 78 moves left and right to drive the crushing pushing block 77 to move left and right, and the crushing pushing block 77 is enabled to push the crushed crop rods to be sent out from the crushing outlet 74.

Beneficially or exemplarily, the stirring mechanism comprises a stirring threaded rod 95 which is installed between the left inner wall of the stirring transmission cavity 12 and the stirring motor cavity 90 in a rotating fit manner, a stirring bevel gear 92 is fixedly installed on the right end surface of the stirring threaded rod 95, the stirring bevel gear 92 is meshed with the stirring motor bevel gear 89, a stirring slider 94 is installed on the stirring threaded rod 95 in a threaded fit manner, a stirring rotating rod 13 is fixedly installed on the bottom end surface of the stirring slider 94, a stirring rack 14 is fixedly installed between the left inner wall and the right inner wall of the stirring transmission cavity 12, a stirring cavity 16 is arranged below the stirring transmission cavity 12, a stirring gear 15 which is meshed with the stirring rack 14 is installed on the bottom end surface of the stirring rotating rod 13 in a rotating fit manner, a stirring rod 17 is fixedly installed on the bottom end surface of the stirring gear 15, and a stirring rod 18, a fertilizer inlet 96 with an upward opening and communicated with the stirring cavity 16 is formed in the left side of the stirring transmission cavity 12, so that fertilizer enters the stirring cavity 16 from the fertilizer inlet 96, the bevel gear 89 of the stirring motor is meshed with the bevel gear 92 to drive the bevel gear 92 to rotate, the bevel gear 92 of the stirring motor rotates to drive the stirring threaded rod 95 to rotate, the stirring threaded rod 95 rotates to drive the stirring slider 94 to move left and right, the stirring slider 94 moves left and right to drive the stirring gear 15 to rotate on the stirring rack 14, the stirring rod 17 rotates, and the stirring rod 18 stirs.

Beneficially or exemplarily, the opening and closing mechanism includes an opening and closing transmission cavity 23 disposed below the stirring cavity 16, the bottom wall of the stirring cavity 16 is communicated with a stirring connection cavity 19, the left side of the stirring connection cavity 19 is communicated with a stirring movement cavity 21, a stirring movement block 20 is installed in the stirring movement cavity 21 in a sliding fit manner, an opening and closing main spring 112 is fixedly installed between the left side end surface of the stirring movement block 20 and the left side inner wall of the stirring movement cavity 21, an opening and closing rotation rod 24 is fixedly installed between the front and rear inner walls of the opening and closing transmission cavity 23, an opening and closing connection rod 25 is installed on the opening and closing rotation rod 24 in a sliding fit manner, an opening and closing driving rod 22 penetrating through the moving box 11 and hinged to the opening and closing connection rod 25 is fixedly installed on the left side end surface of the stirring movement block 20, an opening and closing reset cavity 37, switching reset block 36 left side terminal surface with fixed mounting switching reset spring 35 between the switching chamber 37 left side inner wall that resets, switching reset block 36 left side terminal surface fixed mounting runs through removal case 11 left side terminal surface with switching connecting rod 25 articulated opening and closing rod 26, opening and closing rod 26 left side terminal surface fixed mounting switching block 27, stirring connecting cavity 19 below intercommunication is equipped with flowing water and stirs chamber 46 to promote switching block 27, drive opening and closing rod 26 and move right, drive switching reset block 36 and move right, drive switching drive pole 22 through switching connecting rod 25 and move left, switching drive pole 22 moves left and drives stirring movable block 20 and move left, and the liquid after the stirring is mixed gets into in flowing water stirs chamber 46 through stirring connecting cavity 19.

