CN114051808B - Fertilizing device for variable organic fertilizer and application method of fertilizing device - Google Patents

Abstract

The invention belongs to the field of fertilizer application, and relates to a variable organic fertilizer application device and a using method thereof. The invention can crush solid massive organic fertilizer into fine particles, can adjust the capacity of the fed organic fertilizer, can uniformly fertilize the organic fertilizer by extruding and sowing the fed organic fertilizer, can spray the organic fertilizer into soil in the moving process, and can spray water into the soil to moisten and dissolve the organic fertilizer into the soil.

Description

Fertilizing device for variable organic fertilizer and application method of fertilizing device

Technical Field

The invention belongs to the field of fertilizer application, and particularly relates to a variable organic fertilizer application device and a using method thereof.

Background

Organic fertilizers are well known as "farmyard manure". Organic substances (compounds containing carbon elements) are all called organic fertilizers, and the organic fertilizers have the characteristics of multiple types, wide sources, long fertilizer efficiency and the like, and the organic fertilizers contain multiple nutrient elements in an organic state, so that crops are difficult to directly utilize, and slowly release multiple nutrient elements under the action of microorganisms, so that the nutrients are continuously supplied to the crops, the soil structure can be improved, the water, the fertilizer, the gas and the heat in soil are coordinated, and the soil fertility and the land productivity are improved.

The existing organic fertilizer is applied in such a way that solid massive organic fertilizer cannot be crushed into fine particles, so that the organic fertilizer has poor absorption effect, and the capacity of the fed organic fertilizer cannot be adjusted, so that the organic fertilizer is difficult to adapt to different demands of different plants.

The conventional organic fertilizer can not uniformly fertilize the organic fertilizer.

The existing organic fertilizer can not spray water into soil at the same time, and can not moisten the organic fertilizer.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a fertilizing device for a variable organic fertilizer and a using method thereof.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a fertilizer injection unit of variable organic fertilizer, includes the casing, be equipped with the extrusion chamber in the casing, the extrusion intracavity is equipped with extrusion device, extrudes and is used for spraying of organic fertilizer, and extrusion device is including rotating the axis of rotation that sets up on the extrusion chamber upper side wall, the fixed grinding axle that is equipped with in axis of rotation upside, the fixed pole that spills that is equipped with of axis of rotation downside, the extrusion intracavity is equipped with loading attachment, loading attachment is used for the variable material loading of organic fertilizer, the casing downside is equipped with the removal chamber, the removal intracavity is equipped with mobile device, and mobile device is used for the removal of device, the casing downside rotates and is equipped with the stirring axle, stir epaxial fixed being equipped with of stirring device, stirring device is used for stirring of earth, the fixed feed inlet that is equipped with of casing downside, the fixed broadcast mouth that is equipped with of casing downside.

Preferably, the extrusion device comprises a transmission motor fixed on two sides of an extrusion cavity, each transmission motor output end is fixedly provided with a transmission shaft, each transmission shaft is rotationally connected with the lower side wall of the extrusion cavity, each transmission shaft stretches into the corresponding movable cavity, a sliding baffle is fixedly arranged in the extrusion cavity, each sliding baffle is fixedly connected with the corresponding transmission motor, each sliding baffle is fixedly connected with the corresponding side wall of the extrusion cavity, each transmission shaft is rotationally connected with the corresponding motor baffle, each transmission shaft is meshed with a transmission block, an extrusion rod is connected between each two transmission blocks, each extrusion rod is in sliding connection with each sliding baffle, and four grinding balls are fixedly arranged on each grinding shaft and are in sliding fit with the corresponding sliding baffle.

Preferably, the telescopic sleeve is fixedly arranged on the extrusion rod, the sliding block is meshed with the rotating shaft through threads, the telescopic sleeve is fixedly provided with the transmission sleeve, and the lower side of the telescopic sleeve is rotationally connected with the sowing rod.

Preferably, the extruding rod is fixedly provided with a feeding block, the feeding block is in sliding connection with the sliding baffle, the feeding block is in sliding connection with the telescopic sleeve, the feeding block is in sliding connection with the transmission sleeve, the feeding block is fixedly provided with a feeding motor, the output end of the feeding motor is fixedly provided with a feeding shaft, the feeding shaft is fixedly provided with a feeding pipe, and the feeding pipe is provided with two adjusting blocks in a sliding manner.

