阅读说明：本技术 一种智能牧草切割设备 (Intelligence forage grass cutting equipment ) 是由 罗苑 于 2020-10-29 设计创作，主要内容包括：为解决上述技术问题,一种智能牧草切割设备,包括牧草进给装置、草籽祛除处理装置、牧草切割装置,通过牧草进给装置对需要处理的牧草进行推进并能适应不同适量的牧草,草籽祛除处理装置去掉牧草上的草籽并对其进行收集集中处理,牧草切割装置对祛除草籽后的牧草进行切割等功能,其特征在于：牧草进给装置安装固定在牧草切割装置上,草籽祛除处理装置安装固定在牧草切割装置上。(For solving above-mentioned technical problem, an intelligence forage grass cutting equipment, dispel processing apparatus, forage grass cutting device including forage grass feed arrangement, grass seed, impel the forage grass that needs were handled through forage grass feed arrangement and can adapt to different right amount forage grass, the grass seed dispels the grass seed that processing apparatus removed on the forage grass and collects centralized processing to it, function such as the forage grass cutting device cuts the forage grass after dispelling the grass seed, its characterized in that: the forage grass feeding device is fixedly arranged on the forage grass cutting device, and the grass seed removing device is fixedly arranged on the forage grass cutting device.)

1. The utility model provides an intelligence forage grass cutting equipment, dispels processing apparatus (2), forage grass cutting device (3) including forage grass feeding device (1), grass seed, its characterized in that: the pasture feeding device (1) is fixed on the pasture cutting device (3), and the grass seed removing device (2) is fixed on the pasture cutting device (3).

2. The intelligent pasture grass cutting apparatus of claim 1 wherein: the pasture feeding device (1) comprises a matching seat (1-1), a mounting plate (1-2), a driven shaft (1-3), a driven roller (1-4), a driven crawler belt (1-5), a driving shaft (1-6), a driving roller (1-7), a transmission conversion device (1-8), an auxiliary feeding device mounting plate (1-9), a sliding groove (1-10), a sliding strip (1-11), a connecting bolt (1-12), a fixed sleeve (1-13), a spring (1-14), an auxiliary fixed shaft (1-15), an auxiliary roller (1-16) and an auxiliary crawler belt (1-17), wherein the driven shaft (1-3) is rotatably mounted on the mounting plate (1-2), and the driven roller (1-4) is fixedly mounted on the driven shaft (1-3), the driven crawler belt (1-5) is arranged on the driven rollers (1-4) and the driving rollers (1-7), the driving shaft (1-6) is rotatably arranged on the mounting plate (1-2), the driving rollers (1-7) are fixed on the driving shaft (1-6), the transmission conversion device (1-8) is fixedly arranged on the mounting plate (1-2), the transmission conversion device (1-8) is arranged on the driving shaft (1-6), the sliding groove (1-10) is arranged on the mounting plate (1-9) of the auxiliary feeding device, the sliding bar (1-11) is slidably arranged in the sliding groove (1-10), the connecting bolt (1-12) is fixedly arranged on the sliding bar (1-11), the connecting bolt (1-12) is slidably arranged in the fixing sleeve (1-13), the fixed sleeves (1-13) are fixedly arranged on the sliding grooves (1-10), the springs (1-14) are arranged inside the fixed sleeves (1-13), the auxiliary fixed shafts (1-15) are fixedly arranged on the sliding strips (1-11), the auxiliary rollers (1-16) are rotatably arranged on the auxiliary fixed shafts (1-15), and the auxiliary tracks (1-17) are arranged on the auxiliary rollers (1-16).

