CN109315149B

CN109315149B - Intelligent agricultural weeding and field returning extruder

Info

Publication number: CN109315149B
Application number: CN201811175008.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Haian Rongke Textile Co Ltd
Current assignee: Haian Rongke Textile Co Ltd
Priority date: 2016-12-25
Filing date: 2016-12-25
Publication date: 2021-02-12
Anticipated expiration: 2036-12-25
Also published as: CN108886948A; CN108886948B; CN106576609A; CN109315149A; CN106576609B

Abstract

The invention discloses an agricultural weeding plunger type grass treatment extruder, wherein a first conveying disc rotating corresponding to a weeding roller is arranged in a weeding bottom groove, a feeding cavity correspondingly communicated with the weeding bottom groove is also arranged in a machine body, a second conveying disc corresponding to the first conveying disc is arranged in the feeding cavity, a first extruding cavity correspondingly communicated with a crushing cavity is also arranged in the machine body, an extruding plate slides in the first extruding cavity, a sliding first top pressure rod is also arranged in the machine body, a sliding second top pressure rod is also arranged in the machine body, a top pressure head is connected onto the second top pressure rod, grass can be further discharged through a discharge port by utilizing the first top pressure rod, holes can be punched on the ground by utilizing the top pressure head, and the grass top pressure rod can be extruded into the holes punched by the top pressure head, so that the effect of converting the grass into organic substances is further improved, thereby improving the utilization value of the grass.

Description

Intelligent agricultural weeding and field returning extruder

Technical Field

The invention relates to an agricultural weeding machine, in particular to an agricultural weeding plunger type grass treatment extruder, and specifically relates to an agricultural weeding plunger type grass treatment extruder which can crush and extrude grass and then press the grass into the ground by using a first top pressing rod.

Background

The continuous development of agricultural mechanization has also been further promoted along with the standard of living constantly improves simultaneously, wherein in present agricultural machine more and more emergence of agricultural weeder is being utilized, thereby can utilize the weeder to further make things convenient for the grass in the farmland to handle, thereby the trouble that artifical weeding brought has been avoided, wherein drive in present weeder mostly utilizes the tractor, thereby utilize the work of power output shaft on the tractor further to drive the weeder, wherein can clear away the grass at the in-process of weeder work, and can handle the grass subaerial after can clearing away the grass, thereby can make the grass further transform into the required nutrient of crops after rotting, although utilize the weeder can play fine weeding effect, but still have following problem:

1. after the grass is cleaned on the ground, the grass covers the ground, so the grass and the seeds are mixed instead of mixing the seeds by using soil in the sowing process, thereby causing the phenomenon that the seeds can not obtain nutrients in the soil and further causing the phenomenon that a large number of seeds can not normally grow, further causing the problem of reducing the yield of crops,

2. and even if the grass is removed by the weeding machine, the rotting of the grass and the conversion of the organic substances become low because the grass is covered on the ground, and even if the grass is converted into the organic substances, the organic substances are volatilized due to the light, so that the organic substances converted by the grass cannot be absorbed in the ground, thereby further reducing the utilization value of the grass and the organic substances.

Therefore, it is necessary to design a plunger type grass treatment extruder for agricultural weeding to solve the technical problems.

Disclosure of Invention

The invention aims to overcome the problems in the prior art, and provides an agricultural weeding plunger type grass processing extruder which can clear grass on the ground by the rotation of a weeding roller, can further convey a groove into a crushing cavity by the rotation of a first conveying disc and a second conveying disc so as to crush the grass, can compress the grass by a squeezing plate arranged in the first squeezing cavity, can further discharge the grass in the squeezing cavity through a discharge port by the action of a first squeezing rod, can punch a hole on the ground by a top pressure head by the action of a second squeezing rod so as to squeeze the grass in the hole punched by the top pressure head through the discharge port, can directly contact the grass in the ground, and can further directly absorb organic substances converted by the grass by crops, thereby further improving the yield of crops, avoiding the phenomenon that the seeds can not normally grow because the grass covers the ground, further improving the germination rate of the seeds and further improving the yield of the crops.

The invention is realized by the following technical scheme:

an agricultural weeding plunger type grass treatment extruder comprises a tractor, wherein a power output shaft is arranged on the tractor, a machine body is connected onto the tractor, rotating rollers are respectively arranged at four corners of the machine body, a weeding bottom groove is arranged at the bottom of the machine body, and a rotating weeding roller is arranged in the weeding bottom groove;

a first conveying disc which rotates corresponding to the weeding roller is arranged in the weeding bottom groove, a feeding cavity which is correspondingly communicated with the weeding bottom groove is also arranged in the machine body, and a second conveying disc which corresponds to the first conveying disc is arranged in the feeding cavity;

a crushing cavity correspondingly communicated with the feeding cavity is also arranged in the machine body, and a rotating crushing rotary disc is arranged in the crushing cavity;

a first extrusion cavity correspondingly communicated with the crushing cavity is further formed in the machine body, an extrusion plate pushed by a hydraulic push rod is arranged in the first extrusion cavity, and the extrusion plate slides in the first extrusion cavity;

a sliding first jacking rod is further arranged in the machine body, the first jacking rod slides in the first extrusion cavity, a sliding second jacking rod is further arranged in the machine body, a jacking head is connected to the second jacking rod, a rotating first rotating wheel and a rotating second rotating wheel are further arranged on the machine body respectively, the first rotating wheel and the second rotating wheel respectively drive the first jacking rod and the second jacking rod to do linear reciprocating motion, a discharge hole correspondingly communicated with the first extrusion cavity is further formed in the bottom of the machine body, and the first jacking rod corresponds to the discharge hole;

the machine body is also internally provided with a main rotating shaft correspondingly connected with the power output shaft, the main rotating shaft is respectively connected with a second bevel gear, a third bevel gear and a fourth bevel gear, the second bevel gear drives the first rotating wheel and the second rotating wheel to rotate, and the fourth bevel gear drives the weeding idler wheel to rotate.

