CN213784061U - Rotary cutting type ploughshare deep-loosening tillage machine - Google Patents

Abstract

The utility model discloses a rotary cutting type ploughshare deep loosening tillage machine, which belongs to the field of soil preparation machines and comprises a frame, wherein the upper end of the frame is fixedly connected with a second protective shell, the left end of the second protective shell is movably inserted with a gear shaft, the gear shaft movably penetrates through the second protective shell and extends to the outer side of the second protective shell, the circumferential surface of the gear shaft is fixedly connected with a second gear, the second gear is positioned in the second protective shell, the upper end of the frame is fixedly connected with a servo motor, the servo motor is positioned in the second protective shell, the output end of the servo motor is fixedly connected with a first gear, the first gear and the second gear are mutually meshed, the left end and the right end of the frame are fixedly connected with first protective shells, and the left end and the right end of the gear shaft respectively movably penetrate through the two first protective shells and respectively extend into the two first protective shells, the utility model can realize loosening deep soil, the soil on the surface layer is loosened and then mixed with the soil on the deep layer.

Description

Rotary cutting type ploughshare deep-loosening tillage machine

Technical Field

The utility model relates to a soil preparation machine field, more specifically say, relate to a rotatory cutting formula ploughshare subsoiling machine of ploughing.

Background

The combined soil preparation machine is a multifunctional soil preparation machine and comprises a frame, a traction frame, a middle cross beam, a gearbox, a transmission case, a subsoiling shovel assembly, a stubble cleaning part and a rotary tillage part, wherein the transmission case is arranged on one side of the frame, seven gears which are meshed with each other are arranged in the transmission case, the middle cross beam is arranged between a rotary tillage shaft and the stubble cleaning shaft in parallel, the subsoiling shovel assembly is arranged on the cross beam, and the rotary tillage shaft is directly driven by an output shaft of the gearbox; the output shaft at the side of the speed changing box is connected with the input shaft of the transmission box through a universal coupling, the stubble cleaning shaft is driven by the output shaft of the transmission box, and a forced land leveling device is arranged at the rack between the harrowing round piece group and the land roller.

A lot of soil preparation machines that have now can only become flexible with the earth on surface, and deep earth is unable not hard up, is unfavorable for like this planting, in order to provide better planting place, so will become flexible with deep earth.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

To the problem that exists among the prior art, the utility model aims at providing a rotary cutting formula share plough machine that closes deeply, it can realize mixing deep earth and the earth on top layer.

2. Technical scheme

In order to solve the above problem, the utility model adopts the following technical scheme:

a rotary cutting type ploughshare deep scarification tillage machine comprises a machine frame, wherein a second protective shell is fixedly connected to the upper end of the machine frame, a gear shaft is movably inserted into the left end of the second protective shell, movably penetrates through the second protective shell and extends to the outer side of the second protective shell, a second gear is fixedly connected to the circumferential surface of the gear shaft and is positioned in the second protective shell, a servo motor is fixedly connected to the upper end of the machine frame and is positioned in the second protective shell, the output end of the servo motor is fixedly connected with a first gear, the first gear and the second gear are meshed with each other, the left end and the right end of the machine frame are fixedly connected with first protective shells, the left end and the right end of the gear shaft respectively movably penetrate through the two first protective shells and respectively extend into the two first protective shells, and the end far away from the gear shaft is fixedly connected with a second belt pulley, a rotary tillage shaft is rotatably connected between the left inner wall and the right inner wall of the frame, the left end and the right end of the rotary tillage shaft movably penetrate through the frame and respectively extend into the two first protective shells, the far end of the rotary tillage shaft is fixedly connected with a first belt pulley, the two second belt pulleys and the circumferential surfaces of the two first belt pulleys are respectively connected with two belts in a transmission manner, the upper end of the frame is fixedly connected with two second mounting blocks, slots are respectively drilled at the front ends of the two second mounting blocks, second connecting blocks are respectively movably inserted in the two slots, first bolts are respectively movably inserted at the left ends of the two second mounting blocks, the two first bolts respectively movably penetrate through the two second mounting blocks and the two second connecting blocks and respectively extend to the outer sides of the two second mounting blocks, nuts are respectively connected at the right ends of the two first bolts in a threaded manner, and traction frames are fixedly connected at the front ends of the two second connecting blocks, the lower extreme activity of traction frame is pegged graft and is had three subsoiler, and the equal activity of three subsoiler runs through the traction frame and extends to the outside of traction frame, and is three the rear end of subsoiler all excavates and has a plurality of first internal thread holes, the rear end of traction frame is excavated and has three second internal thread hole, and is three second internal thread hole and a plurality of first internal thread downthehole difference threaded connection have three second bolt, two first installation pieces of lower extreme fixedly connected with of traction frame, two first installation piece one end of keeping away from mutually all installs first runner, the second runner is all installed to the left and right-hand member of frame.