3. The intelligent pasture grass cutting apparatus of claim 1 wherein: the grass seed removing device (2) comprises a connecting mounting plate (2-1), a seed removing cylinder (2-2), an inlet nozzle (2-3), a rotating shaft II (2-4), a receiving bevel gear (2-5), a transmission gear (2-6), a connecting column (2-7), a seed removing column (2-8), a transmission gear II (2-9), a rotating gear ring (2-10), a connecting plate II (2-11), a seed removing column II (2-12), an auxiliary rotating column (2-13), a transmission belt wheel (2-14), a transmission belt (2-15), a mounting column (2-16), a rotating shaft III (2-17), a receiving belt wheel II (2-18), an output bevel gear (2-19), a grinding cylinder (2-20), a receiving bevel gear ring (2-21), A fixed shaft (2-22), a transmission gear III (2-23), a receiving and transmitting gear ring (2-24), a connecting column (2-25), a sliding square plate (2-26), a fixed connecting column (2-27), a spring II (2-28), a vibration control disc (2-29), a matching rotating ball (2-30), a rotating grinding control disc (2-31), a fixed grinding disc (2-32) and a vibration control bevel block (2-33), a seed beating cylinder (2-2) is fixedly arranged on a connecting and mounting plate (2-1), an inlet nozzle (2-3) is arranged on the seed beating cylinder (2-2), a rotating shaft II (2-4) is rotatably arranged on the seed beating cylinder (2-2), and a receiving bevel gear (2-5) is fixedly arranged on the rotating shaft II (2-4), the transmission gear (2-6) is fixedly arranged on the second rotating shaft (2-4), the connecting column (2-7) is fixedly arranged on the second rotating shaft (2-4), the seed beating column (2-8) is fixedly arranged on the connecting column (2-7), the transmission gear (2-9) is rotatably arranged in the seed beating barrel (2-2), the transmission gear (2-9) is respectively meshed with the transmission gear (2-6) and the rotating toothed ring (2-10), the rotating toothed ring (2-10) is rotatably arranged in the seed beating barrel (2-2), the connecting plate (2-11) is fixedly arranged on the rotating toothed ring (2-10), the seed beating column (2-12) is fixedly arranged on the connecting plate (2-11) and the auxiliary rotating column (2-13), the auxiliary rotating column (2-13) is rotatably arranged on the second rotating shaft (2-4), a second rotating shaft (2-4) is arranged on a transmission conversion device (1-8), a transmission belt wheel (2-14) is arranged and fixed on the second rotating shaft (2-4), a transmission belt (2-15) is arranged on the transmission belt wheel (2-14) and a second receiving belt wheel (2-18), an installation column (2-16) is arranged and fixed on a seed beating barrel (2-2), a third rotating shaft (2-17) is rotationally arranged on the installation column (2-16), the second receiving belt wheel (2-18) is arranged and fixed on the third rotating shaft (2-17), an output bevel gear (2-19) is arranged and fixed on the third rotating shaft (2-17), a grinding barrel (2-20) is arranged and fixed on the seed beating barrel (2-2), the output bevel gear (2-19) is meshed with a receiving bevel gear ring (2-21), a receiving bevel gear ring (2-21) is rotatably arranged on a grinding cylinder (2-20), a fixed shaft (2-22) is fixedly arranged on the grinding cylinder (2-20), a transmission gear three (2-23) is rotatably arranged on the fixed shaft (2-22), the transmission gear three (2-23) is respectively meshed with the receiving bevel gear ring (2-21) and a receiving and transmitting gear ring (2-24), the receiving and transmitting gear ring (2-24) is rotatably arranged in the grinding cylinder (2-20), a connecting column (2-25) is fixedly arranged on the receiving and transmitting gear ring (2-24), a sliding square plate (2-26) is fixedly arranged on the connecting column (2-25), a fixed connecting column (2-27) is slidably arranged on the sliding square plate (2-26), the fixed connecting column (2-27) is fixedly arranged on a rotating grinding control disc (2-31), the second spring (2-28) is installed inside the fixed connecting column (2-27), the vibration control disc (2-29) is installed and fixed on the fixed connecting column (2-27), the rotation ball (2-30) is matched and installed on the vibration control disc (2-29) in a rotating mode, the fixed grinding disc (2-32) is installed and fixed inside the grinding cylinder (2-20), and the vibration control inclined plane block (2-33) is installed and fixed inside the grinding cylinder (2-20).

4. The intelligent pasture grass cutting apparatus of claim 1 wherein: the pasture cutting device (3) comprises a cutting cylinder (3-1), a pasture inlet (3-2), a pasture storage table (3-3), a cutting matching strip-shaped hole (3-4), a rotating cavity (3-5), a cutting input shaft (3-6), a bevel gear (3-7), a connecting plate four (3-8), a cutting knife mounting plate (3-9), a cutting knife (3-10), a matching groove (3-11), a matching seat (1-1), a mounting plate (1-2) and a connecting mounting plate (2-1) which are fixedly arranged on the cutting cylinder (3-1), the pasture inlet (3-2) is arranged on the cutting cylinder (3-1), the pasture storage table (3-3) is arranged on the cutting cylinder (3-1), the cutting matching strip-shaped hole (3-4) is arranged on the cutting cylinder (3-1), the rotary cavity (3-5) is arranged on the cutting cylinder (3-1), the cutting input shaft (3-6) is rotatably arranged on the cutting cylinder (3-1), the bevel gear (3-7) is fixedly arranged on the cutting input shaft (3-6), the bevel gear (3-7) is meshed with the receiving bevel gear (2-5), the connecting plate four (3-8) is fixedly arranged on the cutting input shaft (3-6), the cutting knife mounting plate (3-9) is fixedly arranged on the connecting plate four (3-8), the cutting knife (3-10) is fixedly arranged on the cutting knife mounting plate (3-9), and the matching groove (3-11) is arranged on the cutting cylinder (3-1).