The grass can be further removed through the rotation of the weeding rotating wheel, the first conveying disc and the second conveying disc can be utilized to further convey the removed grass to the crushing cavity, the grass can be further crushed through the crushing rotating disc arranged in the crushing cavity, the crushed grass can flow to the first extrusion cavity, the groove can be extruded through the extrusion plate arranged in the first extrusion cavity, the grass can be compressed, the first jacking rod can slide in the first extrusion cavity, the grass can be further discharged through the discharge port through the first jacking rod, the sliding second jacking rod is arranged in the machine body, the jacking head is connected to the second jacking rod, the jacking head can be used for punching on the ground, and the grass discharged from the discharge port can be further discharged into a hole punched by the jacking head, therefore, crops can directly absorb the organic substances converted from the grass, the consequence that the seeds cannot normally germinate and grow due to the fact that the seeds are mixed with the grass in the seed sowing process caused by the fact that the grass covers the ground is further avoided, the germination rate of the seeds is further improved, the grass can be extruded into holes punched by the top pressing head, the effect of converting the grass into the organic substances is further improved, and the utilization value of the grass is improved.

Furthermore, both sides of the weeding bottom groove respectively comprise a second inner cavity and a fourth inner cavity which are arranged in the machine body, the weeding bottom groove also comprises a fifth rotating shaft and a sixth rotating shaft which rotate in the second inner cavity and the fourth inner cavity, the first conveying disc and the weeding roller are respectively arranged on the fifth rotating shaft and the sixth rotating shaft, the fourth inner cavity comprises a third chain wheel and a fourth chain wheel which are connected with the fifth rotating shaft and the sixth rotating shaft, and the third chain wheel and the fourth chain wheel are correspondingly connected through a second chain;

the other ends of the fifth rotating shaft and the sixth rotating shaft are respectively connected with a fifth chain wheel and a fifth bevel gear, a rotating seventh rotating shaft is further arranged in the second inner cavity, both ends of the seventh rotating shaft are respectively connected with a sixth bevel gear and a seventh bevel gear, the sixth bevel gear is correspondingly meshed with the fifth bevel gear, and the seventh bevel gear is correspondingly meshed with the fourth bevel gear;

the feeding cavity comprises a rotating ninth rotating shaft, the second conveying disc is connected to the ninth rotating shaft, one end of the ninth rotating shaft is connected with a ninth bevel gear, the other end of the ninth rotating shaft rotates in a rotating hole formed in the machine body, an eighth rotating shaft which rotates in the feeding cavity and the second inner cavity is further arranged in the machine body, the two ends of the eighth rotating shaft are respectively connected with an eighth bevel gear and a sixth chain wheel, the eighth bevel gear is correspondingly meshed with the ninth bevel gear, and the sixth chain wheel is correspondingly connected with the fifth chain wheel through a third chain.

A third chain wheel and a fourth chain wheel can be respectively connected to the fifth rotating shaft and the sixth rotating shaft, the third chain wheel and the fourth chain wheel can be correspondingly connected through the second chain, so that the rotation of the first conveying disc can be simultaneously driven in the rotation process of the weeding roller, a fifth chain wheel and a fifth bevel gear can be respectively connected to the other ends of the fifth rotating shaft and the sixth rotating shaft, the rotation of the fourth bevel gear can be simultaneously driven in the rotation process of the main rotating shaft, the rotation of the seventh rotating shaft can be further driven through the corresponding meshing connection of the seventh bevel gear and the fourth bevel gear, the rotation of the sixth bevel gear can be driven, and the rotation of the sixth rotating shaft can be further driven after the corresponding meshing connection of the sixth bevel gear and the fifth bevel gear, the feeding cavity is provided with a feeding cavity, the feeding cavity is provided with a feeding shaft, the feeding shaft is provided with a feeding hole, the feeding hole is provided with a feeding hole.

Further, still be connected with one on the organism with the corresponding take-up (stock) pan of first delivery tray, the take-up (stock) pan with weeding gyro wheel is corresponding to be connected, be covered with the hole of dumping on the take-up (stock) pan, can set up the take-up (stock) pan on the organism, thereby can will through the take-up (stock) pan the grass that weeding gyro wheel was clear away catches, thereby can pass through first delivery tray carries the grass, and be provided with the hole of dumping on the take-up (stock) pan to can pass through the hole of dumping discharge with the soil of mixing in the grass.

Further, be equipped with one in the organism with the connection chamber of the corresponding intercommunication in feeding chamber, connect the chamber with smash the corresponding intercommunication in chamber, smash the intracavity including one establish motor in the organism, motor drive smash the carousel and rotate, smash be equipped with on the carousel with connect the corresponding crushing blade in chamber, still be equipped with row flitch on the crushing carousel, can utilize the high-speed rotation of motor to further drive smash the rotation of carousel to can utilize crushing blade to smash the grass, and can utilize row flitch to discharge the grass after finishing smashing the grass.

Furthermore, a rolling cavity correspondingly communicated with the crushing cavity is further arranged in the machine body, the rolling cavity is correspondingly communicated with the first extrusion cavity, a third inner cavity corresponding to the rolling cavity is further arranged in the machine body, the rolling cavity comprises two tenth rotating shafts rotating in the third inner cavity, the tenth rotating shafts are respectively connected with a connecting gear which is correspondingly meshed, one tenth rotating shaft is connected with a tenth bevel gear, a rotating eleventh rotating shaft is arranged in the third inner cavity, both ends of the eleventh rotating shaft are respectively connected with an eleventh bevel gear and a twelfth bevel gear, the eleventh bevel gear is correspondingly meshed and connected with the tenth bevel gear, the twelfth bevel gear is correspondingly meshed and connected with the third bevel gear, and a rolling roller is respectively arranged on the tenth rotating shaft, the two rolling rollers are correspondingly connected, the extrusion plate is also connected with a baffle plate corresponding to the rolling cavity, the rotation of the third bevel gear can be further driven in the rotating process of the main rotating shaft, the eleventh rotating shaft can be further driven to rotate after the third bevel gear and the twelfth bevel gear are correspondingly meshed and connected, so that the rolling rollers can be further driven to rotate simultaneously, grass can be further rolled by the two rolling rollers which rotate correspondingly, the grass can be further rolled and crushed, the rotting efficiency can be further improved in the process of burying the grass underground, and the efficiency of converting the grass into organic substances can be improved.