Preferably, the moving device comprises two moving shafts rotatably arranged in the moving cavity, each moving shaft extends out of the moving cavity, two sides of each moving shaft are fixedly provided with moving tracks, each moving shaft is fixedly provided with a worm, the lower side of each driving shaft is fixedly provided with a turbine, and the turbines are meshed with the worm.

Preferably, the stirring device comprises a stirring pipe fixed on the stirring shaft, a water tank is arranged in the stirring pipe, six fixing pipes are fixedly arranged on the stirring pipe, a spraying pipe is arranged in the fixing pipes in a sliding mode, stirring blocks are fixedly arranged on the spraying pipe, and each spraying pipe is connected with the stirring pipe and provided with an extrusion spring.

Organic fertilizer is stored from the feed inlet entering device, in last material piece upside, drive motor rotates and drives the transmission shaft and rotate, make the transmission piece vertically slide on the transmission shaft, simultaneously drive the squeeze lever vertically slide, make the sliding block also vertically slide, drive the axis of rotation and rotate, make the grinding axle rotate, drive the grinding ball and grind organic fertilizer on sliding baffle, make solid massive organic fertilizer pulverize into tiny granule, the material loading motor starts simultaneously, drive the material loading axle and rotate, make the regulating block rotate, drive the organic fertilizer of material loading piece top go up to the device below, spray, simultaneously can adjust the pole on the regulating block, can adjust the interval of regulating block, thereby influence the capacity of material loading organic fertilizer at every turn, organic fertilizer is when storing in the device below, the material loading piece follows the squeeze lever and slides from top to bottom, make the organic fertilizer of material loading piece below squeeze device, simultaneously, the axis of rotation, drive the broadcast lever, drive organic fertilizer from spilling the mouth organic fertilizer to the device below, this device can spill the solid fertilizer into the solid fertilizer of big piece, can not make the fertilizer can be adjusted to the device, can not be adjusted by the device, thereby can not be adjusted by the device, the fertilizer can be better with the fertilizer, can be adjusted by the device, the fertilizer can be adjusted by the device, can be adjusted by the fertilizer, the device is better, can be adjusted by the fertilizer, the fertilizer can be adjusted by the fertilizer.

The transmission shaft rotates, drives the turbine and rotates, drives the worm and rotates, make the movable shaft rotate, and drive and remove the track and rotate, make the device move simultaneously, make earth stir the piece, stir the piece simultaneously and also stir earth, organic fertilizer is broadcasting in stirring the pipe in the device again, make stirring the piece stir organic fertilizer in earth when stirring, make organic fertilizer better absorbed, stir the piece extrusion spray tube simultaneously, drive spray tube extrusion spring, make the spray tube inboard soak in the water tank, make the water in the water tank spray in earth through the aperture on the spray tube, make organic fertilizer moist, and dissolve in earth, this device can be in the in-process of removal with organic fertilizer spill organic fertilizer in earth, make organic fertilizer better absorbed, can also spray water in earth, make organic fertilizer moist, and dissolve in earth.

In addition, the invention also provides a using method of the fertilizing device of the variable organic fertilizer, which comprises the following steps:

s1: firstly, organic fertilizer is stored into the device from a feed inlet, a transmission motor is started to drive a transmission shaft to rotate, a transmission block is driven to slide, a sliding block is driven to slide through an extrusion rod, and a rotation shaft is driven to rotate, so that a grinding ball grinds the organic fertilizer, a feeding block extrudes the organic fertilizer, and an organic fertilizer is scattered by a scattering rod;

s2, starting a feeding motor to drive the organic fertilizer on a feeding block to be fed and scattered, and adjusting a telescopic rod in an adjusting block to change the capacity of the organic fertilizer fed once;

s3, a transmission shaft rotates to drive a turbine to rotate, so that a worm is meshed with and rotates to drive a movable shaft to rotate, and a movable track is rotated and moved;

s4: the soil is stirred and is stirred the piece for the spray tube extrudes the extrusion spring, thereby makes the spray tube inboard submerge in the water tank, makes the water in the water tank spray in the soil through the aperture on the spray tube.

Compared with the prior art, the fertilizing device for the variable organic fertilizer and the using method thereof have the following advantages:

1. the solid massive organic fertilizer can be crushed into fine particles, so that the organic fertilizer can be absorbed better, and the capacity of the fed organic fertilizer can be adjusted, thereby adapting to different demands of different plants.

