CN220915694U

CN220915694U - Vertical rotary cultivator

Info

Publication number: CN220915694U
Application number: CN202322119053.2U
Authority: CN
Inventors: 王杰
Original assignee: Yancheng Biological Engineering Higher Vocational Technology School
Current assignee: Yancheng Biological Engineering Higher Vocational Technology School
Priority date: 2023-08-08
Filing date: 2023-08-08
Publication date: 2024-05-10
Anticipated expiration: 2033-08-08

Abstract

The utility model relates to a vertical rotary cultivator which comprises a frame, a support, a subsoiling machine, a rotary cultivator, a ditching machine, a seeder and a power land wheel, wherein the subsoiling machine, the rotary cultivator, the ditching machine, the seeder and the power land wheel are sequentially connected from front to back, the subsoiling machine and the rotary cultivator are respectively arranged in front of and under the frame, the support is connected to the upper rear of the frame, the ditching machine, the seeder and the power land wheel are sequentially connected to the support, the combined operation of subsoiling and soil preparation, rotary cultivation, ditching and seeding is realized through the arrangement of the subsoiling machine, the rotary cultivator, the ditching machine and the seeder, and the vertical rotary cultivation is realized through forward rotary cultivation blades and reverse rotary cultivation blades which are arranged at intervals, the cultivation depth can be effectively improved, the missing cultivation is reduced, and the rotary cultivation blades are not easy to be wound by grass and blocked by soil, so that the cultivation efficiency is greatly improved.

Description

Vertical rotary cultivator

Technical Field

The application relates to the technical field of agricultural machinery, in particular to a vertical rotary cultivator.

Background

The rotary cultivator is one of the important links of agricultural production, and is a cultivator matched with a tractor to complete the tillage 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. With the wide use of large and medium-sized tractors in China, a series of combined working machines of rotary tillage, sowing, fertilizing, ditching and the like matched with the large and medium-sized tractors are gradually developed, and in the prior art, horizontal rotary tillers are mostly adopted, because each blade of each horizontal rotary tiller is only operated in soil for a small part of time, the utilization rate is low, the cultivation depth is shallow, the operation areas between adjacent blades are not mutually interfered, the cultivation is easy to be leaked, and the blades are easy to be wound by grass and blocked by soil.

Disclosure of utility model

In order to solve the technical problems, the application provides a vertical rotary cultivator, which comprises a frame, a support, a subsoiling machine tool, a rotary cultivator tool, a ditching machine tool, a seeder and a power land wheel, wherein the subsoiling machine tool, the rotary cultivator tool, the ditching machine tool, the seeder and the power land wheel are sequentially connected from front to back, the subsoiling machine tool and the rotary cultivator tool are respectively arranged in front of and under the frame, the support is connected above the rear of the frame, the ditching machine tool, the seeder and the power land wheel are sequentially connected onto the support, the rotary cultivator tool comprises a power mechanism, a driving transmission gear, a driven transmission gear, a forward rotary blade and a reverse rotary blade, the forward rotary blade and the reverse rotary blade are arranged below the driving transmission gear or the driven transmission gear at intervals, an output shaft of the power mechanism is connected with the driving transmission gear, and the driving transmission gear is in meshed connection with the driven transmission gear.

Preferably, the frame comprises a side plate, a cross beam, an inclined bracket, a first square tube and a second square tube, wherein the side plate is arranged at two ends of the cross beam, the first square tube and the second square tube are respectively arranged at the front and the rear of the cross beam and are connected with the side plate, and the inclined bracket is connected above the cross beam and is used for being connected with a tractor.

Preferably, the first square tube and the second square tube are respectively connected with the cross beam through U-shaped locks for reinforcement.

Preferably, the power mechanism of the rotary tillage machine is arranged above the cross beam, and the driving transmission gear and the driven transmission gear arranged inside the cross beam drive the forward rotary tillage blade and the reverse rotary tillage blade below the cross beam to rotate for rotary tillage operation.

