CN220274209U - Agricultural soil turning and fertilizing device - Google Patents

Abstract

The utility model relates to an agricultural fertilizer injection unit that turns over soil, tractor and connecting axle group link to each other, rotary tillage mechanism links to each other with the connecting axle group, the sieve stone net links to each other with rotary tillage mechanism, impurity box links to each other with sieve stone net, impurity box, rotary tillage mechanism, connecting axle group and tractor set gradually the fertilizer storage tank along first direction and set up on rotary tillage mechanism, spout fertile pipeline and fertilizer storage tank intercommunication, spout orientation bearing surface of fertile pipeline, under the circumstances that rotary tillage mechanism is in first state, rotary tillage mechanism contradicts with the soil and vibrate, and drive soil moves to sieve stone net department, sieve stone net vibrates along with rotary tillage mechanism, impurity in the soil moves to in the impurity box along with sieve stone net vibration, fertilizer storage tank drive fertilizer is along spouting fertile pipeline blowout. According to the scheme, the problems that the rotary cultivator cannot fertilize and initially wet, so that farmers need to fertilize and spray water manually, stones in soil and rootstocks of weeds smashed by the rotary tillage cutters are required to be cleaned manually after the rootstocks are turned out, and the cultivation efficiency is affected can be solved.

Description

Agricultural soil turning and fertilizing device

Technical Field

The utility model relates to the technical field of agricultural planting, in particular to an agricultural soil turning and fertilizing device.

Background

With the continuous development of agricultural planting, the participation of agricultural machinery in the field of agricultural planting is also increasing in order to improve the efficiency of agricultural production, for example, a rotary cultivator is a cultivator matched with a tractor to complete cultivation and harrowing operation. The soil-crushing machine has the characteristics of strong soil-crushing capability, flat ground surface after tillage and the like, so that the soil-crushing machine is widely applied; meanwhile, the stubble buried below the ground surface can be cut up, so that the operation of the seeder is facilitated, and a good seed bed is provided for later seeding.

In order to ensure cultivation quality, the rotary cultivator breaks a plough layer through a rotary tillage cutter and restores a soil plough layer structure, but the rotary cultivator does not have functions of fertilization and preliminary wetting, after the rotary cultivator works, farmers need to fertilize and spray water on the soil after the rotary cultivator works, and meanwhile, stones in the soil and rootstocks of weeds broken by the rotary tillage cutter also need to be manually cleaned after the rootstocks are turned out, so that cultivation efficiency is influenced.

Disclosure of Invention

Based on this, provide an agricultural soil turning fertilizer injection unit to solve among the related art rotary cultivator and do not possess fertilization and preliminary moist function, behind the rotary cultivator operation, the peasant household need fertilize and spray water on the soil behind the rotary cultivator operation, simultaneously, the root and stem of the weeds that stone and rotary tillage cutter smashed in the soil also need the peasant household manual clearance after turning out, this process wastes time and energy, thereby influences the problem of cultivation efficiency.

The utility model provides an agricultural fertilizer injection unit that turns over soil, includes tractor, connecting axle group, rotary tillage mechanism, stores up fertile jar, spouts fertile pipeline, sieve stone net and impurity box, the one end of tractor with the one end of connecting axle group links to each other, rotary tillage mechanism with the other end of connecting axle group links to each other, sieve stone net with rotary tillage mechanism links to each other, impurity box with sieve stone net links to each other in the first direction, sieve stone net impurity box rotary tillage mechanism the connecting axle group with the tractor sets gradually, the orientation direction of the face of accepting of sieve stone net with the contained angle that first direction formed is less than 90, store up fertile jar set up in on the rotary tillage mechanism, spout of fertile pipeline with store up fertile jar intercommunication, spout orientation of fertilizer pipeline the face of accepting rotary tillage mechanism is in under the condition of first state, rotary tillage mechanism and soil conflict and vibration, and drive soil move to sieve stone net department, sieve stone net follows in the soil impurity along with in the soil the vibration of soil in the fertilizer jar is spouted to the vibration of fertilizer pipeline.