As the utility model discloses a preferred scheme, it is connected with the flat native board pivot to rotate between the inner wall about the frame, and the equal activity of end runs through the frame and extends to the outside of frame about the flat native board pivot, the flat native board pivot is located the rear side position of rotary tillage axle, the circumference of flat native board pivot is fixed connection with the flat native board on the surface, the first stopper of the equal fixedly connected with of one end that the flat native board pivot was kept away from mutually.

As an optimized scheme of the utility model, the rear end fixedly connected with third stopper of frame.

As a preferred scheme of the utility model, two second stoppers of fixedly connected with on the circumferential surface of gear shaft, two the second stopper is located the left and right sides position of second protecting crust respectively.

As an optimized scheme of the utility model, the first connecting block of upper end fixedly connected with of traction frame.

As an optimal proposal of the utility model, it is three the lower part of the subsoiler is provided with a shovel block with an inclined plane.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages of:

(1) output through servo motor rotates and drives first gear, first gear rotates and drives second gear, second gear rotates and drives gear shaft and rotates, the gear shaft rotates and drives second belt pulley and rotate, second belt pulley rotates and drives the belt and rotates, the belt rotates and drives first belt pulley and rotates, first belt pulley rotates and drives the rotary tillage axle and rotate, it is not hard up the earth on surface to rotate through the rotary tillage axle, through the rotation of flat native board pivot, the flat native board, first stopper and third stopper structural design, can be with not hard up back earth flattening.

(2) A plurality of first internal thread holes are drilled in the subsoiler, the height of the subsoiler can be adjusted, a second bolt is connected with the internal thread of the first internal thread hole through a second internal thread hole, the subsoiler can be fixed, and the second connecting block can rotate at a small angle through the structural design of the second connecting block, the slots, the second mounting block, the first bolt and the nuts, so that the soil loosening effect is better.

Drawings

FIG. 1 is a schematic structural view of a rotary cutting type ploughshare deep scarification tillage machine of the present invention;

FIG. 2 is a schematic structural view of a rotary cutting type ploughshare deep scarification tillage machine of the present invention;

FIG. 3 is a schematic structural view of a rotary cutting type ploughshare deep scarification tillage machine of the present invention;

FIG. 4 is an exploded view of a rotary cutting type plowshare deep scarification tillage machine of the present invention;

fig. 5 is an enlarged schematic view of a position a in fig. 4 of the rotary cutting type plowshare deep scarification tillage machine of the present invention.

The reference numbers in the figures illustrate:

1. a frame; 2. a gear shaft; 3. a first protective shell; 4. a subsoiling shovel; 5. a first internally threaded bore; 6. a traction frame; 7. a first mounting block; 8. a first runner; 9. a first connection block; 10. a nut; 11. a second connecting block; 12. a second mounting block; 13. a second runner; 14. a first stopper; 15. a second limiting block; 16. a second protective shell; 17. a third limiting block; 18. leveling a soil plate; 19. a first bolt; 20. a second bolt; 21. a rotary tillage shaft; 22. a slot; 23. a servo motor; 24. a first gear; 25. a second gear; 26. a belt; 27. a first pulley; 28. a second pulley; 29. a second internally threaded bore; 30. a rotation shaft of the soil leveling plate.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-5, a rotary cutting type plowshare deep scarification tillage machine comprises a frame 1, a second protective shell 16 is fixedly connected to the upper end of the frame 1, a gear shaft 2 is movably inserted into the left end of the second protective shell 16, the gear shaft 2 movably penetrates through the second protective shell 16 and extends to the outer side of the second protective shell 16, a second gear 25 is fixedly connected to the circumferential surface of the gear shaft 2, the second gear 25 is positioned in the second protective shell 16, a servo motor 23 is fixedly connected to the upper end of the frame 1, the servo motor 23 is positioned in the second protective shell 16, a first gear 24 is fixedly connected to the output end of the servo motor 23, the first gear 24 and the second gear 25 are engaged with each other, the first protective shells 3 are fixedly connected to the left end and the right end of the frame 1, the left end and the right end of the gear shaft 2 respectively movably penetrate through the two first protective shells 3 and respectively extend into the two first protective shells 3, the far ends of the gear shafts 2 are fixedly connected with second belt pulleys 28, a rotary tillage shaft 21 is rotatably connected between the left inner wall and the right inner wall of the frame 1, the left end and the right end of the rotary tillage shaft 21 movably penetrate through the frame 1 and respectively extend into the two first protective shells 3, the far ends of the rotary tillage shaft 21 are fixedly connected with first belt pulleys 27, the circumferential surfaces of the two second belt pulleys 28 and the two first belt pulleys 27 are respectively connected with two belts 26 in a transmission way, the upper end of the frame 1 is fixedly connected with two second mounting blocks 12, the front ends of the two second mounting blocks 12 are respectively provided with slots 22, the two slots 22 are respectively and movably inserted with second connecting blocks 11, the left ends of the two second mounting blocks 12 are respectively and movably inserted with first bolts 19, and the two first bolts 19 respectively penetrate through the two second mounting blocks 12 and the two second connecting blocks 11 and respectively extend to the outer sides of the two second mounting blocks 12, equal threaded connection of right-hand member of two first bolts 19 has nut 10, the front end fixedly connected with traction frame 6 of two second connecting blocks 11, the lower extreme activity of traction frame 6 is pegged graft and is had three subsoiler 4, and the equal activity of three subsoiler 4 runs through traction frame 6 and extends to the outside of traction frame 6, the rear end of three subsoiler 4 has all dug a plurality of first internal thread holes 5, the rear end of traction frame 6 is dug three second internal thread hole 29, there is three second bolt 20 three second internal thread hole 29 and a plurality of first internal thread holes 5 in the threaded connection respectively, two first installation pieces 7 of lower extreme fixedly connected with of traction frame 6, first runner 8 is all installed to the one end that two first installation pieces 7 kept away from mutually, second runner 13 is all installed to the end about frame 1.

In this embodiment, the output end of the servo motor 23 is fixedly connected with the first gear 24, so that the rotation of the first gear 24 can be realized, the first gear 24 is meshed with the second gear 25, so that the first gear 24 rotates to drive the second gear 25 to rotate, the second gear 25 is fixedly connected with the gear shaft 2, so that the second gear 25 rotates to drive the gear shaft 2 to rotate, the gear shaft 2 is fixedly connected with the second belt pulley 28, so that the gear shaft 2 rotates to drive the second belt pulley 28 to rotate, the second belt pulley 28 is in transmission connection with the belt 26, so that the second belt pulley 28 rotates to drive the belt 26 to rotate, the belt 26 is in transmission connection with the first belt pulley 27, so that the belt 26 rotates to drive the first belt pulley 27 to rotate, and the first belt pulley 27 is fixedly connected with the rotary tillage shaft 21, can realize that the first belt pulley 27 rotates to drive the rotary tillage shaft 21 to rotate, is movably inserted in the slot 22 through the second connecting block 11, can realize the disassembly and the assembly of the second connecting block 11 and the second mounting block 12, can realize the fixation of the second connecting block 11 through the threaded connection of the right end of the first bolt 19 with the nut 10, can realize the height adjustment of the subsoiler 4 through digging a plurality of first internal thread holes 5 on the subsoiler 4, can realize the height adjustment of the subsoiler 4 through the threaded connection of the second bolt 20 in the second internal thread hole 29 and the first internal thread holes 5, can realize the fixation of the subsoiler 4, install the equipment on the tractor through the first connecting block 9, adjust the height of the subsoiler 4 through driving the traction frame 6 to move, adjust the height of the subsoiler 4 through moving the subsoiler 4 up and down, connect the second bolt 20 in the second internal thread holes 29 and the first internal thread holes 5 through the threaded connection of the tractor after the height adjustment of the subsoiler 4, traction frame 6 removes and drives subsoiler 4 and removes, insert subsoiler 4's lower extreme in the soil, start servo motor 23, output through servo motor 23 rotates first gear 24 and rotates, first gear 24 rotates and drives second gear 25 and rotate, second gear 25 rotates and drives gear shaft 2 and rotate, gear shaft 2 rotates and drives second belt pulley 28 and rotates, second belt pulley 28 rotates and drives belt 26 and rotate, belt 26 rotates and drives first belt pulley 27 and rotates, first belt pulley 27 rotates and drives rotary tillage axle 21 and rotate, strike off the soil of unevenness through flat native board 18.