2. The organic fertilizer can be uniformly fertilized by extruding and sowing the organic fertilizer.

3. Can be in the in-process that removes organic fertilizer spill organic fertilizer in earth for organic fertilizer is better absorbed, can also spray water in the earth simultaneously, makes organic fertilizer moist, and dissolves in the earth.

Drawings

FIG. 1 is a schematic structural view of a variable organic fertilizer applicator and method of using the same.

Fig. 2 is a sectional view taken along the direction A-A in fig. 1.

Fig. 3 is an enlarged view of the structure at B in fig. 2.

Fig. 4 is an enlarged view of the structure at C in fig. 2.

Fig. 5 is a sectional view in the direction D-D in fig. 2.

In the figure, 10, a housing; 11. a drive motor; 12. a motor baffle; 13. a transmission block; 14. a transmission shaft; 15. a movable shaft; 16. a moving track; 17. grinding the ball; 18. a feed inlet; 19. grinding the shaft; 20. a rotating shaft; 21. a transfer sleeve; 22. a sliding block; 23. a telescopic sleeve; 24. a sliding baffle; 25. an extrusion rod; 26. sowing the rods; 27. a sowing port; 28. feeding a material block; 29. an adjusting block; 30. feeding pipes; 31. a feeding shaft; 32. a feeding motor; 33. a poking block; 34. a spray tube; 35. a fixed tube; 36. extruding a spring; 37. a poking pipe; 38. a dial shaft; 39. a water tank; 40. a worm; 41. a turbine; 42. an extrusion chamber; 43. the cavity is moved.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a fertilizer injection unit of variable organic fertilizer, including casing 10, be equipped with extrusion chamber 42 in the casing 10, be equipped with extrusion device in the extrusion chamber 42, extrusion is used for spraying of organic fertilizer, extrusion device is including rotating the axis of rotation 20 that sets up on extrusion chamber 42 upper side wall, the fixed grinding shaft 19 that is equipped with in axis of rotation 20 upside, the fixed broadcast pole 26 that is equipped with of axis of rotation 20 downside, be equipped with loading attachment in the extrusion chamber 42, loading attachment is used for the variable material loading of organic fertilizer, the casing 10 downside is equipped with and removes chamber 43, remove and be equipped with mobile device in the chamber 43, mobile device is used for the removal of device, the casing 10 downside rotates and is equipped with the stirring axle 38, stir and be equipped with on the axle 38 and turn over and dial the device, turn over and dial the stirring that the device is used for earth, the casing 10 upside is fixed and is equipped with feed inlet 18, the casing 10 downside is fixed and is equipped with broadcast mouth 27.

As shown in fig. 1 and 2, the extruding device comprises driving motors 11 fixed at two sides of an extruding cavity 42, a driving shaft 14 is fixedly arranged at the output end of each driving motor 11, the driving shaft 14 is rotationally connected with the lower side wall of the extruding cavity 42, the driving shaft 14 stretches into a moving cavity 43, a sliding baffle 24 is fixedly arranged in the extruding cavity 42, the sliding baffle 24 is fixedly connected with the driving motor 11, a motor baffle 12 is fixedly connected with the side wall of the sliding baffle 24 and the side wall of the extruding cavity 42, the driving shaft 14 is rotationally connected with the motor baffle 12, driving blocks 13 are meshed on the driving shaft 14, an extruding rod 25 is connected between the two driving blocks 13, the extruding rod 25 is slidingly connected with each sliding baffle 24, four grinding balls 17 are fixedly arranged on the grinding shaft 19, and the grinding balls 17 are in sliding fit with the sliding baffle 24.

As shown in fig. 2 and 3, a telescopic sleeve 23 is fixedly arranged on the extrusion rod 25, a sliding block 22 is fixedly arranged on the extrusion rod 25, the sliding block 22 is in threaded engagement with the rotating shaft 20, a transmission sleeve 21 is fixedly arranged on the telescopic sleeve 23, and the lower side of the telescopic sleeve 23 is rotationally connected with the sowing rod 26.

As shown in fig. 2 and 3, a feeding block 28 is fixedly arranged on the extrusion rod 25, the feeding block 28 is slidably connected with the sliding baffle 24, the feeding block 28 is slidably connected with the telescopic sleeve 23, the feeding block 28 is slidably connected with the transmission sleeve 21, a feeding motor 32 is fixedly arranged in the feeding block 28, a feeding shaft 31 is fixedly arranged at the output end of the feeding motor 32, a feeding pipe 30 is fixedly arranged on the feeding shaft 31, and two adjusting blocks 29 are slidably arranged on the feeding pipe 30.