Preferably, the above-mentioned agricultural soil-turning fertilizer injection unit, rotary tillage mechanism includes support, driving motor, axis of rotation and a plurality of rotary tillage cutter, the support with the other end of connecting axle group links to each other, the sieve stone net with the support links to each other, the fertilizer storage jar set up in on the support, driving motor set up in on the support, the axis of rotation with the support rotates and links to each other, the axis of rotation with driving motor's drive end links to each other, a plurality of rotary tillage cutter are followed the central axis direction of axis of rotation sets gradually the rotary tillage mechanism is in under the condition of first state, driving motor drives the axis of rotation rotates, a plurality of rotary tillage cutter with the soil is contradicted and is vibrated, and the drive soil moves to sieve stone net department, the support is followed a plurality of rotary tillage cutter vibrations, sieve stone net is followed the support vibration.

Preferably, the above-mentioned agricultural soil-turning fertilizer injection unit, any one of a plurality of rotary tillage cutters includes mounting base, limiting plate group and rotary tillage cutter group, mounting base set up in the axis of rotation, rotary tillage cutter group's one end with mounting base articulates and links to each other, limiting plate group set up in on mounting base's the periphery driving under the pivoted condition of axis of rotation, a plurality of rotary tillage cutters follow the axis of rotation, a plurality of rotary tillage cutter group's the other end is followed rather than corresponding articulated a plurality of mounting base that link to each other rotates and keep away from the axis of rotation, a plurality of rotary tillage cutter group with a plurality of limiting plate group limit cooperation.

Preferably, the agricultural soil-turning and fertilizing device further comprises a spring, one end of the spring is detachably connected with the mounting base, the other end of the spring is detachably connected with the rotary tillage cutter group, and the springs are in a stretching state under the condition that the driving motor drives the rotating shaft to rotate.

Preferably, in the agricultural soil-turning and fertilizing apparatus of the above aspect, the mounting base is provided with a protective cover, and the protective cover is covered outside the spring.

Preferably, the above-mentioned agricultural soil-turning fertilizer injection unit, the rotary blade group includes a plurality of rotary blades, the one end of a plurality of rotary blades encircle and articulated set up in on the periphery of mounting base, limiting plate group include a plurality of limiting plates, a plurality of limiting plates encircle set up in on the periphery of mounting base in arbitrary one of a plurality of rotary blades along with under the pivoted condition of axis of rotation, the other end of a plurality of rotary blades along with rather than corresponding articulated continuous mounting base rotates and keep away from the axis of rotation, a plurality of rotary blades with a plurality of limiting plates one-to-one spacing cooperation.

Preferably, the agricultural soil-turning and fertilizing device comprises a connecting shaft, a first universal coupling and a second universal coupling, wherein one end of the tractor is connected with one end of the first universal coupling, the other end of the first universal coupling is connected with one end of the connecting shaft, the other end of the connecting shaft is connected with one end of the second universal coupling, and the other end of the second universal coupling is connected with the rotary tillage mechanism.

Preferably, the agricultural soil-turning and fertilizing device further comprises a telescopic oil cylinder, wherein one end of the telescopic oil cylinder is hinged to the connecting shaft, and the other end of the telescopic oil cylinder is hinged to one side of the rotary tillage mechanism.

Preferably, the agricultural soil-turning and fertilizing device further comprises a telescopic cylinder and an auxiliary roller, wherein one end of the telescopic cylinder is connected with the rotary tillage mechanism.

Preferably, the agricultural soil-turning and fertilizing device further comprises a water storage tank and a water spraying pipeline, wherein the water storage tank is arranged on the rotary tillage mechanism, the water spraying pipeline is communicated with the water storage tank, the injection port of the water spraying pipeline faces the bearing surface, and the water storage tank drives water to be sprayed out along the water spraying pipeline under the condition that the rotary tillage mechanism is in the first state.

