CN116636341A

CN116636341A - Agricultural combined operation machine

Info

Publication number: CN116636341A
Application number: CN202310721232.5A
Authority: CN
Inventors: 邓可; 邬碧云; 叶烨
Original assignee: Changsha Sanglaite Agricultural Mechanical Equipment Co Ltd
Current assignee: Changsha Sanglaite Agricultural Mechanical Equipment Co Ltd
Priority date: 2023-06-16
Filing date: 2023-06-16
Publication date: 2023-08-25

Abstract

The application discloses an agricultural combined operation machine which comprises a control system, a tractor, a rotary tillage ridger, a discharging system and a spraying system, wherein the tractor is connected with the control system, the rotary tillage ridger is in transmission connection with the tractor, the discharging system and the spraying system are arranged on the rotary tillage ridger, the rotary tillage ridger comprises rotary tillage ridging rollers, a discharging hole of the discharging system is positioned in front of the middle of the rotary tillage ridging rollers, rotary tillage blades for rotary tillage soil and ridging blades for conveying the soil at two ends to the middle to cover materials discharged from the discharging hole are arranged at two ends of the rotary tillage ridging rollers, and the spraying system is arranged behind the rotary tillage ridging rollers. According to the application, the ridging blade can be used for conveying the soil subjected to rotary tillage to the middle, so that the materials discharged from the discharge port of the discharge system can be coated, and the synchronous embedding of the materials is realized. Further, the operation procedures of rotary tillage, ridging, ditching, precise fertilization, spraying and the like can be completed at one time, and the operation efficiency and the operation quality are improved.

Description

Agricultural combined operation machine

Technical Field

The application relates to the technical field of agricultural machinery, in particular to an agricultural combined operation machine.

Background

At present, the crop planting of tobacco and the like in China all needs working procedures of ridging, fertilizing, spraying chemical agent and the like, and the chemical agent is sprayed by manually adding the fertilizer after single ridging operation.

However, the working mode has high labor intensity, low working efficiency, inaccurate fertilizer application and spraying operation, large waste and high cost; at present, a composite integrated combined operation machine is urgently needed to complete operation procedures of rotary tillage, ridging, ditching, precise fertilization, spraying and the like at one time.

Disclosure of Invention

The application aims to solve the technical problem of overcoming the defects existing in the prior art and providing an agricultural combined operation machine.

In order to solve the technical problems, the application discloses an agricultural combined operation machine which comprises a control system, a tractor, a rotary tillage ridger, a discharging system and a spraying system, wherein the tractor, the rotary tillage ridger, the discharging system and the spraying system are connected with the control system, the rotary tillage ridger is in transmission connection with the tractor, the discharging system and the spraying system are arranged on the rotary tillage ridger, the rotary tillage ridger comprises a rotary tillage ridging roller, a discharging hole of the discharging system is positioned in front of the middle of the rotary tillage ridging roller, rotary tillage blades for rotary tillage soil and ridging blades for conveying the soil at two ends to the middle to cover materials discharged from the discharging hole are arranged at two ends of the rotary tillage ridging roller, and the spraying system is arranged behind the rotary tillage ridging roller.

Further, the ridging blades on two sides are arranged on two sides of the rotary tillage ridging roller in a spiral rotation direction opposite to each other, and when the rotary tillage ridging roller rotates, the ridging blades on two sides drive soil to move to the middle in a spiral mode.

Further, a ridging plow assembly for forming ridge bodies is arranged at the rear of the rotary tillage ridger.

Further, the spraying system comprises a U-shaped frame matched with the outer shape of the ridge body, and spray heads are uniformly distributed on the U-shaped frame along the width direction of the ridge body.

Further, the discharging system comprises a material box and spiral discharging components arranged on two sides of the bottom of the material box, an input port of the spiral discharging components is communicated with the box body, a material guide pipe is arranged at an output port, and the material guide pipe faces to the front of the middle of the rotary tillage ridging roller.

Further, the discharging system further comprises a baffle plate arranged between the two side material guiding pipes, and the output port of the material guiding pipe faces to the baffle plate so that materials can be blocked by the baffle plate and vertically fall.