Further, a first inner cavity is further arranged in the machine body, two rotating wheel grooves corresponding to the first inner cavity are further arranged in the machine body, a first rotating shaft and a fourth rotating shaft which rotate in the two rotating wheel grooves and the first inner cavity are respectively arranged in the machine body, the first rotating wheel and the second rotating wheel are respectively connected to the fourth rotating shaft and the first rotating shaft, the other ends of the first rotating shaft and the fourth rotating shaft are respectively connected with a first chain wheel and a second chain wheel, the first chain wheel and the second chain wheel are correspondingly connected through a first chain, and the first rotating shaft is further connected with a first bevel gear which is correspondingly meshed with the second bevel gear;

the first rotating wheel and the second rotating wheel are respectively connected with a second rotating shaft, the second rotating shafts are respectively provided with a rotating connecting rod, the first jacking rod and the second jacking rod are respectively provided with a third rotating shaft, and the two connecting rods respectively rotate on the third rotating shafts.

The first bevel gear can be simultaneously driven to rotate in the process of rotating and rotating the main rotating shaft, the fourth rotating shaft can be further driven to rotate after the first bevel gear is correspondingly meshed and connected with the second bevel gear, the first rotating shaft and the fourth rotating shaft can be simultaneously driven to simultaneously rotate by the first chain in the process of rotating the fourth rotating shaft, so that the two first rotating wheels and the two second rotating wheels can be simultaneously driven to rotate, the first rotating wheels and the second rotating wheels are respectively provided with a second rotating shaft, the second rotating shafts are respectively provided with a rotating connecting rod, so that the first jacking rod and the second jacking rod can be further driven to do linear reciprocating motion in the process of rotating the two first rotating wheels and the second rotating wheels, and a jacking head can be used for punching on the ground, can utilize first roof pressure pole to carry the downthehole that the roof pressure head was beaten with the grass to can reach and carry the downthehole that ground was beaten with the grass, thereby further assurance grass is at the effect of the organic matter of conversion of underground.

Furthermore, be equipped with a body commentaries on classics hole in the organism, the organism commentaries on classics hole respectively with first inner chamber with the second inner chamber and with the corresponding intercommunication of third inner chamber, main pivot is in the downthehole internal rotation is changeed to the organism can set up a body commentaries on classics hole on the organism, can be in through main pivot the downthehole internal rotation is changeed to the organism to further guarantee to the normal rotation of main pivot.

Furthermore, a second sliding hole which is correspondingly communicated with the first extrusion cavity is arranged in the machine body, the first top pressure rod slides in the second sliding hole, a third sliding hole is also arranged in the machine body, the second top pressure rod slides in the third sliding hole, a second extrusion cavity which is correspondingly communicated with the first extrusion cavity is also arranged in the machine body, the second extrusion cavity is correspondingly communicated with the discharge hole, the first top pressure rod slides in the discharge hole, the first extrusion cavity also comprises an extrusion column which is connected with the first top pressure rod, the extrusion column slides in the second extrusion cavity, a first sliding hole which is corresponding to the first top pressure rod is arranged in the extrusion column, the first top pressure rod slides in the first sliding hole, and an extrusion column inner cavity which is correspondingly communicated with the first sliding hole is also arranged in the extrusion column, the first top pressure rod is connected with a connecting shaft which slides in the inner cavity of the extrusion column, a spring which is used for elastically pressing the connecting shaft is arranged in the inner cavity of the extrusion column, the machine body is provided with a first groove correspondingly communicated with the third sliding hole, the top pressing head slides in the first groove, and the pressing plate can be used for pressing grass in the process of pressing, the grass can be firstly extruded into the second extrusion cavity, the extrusion columns can be simultaneously driven to slide in the sliding process of the first jacking rod, the grass can be further extruded into the discharge port by the extrusion columns sliding in the second extrusion cavity, therefore, the grass in the discharge opening can be discharged by the first top pressure rod in the process that the first top pressure rod continues to slide, and the effect of discharging the grass by the first top pressure rod is ensured.

Furthermore, a fourth sliding hole correspondingly communicated with the groove of the rotating wheel is arranged in the machine body, a first pressing rod is further connected onto the first pressing rod, a second pressing rod is connected onto the first pressing rod and slides in the fourth sliding hole, a second groove corresponding to the discharge port is further arranged on the machine body, the second groove is arranged in a circular ring shape, a sliding guide pipe is arranged in the second groove and is correspondingly connected with the second pressing rod, the guide pipe corresponds to the pressing head and can simultaneously drive the first pressing rod to slide in the sliding process of the first pressing rod, so that the second pressing rod can be further driven to slide, the second pressing rod can be simultaneously utilized to drive the guide pipe to slide in the grass discharging process of the first pressing rod, so that grass can be discharged into the hole punched by the top pressure head through the guide pipe, thereby preventing the discharge port from discharging the grass onto the ground surface.

Furthermore, be equipped with the weeding blade dish that is the cockscomb structure on the weeding gyro wheel, first delivery tray with be equipped with one respectively on the second delivery tray and be spiral conveying vane, can first delivery tray with set up conveying vane respectively on the second delivery tray to can utilize to be spiral helicine conveying vane to further carry the grass.

Compared with the prior art, the invention has the beneficial effects that: the grass on the ground can be cleared by utilizing the rotation of the weeding roller, the groove can be further conveyed into the crushing cavity by utilizing the rotation of the second conveying disc arranged on the first conveying disc, so that the grass can be crushed by utilizing the crushing disc rotating at a high speed, the crushed grass can be further conveyed into the rolling cavity after being crushed, so that the grass can be further rolled by utilizing the two rolling rollers rotating correspondingly, the grass can be further in a rolling and crushing state, the grass can be compressed by utilizing the extrusion plate arranged in the first extrusion cavity, the sliding of the first extrusion rod can be utilized, the grass in the extrusion cavity can be further discharged through the discharge port, the sliding of the second extrusion rod can be utilized, the extrusion of the top pressure head can be utilized to punch on the ground, and the hole punched by the grass top pressure head through the discharge port can be punched, thereby can reach the purpose of impressing the grass into the underground, thereby can make the direct contact with the grass in the ground in order to improve the efficiency that the grass converted organic matter, thereby avoided the volatilization of grass conversion organic matter, thereby can further make the direct organic matter that the grass converted of absorption of crops, thereby further improve the output of crops, and can avoid making the phenomenon that the seed can't normally grow because of the grass covers subaerial, thereby improved the germination percentage of seed, thereby further improve the output of crops.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a plunger type grass treatment extruder for agricultural weeding according to an embodiment of the present invention.