Preferably, each transmission gear is provided with two forward rotary blades or reverse rotary blades, the rotary blades on the same transmission gear are oppositely arranged, and the directions of the cutter heads are opposite.

Preferably, the transmission gears are arranged in 8, and correspondingly, the rotary tillage cutters are arranged in 8 pairs.

Preferably, the subsoiler is a subsoiler, and is detachably connected to the first square pipe through a U-shaped locking plate.

Preferably, the number of the subsoilers is 4, and the number of the ditching machines, the sowing devices and the power land wheels is 6.

Preferably, the support is detachably connected to the second square tube through a U-shaped locking plate, and the support comprises an angle adjusting mechanism, so that angles of the ditching machine, the seeder and the power land wheels can be adjusted to adapt to ground work of different terrains.

Advantageous effects

According to the vertical rotary cultivator, through the arrangement of the subsoiling machine, the rotary tillage machine, the ditching machine and the seeder, the combined operation of subsoiling soil preparation, rotary tillage, ditching and seeding is realized, and through the forward rotary tillage blades and the reverse rotary tillage blades which are arranged at intervals, the vertical rotary tillage is realized, the cultivation depth can be effectively increased, the missing cultivation is reduced, and the rotary tillage blades are not easy to be wound by grass and blocked by soil, so that the farming efficiency is greatly improved.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a left side view of the present utility model;

FIG. 4 is a top view of the present utility model;

Reference numerals: the rotary tillage machine comprises a frame 1, a bracket 2, a subsoiling machine tool 3, a rotary tillage machine tool 4, a ditching machine tool 5, a seeder 6, a power land wheel 7, a power mechanism 8, a driving transmission gear 9, a driven transmission gear 10, a forward rotary tillage blade 11, a reverse rotary tillage blade 12, side plates 13, a cross beam 14, an inclined bracket 15, a first square pipe 16 and a second square pipe 17.

Detailed Description

The utility model is further illustrated below with reference to examples.

As shown in fig. 1-4, a vertical rotary cultivator comprises a frame 1, a support 2, a subsoiling machine 3, a rotary cultivator 4, a ditching machine 5, a seeder 6 and a power land wheel 7, wherein the subsoiling machine 3, the rotary cultivator 4, the ditching machine 5, the seeder 6 and the power land wheel 7 are sequentially connected from front to back, the subsoiling machine 3 and the rotary cultivator 4 are respectively arranged in front of and right below the frame 1, the support 2 is connected to the upper rear of the frame 1, the ditching machine 5, the seeder 6 and the power land wheel 7 are sequentially connected to the support 2, the rotary cultivator 4 comprises a power mechanism 8, a driving transmission gear 9, a driven transmission gear 10, a forward rotary blade 11 and a reverse rotary blade 12, the forward rotary blade 11 and the reverse rotary blade 12 are arranged below the driving transmission gear 9 or the driven transmission gear 10 at intervals, an output shaft of the power mechanism 8 is connected with the driving transmission gear 9, and the driving transmission gear 9 is in meshed connection with the driven transmission gear 10.

Preferably, the frame 1 includes a side plate 13, a cross beam 14, an inclined bracket 15, a first square tube 16 and a second square tube 17, the side plate 13 is disposed at two ends of the cross beam 14, the first square tube 16 and the second square tube 17 are respectively disposed at front and rear sides of the cross beam 14 and connected with the side plate 13, and the inclined bracket 15 is connected above the cross beam 14 for connection with a tractor.

Preferably, the first square tube 16 and the second square tube 17 are respectively connected and reinforced with the cross beam 14 through a U-shaped lock.

Preferably, the power mechanism 8 of the rotary cultivator tool 4 is arranged above the cross beam 14, and the driving transmission gear 9 and the driven transmission gear 10 arranged inside the cross beam 14 drive the forward rotary blade 11 and the reverse rotary blade 12 below the cross beam 14 to rotate for rotary cultivation.