Further, a stirring shaft is further arranged in the material box, a plurality of stirring blades are arranged on two sides of the stirring shaft, and the stirring blades rotate to drive materials to move towards an input port of the spiral discharging assembly.

Further, any one side of the stirring shaft is provided with two stirring blades, the stirring blades are fixedly connected with a material tray on two sides of an input port of the spiral discharging assembly, a material passing hole is formed in the material tray, an anti-caking plate is connected in the middle of the material tray, and the anti-caking plate is arranged at the edge of the material tray.

Further, a middle transmission system, a first half shaft assembly, a second half shaft assembly, a first side transmission system and a second side transmission system are arranged on the rotary tillage ridger, the power input end of the middle transmission system is in transmission with the tractor, the power output ends of two sides are in transmission with the first half shaft assembly and the second half shaft assembly, the first half shaft assembly is in transmission with the rotary tillage ridging roller through the first side transmission system, and the second half shaft assembly is in transmission with the discharging system through the second side transmission system.

Further, the first side transmission system and the second side transmission system are driven by sprocket chains.

Compared with the prior art, the application has the advantages that:

according to the application, the ridging blade can be used for conveying the soil subjected to rotary tillage to the middle, so that the materials discharged from the discharge hole of the discharge system can be coated, the materials can be synchronously buried, and the problems that the ridge body and fertilizer are damaged and easily run off during the subsequent re-ditching and fertilizing are avoided. Furthermore, the combined operation machine is a compound type machine tool, can finish operation procedures such as rotary tillage, ridging, ditching, precise fertilization, spraying and the like at one time, improves the operation efficiency and the operation quality, and is first created for the current tobacco planting and tillage operation.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, illustrate and explain the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is a schematic front view of an agricultural combine disclosed in an embodiment of the present disclosure;

FIG. 2 is a schematic side view of an agricultural combine disclosed in an embodiment of the disclosure;

FIG. 3 is a schematic side view of a rotary tillage ridger according to an embodiment of the present application;

FIG. 4 is a schematic top view of a rotary tillage ridger according to an embodiment of the present application;

FIG. 5 is a schematic illustration of an isometric view of a stirring shaft according to an embodiment of the present application;

fig. 6 is a schematic diagram illustrating the operation of a spray system according to an embodiment of the present application.

Legend description:

1. a control system;

2. a tractor; 21. a power output shaft; 22. a power transmission shaft;

3. a rotary tillage ridger; 31. rotary tillage ridging roller; 32. a rotary tillage blade; 33. ridging blades; 34. an intermediate transmission system; 35. a first half shaft assembly; 36. a second axle assembly; 37. a first side drive system; 38. a second side drive system; 381. a first sprocket; 382. a chain; 383. a bridge shaft; 384. a second sprocket; 385. a third sprocket; 386. a fourth sprocket; 39. a pedal;

4. a discharge system; 41. a feed box; 42. a spiral discharging assembly; 43. a material guiding pipe; 44. a striker plate; 45. a stirring shaft; 46. stirring blades; 47. a material tray; 48. a material passing hole; 49. an anti-caking plate;

5. a spraying system; 51. a U-shaped frame; 52. a spray head;

6. a ridge body;

7. a ridging plow assembly;

8. and (5) material.

Detailed Description

The present application will be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments are shown, for the purpose of illustrating the application, but the scope of the application is not limited to the specific embodiments shown.