The technical scheme that this application adopted can reach following beneficial effect:

in the agricultural soil turning and fertilizing device disclosed by the application, one end of a tractor is connected with one end of a connecting shaft group, a rotary tillage mechanism is connected with the other end of the connecting shaft group, a stone screening net is connected with the rotary tillage mechanism, an impurity box is connected with the stone screening net, the impurity box, the rotary tillage mechanism, the connecting shaft group and the tractor are sequentially arranged along a first direction (namely, the moving direction of the tractor), the included angle formed by the direction of a bearing surface of the stone screening net and the first direction (namely, the moving direction of the tractor) is smaller than 90 degrees, so that a guide slope surface can be formed, a fertilizer storage tank is arranged on the rotary tillage mechanism, a fertilizer spraying pipeline is communicated with the fertilizer storage tank, and the jet opening of the fertilizer spraying pipeline faces the bearing surface.

Under the condition that the rotary tillage mechanism is in a first state (namely, the rotary tillage mechanism is used for digging soil), the rotary tillage mechanism is in conflict with the soil to vibrate and drive the soil to move to the stone screening net, the stone screening net vibrates along with the rotary tillage mechanism, the soil can fall to the ground along with the vibration of the stone screening net, impurities in the soil move to the impurity box along with the vibration of the stone screening net, wherein an included angle formed by the direction of the bearing surface of the stone screening net and the first direction (namely, the moving direction of the tractor) is smaller than 90 degrees, so that a guide slope surface can be formed, impurities can be moved to the impurity box along the guide direction of the guide slope, manual sorting of the impurities by farmers is avoided, meanwhile, the fertilizer storage tank drives the fertilizer to be sprayed along the fertilizer spraying pipeline, so that the fertilizer can be sprayed onto the bearing surface from the spraying port of the fertilizer spraying pipeline, the soil and the fertilizer can be mixed, and the cultivation efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of an agricultural soil-turning and fertilizing apparatus disclosed in an embodiment of the present application;

FIG. 2 is a top view of an agricultural soil turning and fertilizing apparatus as disclosed in an embodiment of the present application;

FIG. 3 is a side view of an agricultural soil-turning fertilizer applicator disclosed in an embodiment of the present application;

FIG. 4 is a cross-sectional view of FIG. 2 at an angle;

fig. 5 is a cross-sectional view of fig. 2 at another angle.

Wherein: the rotary tillage machine comprises a bracket 110, a driving motor 120, a rotating shaft 130, rotary tillage cutters 140, a mounting base 141, a limiting plate group 142, a limiting plate 142a, a rotary tillage cutter group 143, rotary tillage cutters 143a, springs 144, a protective cover 150, a tractor 200, a connecting shaft 310, a first universal coupling 320, a second universal coupling 330, a telescopic cylinder 400, a telescopic cylinder 510, an auxiliary roller 520, a stone sieve 610, an impurity box 620, a fertilizer storage tank 710, a fertilizer spraying pipeline 720, a water storage tank 810 and a water spraying pipeline 820.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," "top," "bottom," "top," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 5, the present application discloses an agricultural soil-turning and fertilizing apparatus, which includes a tractor 200, a connection shaft 310 set, a rotary tillage mechanism, a fertilizer tank 710, a fertilizer injection pipeline 720, a stone sieve 610 and an impurity box 620.

Wherein, tractor 200 is as the movable functional part of agriculture soil turning fertilizer injection unit, and the impurity such as stone, weeds rhizome in the soil that rotary tillage mechanism excavated can be sieved to sieve stone net 610, sieves stone net 610 and hole sieve stone net 610 to this application, does not do any restriction, stores up fertile jar 710 and spouts fertile pipeline 720 and can be used to fertilize the soil that rotary tillage mechanism excavated.