Specifically, please refer to fig. 4 and 5, a soil leveling plate rotating shaft 30 is rotatably connected between the left inner wall and the right inner wall of the frame 1, the left end and the right end of the soil leveling plate rotating shaft 30 both movably penetrate through the frame 1 and extend to the outer side of the frame 1, the soil leveling plate rotating shaft 30 is located at the rear side of the rotary tillage shaft 21, a soil leveling plate 18 is fixedly connected to the circumferential surface of the soil leveling plate rotating shaft 30, and a first limiting block 14 is fixedly connected to one end, away from the soil leveling plate rotating shaft 30, of the soil leveling plate rotating shaft.

In this embodiment, rotate between the inner wall about through frame 1 and be connected with flat native board pivot 30, and the equal activity of the left and right ends of flat native board pivot 30 runs through frame 1 and extends to the outside of frame 1, and flat native board pivot 30 is located the rear side position of rotary tillage axle 21, and fixedly connected with flat native board 18 on the circumferential surface of flat native board pivot 30, the equal fixedly connected with first stopper 14 of one end that flat native board pivot 30 kept away from mutually.

Specifically, referring to fig. 2, a third limiting block 17 is fixedly connected to the rear end of the frame 1.

In this embodiment, the rear end fixedly connected with third stopper 17 through frame 1 can realize that flat native board 18 is spacing.

Specifically, please refer to fig. 1, two second limiting blocks 15 are fixedly connected to the circumferential surface of the gear shaft 2, and the two second limiting blocks 15 are respectively located at left and right positions of the second protective shell 16.

In this embodiment, through two second stopper 15 of fixedly connected with on the circumferential surface of gear shaft 2, two second stopper 15 are located the left and right sides position of second protecting crust 16 respectively, can realize that gear shaft 2 is spacing.

Specifically, referring to fig. 1, the upper end of the traction frame 6 is fixedly connected with a first connecting block 9.

In this embodiment, the upper end of the traction frame 6 is fixedly connected with a first connecting block 9.

Specifically, referring to fig. 3, the lower parts of the three subsoilers 4 are provided with shovel blocks with inclined planes.

In this embodiment, the lower parts of the three subsoilers 4 are provided with shovel blocks with inclined planes.

The working principle is as follows: the equipment is arranged on a tractor through a first connecting block 9, the tractor drives a traction frame 6 to move, the height of the subsoiler 4 is adjusted by moving the subsoiler 4 up and down, after the height of the subsoiler 4 is adjusted, the second bolt 20 is screwed into the second internal threaded hole 29 and the first internal threaded hole 5, the traction frame 6 moves to drive the subsoiler 4 to move, the lower end of the subsoiler 4 is inserted into the soil, the servo motor 23 is started, the output end of the servo motor 23 rotates the first gear 24 to rotate, the first gear 24 rotates to drive the second gear 25 to rotate, the second gear 25 rotates to drive the gear shaft 2 to rotate, the gear shaft 2 rotates to drive the second belt pulley 28 to rotate, the second belt pulley 28 rotates to drive the belt 26 to rotate, the belt 26 rotates to drive the first belt pulley 27 to rotate, the first belt pulley 27 rotates to drive the rotary tillage shaft 21 to rotate, and uneven soil is scraped through the soil leveling plate 18.

The above description is only the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the improvement concept of the present invention within the technical scope disclosed in the present invention.

