CN211745152U

CN211745152U - Rotary cultivator based on big data

Info

Publication number: CN211745152U
Application number: CN202020105554.9U
Authority: CN
Inventors: 陆红娟; 孙传东; 马常霞; 康志亮; 涂智
Original assignee: Lianyungang Xing'an Machinery Manufacturing Co ltd
Current assignee: Lianyungang Xing'an Machinery Manufacturing Co ltd
Priority date: 2020-01-17
Filing date: 2020-01-17
Publication date: 2020-10-27
Anticipated expiration: 2030-01-17

Abstract

The utility model discloses a rotary cultivator based on big data, which comprises an aircraft bonnet, the bumping post has all been welded to the both sides outer wall position of aircraft bonnet, and the upper surface one side position fixed mounting of aircraft bonnet has the rack, the welding of the rear surface intermediate position of aircraft bonnet has the spliced pole, the vertical installation of spliced pole, equal fixedly connected with diagonal brace between the both sides outer wall position of spliced pole and the rear surface position of aircraft bonnet, and the both sides wall intermediate position of aircraft bonnet all welds the rod cover, there is the horizontal pole through the perpendicular fixed mounting of rod cover between the both sides wall position of aircraft bonnet, and the external fixed surface of horizontal pole has cup jointed seven groups of broach covers, the horizontal pole passes through four chisel shape blades of the perpendicular fixed mounting of broach cover and three arc blades of group. The utility model discloses in, the rotary cultivator is equipped with combination formula chisel sword structure, and reinforcing shock resistance anti-cracking performance just possesses the cutting function in order to make things convenient for the seeding operation, simultaneously, can clear up the soil of impressing because of the hack in the built-in, facilitates for maintaining.

Description

Rotary cultivator based on big data

Technical Field

The utility model relates to a rotary cultivator field especially relates to a rotary cultivator based on big data.

Background

The rotary cultivator is a driving type soil cultivation machine with rotary cutter teeth as working parts, has the characteristics of finely crushing soil, uniformly mixing soil and fertilizer and leveling the ground during working, and is important cultivation equipment in dry land sowing and paddy field planting agricultural production.

Traditional rotary cultivator is when using, and the anti cracking performance that shocks resistance of chisel sword structure is not good and do not possess cutting function, brings the trouble for the seeding operation, simultaneously, and it is inconvenient to the soil clearance that the built-in was impressed because of the hack, leads to the maintenance of rotary cultivator inconvenient, has influenced the use of rotary cultivator.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a rotary cultivator based on big data.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a rotary cultivator based on big data comprises a machine cover, the outer walls of the two sides of the machine cover are welded with a retaining column, a cabinet is fixedly arranged at one side of the upper surface of the hood, a connecting column is welded at the middle position of the rear surface of the hood and is vertically arranged, and the upper end of the connecting column is welded with a mounting sleeve, inclined support rods are fixedly connected between the outer walls of the two sides of the connecting column and the rear surface of the hood, and the middle positions of the two side walls of the hood are respectively welded with a rod sleeve, a cross rod is vertically and fixedly arranged between the two side walls of the hood through the rod sleeve, seven groups of knife sleeves are fixedly sleeved on the outer surface of the cross rod, four groups of chisel blades and three groups of arc blades are vertically and fixedly arranged on the cross rod through the knife sleeves, and the bottom of the outer surface of the chisel blade is fixedly provided with a welding plate, and the longitudinal section of the welding plate is V-shaped.

Preferably, the front wall and the bottom of the hood are both hollow structures, the hood is of a dustpan structure, the two groups of retaining columns are horizontally distributed at the positions of the two sides of the cross rod, and a through cavity is formed between the upper surface and the lower surface of each retaining column.

Preferably, a hollow block is vertically welded between one side wall of the cabinet and the adjacent retaining column, and an identification module is arranged inside the cabinet.

Preferably, the two groups of inclined supporting rods are symmetrically distributed by taking the longitudinal axis of the connecting column as a center, and the included angle between each inclined supporting rod and the hood is forty-five degrees.

Preferably, seven groups of knife sets are equidistantly and horizontally distributed, and three groups of arc-shaped blades are respectively and alternately distributed in the middle positions of two adjacent groups of chisel-shaped blades.