FIG. 2 is a side view of the overall structure of an agricultural herbicidal plunger type grass treatment extruder according to an embodiment of the present invention.

FIG. 3 is a top view of the overall structure of a plunger type grass treatment extruder for agricultural weeding according to an embodiment of the present invention.

FIG. 4 is a schematic view of the overall structure of the guide tube according to the embodiment of the present invention.

Fig. 5 is a schematic view of an overall structure of the first pressing rod and the second pressing rod according to the embodiment of the present invention.

Fig. 6 is a schematic view of the overall structure of the rolling compaction chamber according to the embodiment of the invention.

Fig. 7 is a schematic view of the overall structure of the weeding roller and the first conveying disc according to the embodiment of the invention.

FIG. 8 is a schematic view of the overall structure of the crushing turntable according to the embodiment of the present invention.

Fig. 9 is a schematic view of the overall structure of the first conveying tray and the second conveying tray according to the embodiment of the present invention.

Fig. 10 is a schematic view of the overall structure of the weeding roller according to the embodiment of the invention.

In the figure: 1 machine body, 2 rollers, 3 weeding bottom grooves, 4 weeding rollers, 5 material receiving discs, 6 first conveying discs, 7 feeding cavities, 8 second conveying discs, 9 connecting cavities, 10 crushing cavities, 11 motors, 12 crushing rotating discs, 13 discharging plates, 14 rolling cavities, 15 rolling rollers, 16 first extrusion cavities, 17 extrusion plates, 18 first jacking rods, 19 second extrusion cavities, 20 extrusion columns, 21 discharging ports, 22 guide pipes, 23 jacking heads, 24 first grooves, 25 second grooves, 26 extrusion column inner cavities, 27 connecting shafts, 28 springs, 29 first sliding holes, 30 second sliding holes, 31 hydraulic push rods, 32 baffle plates, 33 third sliding holes, 34 first rotating shafts, 35 second jacking rods, 36 soil discharging holes, 37 first rotating wheels, 38 second rotating wheels, 39 second rotating shafts, 40 connecting rods, 41 third rotating shafts, 42 rotating wheel grooves, 43 fourth rotating shafts, 44 first inner cavities, 45 first chain wheels, 46 second chain wheels, 45 first chain wheels, 47 first chain, 48 first bevel gear, 49 second bevel gear, 50 main rotating shaft, 51 third bevel gear, 52 fourth bevel gear, 53 machine body rotating hole, 54 second inner cavity, 55 third inner cavity, 56 first pressure rod, 57 second pressure rod, 58 fourth sliding hole, 59 fourth inner cavity, 60 fifth rotating shaft, 61 sixth rotating shaft, 62 third chain wheel, 63 fourth chain wheel, 64 second chain, 65 fifth bevel gear, 66 sixth bevel gear, 67 seventh rotating shaft, 68 seventh bevel gear, 69 weeding cutter head, 70 fifth chain wheel, 71 sixth chain wheel, 72 third chain wheel, 73 eighth rotating shaft, 74 crushing blade, 75 eighth bevel gear, 76 ninth bevel gear, 77 ninth rotating shaft, 78 tenth rotating shaft, 79 connecting gear, 80 tenth bevel gear, 81 eleventh bevel gear, 82 eleventh rotating shaft and 83 twelfth bevel gear.

Detailed Description

As shown in fig. 1 to 10, the agricultural weeding plunger type grass treatment extruder comprises a tractor, wherein a power output shaft is arranged on the tractor, a machine body 1 is connected to the tractor, and four corners of the machine body 1 are respectively provided with a rotating roller 2.

The bottom of organism 1 is equipped with a weeding kerve 3, be equipped with a pivoted weeding gyro wheel 4 in the weeding kerve 3 be connected with an organism 1 on the tractor to can utilize the power output shaft on the tractor to further export the turning force the bottom of organism 1 is equipped with a weeding kerve 3 be equipped with a pivoted weeding gyro wheel 4 in the weeding kerve 3, thereby can utilize weeding gyro wheel 4 can further clear away the grass to the field at the pivoted in-process.

A first conveying disc 6 which rotates corresponding to the weeding rollers 4 is further arranged in the weeding bottom groove 3, a feeding cavity 7 which is correspondingly communicated with the weeding bottom groove 3 is further arranged in the machine body 1, a second conveying disc 8 which corresponds to the first conveying disc 6 is arranged in the feeding cavity 7, the first conveying disc 6 is further arranged in the weeding bottom groove 3, so that the grass which is cleared away by the weeding rollers 4 can be further conveyed by utilizing the rotation of the first conveying disc 6, the grass can be further conveyed into the feeding cavity 7 which is arranged in the machine body 1, and a second conveying disc 8 which rotates is arranged in the feeding cavity 7, so that the grass can be further conveyed into the crushing cavity 10 by utilizing the second conveying disc 8.

Still be equipped with in the organism 1 with the crushing chamber 10 of the corresponding intercommunication of feeding chamber 7, be equipped with a pivoted crushing carousel 12 in crushing chamber 10, after can further carrying crushing chamber 10 with the grass, can be through the rotation of crushing carousel 12 further carrying out shredding to the grass.

Still be equipped with in the organism 1 one with smash the first extrusion chamber 16 of the corresponding intercommunication in chamber 10, be equipped with the stripper plate 17 that a hydraulic push rod 31 promoted in the first extrusion chamber 16, stripper plate 17 is in slide in the first extrusion chamber 16, can carry out shredding with the grass after, can make the further circulation of grass to first extrusion chamber 16 in be equipped with a hydraulic push rod 31 in the first extrusion chamber 16, thereby can utilize the further right of hydraulic push rod 31 stripper plate 17 carries out reciprocal promotion, thereby can utilize stripper plate 17 carries out repeated extrusion to the grass be equipped with on the organism 1 one with the corresponding bin outlet 21 that communicates in first extrusion chamber 16 to can make the grass impress in the bin outlet 21.