As shown in fig. 1-6, the embodiment of the application discloses an agricultural combined operation machine, which comprises a control system 1, a tractor 2 connected with the control system 1, a rotary tillage ridger 3, a discharging system 4 and a spraying system 5, wherein the rotary tillage ridger 3 is in transmission connection with the tractor 2, the control system 1 is integrally arranged on the tractor 2 and comprises all components participating in detection, feedback and control, meanwhile, the agricultural combined operation machine also comprises an attached machine operation monitoring system, the operation state of the current machine can be monitored in real time, a user can comprehensively know the operation condition of the machine on the current day in real time (comprising the operation amount, the operation place, the fault condition and the like, can perform unified scheduling in the background and is convenient for centralized management, the discharging system 4 and the spraying system 5 are arranged on the rotary tillage ridger 3, the rotary tillage ridger 3 comprises a rotary tillage ridger 31, the discharging port of the discharging system 4 is positioned in front of the middle part of the rotary tillage ridger 31, wherein, the front and the rear are relative to the walking direction of the tractor 2, the rotary tillage ridging roller 31 is provided with rotary tillage blades 32 for rotary tillage soil and ridging blades 33 for conveying the soil at the two ends to the middle to cover the materials 8 discharged from the discharge hole, the rotary tillage blades 32 and the ridging blades 33 are symmetrically arranged relative to the middle part of the rotary tillage ridging roller 31, the spraying system 5 is arranged at the rear of the rotary tillage ridging roller 31, the application can convey the soil after rotary tillage to the middle through the ridging blades 33, thereby covering the materials 8 discharged from the discharge hole of the discharge system 4, thereby realizing synchronous burying of the materials 8, compared with the prior art, omitting independent ditching and fertilizing steps, and avoiding the problems of damaging the ridge 6 and easily losing the fertilizers when the subsequent ditching and fertilizing are carried out again, the combined operation machine is a compound type machine tool, can complete operation procedures such as rotary tillage, ridging, ditching, precise fertilization, spraying and the like at one time, improves the operation efficiency and the operation quality, and is first created for the current tobacco planting and tillage operation.

In this embodiment, the ridging blades 33 on both sides are disposed in opposite spiral directions on both sides of the rotary tillage ridging roller 31, so that a symmetrical layout is basically maintained, and when the rotary tillage ridging roller 31 rotates, the ridging blades 33 on both sides drive the soil to move toward the middle in a spiral manner, thereby achieving the effect of conveying the soil toward the middle and covering the material 8 with the soil, and the ridging and fertilizing are integrally completed.

In this embodiment, in order to further ensure the shape of the ridge body 6, a ridging plow assembly 7 for forming the ridge body 6 is provided at the rear of the rotary tillage ridger 3, and the ridging plow assembly 7 is provided with a T-shaped groove corresponding to the shape of the ridge body 6, and the T-shaped groove can play the role of tamping and perfecting the ridge body 6.

In this embodiment, the spraying system 5 includes the U-shaped frame 51 that matches with the appearance of the ridge body 6, has shower nozzle 52 along the width direction equipartition of the ridge body 6 on the U-shaped frame 51, and wherein, shower nozzle 52 is the atomizer, can realize the accurate operation of spraying after ridging, the fertilization, should spray and adopt the variable adjustment mode, combines the travel speed of current machines, realizes the accurate control to the medicament spraying, sprays accurately, avoids extravagant.

In this embodiment, the discharging system 4 includes a feed box 41 and spiral discharging components 42 disposed on two sides of the bottom of the feed box 41, main conveying components of the spiral discharging components 42 are spiral conveying shafts, a pedal 39 for standing and feeding by people is disposed on one side of the feed box 41, an input port of the spiral discharging components 42 is communicated with the feed box 41, a material guiding pipe 43 is mounted at an output port, the material guiding pipe 43 faces to the front of the middle part of the rotary tillage ridging roller 31, and speed of spiral conveying can be adjusted by combining with a running speed variable of a current machine tool, so that precise control of mu application amount is realized.

In this embodiment, the discharging system 4 further includes a baffle plate 44 disposed between the material guiding pipes 43 on two sides, and the output port of the material guiding pipe 43 is disposed towards the baffle plate 44 so that the material 8 is blocked by the baffle plate 44 and falls vertically, so that the material 8 is deeply applied by arranging the baffle plate 44 in the middle through guiding from two sides, ensuring that the material 8 is always in a certain ridge top depth and line fertilization state in the operation process, ensuring the application accuracy of the material 8, and avoiding waste.

In this embodiment, a stirring shaft 45 is further installed in the material box 41, two sides of the stirring shaft 45 are provided with a plurality of stirring blades 46, the stirring blades 46 are used for conveying materials in a spiral manner, the stirring blades 46 are used for driving the materials 8 to move towards the input ports of the spiral discharging assemblies 42 on the two sides in a rotating manner, and the spiral discharging assemblies 42 and the stirring blades 46 are arranged in two groups, so that bidirectional flow of the materials 8 is ensured. Compared with the single-group spiral discharging assembly 42 and the stirring blades 46, the one-way flow of the material 8 can be prevented from being easy to harden and be blocked, the requirements on conveying torque and power are further reduced, the damage of intermediate transmission parts is avoided, and the service life is prolonged. Thereby mixing a plurality of materials 8 for fertilization and preventing the materials 8 from sinking and hardening.