Beneficially or exemplarily, the running water mechanism comprises a running water transmission main cavity 99 arranged at the rear side of the running water stirring cavity 46, a running water transmission main rod 101 penetrating through the top wall of the running water transmission main cavity 99 is fixedly installed at the bottom end surface of the downward output shaft of the stirring motor 93, a running water main bevel gear 100 is fixedly installed at the bottom end surface of the running water transmission main rod 101, a flow driving rod 104 is installed between the running water transmission main cavity 99 and the front inner wall of the running water stirring cavity 46 in a rotating fit manner, a running water auxiliary bevel gear 102 is fixedly installed at the rear end surface of the flow driving rod 104, the running water auxiliary bevel gear 102 is meshed with the running water main bevel gear 100, a flow driving wheel 103 is fixedly installed on the flow driving rod 104, a running water stirring plate 105 is fixedly installed at the outer end surface of the flow driving wheel 103, and a running water transmission auxiliary cavity 42 is arranged above the running water transmission main cavity, the flowing water transmission main rod 101 is positioned on the flowing water transmission auxiliary cavity 42 and fixedly provided with the flowing water main gear 45, a flowing eccentric wheel cavity 109 is arranged below the flowing water transmission main cavity 99, the flowing eccentric wheel cavity 109 and the flowing water transmission auxiliary cavity 42 are rotatably matched to install the flowing water transmission auxiliary rod 108, a flowing eccentric wheel 107 is fixedly installed at the bottom end surface of the flowing water transmission auxiliary rod 108, an eccentric pushing plate 114 is installed in the flowing eccentric wheel cavity 109 in a sliding fit manner, an eccentric auxiliary spring 106 is fixedly installed between the left end surface of the eccentric pushing plate 114 and the left inner wall of the flowing eccentric wheel cavity 109, an eccentric main spring 110 is fixedly installed between the right end surface of the eccentric pushing plate 114 and the right inner wall of the flowing eccentric wheel cavity 109, the bottom wall of the flowing water stirring cavity 46 is communicated with a flowing water through hole 41 with a downward opening, and the left side of the flowing eccentric wheel cavity 109 is communicated with a, sliding fit installation in the flowing water baffle cavity 39 with eccentric impeller 114 left side terminal surface fixed connection's flowing water baffle 40, be equipped with flowing water connecting hole 111 in the flowing water baffle 40, flowing water baffle 40 left side terminal surface with fixed mounting flowing water baffle spring 38 between the inner wall of flowing water baffle cavity 39 left side, flowing water is stirred the cavity 46 right side intercommunication and is equipped with opening right flowing water spout 61 to flowing water transmission mobile jib 101 rotates and drives flowing water main bevel gear 100 and flowing water main gear 45 and rotate, flowing water main bevel gear 100 drives flowing drive rod 104 through meshing with flowing water secondary bevel gear 102 and rotates, flowing drive rod 104 rotates and drives flowing drive wheel 103 and rotate, flowing water stirring plate 105 sends liquid from flowing water spout 61, flowing water main gear 45 drives flowing water secondary gear 43 through flowing water chain 44 and rotates, flowing water secondary gear 43 rotates and drives flowing water transmission secondary rod 108 and rotates, the flowing water transmission auxiliary rod 108 rotates to drive the flowing eccentric wheel 107 to rotate, the flowing eccentric wheel 107 rotates to push the eccentric pushing plate 114 to intermittently move leftwards, the flowing water baffle plate 40 is driven to intermittently move leftwards, the flowing water connecting hole 111 is communicated with the flowing water through hole 41, and liquid flows out of the flowing water through hole 41.