5. The intelligent pasture grass cutting apparatus of claim 2 wherein: the transmission conversion device (1-8) of the pasture feeding device (1) is a transmission device which is published in the market and is provided with two auxiliary fixed shafts (1-15) and two auxiliary rollers (1-16).

6. The intelligent pasture grass cutting apparatus of claim 4 wherein: the cutting input shaft (3-6) of the pasture cutting device (3) is provided with a matched motor, and the number of the cutting knives (3-10) is three.

Technical Field

The invention relates to pasture cutting equipment, in particular to intelligent pasture cutting equipment.

Background

Livestock raising is also a major development industry in China, people in some areas of China can only develop by means of livestock raising, and in order to store and process enough pasture in a fixed time, the intelligent pasture cutting equipment is invented.

Disclosure of Invention

The invention relates to intelligent forage grass cutting equipment, in particular to the intelligent forage grass cutting equipment.

For solving above-mentioned technical problem, an intelligence forage grass cutting equipment, dispel processing apparatus, forage grass cutting device including forage grass feed arrangement, grass seed, impel the forage grass that needs were handled through forage grass feed arrangement and can adapt to different right amount forage grass, the grass seed dispels the grass seed that processing apparatus removed on the forage grass and collects centralized processing to it, function such as the forage grass cutting device cuts the forage grass after dispelling the grass seed, its characterized in that: the forage grass feeding device is fixedly arranged on the forage grass cutting device, and the grass seed removing device is fixedly arranged on the forage grass cutting device.

As a further optimization of the technical scheme, the pasture feeding device of the intelligent pasture cutting equipment comprises a matching seat, a mounting plate, a driven shaft, a driven roller, a driven crawler belt, a driving shaft, a driving roller, a transmission conversion device, an auxiliary feeding device mounting plate, a sliding groove, a sliding strip, a connecting bolt, a fixed sleeve, a spring, an auxiliary fixed shaft, an auxiliary roller and an auxiliary crawler belt, wherein the driven shaft is rotatably mounted on the mounting plate, the driven roller is fixedly mounted on the driven shaft, the driven crawler belt is mounted on the driven roller and the driving roller, the driving shaft is rotatably mounted on the mounting plate, the driving roller is fixedly mounted on the driving shaft, the transmission conversion device is fixedly mounted on the mounting plate, the transmission conversion device is mounted on the driving shaft, the sliding groove is arranged on the auxiliary feeding device mounting plate, the sliding strip is slidably mounted inside the, the connecting bolt is slidably mounted inside the fixed sleeve, the fixed sleeve is fixedly mounted on the sliding groove, the spring is mounted inside the fixed sleeve, the auxiliary fixed shaft is fixedly mounted on the sliding strip, the auxiliary roller is rotatably mounted on the auxiliary fixed shaft, and the auxiliary crawler is mounted on the auxiliary roller.

As a further optimization of the technical scheme, the grass seed removing device of the intelligent grass cutting equipment comprises a connecting mounting plate, a seed beating cylinder, an inlet nozzle, a second rotating shaft, a receiving bevel gear, a transmission gear, a connecting column, a seed beating column, a second transmission gear, a rotating toothed ring, a second connecting plate, a second seed beating column, an auxiliary rotating column, a transmission belt wheel, a transmission belt, a mounting column, a third rotating shaft, a second receiving belt wheel, an output bevel gear, a grinding cylinder, a receiving bevel gear ring, a fixed shaft, a third transmission gear, a receiving transmission toothed ring, a connecting column, a sliding square plate, a fixed connecting column, a second spring, a vibration control panel, a matching rotating ball, a rotating grinding control panel, a fixed grinding panel and a vibration control bevel block, wherein the seed beating cylinder is fixedly arranged on the connecting mounting plate, the inlet nozzle is arranged on the seed beating cylinder, the second rotating shaft is rotatably arranged on the seed beating cylinder, the receiving bevel gear, the transmission gear is installed and fixed on the second rotating shaft, the connecting column is installed and fixed on the second rotating shaft, the seed beating column is installed and fixed on the connecting column, the second transmission gear is installed and fixed inside the seed beating barrel, the second transmission gear is respectively meshed with the transmission gear and the rotating toothed ring, the rotating toothed ring is installed and fixed inside the seed beating barrel, the second connecting plate is installed and fixed on the rotating toothed ring, the second seed beating column is installed and fixed on the second connecting plate and the auxiliary rotating column, the auxiliary rotating column is installed and fixed on the second rotating shaft, the second rotating shaft is installed on the transmission conversion device, the transmission belt wheel is installed and fixed on the second rotating shaft, the transmission belt is installed and fixed on the transmission belt wheel and the second receiving belt wheel, the installing column is installed and fixed on the seed beating barrel, the third rotating shaft is installed and fixed on the installing column, the second, output bevel gear and receipt bevel gear ring meshing, it installs on the grinding vessel to receive bevel gear ring rotation, the fixed axle installation is fixed on the grinding vessel, transmission gear three rotates and installs on the fixed axle, transmission gear three meshes with receipt bevel gear ring and receipt transmission ring respectively, it installs inside the grinding vessel to receive transmission ring gear rotation, the spliced pole installation is fixed on receiving transmission ring gear, the installation of slip square plate is fixed on the spliced pole, fixed connection post slidable mounting is on slip square plate, fixed connection post installation is fixed on rotating grinding accuse dish, spring two is installed inside fixed connection post, vibrations control dish installation is fixed on fixed connection post, cooperation rolling ball rotates and installs on vibrations control dish, fixed grinding dish installation is fixed inside the grinding vessel, vibrations control bevel piece installation is fixed inside the grinding vessel.