As shown in fig. 2 and 5, the moving device comprises two moving shafts 15 rotatably arranged in a moving cavity 43, each moving shaft 15 extends out of the moving cavity 43, two sides of the moving shaft 15 are fixedly provided with moving tracks 16, each moving shaft 15 is fixedly provided with a worm 40, the lower side of a transmission shaft 14 is fixedly provided with a turbine 41, and the turbine 41 is meshed with the worm 40.

As shown in fig. 1 and 4, the turning device comprises a turning tube 37 fixed on a turning shaft 38, a water tank 39 is arranged in the turning tube 37, six fixing tubes 35 are fixedly arranged on the turning tube 37, spraying tubes 34 are slidably arranged in each fixing tube 35, a turning block 33 is fixedly arranged on each spraying tube 34, and each spraying tube 34 is connected with the turning tube 37 and provided with an extrusion spring 36.

Organic fertilizer enters the device from the feed inlet 18, store on the upper side of the upper material block 28, simultaneously the transmission motor 11 rotates and drives the transmission shaft 14 to rotate, make the transmission block 13 vertically slide on the transmission shaft 14, simultaneously drive the extrusion rod 25 to vertically slide, make the sliding block 22 also vertically slide, drive the rotation shaft 20 to rotate, make the grinding shaft 19 rotate, drive the grinding ball 17 to grind organic fertilizer on the sliding baffle 24, make solid massive organic fertilizer grind into tiny particles, simultaneously the feed motor 32 starts, drive the feed shaft 31 to rotate, make the regulating block 29 rotate, drive the organic fertilizer feeding device below of upper material block 28, spray, simultaneously can adjust the distance of the regulating block 29, thereby influence the capacity of each time feeding organic fertilizer, the upper material block 28 slides up and down along with the extrusion rod 25 when storing in the device below, simultaneously, the rotation shaft 20 rotates, drive the broadcasting rod 26 to grind into tiny particles, make the broadcasting fork 26 to scatter the organic fertilizer feeding device below the device, can not evenly spread the fertilizer by the fertilizer, can not make the fertilizer spreader uniformly spread the fertilizer by the device, can not be adjusted to the device, thereby can not be suitable for the fertilizer spreader can be adjusted to the fertilizer uniformly.

The transmission shaft 14 rotates to drive the turbine 41 to rotate to drive the worm 40 to rotate, so that the movable shaft 15 rotates and the movable caterpillar 16 is driven to rotate, the device can be used for moving on the ground, meanwhile, the device moves, the soil is enabled to stir the stirring block 33, meanwhile, the stirring block 33 is enabled to stir soil, organic fertilizer is further sowed on the stirring pipe 37 from the device, the stirring block 33 is enabled to spray the organic fertilizer into the soil when stirring, the organic fertilizer is enabled to be better absorbed, meanwhile, the stirring block 33 extrudes the spraying pipe 34, the spraying pipe 34 is driven to extrude the extrusion spring 36, the inner side of the spraying pipe 34 is enabled to be immersed into the water tank 39, water in the water tank 39 is enabled to be sprayed into the soil through small holes in the spraying pipe 34, the organic fertilizer is enabled to be wet and dissolved into the soil, and the device can spray the organic fertilizer into the soil in the moving process, so that the organic fertilizer is better absorbed, and meanwhile, the water can be sprayed into the soil, and the organic fertilizer is enabled to be wet and dissolved into the soil.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims (2)

1. The utility model provides a fertilizer injection unit of variable organic fertilizer, includes casing (10), its characterized in that, be equipped with extrusion chamber (42) in casing (10), be equipped with extrusion device in extrusion chamber (42), extrusion is used for spraying of organic fertilizer, extrusion device is including rotating axis (20) that set up on extrusion chamber (42) upper side wall, fixed grinding axle (19) that are equipped with in axis of rotation (20), fixed broadcast pole (26) that are equipped with in axis of rotation (20) downside, be equipped with loading attachment in extrusion chamber (42), loading attachment is used for the variable material loading of organic fertilizer, casing (10) downside is equipped with movable chamber (43), be equipped with mobile device in movable chamber (43), mobile device is used for the removal of device, casing (10) downside rotates and is equipped with stirring axle (38), stirring is equipped with stirring device on stirring axle (38), stirring device is used for stirring of earth, casing (10) upside is fixed and is equipped with feed inlet (18), casing (10) downside is fixed and is equipped with and spills mouth (27);