In this embodiment, two stirring blades 46 are disposed on either side of the stirring shaft 45, the stirring blades 46 are located at two sides of the input port of the spiral discharging assembly 42 and fixedly connected with a material tray 47, a material passing hole 48 is disposed on the material tray 47, an anti-caking plate 49 is connected in the middle of the material tray 47, the anti-caking plate 49 is disposed at the edge of the material tray 47, when the material 8 is hardened at the input port of the spiral discharging assembly 42, the anti-caking plate 49 can play a role of scraping the material 8 and damaging the hardening, that is, the stirring shaft 45 of the structure ensures that the material 8 is uniformly mixed and not agglomerated in the running process of the machine, and meanwhile, the material 8 generated after the material 8 is extruded and compacted at the material outlet due to continuous feeding of the stirring blades 46 can be prevented from caking, and the situation such as jamming or burning out of the motor of the discharging system 4 caused by compaction of the material 8 is prevented.

In this embodiment, the rotary tillage ridger 3 is provided with an intermediate transmission system 34, a first half-shaft assembly 35, a second half-shaft assembly 36, a first side transmission system 37 and a second side transmission system 38, the power input end of the intermediate transmission system 34 is transmitted to the tractor 2, the power output ends of the two sides are transmitted to the first half-shaft assembly 35 and the second half-shaft assembly 36, the first half-shaft assembly 35 is transmitted to the rotary tillage ridging roller 31 through the first side transmission system 37, the second half-shaft assembly 36 is transmitted to the discharging system 4 through the second side transmission system 38, the second side transmission system 38 comprises a first sprocket 381, a chain 382, a bridge shaft 383, a second sprocket 384, a third sprocket 385 and a fourth sprocket 386, the first sprocket 381 is mounted on the second half-shaft assembly 36 and is transmitted to the second sprocket 384 through the chain 382, the second sprocket 384 and the third sprocket 385 are coaxially and fixedly connected to the stirring shaft 45 through the chain 382, and the transmission efficiency and the integration rate are high, the failure rate is low, and the structure is compact. Specifically, the first side transmission system 37 and the second side transmission system 38 are driven by sprocket chains, so that higher rotation torque transmission of the discharging system 4 and the rotary tillage ridging roller 31 is ensured, the service life is long, and the problem that belt transmission is easy to slip is avoided. The power input to the screw discharge assembly 42 may be from either the first axle assembly 35 or the second axle assembly 36, and will not be described again.

The working principle of the agricultural combined operation machine is as follows:

the tractor 2 transmits power to an intermediate transmission system 34 through a rear power output shaft 21 and a power transmission shaft 22; the intermediate transmission system 34 transmits power through the first half shaft assembly 35 and the second half shaft assembly 36, the first half shaft assembly 35 drives the rotary tillage blades 32 and the ridging blades 33 on the rotary tillage ridging roller 31 through the first side transmission system 37 to perform rotary tillage and ridging operation, and simultaneously, the ridging body 6 is further tidied and shaped under the action of the ridging plow assembly 7; the second half shaft assembly 36 drives a stirring shaft 45 in the feed box 41 to operate through a second side transmission system 38, so that materials 8 are continuously conveyed from each part of the feed box 41 to the inlets of each discharge system 4, meanwhile, under the action of the control system 1, the discharge system 4 continuously changes the discharge capacity of the materials 8 in real time according to the moving speed of a machine tool, the materials 8 are accurately applied, meanwhile, the materials 8 are intensively conveyed to the center of the machine tool after being acted by a material guide pipe 43 through a material baffle 44, and meanwhile, under the action of the rotary tillage blades 32 and the ridging blades 33, the materials 8 are basically positioned at a certain depth of a ridge body 6; on the other hand, in the advancing process of the machine tool, the spraying system 5 continuously performs spraying operation under the action of the control system 1 according to the current state, sprays the medicament on the surface of the ridge body 6, and simultaneously ensures that the spraying quantity is kept consistent with the current setting data; meanwhile, in the operation process of the machine tool, corresponding data exchange is continuously carried out with the background control part through various sensing data, and information such as the operation state of the current machine tool (such as parameters of the use amount of materials 8, the spraying amount of medicaments, the number of operation acres, the operation place, the current running speed, machine tool fault signals, machine tool models, machine tool users and the like) is transmitted in real time, so that accurate operation is realized.