Claims (6)

1. The utility model provides a rotary cutting formula share ploughs machine of ploughing deeply, includes frame (1), its characterized in that: the upper end fixedly connected with second protecting crust (16) of frame (1), gear shaft (2) have been pegged graft in the left end activity of second protecting crust (16), and gear shaft (2) activity runs through second protecting crust (16) and extends to the outside of second protecting crust (16), fixedly connected with second gear (25) on the circumference surface of gear shaft (2), and second gear (25) are located second protecting crust (16), the upper end fixedly connected with servo motor (23) of frame (1), and servo motor (23) are located second protecting crust (16), the first gear of output fixedly connected with (24) of servo motor (23), and intermeshing between first gear (24) and second gear (25), the equal fixedly connected with first protecting crust (3) of end about frame (1), and the end activity respectively runs through two first protecting crust (3) and extends to two first protecting crust respectively about gear shaft (2), and the end activity respectively runs through two first protecting crust (3) and extends to two first protecting crust respectively (3) In the device, one end of the gear shaft (2) far away from the gear shaft is fixedly connected with a second belt pulley (28), a rotary tillage shaft (21) is rotatably connected between the left inner wall and the right inner wall of the rack (1), the left end and the right end of the rotary tillage shaft (21) movably penetrate through the rack (1) and respectively extend into the two first protective shells (3), one end of the rotary tillage shaft (21) far away from the gear shaft is fixedly connected with a first belt pulley (27), the circumferential surfaces of the two second belt pulleys (28) and the two first belt pulleys (27) are respectively in transmission connection with two belts (26), the upper end of the rack (1) is fixedly connected with two second mounting blocks (12), slots (22) are dug at the front ends of the two second mounting blocks (12), second connecting blocks (11) are movably inserted in the two slots (22), and first bolts (19) are movably inserted at the left ends of the two second mounting blocks (12), and two first bolts (19) respectively and movably penetrate through two second mounting blocks (12) and two second connecting blocks (11) and respectively extend to the outer sides of the two second mounting blocks (12), the right ends of the two first bolts (19) are respectively and movably connected with a nut (10), the front ends of the two second connecting blocks (11) are fixedly connected with a traction frame (6), the lower end of the traction frame (6) is movably inserted with three subsoiling shovels (4), the three subsoiling shovels (4) respectively and movably penetrate through the traction frame (6) and extend to the outer side of the traction frame (6), the rear ends of the three subsoiling shovels (4) are respectively provided with a plurality of first internal threaded holes (5), the rear end of the traction frame (6) is provided with three second internal threaded holes (29), and the three second internal threaded holes (29) and the plurality of first internal threaded holes (5) are respectively and threadedly connected with three second bolts (20), two first installation pieces (7) of lower extreme fixedly connected with of traction frame (6), two first runner (8) are all installed to the one end that first installation piece (7) kept away from mutually, second runner (13) are all installed to the end about frame (1).

2. The rotary cutting ploughshare deep scarification tillage machine according to claim 1, characterized in that: rotate between the inner wall about frame (1) and be connected with flat native board pivot (30), and the equal activity of end runs through frame (1) and extends to the outside of frame (1) about flat native board pivot (30), flat native board pivot (30) are located the rear side position of rotary tillage axle (21), the circumference of flat native board pivot (30) is fixedly connected with flat native board (18) on the surface, the equal fixedly connected with first stopper (14) of one end that flat native board pivot (30) kept away from mutually.

3. A rotary cutting ploughshare subsoiling land preparation machine according to claim 2, characterized in that: the rear end of the rack (1) is fixedly connected with a third limiting block (17).

4. A rotary cutting ploughshare subsoiling land preparation machine according to claim 3, characterized in that: two second limiting blocks (15) are fixedly connected to the circumferential surface of the gear shaft (2), and the two second limiting blocks (15) are located at the left side and the right side of the second protective shell (16) respectively.

5. The rotary cutting ploughshare deep scarification tillage machine according to claim 4, characterized in that: the upper end of the traction frame (6) is fixedly connected with a first connecting block (9).

6. The rotary cutting ploughshare deep scarification tillage machine according to claim 5, characterized in that: the lower parts of the three subsoilers (4) are provided with shovel blocks with inclined planes.

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