Specifically, one end of the tractor 200 is connected to one end of the set of connecting shafts 310, the rotary tillage mechanism is connected to the other end of the set of connecting shafts 310, the stone sieve net 610 is connected to the rotary tillage mechanism, the impurity box 620 is connected to the stone sieve net 610, the impurity box 620, the rotary tillage mechanism, the set of connecting shafts 310 and the tractor 200 are sequentially arranged along a first direction (i.e., a moving direction of the tractor 200), an included angle formed by a bearing surface of the stone sieve net 610 and the first direction (i.e., a moving direction of the tractor 200) is smaller than 90 °, so that a guide slope can be formed, the fertilizer storage tank 710 is arranged on the rotary tillage mechanism, the fertilizer injection pipeline 720 is communicated with the fertilizer storage tank 710, and an injection port of the fertilizer injection pipeline 720 faces the bearing surface.

Under the condition that the rotary tillage mechanism is in a first state (namely, the rotary tillage mechanism performs soil digging operation), the rotary tillage mechanism collides with the soil to vibrate and drive the soil to move to the stone sieve net 610, the stone sieve net 610 vibrates along with the rotary tillage mechanism, the soil can drop to the ground along with the vibration of the stone sieve net 610, impurities in the soil move to the impurity box 620 along with the vibration of the stone sieve net 610, wherein an included angle formed by the bearing surface of the stone sieve net 610 and the first direction (namely, the moving direction of the tractor 200) is smaller than 90 degrees so that a guide slope surface can be formed, the impurities can move to the impurity box 620 along the guide direction of the guide slope, manual sorting of the impurities by a farmer is avoided, meanwhile, the fertilizer storage tank 710 drives the fertilizer to spray along the fertilizer spraying pipeline 720, so that the fertilizer can be sprayed onto the bearing surface from the spraying opening of the fertilizer spraying pipeline 720, the soil and the fertilizer can be mixed, and the cultivation efficiency is improved.

Of course, the number of the fertilizer injection lines 720 may be plural, and the plurality of fertilizer injection lines 720 may be communicated with the fertilizer storage tank 710, and the injection ports of the plurality of fertilizer injection lines 720 face the receiving surface, so that the injection area of the receiving surface is increased.

In this embodiment of the present application, the rotary tillage mechanism may include a support 110, a driving motor 120, a rotation shaft 130 and a plurality of rotary tillage cutters 140, specifically, support 110 links to each other with the other end of connecting axle 310 group, the sieve stone net 610 links to each other with support 110, fertilizer storage tank 710 sets up on support 110, driving motor 120 sets up on support 110, rotation shaft 130 links to each other with support 110 rotation, rotation shaft 130 links to each other with driving end of driving motor 120, a plurality of rotary tillage cutters 140 set up along the central axis direction of rotation shaft 130 at intervals in proper order, under the circumstances that rotary tillage mechanism is in the first state, driving motor 120 drives rotation shaft 130 and rotates, a plurality of rotary tillage cutters 140 rotate along with rotation shaft 130, a plurality of rotary tillage cutters 140 are contradicted with the soil and vibrate, and drive soil moves to sieve stone net 610 department, support 110 vibrates along with a plurality of rotary tillage cutters 140, sieve stone net 610 vibrates along with support 110.