Preferably, two forward rotary blades 11 or reverse rotary blades 12 are arranged on each transmission gear, the rotary blades on the same transmission gear are oppositely arranged, and the directions of the cutter heads are opposite.

Preferably, the subsoiler 3 is a subsoiler and is detachably connected to the first square pipe 16 through a U-shaped locking plate.

Preferably, the number of the subsoilers is 4, and the number of the ditching machines 5, the sowing machines 6 and the power land wheels 7 is 6.

Preferably, the bracket 2 is detachably connected to the second square tube 17 through a U-shaped locking plate, and the bracket 2 comprises an angle adjusting mechanism, so that the angles of the ditching machine, the seeder and the power land wheels can be adjusted to adapt to the ground work of different terrains.

The vertical rotary cultivator is connected with the tractor through the inclined support, is pulled by the tractor to move forwards, subsoiling, rotary tillage, ditching and sowing are carried out on soil through the subsoiling machine, the rotary tillage machine, the ditching machine and the sowing machine, vertical rotary tillage is realized through the forward rotary tillage blades and the reverse rotary tillage blades which are arranged at intervals, the cultivation depth can be effectively improved, the missing cultivation is reduced, and the rotary tillage blade is not easy to be wound by grass and blocked by soil, so that the farming efficiency is greatly improved.

The foregoing describes one embodiment of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims

1. The utility model provides a vertical rotary cultivator, its characterized in that includes frame, support, subsoiling machine tool, rotary tillage machine tool, ditching machine tool, disseminator and power land wheel are connected gradually from the front to the back, subsoiling machine tool, rotary tillage machine tool set up respectively the place ahead of frame and under, the upper side is connected behind the frame the support, ditching machine tool, disseminator and power land wheel are connected gradually on the support, rotary tillage machine tool includes power unit, initiative drive gear, driven drive gear, forward rotary blade and reverse rotary blade interval set up in initiative drive gear or driven drive gear below, power unit's output shaft with initiative drive gear connects, initiative drive gear with driven drive gear meshing is connected.

2. The vertical rotary cultivator of claim 1, wherein: the frame includes curb plate, crossbeam, oblique support, first side pipe and second side pipe, the curb plate sets up the crossbeam both ends, first side pipe and second side pipe set up respectively the front and back of crossbeam, and with the curb plate is connected, oblique support connects the crossbeam top for be connected with the tractor.

3. The vertical rotary cultivator of claim 2, wherein: the first square tube and the second square tube are respectively connected with the cross beam through U-shaped locks for reinforcement.

4. The vertical rotary cultivator of claim 2, wherein: the power mechanism of the rotary tillage machine is arranged above the cross beam, and the driving transmission gear and the driven transmission gear arranged inside the cross beam drive the forward rotary tillage blade and the reverse rotary tillage blade below the cross beam to rotate for rotary tillage operation.

5. The vertical rotary cultivator of claim 1, wherein: each transmission gear is provided with two forward rotary blades or reverse rotary blades, the rotary blades on the same transmission gear are oppositely arranged, and the directions of the cutter heads are opposite.

6. The vertical rotary cultivator of claim 1, wherein: the transmission gears are arranged in 8, and correspondingly, the rotary tillage cutters are arranged in 8 pairs.

7. The vertical rotary cultivator of claim 2, wherein: the subsoiler is a subsoiler and is detachably connected to the first square pipe through a U-shaped locking plate.

8. The vertical rotary cultivator of claim 7, wherein: the number of the subsoilers is 4, and the number of the ditching machines, the sowing devices and the power land wheels is 6.

9. The vertical rotary cultivator of claim 2, wherein: the support is detachably connected to the second square tube through a U-shaped locking plate, and comprises an angle adjusting mechanism capable of adjusting angles of the ditching machine, the seeder and the power land wheels.