As a further optimization of the technical scheme, the pasture cutting device of the intelligent pasture cutting equipment comprises a cutting cylinder, a pasture inlet, a pasture storage table, a cutting matching strip-shaped hole, a rotating cavity and a cutting input shaft, bevel gear, the connecting plate is four, the cutting knife mounting panel, the cutting knife, the cooperation groove, the cooperation seat, mounting panel and connection mounting panel installation are fixed on a cutting section of thick bamboo, the grass inlet sets up on a cutting section of thick bamboo, it sets up on a cutting section of thick bamboo to deposit the grass platform, cutting cooperation bar hole sets up on a cutting section of thick bamboo, it sets up on a cutting section of thick bamboo to rotate the chamber, the rotation of cutting input shaft is installed on a cutting section of thick bamboo, the bevel gear installation is fixed on the cutting input shaft, bevel gear and receipt bevel gear meshing, the installation of connecting plate four is fixed on the cutting input shaft, cutting knife mounting panel installation is fixed on connecting plate four, the cutting knife installation is fixed.

As a further optimization of the technical scheme, the transmission conversion device of the pasture feeding device of the intelligent pasture cutting equipment is a transmission device which is published in the market and has two numbers of auxiliary fixed shafts and auxiliary rollers.

As a further optimization of the technical scheme, the cutting input shaft 3-6 of the pasture cutting device 3 of the intelligent pasture cutting equipment is provided with a matched motor, and the number of the cutting knives 3-10 is three.

The intelligent pasture cutting equipment has the beneficial effects that:

the invention relates to intelligent pasture cutting equipment, in particular to intelligent pasture cutting equipment which realizes the functions of pushing pasture to be treated by a pasture feeding device and adapting to different proper amounts of pasture, a pasture seed removing and treating device removes pasture seeds on the pasture and collects and intensively treats the pasture seeds, and a pasture cutting device cuts the pasture from which the pasture seeds are removed.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of the pasture feeding device of the invention.

Fig. 4 is a schematic structural view of the pasture feeding device of the invention.

Fig. 5 is a schematic structural diagram of a grass seed removing device of the invention.

Fig. 6 is a schematic structural view of a grass seed removing device of the invention.

Fig. 7 is a schematic structural view of a grass seed removing device of the invention.

Fig. 8 is a schematic structural view of a grass seed removing device of the invention.

Fig. 9 is a schematic structural view of a grass seed removing device of the invention.

Fig. 10 is a first structural schematic diagram of the pasture cutting device.

Fig. 11 is a structural schematic diagram of the pasture cutting device of the invention.

Fig. 12 is a third structural schematic diagram of the pasture cutting device.

Fig. 13 is a fourth schematic structural view of the pasture cutting device of the invention.

Fig. 14 is a schematic structural diagram five of the pasture grass cutting device.