In a further technical scheme, any one of a plurality of rotary tillage cutters 140 includes mounting base 141, limiting plate group 142 and rotary tillage cutter group 143, mounting base 141 sets up on axis of rotation 130, the one end of rotary tillage cutter group 143 links to each other with mounting base 141 is articulated, limiting plate group 142 sets up on the periphery of mounting base 141, under the circumstances that driving motor 120 drive axis of rotation 130 pivoted, a plurality of rotary tillage cutters 140 rotate along with axis of rotation 130, thereby make mounting base 141 rotate along with axis of rotation 130, the other end of a plurality of rotary tillage cutter group 143 rotates along with a plurality of mounting base 141 that link to each other rather than corresponding, and keep away from axis of rotation 130, thereby make the rotary tillage radius of a plurality of rotary tillage cutters 140 grow, in order to make agricultural soil turning fertilizer apparatus's soil depth of turning up obtain promoting, a plurality of rotary tillage cutter group 143 and a plurality of limiting plate group 142 limit fit, thereby avoid a plurality of rotary tillage cutter groups 143 to rotate freely and lead to harder to carry out hard conflict to realize soil turning effect to the soil turning up, thereby guarantee agricultural soil turning fertilizer apparatus. The above structure is hinged to the mounting base 141 through one end of the rotary tillage cutter 140, so that the other ends of the rotary tillage cutters 140 are far away from the rotation shaft 130 along with the rotation of the corresponding hinged mounting bases 141, thereby enlarging the rotary tillage radius of the rotary tillage cutter 140, and meanwhile, the rotary tillage cutter 140 is hinged to the mounting base 141, and the structure is simple, the disassembly and the assembly are convenient, so that the rotary tillage cutter 140 is convenient to maintain and replace even if damaged, thereby being beneficial to shortening the time of shutdown maintenance.

In a further technical scheme, any one of the plurality of rotary tillage cutters 140 can further comprise a spring 144, specifically, one end of the spring 144 is detachably connected with the mounting base 141, the other end of the spring 144 is detachably connected with the rotary tillage cutter group 143, under the condition that the driving motor 120 drives the rotating shaft 130 to rotate, the plurality of springs 144 are in a stretching state, so that the rotary tillage cutter group 143 is not only subjected to a collision force with the limiting plate group 142 in a limiting mode in the rotating process, but also subjected to a shrinkage force of the spring 144 in a direction opposite to the collision force direction, and further, the blocking force of the rotary tillage cutter 140, which is excessively large in insertion depth of the soil and is caused by excessively large stress of the limiting plate group 142, is avoided, and the shrinkage force of the spring 144 in the stretching state can be matched with the limiting plate group 142 to further ensure the soil turning smoothness of the rotary tillage cutter group 143.

In addition, when the agricultural soil-turning and fertilizer-applying device is stopped, the elastic potential energy of the spring 144 can enable the rotary tillage cutter group 143 to rotate to be close to the rotating shaft 130, so that the rotary tillage cutter group 143 is prevented from being damaged due to external factors or collision with other components.

In a further embodiment, the mounting base 141 may be provided with a protective cover 150, in particular, the protective cover 150 is covered outside the spring 144, so as to avoid that soil is jammed in the gap of the spring 144 and the spring 144 is impacted by stones in the soil.

In this embodiment of the present application, the rotary blade group 143 may include a plurality of rotary blades 143a, one end of the plurality of rotary blades 143a surrounds and is hinged on the periphery of the mounting base 141, the limiting plate group 142 may include a plurality of limiting plates 142a, the plurality of limiting plates 142a surround and are arranged on the periphery of the mounting base 141, under the condition that any one of the plurality of rotary blades 140 rotates along with the rotation shaft 130, the other end of the plurality of rotary blades 143a rotates along with the mounting base 141 connected in a corresponding and hinged manner to the other end of the plurality of rotary blades 143a and is far away from the rotation shaft 130, and the plurality of rotary blades 143a and the plurality of limiting plates 142a are in one-to-one limiting fit, so that the soil turning efficiency of the rotary blade group 143 can be improved through the rotation of the plurality of rotary blades 143 a.

In this embodiment, the connection shaft 310 set may include a connection shaft 310, a first universal coupling 320 and a second universal coupling 330, specifically, one end of the tractor 200 is connected with one end of the first universal coupling 320, the other end of the first universal coupling 320 is connected with one end of the connection shaft 310, the other end of the connection shaft 310 is connected with one end of the second universal coupling 330, the other end of the second universal coupling 330 is connected with the rotary tillage mechanism, and the flexible connection between the tractor 200 and the support 110 can be realized through the first universal coupling 320 and the second universal coupling 330, so that the rotary tillage mechanism can obtain more degrees of freedom.