Preferably, the cavity is led to the concave type has been seted up to the top rear side position of aircraft bonnet, and the rack setting leads the place ahead in cavity at the concave type, there are riser and two sets of limiting plate in the inner wall rear side position and the both sides inner wall position of aircraft bonnet slidable mounting respectively, the limiting plate vertical welding is in the front surface position of riser, and riser and two sets of the concave structure is made up into to the limiting plate, riser and two sets of the cavity is led all through the concave type to the limiting plate and the perpendicular through connection in top of aircraft bonnet.

Preferably, the card chamber has been seted up to the bottom of limiting plate, and the limiting plate agrees with mutually through the top of card chamber and horizontal pole, the upper surface intermediate position welding of riser has the diaphragm, and the lower surface of diaphragm and the upper surface of aircraft bonnet contact, equal movable mounting has the bolt between the upper surface of the upper surface edge position all around of diaphragm and aircraft bonnet.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, the chisel-shaped blade fixed by the knife sleeve and the arc-shaped blade are matched to form a combined chisel structure, the chisel-shaped blade reinforced by the welding plate realizes soil breaking, the anti-impact and anti-cracking performance is enhanced under the protection effect of the welding plate on the knife edge, and the arc-shaped blade ensures that the chisel structure has a cutting function, thereby facilitating the seeding operation;

2. in the utility model, the concave guide cavity is arranged to provide installation guide for the scraper blade structure consisting of the vertical plate and the limiting plate, the clamping cavity is matched with the bearing body, the scraper blade structure is positioned in the hood, and the scraper blade structure can be flexibly taken out by applying force to the transverse plate through disassembling the bolt, so that the soil pressed in the hood due to soil crumbling can be conveniently cleaned, and the maintenance is convenient;

to sum up, the rotary cultivator is equipped with combination formula chisel sword structure, and reinforcing shock resistance anti-cracking performance just possesses the cutting function in order to make things convenient for the seeding operation, simultaneously, can clear up the soil that the built-in was impressed because of the hack, facilitates for maintaining.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a big data based rotary cultivator provided by the present invention;

fig. 2 is a schematic structural diagram of a second embodiment of a big data based rotary cultivator provided by the present invention;

fig. 3 is a top view of a second embodiment of the big data based rotary tiller of the present invention.

In the figure: 1 aircraft bonnet, 2 bumping post, 3 rack, 4 cavity pieces, 5 spliced poles, 6 installation cover, 7 diagonal brace, 8 pole covers, 9 horizontal poles, 10 sword cover, 11 chisel shape blade, 12 welding plate, 13 arc blade, 14 concave type guide cavities, 15 riser, 16 limiting plates, 17 card chamber, 18 diaphragm, 19 bolts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1, a rotary cultivator based on big data comprises a hood 1, two side outer walls of the hood 1 are welded with a bumping post 2, one side of the upper surface of the hood 1 is fixedly provided with a cabinet 3, the middle position of the rear surface of the hood 1 is welded with a connecting post 5, the connecting post 5 is vertically installed, the upper end of the connecting post 5 is welded with an installation sleeve 6, inclined support rods 7 are fixedly connected between the two side outer walls of the connecting post 5 and the rear surface of the hood 1, rod sleeves 8 are welded between the middle positions of two side walls of the hood 1, a cross rod 9 is vertically and fixedly installed between the two side walls of the hood 1 through the rod sleeves 8, seven groups of cutter sleeves 10 are fixedly sleeved on the outer surface of the cross rod 9, four groups of chisel-shaped blades 11 and three groups of arc-shaped blades 13 are vertically and fixedly installed on the cross rod 9 through the cutter sleeves 10, and, and the longitudinal sectional shape of the welding plate 12 is V-shaped.

The antetheca and the bottom of aircraft bonnet 1 are hollow structure, and aircraft bonnet 1 is the dustpan structure, 2 horizontal distribution of two sets of bumping post are in the both sides position of horizontal pole 9, and seted up logical chamber between the upper and lower surface position of bumping post 2, it has cavity 4 to weld perpendicularly between a lateral wall of rack 3 and the adjacent bumping post 2, and the inside of rack 3 is equipped with identification module, two sets of diagonal brace 7 use the longitudinal axis of spliced pole 5 as central symmetric distribution, and the angle of contained angle is forty-five degrees between diagonal brace 7 and the aircraft bonnet 1, seven groups of broach shell 10 equidistance horizontal distribution, three sets of arc blade 13 stagger distribution respectively in the intermediate position of adjacent two sets of chisel shape blades 11.