In the figure: a pasture feeding device 1; a matching seat 1-1; mounting plates 1-2; a driven shaft 1-3; 1-4 of driven rollers; 1-5 parts of a driven crawler belt; 1-6 of a driving shaft; driving rollers 1-7; 1-8 of transmission conversion device; an auxiliary feeding device mounting plate 1-9; 1-10 of a sliding groove; 1-11 of a sliding strip; 1-12 of connecting bolts; fixing the sleeve 1-13; springs 1-14; 1-15 parts of an auxiliary fixed shaft; auxiliary rollers 1-16; auxiliary tracks 1-17; a grass seed removing and processing device 2; connecting the mounting plate 2-1; 2-2 of seed beating barrel; 2-3 of an inlet nozzle; 2-4 of a second rotating shaft; receiving bevel gears 2-5; transmission gears 2-6; connecting columns 2-7; 2-8 of seed-removing column; a second transmission gear 2-9; rotating the gear ring 2-10; 2-11 parts of a second connecting plate; 2-12 parts of seed-drilling column II; auxiliary rotating columns 2-13; 2-14 of a driving belt wheel; 2-15 parts of a transmission belt; mounting posts 2-16; rotating the shaft three 2-17; receiving belt wheels 2-18; output bevel gears 2-19; 2-20 parts of grinding cylinder; receiving bevel gear rings 2-21; 2-22 parts of a fixed shaft; a third transmission gear 2-23; receiving the transfer rings 2-24; connecting columns 2-25; 2-26 of sliding square plates; 2-27 parts of fixed connecting column; 2-28 parts of a second spring; vibration control discs 2-29; 2-30 of a matched rotating ball; rotating the grinding control disc 2-31; fixed abrasive discs 2-32; 2-33 of a vibration control slope block; a pasture cutting device 3; 3-1 of a cutting cylinder; 3-2 of a grass inlet; 3-3 of a grass storage platform; cutting the matched strip-shaped holes 3-4; 3-5 of a rotating cavity; cutting the input shaft 3-6; bevel gears 3-7; 3-8 parts of a connecting plate; 3-9 parts of a cutting knife mounting plate; 3-10 parts of a cutting knife; and matching grooves 3-11.

Detailed Description

The first embodiment is as follows:

for solving the technical problems, the intelligent pasture cutting equipment comprises a pasture feeding device 1, a pasture seed removing device 2 and a pasture cutting device 3, the pasture feeding device is used for propelling pasture needing to be treated and adapting to different proper amounts of pasture, the pasture seed removing device removes pasture seeds on the pasture and collects and concentrates the pasture seeds, and the pasture cutting device cuts the pasture after removing the pasture seeds and is characterized in that: the forage grass feeding device 1 is fixedly arranged on the forage grass cutting device 3, and the grass seed removing device 2 is fixedly arranged on the forage grass cutting device 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and the embodiment is further described, wherein the pasture feeding device 1 comprises a matching seat 1-1, a mounting plate 1-2, a driven shaft 1-3, a driven roller 1-4, a driven crawler 1-5, a driving shaft 1-6, a driving roller 1-7, a transmission conversion device 1-8, an auxiliary feeding device mounting plate 1-9, a sliding groove 1-10, a sliding strip 1-11, a connecting bolt 1-12, a fixing sleeve 1-13, a spring 1-14, an auxiliary fixing shaft 1-15, an auxiliary roller 1-16, and an auxiliary crawler 1-17, pasture is firstly put on the matching seat 1-1 of the pasture feeding device 1, the transmission conversion device 1-8 receives power and then transmits the power to the driving shaft 1-6, the driving shaft 1-6 drives the driving roller 1-7 to rotate, the driving roller 1-7 drives the driven crawler 1-5 to rotate around the driving roller 1-7 and the driven roller 1-4 to push the forage grass forwards, meanwhile, the spring 1-14 pushes the sliding strip 1-11 downwards through the connecting bolt 1-12, so that the auxiliary fixed shaft 1-15 on the sliding strip 1-11 also moves together, the auxiliary fixed shaft 1-15 enables the auxiliary crawler 1-17 on the auxiliary roller 1-16 to be tightly attached to the driven crawler 1-5 and then enables the auxiliary crawler 1-17 to rotate together, the driven shaft 1-3 is rotatably installed on the installation plate 1-2, and the driven roller 1-4 is installed and fixed on the driven shaft 1-3, the driven crawler 1-5 is arranged on the driven rollers 1-4 and the driving rollers 1-7, the driving shafts 1-6 are rotatably arranged on the mounting plates 1-2, the driving rollers 1-7 are fixed on the driving shafts 1-6, the transmission conversion devices 1-8 are fixedly arranged on the mounting plates 1-2, the transmission conversion devices 1-8 are arranged on the driving shafts 1-6, the sliding grooves 1-10 are arranged on the mounting plates 1-9 of the auxiliary feeding device, the sliding strips 1-11 are slidably arranged in the sliding grooves 1-10, the connecting bolts 1-12 are fixedly arranged on the sliding strips 1-11, the connecting bolts 1-12 are slidably arranged in the fixing sleeves 1-13, the fixing sleeves 1-13 are fixedly arranged on the sliding grooves 1-10, and the springs 1-14 are arranged in the fixing sleeves 1-13, the auxiliary fixed shafts 1-15 are fixedly arranged on the sliding strips 1-11, the auxiliary rollers 1-16 are rotatably arranged on the auxiliary fixed shafts 1-15, and the auxiliary crawler belts 1-17 are arranged on the auxiliary rollers 1-16.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the embodiment further describes the first embodiment, wherein the grass seed removing device 2 comprises a connecting mounting plate 2-1, a seed removing cylinder 2-2, an inlet nozzle 2-3, a second rotating shaft 2-4, a receiving bevel gear 2-5, a transmission gear 2-6, a connecting column 2-7, a seed removing column 2-8, a second transmission gear 2-9, a rotating gear ring 2-10, a second connecting plate 2-11, a second seed removing column 2-12, an auxiliary rotating column 2-13, a transmission belt 2-14, a transmission belt 2-15, a mounting column 2-16, a third rotating shaft 2-17, a second receiving belt 2-18, an output bevel gear 2-19, a second output bevel gear 2-19, a third output bevel gear 2-12, a second output bevel gear, 2-20 parts of grinding cylinder, 2-21 parts of receiving bevel gear ring, 2-22 parts of fixed shaft, 2-23 parts of transmission gear III, 2-24 parts of receiving and transmitting gear ring, 2-25 parts of connecting column, 2-26 parts of sliding square plate, 2-27 parts of fixed connecting column, 2-28 parts of spring II, 2-29 parts of vibration control disc, 2-30 parts of matching rotating ball, 2-31 parts of rotating grinding control disc, 2-32 parts of fixed grinding disc and 2-33 parts of vibration control bevel block, and then the pasture is pushed forwards continuously, in the pushing process, the rotating shaft II 2-4 receives kinetic energy and rotates through receiving bevel gear 2-5, the rotating shaft II 2-4 drives 1-6 parts of driving shaft to rotate through transmission conversion device 1-8, the rotating shaft II 2-4 drives transmission gear 2-6 parts of transmission gear 2-, The connecting column 2-7 and the transmission belt wheel 2-14 rotate, the connecting column 2-7 drives the seed-removing column 2-8 to rotate around, simultaneously the transmission gear 2-6 drives the rotating gear ring 2-10 to rotate through the transmission gear II 2-9, the rotating gear ring 2-10 drives the connecting plate II 2-11 to rotate, the connecting plate II 2-11 drives the seed-removing column II 2-12 to rotate, the seed-removing column II 2-12 and the seed-removing column 2-8 rotate oppositely to remove grass seeds on the grass into the seed-removing cylinder 2-2, then the grass seeds fall into the grinding cylinder 2-20, simultaneously the transmission belt wheel 2-14 drives the receiving belt wheel II 2-18 to rotate through the transmission belt 2-15, the receiving belt wheel II 2-18 drives the output bevel gear 2-19 to rotate through the rotating shaft III 2-17, the output bevel gear 2-19 drives the receiving bevel gear ring 2-21 to rotate, the receiving bevel gear ring 2-21 drives the receiving transmission gear ring 2-24 to rotate through a transmission gear three 2-23, the receiving transmission gear ring 2-24 drives the connecting column 2-25 to rotate, the connecting column 2-25 drives the sliding square plate 2-26 to rotate, the sliding square plate 2-26 drives the fixed connecting column 2-27 to rotate, the fixed connecting column 2-27 drives the vibration control disc 2-29 and the rotary grinding control disc 2-31 to rotate, the rotary grinding control disc 2-31 and the fixed grinding disc 2-32 grind grass seeds, and the grass seeds are separated from the fixed grinding disc 2-32 and added after the rotating balls 2-30 and the vibration control bevel block 2-33 are contacted and then the rotary grinding control disc 2-31 is pushed downwards without rotating for a certain angle, when the rotating ball 2-30 is matched to rotate through the vibration control inclined plane block 2-33, the spring II 2-28 can quickly push the rotating grinding control disc 2-31 back to collide with the fixed grinding disc 2-32 to generate vibration, the ground vibration is collected through the grinding cylinder 2-20, the seed beating cylinder 2-2 is fixedly arranged on the connecting mounting plate 2-1, the inlet nozzle 2-3 is arranged on the seed beating cylinder 2-2, the rotating shaft II 2-4 is rotatably arranged on the seed beating cylinder 2-2, the receiving bevel gear 2-5 is fixedly arranged on the rotating shaft II 2-4, the transmission gear 2-6 is fixedly arranged on the rotating shaft II 2-4, the connecting column 2-7 is fixedly arranged on the rotating shaft II 2-4, and the seed beating column 2-8 is fixedly arranged on the connecting column 2-7, a second transmission gear 2-9 is rotatably arranged inside the seed beating barrel 2-2, the second transmission gear 2-9 is respectively meshed with a second transmission gear 2-6 and a second rotating gear ring 2-10, the second rotating gear ring 2-10 is rotatably arranged inside the seed beating barrel 2-2, a second connecting plate 2-11 is fixedly arranged on the second rotating gear ring 2-10, a second seed beating column 2-12 is fixedly arranged on the second connecting plate 2-11 and an auxiliary rotating column 2-13, the auxiliary rotating column 2-13 is rotatably arranged on a second rotating shaft 2-4, the second rotating shaft 2-4 is arranged on a transmission conversion device 1-8, a second transmission belt wheel 2-14 is fixedly arranged on the second rotating shaft 2-4, a second transmission belt wheel 2-15 is arranged on a second transmission belt wheel 2-14 and a second receiving belt wheel 2-18, the mounting column 2-16 is fixedly arranged on the seed beating barrel 2-2, the rotating shaft three 2-17 is rotatably arranged on the mounting column 2-16, the receiving belt wheel two 2-18 is fixedly arranged on the rotating shaft three 2-17, the output bevel gear 2-19 is fixedly arranged on the rotating shaft three 2-17, the grinding barrel 2-20 is fixedly arranged on the seed beating barrel 2-2, the output bevel gear 2-19 is meshed with the receiving bevel gear ring 2-21, the receiving bevel gear ring 2-21 is rotatably arranged on the grinding barrel 2-20, the fixed shaft 2-22 is fixedly arranged on the grinding barrel 2-20, the transmission gear three 2-23 is rotatably arranged on the fixed shaft 2-22, the transmission gear three 2-23 is respectively meshed with the receiving bevel gear ring 2-21 and the receiving transmission gear ring 2-24, the receiving and transmitting gear ring 2-24 is rotatably arranged inside the grinding cylinder 2-20, the connecting column 2-25 is fixedly arranged on the receiving and transmitting gear ring 2-24, the sliding square plate 2-26 is fixedly arranged on the connecting column 2-25, the fixed connecting column 2-27 is slidably arranged on the sliding square plate 2-26, the fixed connecting column 2-27 is fixedly arranged on the rotating grinding control disc 2-31, the spring II 2-28 is arranged inside the fixed connecting column 2-27, the vibration control disc 2-29 is fixedly arranged on the fixed connecting column 2-27, the vibration control disc 2-30 is rotatably arranged on the vibration control disc 2-29 in cooperation with the rotating ball 2-30, the fixed grinding disc 2-32 is fixedly arranged inside the grinding cylinder 2-20, and the vibration control inclined plane block 2-33 is fixedly arranged inside the grinding cylinder 2-20.