A sliding first top pressure rod 18 is further arranged in the machine body 1, the first top pressure rod 18 slides in the first extrusion cavity 16, a sliding second top pressure rod 35 is further arranged in the machine body 1, a top pressure head 23 is connected to the second top pressure rod 35, a rotating first rotating wheel 37 and a rotating second rotating wheel 38 are further respectively arranged on the machine body 1, the first rotating wheel 37 and the second rotating wheel 38 respectively drive the first top pressure rod 18 and the second top pressure rod 35 to do linear reciprocating motion, a discharge opening 21 correspondingly communicated with the first extrusion cavity 16 is further arranged at the bottom of the machine body 1, the first top pressure rod 18 corresponds to the discharge opening 21, a sliding first top pressure rod 18 is further arranged in the machine body 1, the first top pressure rod 18 slides in the first extrusion cavity 16, a sliding second top pressure rod 35 is further arranged in the machine body 1, the second top pressure bar 35 is connected with a top pressure head 23, so that the top pressure head 23 can be further driven to slide in the sliding process of the second top pressure bar 35, so that holes can be drilled on the ground by using the top pressure head 23, the machine body 1 is respectively provided with a first rotating wheel 37 and a second rotating wheel 38 which rotate, the first top pressure bar 18 and the second top pressure bar 35 can be simultaneously driven to do linear reciprocating motion in the rotating process of the first rotating wheel 37 and the second rotating wheel 38, so that the top pressure head 23 can be driven to move in the sliding process of the second top pressure bar 35, the first top pressure bar 18 slides in the discharge opening 21, so that grass can be further discharged from the discharge opening 21 in the sliding process of the first top pressure bar 18, and the grass can be further discharged into the holes drilled by the top pressure head 23, thereby can make the grass further change into organic substance in the downthehole of beating on ground, thereby can supply the absorption of crops, further avoid traditional weeder to clear away the grass and cause the cover to ground subaerial, thereby avoided leading to the unable normal germination of seed after seeding process chinese herbal medicine and seed mix, and can make the grass impress can further prevent to take place to change into volatilizing behind the organic substance after the ground, further improve the utilization value of grass.

A main rotating shaft 50 correspondingly connected with the power output shaft is further arranged in the machine body 1, a second bevel gear 49, a third bevel gear 51 and a fourth bevel gear 52 are respectively connected on the main rotating shaft 50, the second bevel gear 49 drives the first rotating wheel 37 and the second rotating wheel 38 to rotate, the fourth bevel gear 52 drives the weeding roller 4 to rotate, a main rotating shaft 50 is arranged in the machine body 1, so that the main rotating shaft 50 can be correspondingly connected through a power output shaft, thereby further driving the rotation of the main rotating shaft 50, and simultaneously driving the synchronous rotation of the second bevel gear 49 and a third bevel gear 51 and a fourth bevel gear 52 during the rotation of the main rotating shaft 50, thereby further bringing about the synchronous rotation of the weeding rollers 4 and the first and

second wheels

37 and 38.

As shown in fig. 1 and 7, both sides of the weeding bottom trough 3 respectively include a second inner cavity 54 and a fourth inner cavity 59 arranged in the machine body 1, the weeding bottom trough 3 further includes a fifth rotating shaft 60 and a sixth rotating shaft 61 respectively rotating in the second inner cavity 54 and the fourth inner cavity 59, the first conveying tray 6 and the weeding roller 4 are respectively arranged on the fifth rotating shaft 60 and the sixth rotating shaft 61, the fourth inner cavity 59 includes a third chain wheel 62 and a fourth chain wheel 63 connected to the fifth rotating shaft 60 and the sixth rotating shaft 61, the third chain wheel 62 and the fourth chain wheel 63 are correspondingly connected through a second chain 64, both sides of the weeding bottom trough 3 are respectively provided with a second inner cavity 54 and a fourth inner cavity 59, a rotating fifth rotating shaft 60 and a rotating sixth rotating shaft 61 are respectively arranged in the weeding bottom trough 3, and both ends of the fifth rotating shaft 60 and the fifth rotating shaft 60 respectively rotate in the second inner cavity 54 and the fourth inner cavity 59, the first conveying disc 6 and the weeding roller 4 are respectively connected to the fifth rotating shaft 60 and the sixth rotating shaft 61, a third chain wheel 62 and a fourth chain wheel 63 are respectively connected to the fifth rotating shaft 60 and the sixth rotating shaft 61, and are correspondingly connected through the second chain 64, so that the fifth rotating shaft 60 can be simultaneously driven to rotate in the rotating process of the sixth rotating shaft 61.

The other ends of the fifth rotating shaft and the sixth rotating shaft 60 and the sixth rotating shaft 61 are respectively connected with a fifth chain wheel 70 and a fifth bevel gear 65, a rotating seventh rotating shaft 67 is further arranged in the second inner cavity 54, two ends of the seventh rotating shaft 67 are respectively connected with a sixth bevel gear 66 and a seventh bevel gear 68, the sixth bevel gear 66 is correspondingly engaged with the fifth bevel gear 65, the seventh bevel gear 68 is correspondingly engaged with the fourth bevel gear 52, the other ends of the fifth rotating shaft 60 and the sixth rotating shaft 61 are respectively connected with a fifth chain wheel 70 and a fifth bevel gear 65, a rotating seventh rotating shaft 67 is arranged in the second inner cavity 54 and can drive the fourth bevel gear 52 to rotate simultaneously in the rotating process of the main rotating shaft 50, the fourth bevel gear 52 is correspondingly engaged with the seventh bevel gear 68, so that the seventh rotating shaft 67 can be further driven to rotate, a sixth bevel gear 66 is further connected to one end of the seventh rotating shaft 67, so that the sixth bevel gear 66 can be engaged with the fifth bevel gear 65 correspondingly, and further the sixth rotating shaft 61 is driven to rotate.