Example two

Referring to fig. 2-3, a rotary cultivator based on big data comprises a hood 1, two side outer walls of the hood 1 are welded with a bumping post 2, one side of the upper surface of the hood 1 is fixedly provided with a cabinet 3, the middle of the rear surface of the hood 1 is welded with a connecting post 5, the connecting post 5 is vertically installed, the upper end of the connecting post 5 is welded with an installation sleeve 6, inclined support rods 7 are fixedly connected between the two side outer walls of the connecting post 5 and the rear surface of the hood 1, rod sleeves 8 are welded at the middle positions of two side walls of the hood 1, a cross rod 9 is vertically and fixedly installed between the two side walls of the hood 1 through the rod sleeves 8, seven groups of cutter sleeves 10 are fixedly sleeved on the outer surface of the cross rod 9, four groups of chisel blades 11 and three groups of arc blades 13 are vertically and fixedly installed on the cross rod 9 through the cutter sleeves 10, and a welding plate 12 is, and the longitudinal sectional shape of the welding plate 12 is V-shaped.

The front wall and the bottom of the hood 1 are both hollow structures, the hood 1 is of a dustpan structure, two groups of retaining columns 2 are horizontally distributed at two side positions of a cross rod 9, a through cavity is formed between the upper surface position and the lower surface position of each retaining column 2, a hollow block 4 is vertically welded between one side wall of the cabinet 3 and the adjacent retaining column 2, an identification module is arranged in the cabinet 3, two groups of inclined supporting rods 7 are symmetrically distributed by taking the longitudinal axis of a connecting column 5 as a center, the included angle between each inclined supporting rod 7 and the hood 1 is forty-five degrees, seven groups of cutter sleeves 10 are equidistantly and horizontally distributed, three groups of arc-shaped blades 13 are respectively distributed at the middle positions of the two adjacent groups of chisel-shaped blades 11 in a staggered manner, a concave guide cavity 14 is formed at the rear side position of the top of the hood 1, the cabinet 3 is arranged in front of the concave guide cavity 14, and vertical plates 15 and two groups of limiting plates, the limiting plate 16 is vertically welded on the front surface of the vertical plate 15, the vertical plate 15 and the two groups of limiting plates 16 are combined into a concave structure, the vertical plate 15 and the two groups of limiting plates 16 are vertically connected with the top of the hood 1 in a penetrating way through the concave guide cavity 14, the bottom of the limiting plate 16 is provided with a clamping cavity 17, the limiting plate 16 is matched with the top of the cross rod 9 through the clamping cavity 17, the transverse plate 18 is welded at the middle position of the upper surface of the vertical plate 15, the lower surface of the transverse plate 18 is contacted with the upper surface of the hood 1, bolts 19 are movably arranged between the peripheral edge positions of the upper surface of the transverse plate 18 and the upper surface of the hood 1, the concave guide cavity 14 provides installation guide of a scraper structure consisting of the vertical plate 15 and the limiting plates 16, the clamping cavity 17 is matched with a bearing body, the scraper structure is positioned in the hood 1, the bolts 19 are detached, force is applied to the transverse plate 18, the scraper structure, and the maintenance is convenient.