Beneficially or exemplarily, the plowing mechanism comprises a plowing transmission cavity 50 arranged below the flowing water nozzle 61, a twist rod 60 penetrating through the right end face of the moving box 11 is installed on the inner wall of the plowing transmission cavity 50 in a rotating fit manner, a twist block 59 is fixedly installed on the right end face of the twist rod 60, a twist primary bevel gear 58 is fixedly installed on the left end face of the twist rod 60, a plowing cavity 55 is arranged below the plowing transmission cavity 50, a plowing transmission rod 49 is installed between the plowing cavity 55 and the top wall of the plowing transmission cavity 50 in a rotating fit manner, a twist secondary bevel gear 51 is fixedly installed on the plowing transmission rod 49, the twist secondary bevel gear 51 is meshed with the twist primary bevel gear 58, a plowing slider 57 is installed in a sliding fit manner in the plowing cavity 55, a plowing slider threaded hole 56 with an upward opening is arranged in the plowing slider 57, and the plowing slider threaded hole 56 is installed in a threaded fit manner with the plowing transmission rod 49, the end face of the bottom of the plowing slide block 57 is fixedly provided with a plow blade 52 which penetrates through the movable box 11, so that the twisting block 59 is rotated to drive the twisting rod 60 to rotate, the twisting rod 60 rotates to drive the twisting main bevel gear 58 to rotate, the twisting main bevel gear 58 drives the plowing transmission rod 49 to rotate by being meshed with the twisting auxiliary bevel gear 51, the plowing transmission rod 49 rotates to drive the plowing slide block 57 to move up and down, the plow blade 52 moves up and down, and whether to plough the soil can be selected.

Advantageously or exemplarily, the moving mechanism comprises a moving main fixing plate 31 fixedly installed at the bottom end surface of the moving box 11 in a front-back symmetrical manner, a moving main rod 33 is installed between the front-back moving main fixing plate 31 in a rotating fit manner, a moving auxiliary bevel gear 32 is fixedly installed on the moving main rod 33, a moving motor 28 is fixedly installed in the bottom end surface of the moving box 11, a moving motor rod 29 is fixedly installed at the bottom end surface of the downward output shaft of the moving motor 28, a moving main bevel gear 30 is fixedly installed at the bottom end surface of the moving motor rod 29, the moving main bevel gear 30 is engaged with the moving auxiliary bevel gear 32, a moving auxiliary fixing plate 54 is fixedly installed at the front-back symmetrical manner at the right side of the moving main fixing plate 31 in a front-back manner, a moving auxiliary rod 53 is installed between the front-back moving auxiliary fixing plate 54 in a rotating fit manner, and moving wheels 34 are fixedly installed at the front-back end, therefore, the moving motor 28 is started to drive the moving motor rod 29 to rotate, the moving motor rod 29 rotates to drive the moving main bevel gear 30 to rotate, the moving main bevel gear 30 drives the moving main rod 33 to rotate by being meshed with the moving auxiliary bevel gear 32, the moving main rod 33 rotates to drive the moving wheel 34 on the left side to rotate, so that the moving wheel 34 on the right side rotates to drive the whole device to move.

When in use, crop rods enter from the mincing cavity 87, the stirring motor 93 is started to drive the stirring motor rod 91 to rotate, the stirring motor rod 91 drives the mincing main rod 85 to rotate by meshing with the mincing bevel gear 88, the mincing main rod 85 drives the mincing main gear 81 to rotate, the mincing main gear 81 drives the mincing auxiliary rod 97 to rotate by meshing with the mincing auxiliary gear 98, so that the mincing wheel 86 rotates to mince the crop rods, then the crop rods enter the mincing and stacking cavity 75, the mincing pressure plate 73 drives the mincing rack 72 to move downwards under pressure, the mincing main gear 66 is driven to rotate by meshing, the mincing main gear 66 rotates to drive the mincing transmission main rod 68 and the mincing transmission main gear 67 to rotate, the mincing transmission main gear 67 drives the mincing transmission auxiliary gear 48 to rotate by the transmission of the mincing chain 65, the mincing transmission auxiliary gear 48 rotates to drive the mincing transmission auxiliary rod 47 and the mincing transmission main bevel gear 69 to rotate, the stirring transmission main bevel gear 69 drives the stirring transmission auxiliary bevel gear 70 to rotate through meshing, the stirring transmission