The feeding cavity 7 includes a rotating ninth rotating shaft 77, the second conveying disc 8 is connected to the ninth rotating shaft 77, one end of the ninth rotating shaft 77 is connected to a ninth bevel gear 76, the other end of the ninth rotating shaft 77 rotates in a rotating hole provided in the machine body 1, the machine body 1 further includes an eighth rotating shaft 73 rotating in the feeding cavity 7 and the second inner cavity 54, two ends of the eighth rotating shaft 73 are respectively connected to an eighth bevel gear 75 and a sixth sprocket 71, the eighth bevel gear 75 is correspondingly engaged with the ninth bevel gear 76, the sixth sprocket 71 is correspondingly connected to the fifth sprocket 70 through a third chain 72, the feeding cavity 7 is provided with the rotating ninth rotating shaft 77, the second conveying disc 8 is provided on the ninth rotating shaft 77, one end of the ninth rotating shaft 77 is connected to the ninth bevel gear 76, a fifth sprocket 70 is connected to one end of the fifth rotating shaft 60, so that the fifth rotating shaft 60 can further drive the fifth sprocket 70 to rotate in the rotating process, an eighth rotating shaft 73 is further disposed in the machine body 1, and both ends of the eighth rotating shaft 73 respectively rotate in the second inner cavity 54 and the feeding cavity 7, so that the sixth sprocket 71 can further be driven to rotate by the third chain 72 in the rotating process of the fifth sprocket 70, so that the eighth rotating shaft 73 can be driven to rotate, an eighth bevel gear 75 is further connected to one end of the eighth rotating shaft 73, and the eighth bevel gear 75 can be correspondingly engaged with the ninth bevel gear 76, so that the ninth rotating shaft 77 can be driven to rotate, so that the second conveying disc 8 can further be driven to rotate, the rotation of the conveyor disc 8 can be used to further convey the grass into the crushing chamber 10.

As shown in fig. 1, the machine body 1 is further connected with a receiving tray 5 corresponding to the first conveying tray 6, the receiving tray 5 is correspondingly connected with the weeding rollers 4, the receiving tray 5 is fully provided with soil discharge holes 36, so that grass can be removed in the rotation process of the weeding rollers 4, the receiving tray 5 connected to the machine body 1 can be used for receiving the removed grass on the weeding rollers 4, and the first conveying tray 6 can be used for further conveying the grass.

As shown in fig. 1 and 8, a connecting cavity 9 correspondingly communicating with the feeding cavity 7 is arranged in the machine body 1, the connecting cavity 9 correspondingly communicates with the crushing cavity 10, a motor 11 arranged in the machine body 1 is arranged in the crushing cavity 10, the motor 11 drives the crushing rotary disc 12 to rotate, the crushing rotary disc 12 is provided with crushing blades 74 corresponding to the connecting cavity 9, the crushing rotary disc 12 is also provided with a discharging plate 13, the grass in the feeding cavity 7 can be further conveyed into the crushing cavity 10 through the connecting cavity 9 arranged in the machine body 1, the motor 11 can drive the crushing rotary disc 12 to rotate at a high speed, the crushing blades 74 arranged on the crushing rotary disc 12 can be used for further cutting and crushing the grass, and the discharging plate 13 arranged on the crushing rotary disc 12 can be used for discharging the crushed grass, the grass is further discharged into the first pressing cavity 16, and the grass can be further conveniently pressed by the first pressing rod 18 after being cut and crushed.

As shown in fig. 1, 2 and 6, a milling chamber 14 correspondingly communicating with the crushing chamber 10 is further provided in the machine body 1, the milling chamber 14 correspondingly communicates with the first extrusion chamber 16, a third inner chamber 55 corresponding to the milling chamber 14 is further provided in the machine body 1, two tenth rotating shafts 78 rotating in the third inner chamber 55 are provided in the milling chamber 14, the tenth rotating shafts 78 are respectively connected with a correspondingly engaged connecting gear 79, one tenth rotating shaft 78 is connected with a tenth bevel gear 80, a rotating eleventh rotating shaft 82 is provided in the third inner chamber 55, an eleventh bevel gear 81 and a twelfth bevel gear 83 are respectively connected to two ends of the eleventh rotating shaft 82, the eleventh bevel gear 81 correspondingly engages with the tenth bevel gear 80, the twelfth bevel gear 83 correspondingly engages with the third bevel gear 51, the tenth rotating shaft 78 is respectively provided with a rolling roller 15, two rolling rollers 15 are correspondingly connected, the extrusion plate 17 is further connected with a baffle 32 corresponding to the rolling cavity 14, the machine body 1 is internally provided with a rolling cavity 14, the crushing cavity 10 is correspondingly communicated with the rolling cavity 14, so that the crushed grass can be further circulated into the rolling cavity 14 by utilizing the crushing cavity 10, the rolling cavity 14 is correspondingly communicated with the first extrusion cavity 16, the machine body 1 is further internally provided with a third inner cavity 55, the third inner cavity 55 is internally provided with two tenth rotating shafts 78 corresponding to each other, the end parts of the tenth rotating shafts 78 are respectively connected with a connecting gear 79, so that the two tenth rotating shafts 78 are correspondingly rotated after the connecting gear 79 is correspondingly engaged and connected, a tenth bevel gear 80 is connected to one tenth rotating shaft 78, a rotating eleventh rotating shaft 82 is arranged in the third inner cavity 55, the third bevel gear 51 can be driven to rotate simultaneously in the rotating process of the main rotating shaft 50, so that the third bevel gear 51 and the twelfth bevel gear 83 can be correspondingly meshed and connected, and the eleventh rotating shaft 82 can be further driven to rotate, an eleventh bevel gear 81 is connected to one end of the eleventh rotating shaft 82, the eleventh bevel gear 81 and the tenth bevel gear 80 can be correspondingly meshed and connected, so that the tenth rotating shaft 78 can be further driven to rotate, two connecting gears 79 correspondingly meshed and connected can enable the two tenth rotating shafts 78 to synchronously and correspondingly rotate, so that grass can be rolled by two rolling rollers 15 correspondingly rotating, therefore, the grass is in a state of being crushed and rolled, the effect of converting the grass into organic substances can be further improved under the ground, the extrusion plate 17 is connected with the baffle 32, the baffle 32 can be further driven to slide in the sliding process of the extrusion plate 17, the rolling cavity 14 can be blocked by the baffle 32, the rolled grass is prevented from falling to the rear part of the extrusion plate 17, and the normal sliding of the extrusion plate 17 can be further ensured.