the extrusion device comprises transmission motors (11) fixed at two sides of an extrusion cavity (42), each transmission motor (11) is fixedly provided with a transmission shaft (14), each transmission shaft (14) is rotatably connected with the lower side wall of the extrusion cavity (42), each transmission shaft (14) stretches into each movable cavity (43), each extrusion cavity (42) is internally fixedly provided with a sliding baffle (24), each sliding baffle (24) is fixed with each transmission motor (11), each sliding baffle (24) is fixedly connected with the side wall of the extrusion cavity (42) and is provided with a motor baffle (12), each transmission shaft (14) is rotatably connected with each motor baffle (12), each transmission shaft (14) is provided with a transmission block (13) in a meshed manner, extrusion rods (25) are connected between the two transmission blocks (13), each extrusion rod (25) is slidably connected with each sliding baffle (24), each grinding ball (17) is fixedly arranged on each grinding shaft (19), and each grinding ball (17) is slidably matched with each sliding baffle (24);

the telescopic type seeding machine is characterized in that a telescopic sleeve (23) is fixedly arranged on the extrusion rod (25), a sliding block (22) is fixedly arranged on the extrusion rod (25), the sliding block (22) is in threaded engagement with the rotating shaft (20), a transmission sleeve (21) is fixedly arranged on the telescopic sleeve (23), and the lower side of the telescopic sleeve (23) is rotationally connected with the seeding rod (26);

the extrusion rod (25) is fixedly provided with a feeding block (28), the feeding block (28) is in sliding connection with the sliding baffle (24), the feeding block (28) is in sliding connection with the telescopic sleeve (23), the feeding block (28) is in sliding connection with the transmission sleeve (21), a feeding motor (32) is fixedly arranged in the feeding block (28), the output end of the feeding motor (32) is fixedly provided with a feeding shaft (31), the feeding shaft (31) is fixedly provided with a feeding pipe (30), and the feeding pipe (30) is provided with two adjusting blocks (29) in a sliding manner;

the moving device comprises two moving shafts (15) which are rotatably arranged in the moving cavity (43), each moving shaft (15) extends out of the moving cavity (43), two sides of each moving shaft (15) are fixedly provided with moving tracks (16), each moving shaft (15) is fixedly provided with a worm (40), the lower side of the transmission shaft (14) is fixedly provided with a turbine (41), and the turbines (41) are meshed with the worm (40);

the stirring device comprises stirring pipes (37) fixed on stirring shafts (38), a water tank (39) is arranged in each stirring pipe (37), six fixing pipes (35) are fixedly arranged on each stirring pipe (37), spraying pipes (34) are arranged in the fixing pipes (35), stirring blocks (33) are fixedly arranged on each spraying pipe (34), and each spraying pipe (34) is connected with each stirring pipe (37) and provided with an extrusion spring (36).

2. The method of using a variable organic fertilizer applicator according to claim 1, wherein: the method comprises the following steps:

s1: firstly, organic fertilizer is stored into the device from a feed inlet (18), a transmission motor (11) is started to drive a transmission shaft (14) to rotate, a transmission block (13) is driven to slide, a sliding block (22) is driven to slide through an extrusion rod (25) and a rotating shaft (20) is driven to rotate, a grinding ball (17) grinds the organic fertilizer, a feeding block (28) extrudes the organic fertilizer, and an organic fertilizer is scattered by a scattering rod (26);

s2, starting a feeding motor (32) to drive organic fertilizer on a feeding block (28) to be fed and sowed, and adjusting a telescopic rod in an adjusting block (29) to change the capacity of the organic fertilizer fed once;

s3, a transmission shaft (14) rotates to drive a turbine (41) to rotate, so that a worm (40) is meshed to rotate to drive a movable shaft (15) to rotate, and a movable track (16) is rotated to move;

s4: the soil is stirred and toggled the piece (33) for spray tube (34) extrusion spring (36) to make spray tube (34) inboard submergence in water tank (39), make the water in water tank (39) spray in the soil through the aperture on spray tube (34).