In a further technical scheme, the disclosed agricultural soil-turning and fertilizing apparatus may further include a telescopic oil cylinder 400, specifically, one end of the telescopic oil cylinder 400 is hinged to the connecting shaft 310, the other end of the telescopic oil cylinder 400 is hinged to one side of the rotary tillage mechanism, and in the case that the telescopic oil cylinder 400 is in an extended state, the support 110 and the tractor 200 are arranged at intervals along the moving direction of the tractor 200, and the rotary tillage cutter 140 may also move the tractor 200 to turn the soil pressed by the tractor; in the case where the telescopic cylinder 400 is in the retracted state, the bracket 110 is spaced apart from the tractor 200 in a direction crossing the moving direction of the tractor 200, so that a worker driving the tractor 200 can intuitively observe the soil turning effect through the rear view mirror of the tractor 200.

In the embodiment of the present application, the disclosed agricultural soil-turning and fertilizing apparatus may further include a telescopic cylinder 510 and an auxiliary roller 520, specifically, one end of the telescopic cylinder 510 is connected to a rotary tillage mechanism, and in the gravity direction, under the condition that the agricultural soil-turning and fertilizing apparatus is stopped for maintenance or the cultivation field is withdrawn, the telescopic cylinder 510 drives the auxiliary roller 520 to move to the ground in contact with the ground, and the support bracket 110 is lifted to the position that the rotary tillage cutters 140 are separated from the ground, so that the plurality of rotary tillage cutters 140 can be suspended; in the case where the driving motor 120 drives the rotation shaft 130 to rotate, the telescopic cylinder 510 drives the auxiliary roller 520 to move toward the bracket 110, thereby avoiding interference.

In this application embodiment, the disclosed agricultural soil-turning fertilizer injection unit can also include water storage tank 810 and spray pipe way 820, specifically, water storage tank 810 sets up on rotary tillage mechanism, and water spray pipe way 820 communicates with water storage tank 810, and spray port orientation of spray pipe way 820 holds the face, is in the condition of first state (i.e. rotary tillage mechanism carries out the soil-digging operation) at rotary tillage mechanism, and water storage tank 810 drives water and spouts along water spray pipe way 820 to make water spray to hold the face from the spray port of spray pipe way 820, so that soil and water can mix, thereby improve cultivation efficiency.

Of course, the number of the water spraying lines 820 may be plural, the plurality of water spraying lines 820 may communicate with the water storage tank 810, and the injection ports of the plurality of water spraying lines 820 face the receiving surface, thereby increasing the injection area to the receiving surface.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. The utility model provides an agricultural soil turning fertilizer injection unit, its characterized in that includes tractor, connecting axle group, rotary tillage mechanism, stores up fertile jar, spouts fertile pipeline, sieve stone net and impurity box, the one end of tractor with the one end of connecting axle group links to each other, rotary tillage mechanism with the other end of connecting axle group links to each other, sieve stone net with rotary tillage mechanism links to each other, impurity box with sieve stone net links to each other in the first direction, sieve stone net impurity box rotary tillage mechanism the connecting axle group with the tractor sets gradually, the orientation direction of the face of accepting of sieve stone net with the contained angle that first direction formed is less than 90, store up fertile jar set up in rotary tillage mechanism is last, spout of fertile pipeline with store up fertile jar intercommunication, spout orientation of fertile pipeline accept the face rotary tillage mechanism is in under the condition of first state, rotary tillage mechanism is contradicted with the soil and is vibrated, and is driven soil and is moved to sieve stone net department, along with sieve stone net, the orientation direction of orientation direction of accepting face of sieve stone net with the impurity in the soil, spout fertilizer pipeline and the vibration jar.