As shown in fig. 3 and 5, a first inner cavity 44 is further provided in the machine body 1, two wheel grooves 42 corresponding to the first inner cavity 44 are further provided in the machine body 1, a first rotating shaft 34 and a fourth rotating shaft 43 which rotate in the two wheel grooves 42 and the first inner cavity 44 are respectively provided in the machine body 1, the first rotating wheel 37 and the second rotating wheel 38 are respectively connected to the fourth rotating shaft 43 and the first rotating shaft 34, the other ends of the first rotating shaft 34 and the fourth rotating shaft 43 are respectively connected to a first chain wheel 45 and a second chain wheel 46, the first chain wheel 45 and the second chain wheel 46 are correspondingly connected through a first chain 47, the first rotating shaft 34 is further connected to a first bevel gear 48 correspondingly engaged with the second bevel gear 49, and a first inner cavity 44 is further provided in the machine body 1, two runner grooves 42 corresponding to the first inner cavity 44 are arranged on the machine body 1, a first rotating shaft 34 and a fourth rotating shaft 43 are further disposed in the machine body 1, and both ends of the first rotating shaft 34 and the fourth rotating shaft 43 respectively rotate in the first inner cavity 44 and the two rotating wheel grooves 42, a first chain wheel 45 and a second chain wheel 46 are respectively connected to the first rotating shaft and the fourth rotating shaft 43, the first sprocket 45 and the second sprocket 46 are correspondingly connected through a first chain 47, and can drive the second bevel gear 49 to rotate simultaneously in the process of rotating the main rotating shaft 50, and can further drive the first rotating shaft 34 to rotate after the second bevel gear 49 is correspondingly meshed and connected with the first bevel gear 48, so as to simultaneously bring about the synchronous rotation of said first wheel 37 and said second wheel 38.

The first rotating wheel 37 and the second rotating wheel 38 are respectively connected with a second rotating shaft 39, the second rotating shaft 39 is respectively provided with a rotating connecting rod 40, the first pressing rod 18 and the second pressing rod 35 are respectively provided with a third rotating shaft 41, the two connecting rods 40 respectively rotate on the third rotating shaft 41, the first rotating wheel 37 and the second rotating wheel 38 are respectively provided with a second rotating shaft 39, the second rotating shaft 39 can be driven to rotate by the rotation of the second rotating shaft 39 in the rotating process of the first rotating wheel 37 and the second rotating wheel 38, so that the connecting rods 40 can be further driven to rotate on the second rotating shaft 39, the connecting rods 40 can make circular motion along with the first rotating wheel 37 and the second rotating wheel 38, the first pressing rod 18 and the second pressing rod 35 are respectively provided with a third rotating shaft 41, therefore, the rotation of the connecting rod 40 on the third rotating shaft 41 can be utilized to further drive the first pressing rod 18 and the second pressing rod 35 to do linear reciprocating motion.

As shown in fig. 3, a body rotation hole 53 is formed in the body 1, the body rotation hole 53 is correspondingly communicated with the first inner cavity 44, the second inner cavity 54 and the third inner cavity 55, the main rotation shaft 50 rotates in the body rotation hole 53, and a body rotation hole 53 can be formed in the body 1, so that the main rotation shaft 50 can rotate in the body rotation hole 53, the main rotation shaft 50 is supported by the body rotation hole 53, and a rolling bearing is arranged in the body rotation hole 53, so that normal rotation of the main rotation shaft 50 is further ensured.

As shown in fig. 2 and 5, a second sliding hole 30 is provided in the machine body 1 and is correspondingly communicated with the first pressing cavity 16, the first pressing rod 18 slides in the second sliding hole 30, a third sliding hole 33 is further provided in the machine body 1, the second pressing rod 35 slides in the third sliding hole 33, a second pressing cavity 19 is further provided in the machine body 1 and is correspondingly communicated with the first pressing cavity 16, the second pressing cavity 19 is correspondingly communicated with the discharge opening 21, the first pressing rod 18 slides in the discharge opening 21, a pressing post 20 connected to the first pressing rod 18 is further provided in the first pressing cavity 16, the pressing post 20 slides in the second pressing cavity 19, a first sliding hole 29 is provided in the pressing post 20 and corresponds to the first pressing rod 18, and the first pressing rod 18 slides in the first sliding hole 29, the extrusion column 20 is further internally provided with an extrusion column inner cavity 26 correspondingly communicated with the first sliding hole 29, the first top pressure rod 18 is connected with a connecting shaft 27 sliding in the extrusion column inner cavity 26, the extrusion column inner cavity 26 is internally provided with a spring 28 for elastically pressing the connecting shaft 27, the machine body 1 is provided with a first groove 24 correspondingly communicated with a third sliding hole 33, the top pressure head 23 slides in the first groove 24, the machine body 1 is internally provided with a second sliding hole 30, the second sliding hole 30 is correspondingly communicated with the first extrusion cavity 16, the first top pressure rod 18 slides in the second sliding hole 30, the machine body 1 is further internally provided with a third sliding hole 33, the second top pressure rod 35 slides in the third sliding hole 33, the machine body 1 is further internally provided with a second extrusion cavity 19, and the second extrusion cavity 19 is correspondingly communicated with the first extrusion cavity 16, the discharge opening 21 is correspondingly communicated with the second extrusion cavity 19, the first top pressure rod 18 can penetrate through the second extrusion cavity 19 and slide in the discharge opening 21, the first top pressure rod 18 is also connected with an extrusion column 20, the extrusion column 20 can slide in the second extrusion cavity 19, the extrusion column 20 is provided with a first sliding hole 29, the first top pressure rod 18 can slide in the first sliding hole 29, the extrusion column 20 is internally provided with an extrusion column inner cavity 26 correspondingly communicated with the first sliding hole 29, the first top pressure column 18 is connected with a connecting shaft 27, so that the connecting shaft 27 can be pressed by a spring 28, grass can be further extruded into the second top pressure cavity 19 in the process of extruding the grass by the extrusion plate 17, and the extrusion column 20 can be driven to slide simultaneously in the process of sliding the first top pressure rod 18, therefore, the grass can be further extruded into the discharge opening 21 in the process of sliding in the second pressing cavity 19 by the extrusion column 20, the grass can be discharged from the discharge opening 21 by the first pressing rod 18 under the elastic pressure of the spring 28 in the process of continuously sliding the first pressing rod 18, the machine body 1 is provided with a first groove 24, the pressing head 23 can be further driven to slide in the process of sliding the second pressing rod 35, and holes can be punched on the ground by the pressing head 23.