The fourth concrete implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14. the second embodiment is further described, wherein the pasture cutting device 3 comprises a cutting cylinder 3-1, a pasture inlet 3-2, a pasture storage table 3-3, a cutting matching strip-shaped hole 3-4, a rotating cavity 3-5, a cutting input shaft 3-6, a bevel gear 3-7, a connecting plate four 3-8, a cutting knife mounting plate 3-9, a cutting knife 3-10 and a matching groove 3-11, the pasture after seed removal continuously moves under the action of the pasture feeding device 1, then falls on the pasture storage table 3-3 through the pasture inlet 3-2 of the cutting cylinder 3-1, then the cutting input shaft 3-6 rotates under the action of a matching motor to drive the connecting plate four 3-8 to rotate, the fourth connecting plate 3-8 drives a cutting knife 3-10 to rotate through a cutting knife mounting plate 3-9 to push the forage grass in the grass storage table 3-3 upwards, then the forage grass is cut off through a cutting matching strip-shaped hole 3-4 in the cutting knife 3-10, the cut forage grass falls into a rotating cavity 3-5 and is discharged from a hole on a cutting cylinder 3-1, a cutting input shaft 3-6 drives a bevel gear 3-7 to rotate, the bevel gear 3-7 drives a receiving bevel gear 2-5 to rotate, a matching seat 1-1, a mounting plate 1-2 and a connecting mounting plate 2-1 are fixedly arranged on the cutting cylinder 3-1, a grass inlet 3-2 is arranged on the cutting cylinder 3-1, the grass storage table 3-3 is arranged on the cutting cylinder 3-1, and a cutting matching strip-shaped hole 3-4 is arranged on the cutting cylinder 3-1, the rotary cavity 3-5 is arranged on the cutting cylinder 3-1, the cutting input shaft 3-6 is rotatably arranged on the cutting cylinder 3-1, the bevel gear 3-7 is fixedly arranged on the cutting input shaft 3-6, the bevel gear 3-7 is meshed with the receiving bevel gear 2-5, the connecting plate four 3-8 is fixedly arranged on the cutting input shaft 3-6, the cutting knife mounting plate 3-9 is fixedly arranged on the connecting plate four 3-8, the cutting knife 3-10 is fixedly arranged on the cutting knife mounting plate 3-9, and the matching groove 3-11 is arranged on the cutting cylinder 3-1.