While the application has been described with reference to preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the application. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present application shall fall within the scope of the technical solution of the present application.

Claims

1. The utility model provides an agricultural combined operation machinery, its characterized in that, including control system (1) and with tractor (2), rotary tillage ridger (3), discharge system (4) and sprinkler system (5) that control system (1) is connected, rotary tillage ridger (3) with tractor (2) transmission is connected, discharge system (4) and sprinkler system (5) install on rotary tillage ridger (3), rotary tillage ridger (3) include rotary tillage ridger (31), the discharge gate of discharge system (4) is located rotary tillage ridger (31) the place ahead at middle part, rotary tillage ridger (31) are last both ends install rotary tillage blade (32) that are used for rotary tillage soil and are used for carrying the both ends soil to the centre in order to wrap up from rotary tillage ridger (31) rear of material (8), sprinkler system (5) set up.

2. The agricultural combined machine according to claim 1, wherein the ridging blades (33) on both sides are disposed in opposite spiral directions on both sides of the rotary tillage ridging roller (31), and when the rotary tillage ridging roller (31) rotates, the ridging blades (33) on both sides drive soil to move to the middle portion in a spiral manner.

3. The agricultural combined machine according to claim 1, characterized in that a ridging plow assembly (7) for forming a ridge body (6) is provided at the rear of the rotary tillage ridger (3).

4. An agricultural combined working machine according to claim 3, characterized in that the spraying system (5) comprises a U-shaped frame (51) matched with the shape of the ridge body (6), and spray heads (52) are uniformly distributed on the U-shaped frame (51) along the width direction of the ridge body (6).

5. The agricultural combined working machine according to claim 1, wherein the discharging system (4) comprises a feed box (41) and spiral discharging assemblies (42) arranged on two sides of the bottom of the feed box (41), an input port of each spiral discharging assembly (42) is communicated with the feed box (41), a material guide pipe (43) is arranged at an output port, and the material guide pipe (43) faces to the front of the middle of the rotary tillage ridging roller (31).

6. The agricultural combine of claim 5, wherein the discharge system (4) further comprises a dam (44) disposed between the guide pipes (43) on both sides, the output of the guide pipe (43) being disposed toward the dam (44) so that the material (8) falls vertically by being blocked by the dam (44).

7. The agricultural combined machine of claim 5, wherein a stirring shaft (45) is further installed in the feed box (41), a plurality of stirring blades (46) are installed on two sides of the stirring shaft (45), and the stirring blades (46) rotationally drive the material (8) to move towards an input port of the spiral discharging assembly (42).

8. The agricultural combined machine according to claim 7, wherein two stirring blades (46) are arranged on either side of the stirring shaft (45), a material tray (47) is fixedly connected to both sides of the input port of the spiral discharging assembly (42) by the stirring blades (46), a material passing hole (48) is formed in the material tray (47), an anti-caking plate (49) is connected to the middle of the material tray (47), and the anti-caking plate (49) is arranged at the edge of the material tray (47).

9. The agricultural combined working machine according to any one of claims 1 to 8, wherein an intermediate transmission system (34), a first half shaft assembly (35), a second half shaft assembly (36), a first side transmission system (37) and a second side transmission system (38) are installed on the rotary tillage ridger (3), a power input end of the intermediate transmission system (34) is in transmission with the tractor (2), power output ends of two sides are in transmission with the first half shaft assembly (35) and the second half shaft assembly (36), the first half shaft assembly (35) is in transmission with the rotary tillage ridging roller (31) through the first side transmission system (37), and the second half shaft assembly (36) is in transmission with the discharging system (4) through the second side transmission system (38).

10. An agricultural combine as claimed in claim 9, wherein the first side drive system (37) and the second side drive system (38) are both sprocket and chain driven.