2. The agricultural soil-turning and fertilizing apparatus as set forth in claim 1, wherein the rotary tillage mechanism comprises a bracket, a driving motor, a rotating shaft and a plurality of rotary tillage cutters, the bracket is connected with the other end of the connecting shaft group, the stone sieve net is connected with the bracket, the fertilizer storage tank is arranged on the bracket, the driving motor is arranged on the bracket, the rotating shaft is connected with the bracket in rotation, the rotating shaft is connected with the driving end of the driving motor, the plurality of rotary tillage cutters are sequentially arranged at intervals along the central axis direction of the rotating shaft, the driving motor drives the rotating shaft to rotate under the condition that the rotary tillage mechanism is in the first state, the plurality of rotary tillage cutters vibrate in response to the land, and drive the stone sieve net to move to the stone sieve net, the bracket vibrates in response to the plurality of rotary tillage cutters, and the stone sieve net vibrates in response to the bracket.

3. The agricultural soil-turning and fertilizing apparatus as set forth in claim 2, wherein any one of the plurality of rotary blades includes a mounting base, a limiting plate group and a rotary blade group, the mounting base is disposed on the rotation shaft, one end of the rotary blade group is hinged to the mounting base, the limiting plate group is disposed on a periphery of the mounting base, the plurality of rotary blades rotate with the rotation shaft under the condition that the driving motor drives the rotation shaft to rotate, the other end of the plurality of rotary blade groups rotates with the plurality of mounting bases connected with the corresponding hinge thereof to be away from the rotation shaft, and the plurality of rotary blade groups are in limited fit with the plurality of limiting plate groups.

4. The agricultural soil turning and fertilizing apparatus as set forth in claim 3, wherein any one of said plurality of rotary tillage cutters further comprises a spring, one end of said spring being detachably connected to said mounting base, the other end of said spring being detachably connected to said rotary tillage cutter group, said plurality of springs being in a stretched state under the condition that said drive motor drives said rotary shaft to rotate.

5. The agricultural soil turning and fertilizing apparatus as set forth in claim 4, wherein said mounting base is provided with a shield, said shield being disposed outside of said spring.

6. The agricultural soil-turning and fertilizing apparatus as recited in claim 3, wherein the rotary blade set comprises a plurality of rotary blades, one ends of the rotary blades are surrounded and hinged on the periphery of the mounting base, the limiting plate set comprises a plurality of limiting plates, the limiting plates are surrounded and arranged on the periphery of the mounting base, and under the condition that any one of the rotary blades rotates along with the rotating shaft, the other ends of the rotary blades rotate along with the mounting base which is correspondingly hinged and connected with the rotary blades and are far away from the rotating shaft, and the rotary blades are in one-to-one limiting fit with the limiting plates.

7. The agricultural soil-turning and fertilizing apparatus as set forth in claim 1, wherein the connecting shaft assembly comprises a connecting shaft, a first universal coupling and a second universal coupling, one end of the tractor is connected to one end of the first universal coupling, the other end of the first universal coupling is connected to one end of the connecting shaft, the other end of the connecting shaft is connected to one end of the second universal coupling, and the other end of the second universal coupling is connected to the rotary tillage mechanism.

8. The agricultural soil-turning and fertilizing apparatus as set forth in claim 7, further comprising a telescopic cylinder, one end of which is hinged to the connecting shaft, and the other end of which is hinged to one side of the rotary tillage mechanism.

9. The agricultural soil turning and fertilizing apparatus as set forth in claim 7, further comprising a telescoping cylinder and an auxiliary roller, wherein one end of the telescoping cylinder is connected to the rotary tillage mechanism.

10. The agricultural soil turning and fertilizing apparatus as set forth in claim 1, further comprising a water storage tank and a water spray pipe, said water storage tank being disposed on said rotary tillage mechanism, said water spray pipe being in communication with said water storage tank, said water spray pipe having an injection port facing said receiving surface, said water storage tank driving water to be injected along said water spray pipe with said rotary tillage mechanism in said first state.