The fifth concrete implementation mode:

the second embodiment will be further explained by referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, wherein the transmission transformation devices 1 to 8 of the pasture feeding device 1 are commercially available and are a transmission device already disclosed, and the number of the auxiliary fixed shafts 1 to 15 and the number of the auxiliary rollers 1 to 16 are two.

The sixth specific implementation mode:

the fourth embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, in which the cutting input shafts 3-6 of the pasture cutting device 3 are provided with matching motors, and the number of the cutting knives 3-10 is three.

The working principle of the invention is as follows:

an intelligent pasture grass cutting device has the working principle that before the device is used, whether the connection condition between the devices meets the requirements is checked, pasture grass is firstly placed on a matching seat 1-1 of a pasture grass feeding device 1, a transmission conversion device 1-8 receives power and then transmits the power to a driving shaft 1-6, the driving shaft 1-6 drives a driving roller 1-7 to rotate, the driving roller 1-7 drives a driven crawler 1-5 to rotate around the driving roller 1-7 and the driven roller 1-4 to push the pasture grass forwards, meanwhile, a spring 1-14 pushes a sliding strip 1-11 downwards through a connecting bolt 1-12, so that an auxiliary fixing shaft 1-15 on the sliding strip 1-11 also moves together, the auxiliary fixing shaft 1-15 enables an auxiliary crawler 1-17 on an auxiliary roller 1-16 to be tightly attached to the driven crawler 1-5, and then enables the auxiliary crawler 1-17 to be tightly attached to the driven crawler Rotating the grass, then continuously pushing the grass forwards, wherein in the pushing process, a rotating shaft II 2-4 receives kinetic energy through a receiving bevel gear 2-5 and rotates, the rotating shaft II 2-4 drives a driving shaft 1-6 to rotate through a transmission conversion device 1-8, the rotating shaft II 2-4 drives a transmission gear 2-6, a connecting column 2-7 and a transmission belt wheel 2-14 to rotate, the connecting column 2-7 drives a seed beating column 2-8 to rotate, meanwhile, the transmission gear 2-6 drives a rotating gear ring 2-10 to rotate through a transmission gear II 2-9, the rotating gear ring 2-10 drives a connecting plate II 2-11 to rotate, the connecting plate II 2-11 drives a seed beating column II 2-12 to rotate, and the seed beating column II 2-12 and the seed beating column 2-8 rotate oppositely to beat the grass seeds on the grass into the seed beating cylinder 2-2, then the mixture falls into a grinding cylinder 2-20, meanwhile, a driving belt wheel 2-14 drives a receiving belt wheel 2-18 to rotate through a driving belt 2-15, the receiving belt wheel 2-18 drives an output bevel gear 2-19 to rotate through a rotating shaft three 2-17, the output bevel gear 2-19 drives a receiving bevel gear ring 2-21 to rotate, the receiving bevel gear ring 2-21 drives a receiving transmission gear ring 2-24 to rotate through a driving gear three 2-23, the receiving transmission gear ring 2-24 drives a connecting column 2-25 to rotate, the connecting column 2-25 drives a sliding square plate 2-26 to rotate, the sliding square plate 2-26 drives a fixed connecting column 2-27 to rotate, the fixed connecting column 2-27 drives a vibration control panel 2-29 and a rotary grinding control panel 2-31 to rotate, the rotating grinding control discs 2-31 and the fixed grinding discs 2-32 grind grass seeds, meanwhile, the rotating grinding control discs 2-31 are pushed downwards and then separated from the fixed grinding discs 2-32 to add the grass seeds when the rotating balls 2-30 and the vibration control bevel blocks 2-33 are not rotated for a certain angle, when the rotating balls 2-30 rotate through the vibration control bevel blocks 2-33, the springs 2-28 quickly push the rotating grinding control discs 2-31 back to collide with the fixed grinding discs 2-32 to generate vibration, the ground vibration falls are collected through the grinding cylinders 2-20, the grass after seed removal continues to move under the action of the grass feeding device 1 and then falls on the grass storage table 3-3 through the grass inlet 3-2 of the cutting cylinder 3-1, then the cutting input shaft 3-6 rotates under the action of a matched motor to drive a connecting plate four 3-8 to rotate, the connecting plate four 3-8 drives a cutting knife 3-10 to rotate through a cutting knife mounting plate 3-9 to push up forage grass in the grass storage table 3-3, then the forage grass is cut off through a cutting matching strip-shaped hole 3-4 at the cutting knife 3-10, the cut forage grass falls into a rotating cavity 3-5 and is discharged from a hole in a cutting cylinder 3-1, the cutting input shaft 3-6 drives a bevel gear 3-7 to rotate, and the bevel gear 3-7 drives a receiving bevel gear 2-5 to rotate.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.