As shown in fig. 4, a fourth sliding hole 58 correspondingly communicated with the rotating wheel groove 42 is arranged in the machine body 1, the first top pressure rod 18 is further connected with a first pressure rod 56, the first pressure rod 56 is connected with a second pressure rod 57, the second pressure rod 57 slides in the fourth sliding hole 58, the machine body 1 is further provided with a second groove 25 corresponding to the discharge opening 21, the second groove 25 is annularly arranged, a sliding guide tube 22 is arranged in the second groove 25, the guide tube 22 is correspondingly connected with the second pressure rod 57, the guide tube 22 is corresponding to the top pressure head 23, the machine body 1 is further provided with a fourth sliding hole 58, the fourth sliding hole 58 is correspondingly communicated with the rotating wheel groove 42, the first top pressure rod 18 is connected with a first pressure rod 56, the first pressure rod 56 is further connected with a second pressure rod 57, the second pressing rod 57 can slide in the fourth sliding hole 58, a second groove 25 is formed in the machine body 1, the second groove 25 is arranged in a circular ring shape, the second groove 25 corresponds to the discharge opening 21, a sliding guide pipe 22 is arranged in the second groove 25, the guide pipe 22 corresponds to the discharge opening 21, the second pressing rod 57 corresponds to the guide pipe 22, so that the sliding process of the first top pressing rod 18 can further drive the sliding of the guide pipe 22 through the second pressing rod 57, the guide pipe 22 can be used for guiding the grass discharged from the discharge opening 21, and the grass can smoothly flow into the hole punched by the top pressing rod 23.

As shown in fig. 9 and 10, the weeding cutter 69 in a zigzag shape is provided on the weeding roller 4, the first conveying disc 6 and the second conveying disc 8 are respectively provided with a spiral conveying blade, and the weeding cutter 69 can be provided on the weeding roller 4, so that the grass can be further conveniently cleared, and the spiral conveying blades can be used to further ensure smooth conveyance of the grass.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims

1. The utility model provides an extruder is handled to agricultural weeding plunger type grass, is including a tractor, be equipped with power output shaft on the tractor, be connected with a organism on the tractor, the organism four corners is equipped with pivoted gyro wheel, its characterized in that respectively: a weeding bottom groove is formed in the bottom of the machine body, and a rotating weeding roller is arranged in the weeding bottom groove;

a main rotating shaft correspondingly connected with the power output shaft is further arranged in the machine body, a second bevel gear, a third bevel gear and a fourth bevel gear are respectively connected onto the main rotating shaft, the second bevel gear drives the first rotating wheel and the second rotating wheel to rotate, and the fourth bevel gear drives the weeding idler wheel to rotate;

the weeding bottom groove comprises a first inner cavity and a second inner cavity which are arranged in the machine body, the weeding bottom groove also comprises a first rotating shaft and a second rotating shaft which rotate in the first inner cavity and the second inner cavity, the first conveying disc and the weeding roller are arranged on the first rotating shaft and the second rotating shaft respectively, the weeding roller is arranged in the weeding bottom groove, the first inner cavity comprises a first chain wheel and a second chain wheel which are connected with the first rotating shaft and the second rotating shaft, and the first chain wheel and the second chain wheel are correspondingly connected through a first chain;

the feeding cavity comprises a rotating ninth rotating shaft, the second conveying disc is connected to the ninth rotating shaft, one end of the ninth rotating shaft is connected with a ninth bevel gear, the other end of the ninth rotating shaft rotates in a rotating hole formed in the machine body, an eighth rotating shaft which rotates in the feeding cavity and the second inner cavity is further arranged in the machine body, two ends of the eighth rotating shaft are respectively connected with an eighth bevel gear and a sixth chain wheel, the eighth bevel gear is correspondingly meshed with the ninth bevel gear, and the sixth chain wheel is correspondingly connected with the fifth chain wheel through a third chain;

a rolling cavity correspondingly communicated with the crushing cavity is further arranged in the machine body, the rolling cavity is correspondingly communicated with the first extrusion cavity, a third inner cavity corresponding to the rolling cavity is further arranged in the machine body, two tenth rotating shafts rotating in the third inner cavity are arranged in the rolling cavity, the tenth rotating shafts are respectively connected with a connecting gear which is correspondingly meshed, one tenth rotating shaft is connected with a tenth bevel gear, a rotating eleventh rotating shaft is arranged in the third inner cavity, both ends of the eleventh rotating shaft are respectively connected with an eleventh bevel gear and a twelfth bevel gear, the eleventh bevel gear is correspondingly meshed with the tenth bevel gear, the twelfth bevel gear is correspondingly meshed with the third bevel gear, a rolling roller is respectively arranged on the tenth rotating shaft, and the two rolling rollers are correspondingly connected, the extrusion plate is also connected with a baffle plate corresponding to the rolling cavity.

2. An agricultural herbicidal ram grass treatment extruder as set forth in claim 1, wherein: the machine body is also connected with a material receiving disc corresponding to the first conveying disc, the material receiving disc is correspondingly connected with the weeding rollers, and soil discharging holes are fully distributed in the material receiving disc.

3. An agricultural herbicidal ram grass treatment extruder as set forth in claim 1, wherein: be equipped with one in the organism with the connection chamber of the corresponding intercommunication in feeding chamber, connect the chamber with smash the corresponding intercommunication in chamber, smash the intracavity including one establish motor in the organism, motor drive smash the carousel and rotate, smash be equipped with on the carousel with connect the corresponding crushing blade in chamber, still be equipped with row flitch on the crushing carousel.