The working principle is as follows: the hood 1 is used as a frame structure of a rotary cultivator, an installation space of a chiseling structure is provided, the two sides of the bumping post 2 are fixed to provide anti-collision and anti-deformation protection, the cabinet 3 is used for providing an installation space of a power distribution center and an identification circuit, the hollow block 4 is matched to realize the fixation between the hood post 2 and the blocking post and provide an installation channel of the identification circuit, so that the rotary cultivator has an identification function based on a big data technology, the types, the depths and the plant types of crops on the soil can be distinguished, the connecting post 5 and the installation sleeve 6 are combined into a main shaft structure, the triangular reinforcing body is formed by the coordination installation between the installation sleeve 6 and a tractor and matched with the inclined strut 7 to improve the stability of the installation between the rotary cultivator and the tractor, the rotary cultivator is driven by the main shaft structure to realize the chiseling operation, the cross rod 9 installed by the rod sleeve 8 is used as a bearing body to realize the installation support of the chiseling structure, through the chisel blade 11 that is consolidated by welded plate 12 and realize breaking ground, strengthen shock resistance and crack control performance under welded plate 12 protection to the edge of a knife, arc blade 13 makes the chisel structure possess cutting function, thereby make things convenient for the seeding operation, concave type guide cavity 14 provides the installation direction of the scraper blade structure that comprises riser 15 and limiting plate 16, agree with between card cavity 17 and the bearing body, realize the location of scraper blade structure in aircraft bonnet 1, through dismantling bolt 19, the application of force can be taken out in a flexible way in diaphragm 18 and the scraper blade structure is cleared up in order to make things convenient for the soil of impressing because of the hack in the built-in, it is convenient to maintain, the utility model discloses in, the rotary cultivator is equipped with combination formula chisel structure, reinforcing shock resistance and crack control performance just possess cutting function in order to make things convenient for the seeding operation, simultaneously, can clear up the soil of impressing because of the hack in.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a rotary cultivator based on big data, includes aircraft bonnet (1), its characterized in that: the aircraft bonnet is characterized in that the outer wall positions of two sides of the aircraft bonnet (1) are respectively welded with a stop column (2), the upper surface of the aircraft bonnet (1) is fixedly provided with a cabinet (3) at one side position, the middle position of the rear surface of the aircraft bonnet (1) is welded with a connecting column (5), the connecting column (5) is vertically installed, the upper end of the connecting column (5) is welded with an installation sleeve (6), inclined support rods (7) are respectively and fixedly connected between the outer wall positions of two sides of the connecting column (5) and the rear surface position of the aircraft bonnet (1), rod sleeves (8) are respectively welded at the middle positions of two side walls of the aircraft bonnet (1), a cross rod (9) is vertically and fixedly installed between the two side wall positions of the aircraft bonnet (1) through the rod sleeves (8), seven groups of cutter sleeves (10) are fixedly sleeved on the outer surface of the cross rod (9), four groups of chisel blades (11) and three, the bottom of the outer surface of the chisel-shaped blade (11) is fixedly provided with a welding plate (12), and the longitudinal section of the welding plate (12) is V-shaped.

2. The rotary cultivator based on big data according to claim 1, wherein the front wall and the bottom of the hood (1) are both hollow, the hood (1) is of a dustpan structure, two groups of the retaining columns (2) are horizontally distributed at two sides of the cross rod (9), and a through cavity is formed between the upper surface and the lower surface of the retaining column (2).

3. The rotary cultivator based on big data as claimed in claim 1, wherein a hollow block (4) is vertically welded between one side wall of the cabinet (3) and the adjacent blocking column (2), and the inside of the cabinet (3) is provided with an identification module.

4. A big data based rotary tiller according to claim 1, characterized in that two sets of said diagonal braces (7) are symmetrically distributed around the longitudinal axis of the connecting column (5), and the angle between the diagonal braces (7) and the hood (1) is forty-five degrees.

5. A rotary tiller based on big data according to claim 1, characterized in that seven groups of said cutter sleeves (10) are equally spaced and horizontally distributed, and three groups of said arc-shaped blades (13) are respectively staggered and distributed at the middle position of two adjacent groups of said chisel-shaped blades (11).

6. The rotary cultivator based on big data according to claim 1, characterized in that a concave guide cavity (14) is formed in the rear position of the top of the hood (1), the cabinet (3) is arranged in front of the concave guide cavity (14), a vertical plate (15) and two groups of limiting plates (16) are respectively and slidably mounted on the rear position of the inner wall of the hood (1) and the inner wall positions on the two sides of the inner wall of the hood (1), the limiting plates (16) are vertically welded on the front surface of the vertical plate (15), the vertical plate (15) and the two groups of limiting plates (16) are combined to form a concave structure, and the vertical plate (15) and the two groups of limiting plates (16) are vertically connected with the top of the hood (1) through the concave guide cavity (14).

7. The rotary cultivator based on big data according to claim 6, characterized in that the clamping cavity (17) is opened at the bottom of the limiting plate (16), the limiting plate (16) is fitted with the top of the cross rod (9) through the clamping cavity (17), the transverse plate (18) is welded at the middle position of the upper surface of the vertical plate (15), the lower surface of the transverse plate (18) is in contact with the upper surface of the hood (1), and bolts (19) are movably installed between the peripheral edge positions of the upper surface of the transverse plate (18) and the upper surface of the hood (1).