auxiliary bevel gear 70 drives the stirring bevel gear rod 76 to rotate, the stirring bevel gear rod 76 drives the stirring auxiliary gear 82 to rotate, the stirring auxiliary gear 82 drives the stirring pushing rack 78 to move left and right through rotating, the stirring pushing rack 78 moves left and right to drive the stirring pushing block 77 to move left and right, so that the stirring pushing block 77 pushes the stirred crop rods to be sent out from the stirring outlet 74, fertilizer enters the stirring cavity 16 from the fertilizer inlet 96, the stirring motor bevel gear 89 drives the stirring bevel gear 92 to rotate through meshing with the stirring bevel gear 92, the stirring bevel gear 92 drives the stirring threaded rod 95 to rotate through rotating, the stirring threaded rod 95 drives the stirring slide block 94 to move left and right, the stirring slide block 94 moves left and right to drive the stirring gear 15 to rotate on the stirring rack 14, so that the stirring rod 17 rotates, the stirring rod 18 stirs, after the stirring is completed, the opening and closing block 27 is pushed to drive the opening and closing rod 26 to move rightwards, the opening and closing reset block 36 is driven to move rightwards, the opening and closing drive rod 22 is driven to move leftwards through the opening and closing connecting rod 25, the opening and closing drive rod 22 moves leftwards to drive the stirring moving block 20 to move leftwards, the stirred and mixed liquid enters the flowing water stirring cavity 46 through the stirring connecting cavity 19, the flowing water transmission main rod 101 rotates to drive the flowing water main bevel gear 100 and the flowing water main gear 45 to rotate, the flowing water main bevel gear 100 drives the flowing drive rod 104 to rotate through meshing with the flowing water auxiliary bevel gear 102, the flowing drive rod 104 rotates to drive the flowing drive wheel 103 to rotate, the flowing water stirring plate 105 sends the liquid out from the flowing water nozzle 61, meanwhile, the flowing water main gear 45 drives the flowing water auxiliary gear 43 to rotate through the, the flowing water transmission auxiliary rod 108 rotates to drive the flowing eccentric wheel 107 to rotate, the flowing eccentric wheel 107 rotates to push the eccentric pushing plate 114 to intermittently move leftwards, the flowing water baffle plate 40 is driven to intermittently move leftwards, the flowing water connecting hole 111 is communicated with the flowing water through hole 41, liquid flows out from the flowing water through hole 41, when needed, the twisting block 59 is rotated to drive the twisting rod 60 to rotate, the twisting rod 60 rotates to drive the twisting main bevel gear 58 to rotate, the twisting main bevel gear 58 drives the plowing transmission rod 49 to rotate by meshing with the twisting auxiliary bevel gear 51, the plowing transmission rod 49 rotates to drive the plowing slider 57 to move upwards and downwards, so that the coulter 52 moves upwards and downwards, whether to plough the soil or not can be selected, when the device needs to move, the moving motor 28 is started to drive the moving motor rod 29 to rotate, the moving motor rod 29 rotates to drive the moving main bevel gear 30 to rotate, the moving main bevel gear 30 drives the moving main rod, the moving main rod 33 rotates to drive the moving wheel 34 on the left side to rotate, so that the moving wheel 34 on the right side rotates to drive the whole device to move.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, the stirring mechanism in the device rotates through the stirring rod to fully stir the fertilizer mixture, so that the fertilizer can be better dissolved in water, the stirring wheel in the stirring mechanism stirs crop rods, the stirred crop rods are conveyed out from the stirring outlet by the stirring pushing block and are reused as the fertilizer, the resource of the crop rods is utilized, the flowing water baffle in the flowing water mechanism moves left and right, the flowing water through holes are intermittently communicated with the flowing water connecting holes, the fertilizer mixture flows into the soil from the flowing water connecting holes, the flowing water stirring plate can also convey the fertilizer mixture out from the flowing water nozzle, the irrigation quantity of the fertilizer mixture can be controlled, the plowing mechanism can select whether to plough the soil, the moving wheel in the moving mechanism rotates to drive the whole device to move, manual carrying is not needed, and the device is worthy of popularization.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.